Files
larksuite-cli/cmd/auth/auth.go
evandance 99e314fe0b feat(errs): typed envelope contract for auth-domain errors (#1135)
Every failure on the authentication, authorization, and configuration
path now surfaces as a typed structured error instead of an ad-hoc
envelope. Users and scripts that consume CLI output get:

  - a fixed nine-category taxonomy on the wire, each mapped to a
    stable shell exit code (authentication/authorization/config = 3,
    network = 4, internal = 5, policy = 6, confirmation = 10)
  - identity-aware detail fields (missing_scopes, requested_scopes,
    granted_scopes, console_url, log_id, retryable, hint) carried
    uniformly on the envelope
  - a single canonical policy envelope at exit 6; the legacy
    auth_error carve-out is retired
  - per-subtype canonical message + hint that preserves Lark's
    diagnostic phrasing and routes recovery to the right actor:
    app developer (app_scope_not_applied), user (missing_scope,
    token_scope_insufficient, user_unauthorized), or tenant admin
    (app_unavailable, app_disabled)
  - wrong app credentials classify as config/invalid_client whether
    surfaced by the Open API endpoint (99991543) or the tenant
    access-token mint endpoint (10003 / 10014), instead of
    collapsing to a transport error or api/unknown
  - local shortcut scope preflight emits the same
    authorization/missing_scope envelope (identity + deterministic
    missing-scope set) used by the post-call permission path, so AI
    consumers read the same structured shape from precheck and from
    server-returned permission denial
  - streaming download/upload failures keep the same network subtype
    split (timeout / TLS / DNS / transport) as the non-stream path
    instead of collapsing every cause to a generic transport failure
  - console_url is carried only on the bot-perspective
    app_scope_not_applied envelope (where the recovery action is
    "developer applies the scope at the developer console"); the
    user-perspective missing_scope envelope drops the field, since
    the only actionable user recovery is `lark-cli auth login --scope`
    and pointing an end user at a console they cannot modify is
    misleading
  - bind workflows (Hermes / OpenClaw / lark-channel) flatten dynamic
    Type tags to wire 'config' with the original module name kept
    as a metric label

All 10 typed errors are cause-bearing, nil-safe on .Error() and
.Unwrap(), and defensively clone slice setter inputs. Four lint
rules (CheckNilSafeError / CheckBuilderImmutable / CheckUnwrapSymmetry
/ CheckBuildAPIErrorArms) lock these invariants on migrated paths.
2026-05-30 19:08:41 +08:00

