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* fix(lark): allow rebinding a revoked Feishu bot to a different agent When a Feishu/Lark Bot is disconnected from agent A (status → revoked), the row is preserved for audit but still holds the (channel_type, config->>app_id) unique index slot. Binding the same Bot to agent B would fail with: duplicate key value violates unique constraint "idx_channel_installation_type_appid" (SQLSTATE 23505) because UpsertChannelInstallation conflicts on (workspace_id, agent_id, channel_type) — a different agent_id means no conflict match, so it tries INSERT and hits the app_id unique index. Fix: before the upsert, inside the same transaction, hard-delete any revoked installation with the same app_id in the same workspace. The delete is fenced to status=revoked so an active installation can never be silently removed. If no revoked row exists the delete is a no-op (deletes zero rows, returns nil error) and the upsert proceeds normally. Co-Authored-By: Claude <noreply@anthropic.com> Co-authored-by: multica-agent <github@multica.ai> * fix(lark): preserve same-agent bindings when reconnecting a revoked Feishu bot The cleanup added in the previous commit hard-deletes every revoked channel_installation sharing the app_id in the workspace before the upsert — including the row belonging to the agent currently being (re)installed. That regresses the common "disconnect then reconnect the same bot to the same agent" flow: disconnect only flips status to 'revoked' (bindings are preserved), and UpsertChannelInstallation conflicts on (workspace_id, agent_id, channel_type), so before this the same agent's row was reactivated in place — installation_id and every channel_user_binding / channel_chat_session_binding kept. Deleting it first forces an INSERT with a fresh installation_id, orphaning every member's account link (they must re-link) and all chat-session continuity; only the installer is re-bound. Fence the delete with `agent_id <> $agent_id` so it only clears a DIFFERENT agent's revoked row (the genuine app_id-slot blocker). The same agent's revoked row is left for the upsert to reactivate losslessly. Since idx_channel_installation_type_appid is globally unique on (channel_type, app_id), at most one row ever holds a given app_id, so the excluded row is exactly the one the upsert will reuse. Adds DB-backed regression tests: same-agent revoked row preserved, different-agent revoked row deleted, active row never deleted, other workspace fenced, plus end-to-end reactivation semantics (same agent keeps installation_id + bindings; different agent gets a fresh id). Co-authored-by: multica-agent <github@multica.ai> * fix(lark): clean dependent rows when hard-deleting a rebound Feishu installation Addresses review on #4997 (MUL-4134). channel_* has no FK/cascade (MUL-3515 §4), so hard-deleting a different-agent revoked installation left application-owned rows dangling at a removed installation_id: - channel_chat_session_binding: the outbound patcher would resolve a binding, then fail loading the deleted installation — turning a clean no-op into error logs. - channel_binding_token: a still-unexpired bind link (15 min TTL) could be redeemed into the deleted installation, reporting "bound" against a bot that no longer reaches the user. - channel_inbound_audit: dangling installation_id, where migration 124 models the old ON DELETE SET NULL as an app-layer NULL. - channel_user_binding: dead member links (a different agent is a distinct connection; links do not follow and can never be reused). Rework RemoveRevokedInstallationByAppID to resolve the single row holding the app_id and act only when it is revoked, in this workspace, and owned by another agent; then, on the caller's transaction, clear chat-session bindings, pending binding tokens and member links, NULL the audit references, and finally delete the row via the fenced query (defense in depth). Same-agent reconnect and active/other-workspace rows are no-ops. Adds DeleteChannelUserBindingsByInstallation, DeleteChannelBindingTokensByInstallation, and NullChannelInboundAuditInstallationID queries, plus a DB-backed test (TestChannelStore_RebindCleansDependentRows) asserting every dependent is cleaned and the audit row survives detached. Verified the test fails when the cleanup is skipped. Co-authored-by: multica-agent <github@multica.ai> * fix(lark): make the rebind cleanup race-safe with a guarded delete gate Addresses the concurrency must-fix on #4997 (MUL-4134). The prior shape read the candidate installation, checked revoked/workspace/agent in Go, cleaned the dependent rows, then ran the fenced delete. That read-then- clean-then-delete order has a TOCTOU: while B is rebinding the bot to a different agent, A can reconnect to the SAME agent and reactivate the row to 'active' in between. B still wipes A's user/chat/token bindings and NULLs its audit based on the stale "it was revoked" read, then the fenced delete no-ops (status is no longer revoked) — so A's installation survives active but its bindings are gone. Concurrent same-agent data loss, reintroduced. Make the guarded DELETE the atomic gate. DeleteChannelInstallationByAppID becomes DeleteRevokedChannelInstallationByAppID `:one ... RETURNING id`, and RemoveRevokedInstallationByAppID keys all dependent cleanup off the id the delete actually claimed. No separate read. Under READ COMMITTED a concurrent reactivation makes the DELETE re-check status='revoked' against the live row (EvalPlanQual): it claims nothing, returns pgx.ErrNoRows, and no dependents are touched. With no FK the cleanup can follow the claiming delete in the same transaction; any failure rolls the whole thing back. Adds TestChannelStore_RebindGuardedDeleteRaceWithReactivation: two real transactions race on one revoked installation — one reactivates and holds the row lock, the other runs the rebind cleanup and blocks on the guarded delete — asserting the installation and every binding stay intact. Verified this test fails on the old read-then-clean-then-delete shape and passes (also under -race) on the gated version. Co-authored-by: multica-agent <github@multica.ai> --------- Co-authored-by: jiangliangyou <jiangliangyou@xiaomi.com> Co-authored-by: Claude <noreply@anthropic.com> Co-authored-by: multica-agent <github@multica.ai> Co-authored-by: J <j@multica.ai>