180 lines
5.3 KiB
Go

// Copyright (c) 2026 Lark Technologies Pte. Ltd.
// SPDX-License-Identifier: MIT
package auth
import (
"context"
"encoding/json"
"fmt"
"net/http"
"slices"
lark "github.com/larksuite/oapi-sdk-go/v3"
larkcore "github.com/larksuite/oapi-sdk-go/v3/core"
"github.com/spf13/cobra"
larkauth "github.com/larksuite/cli/internal/auth"
"github.com/larksuite/cli/internal/cmdutil"
"github.com/larksuite/cli/internal/core"
"github.com/larksuite/cli/internal/errclass"
)
// NewCmdAuth creates the auth command with subcommands.
func NewCmdAuth(f *cmdutil.Factory) *cobra.Command {
cmd := &cobra.Command{
Use: "auth",
Short: "OAuth credentials and authorization management",
PersistentPreRunE: func(cmd *cobra.Command, args []string) error {
// Replicate rootCmd's PersistentPreRun behaviour: cobra stops at the first
// PersistentPreRun[E] found walking up the chain, so the root-level
// SilenceUsage=true would be skipped without this line.
cmd.SilenceUsage = true
// cmd.Name() returns the subcommand name (e.g. "login"), not "auth".
// Pass "auth" as a literal so the error message reads
// `"auth" is not supported: ...`
return f.RequireBuiltinCredentialProvider(cmd.Context(), "auth")
},
}
cmdutil.DisableAuthCheck(cmd)
cmd.AddCommand(NewCmdAuthLogin(f, nil))
cmd.AddCommand(NewCmdAuthLogout(f, nil))
cmd.AddCommand(NewCmdAuthStatus(f, nil))
cmd.AddCommand(NewCmdAuthScopes(f, nil))
cmd.AddCommand(NewCmdAuthList(f, nil))
cmd.AddCommand(NewCmdAuthCheck(f, nil))
cmd.AddCommand(NewCmdAuthQRCode(f, nil))
return cmd
}
// userInfoResponse is the API response for /open-apis/authen/v1/user_info.
type userInfoResponse struct {
Code int `json:"code"`
Msg string `json:"msg"`
Data struct {
OpenID string `json:"open_id"`
Name string `json:"name"`
} `json:"data"`
}
// getUserInfo fetches the current user's OpenID and name using the given access token.
func getUserInfo(ctx context.Context, sdk *lark.Client, accessToken string) (openId, name string, err error) {
apiResp, err := sdk.Do(ctx, &larkcore.ApiReq{
HttpMethod: http.MethodGet,
ApiPath: larkauth.PathUserInfoV1,
SupportedAccessTokenTypes: []larkcore.AccessTokenType{larkcore.AccessTokenTypeUser},
}, larkcore.WithUserAccessToken(accessToken))
if err != nil {
return "", "", err
}
var resp userInfoResponse
if err := json.Unmarshal(apiResp.RawBody, &resp); err != nil {
return "", "", fmt.Errorf("failed to parse user info: %w", err)
}
if resp.Code != 0 {
return "", "", fmt.Errorf("failed to get user info [%d]: %s", resp.Code, resp.Msg)
}
if resp.Data.OpenID == "" {
return "", "", fmt.Errorf("failed to get user info: missing open_id in response")
}
name = resp.Data.Name
if name == "" {
name = "(unknown)"
}
return resp.Data.OpenID, name, nil
}
// appInfo contains application information (owner, scopes).
type appInfo struct {
OwnerOpenId string
UserScopes []string
}
// appInfoResponse is the API response for /open-apis/application/v6/applications/:app_id.
type appInfoResponse struct {
Code int `json:"code"`
Msg string `json:"msg"`
Data struct {
App struct {
Owner struct {
OwnerID string `json:"owner_id"`
} `json:"owner"`
CreatorID string `json:"creator_id"`
Scopes []struct {
Scope string `json:"scope"`
TokenTypes []string `json:"token_types"`
} `json:"scopes"`
} `json:"app"`
} `json:"data"`
}
// getAppInfoFn is the package-level seam used by callers (scopes.go) so tests
// can substitute a fake without standing up a full SDK + httpmock pipeline.
// Mirrors the pollDeviceToken pattern in login.go.
var getAppInfoFn = getAppInfo
// getAppInfo queries app info from the Lark API.
func getAppInfo(ctx context.Context, f *cmdutil.Factory, appId string) (*appInfo, error) {
ac, err := f.NewAPIClient()
if err != nil {
return nil, err
}
queryParams := make(larkcore.QueryParams)
queryParams.Set("lang", "zh_cn")
apiResp, err := ac.DoSDKRequest(ctx, &larkcore.ApiReq{
HttpMethod: http.MethodGet,
ApiPath: larkauth.ApplicationInfoPath(appId),
QueryParams: queryParams,
}, core.AsBot)
if err != nil {
return nil, err
}
var resp appInfoResponse
if err := json.Unmarshal(apiResp.RawBody, &resp); err != nil {
return nil, fmt.Errorf("failed to parse response: %w", err)
}
if resp.Code != 0 {
return nil, classifyAppInfoErr(apiResp.RawBody, resp.Code, resp.Msg, f, appId)
}
app := resp.Data.App
ownerOpenId := app.Owner.OwnerID
if ownerOpenId == "" {
ownerOpenId = app.CreatorID
}
var userScopes []string
for _, s := range app.Scopes {
if s.Scope == "" || !slices.Contains(s.TokenTypes, "user") {
continue
}
userScopes = append(userScopes, s.Scope)
}
return &appInfo{OwnerOpenId: ownerOpenId, UserScopes: userScopes}, nil
}
// classifyAppInfoErr re-decodes the raw body so BuildAPIError sees the
// upstream `error` block — the typed appInfoResponse shape drops it.
func classifyAppInfoErr(rawBody []byte, code int, msg string, f *cmdutil.Factory, appId string) error {
var raw map[string]any
_ = json.Unmarshal(rawBody, &raw)
if raw == nil {
raw = map[string]any{}
}
raw["code"] = code
raw["msg"] = msg
cc := errclass.ClassifyContext{Identity: string(core.AsBot)}
if cfg, _ := f.Config(); cfg != nil {
cc.Brand = string(cfg.Brand)
cc.AppID = appId
}
return errclass.BuildAPIError(raw, cc)
}