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agent/lambda/1dfa5d72
18 Commits
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93ed3dc131 |
fix(lark): use app URL for web links (MUL-3679)
Point Lark binding and issue-created links at the web app URL (MULTICA_APP_URL) instead of the backend public URL, so users on split-domain / self-host deployments get working links. appURLFromEnv falls back to FRONTEND_ORIGIN, matching the backend's existing app-URL resolution. |
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cb6616f530 |
feat(slack): Socket Mode channel.Channel adapter (MUL-3516) (#4523)
* feat(slack): Socket Mode channel.Channel adapter (MUL-3516) First slice of the Slack adapter: implements channel.Channel (Type/Connect/Disconnect/Send/Capabilities) over Slack Socket Mode, normalizes inbound events to channel.InboundMessage (DM, channel @mention, thread reply; bot-loop + edit/delete guards), decodes the per-installation config/secret blob, and registers the Factory under TypeSlack. No engine, core, or channel_* schema change. Unit-tested (translation, capabilities, config decode, chunking, Send via httptest). Resolvers + engine wiring + Block Kit binding replier follow. Co-authored-by: multica-agent <github@multica.ai> * fix(slack): address adapter review (MUL-3516) - Propagate InboundHandler errors through dispatchEventsAPI/handleSocketEvent to Connect so an infra failure tears down the connection for Supervisor reconnect/backoff instead of being silently swallowed (ACK still happens first). - Capabilities: declare only CapText | CapThreadReply; drop CapRichCard/CapAttachment/CapMessageEdit until those Send paths are wired. - slackChatType: map mpim (multi-party DM) to group, not p2p, so the 'must address bot' filter applies; only 1:1 im is p2p. - Document the group-addressing decision: explicit @bot mention required in groups; mention-free thread continuation deferred to the session-aware layer. - Tests: handler-error propagation, slackChatType table, mpim-requires-mention, capabilities negative assertions. Co-authored-by: multica-agent <github@multica.ai> * refactor(channel): shared channel-agnostic ChatSession service (MUL-3516) Extract the session/append//issue machinery — currently locked inside the Feishu-pinned lark.chatSessionService — into a shared engine.ChatSession parameterized by channel_type + session titles, so every IM adapter reuses it instead of re-implementing it. Logic is verbatim (find-or-create session+binding with unique-violation race re-read; append+touch+reply-target+in-tx dedup Mark; /issue parse with bare-command previous-message fallback) but channel-neutral: command-parse source is supplied by the adapter (enrichment is platform-specific). Backed by a narrow SessionQueries interface so it is unit-tested with an in-memory fake (no DB). /issue parser moved to engine.ParseIssueCommand. Next: migrate Feishu onto it and wire Slack's ResolverSet, removing the lark duplicate. Co-authored-by: multica-agent <github@multica.ai> * fix(channel): decouple session binding key from outbound target (MUL-3516) Addresses Elon's round-2 review. engine.ChatSession.EnsureSession previously keyed the binding on a raw chat id (EnsureSessionInput.ChatID), so a resolver wiring Slack straight through would collapse every @bot thread in one channel into a single chat_session and overwrite last_thread_id. Make the API un-misusable: - EnsureSessionInput.ChatID -> BindingKey: the explicit session-isolation key (Feishu: chat id; Slack DM: channel id; Slack channel: channel id + thread root), documented so a raw threaded-platform chat id is never passed straight through. - Add EnsureSessionInput.BindingConfig (opaque) persisted on the binding's config column, so the real outbound channel/thread is preserved when BindingKey is composite — outbound routing stays separate from the isolation key. - channel.sql CreateChannelChatSessionBinding now writes config (additive, uses the existing NOT NULL column; lark caller passes '{}', no schema change, no Feishu regression). - Tests: TestEnsureSession_ThreadRootIsolation (two thread roots in one channel -> two sessions; same root reuses) and TestEnsureSession_StoresBindingConfig. No production wiring change yet (per review, the not-yet-wired shared service is an accepted preparatory state); this makes the API correct before Feishu/Slack are migrated onto it. Co-authored-by: multica-agent <github@multica.ai> * feat(slack): Slack ResolverSet with thread-root session isolation (MUL-3516) Wires Slack into the channel-agnostic engine.Router via a ResolverSet built on the generic channel_* queries (installation route by team_id, identity + workspace-membership recheck, two-phase dedup, audit) plus the shared engine.ChatSession. No new query, no schema change. slackSessionRouting is the per-message isolation rule (Elon round-2 / Niko round-3): a DM is one session per channel; a channel/group message is isolated by thread root (key = channel:threadRoot, root = inbound thread_ts or the message ts for a top-level @mention), so two @bot threads in one channel are two sessions. The real channel id rides in BindingConfig for outbound; the reply thread is returned separately. Tests cover DM/channel/thread routing, config, and that distinct thread roots isolate while a same-thread follow-up reuses its key. Not yet wired into router.go (still a preparatory commit, per review); Feishu migration onto the shared service, router/config wiring, and the Slack outbound path follow. Co-authored-by: multica-agent <github@multica.ai> * feat(slack): Markdown->mrkdwn outbound formatting (MUL-3516) Slack renders mrkdwn, not Markdown, so an unconverted agent reply shows literal ** , ## and [text](url). Add formatMrkdwn — a faithful Go port of Hermes Agent's slack format_message (MIT) — and apply it in slackChannel.Send before chunking/posting. Protects fenced+inline code, converted links, and existing Slack entities behind placeholders; converts headers/bold/italic/strike/links; escapes control chars. Unit tests cover each construct plus fenced-code protection and a link nested in bold. Co-authored-by: multica-agent <github@multica.ai> * docs(slack): preserve Hermes MIT notice for ported mrkdwn converter (MUL-3516) Addresses Niko's review. formatMrkdwn is a substantial port of Hermes Agent's slack format_message; MIT requires preserving the copyright + permission notice. Add the full Hermes MIT copyright/permission notice + source URL as a header on mrkdwn.go (no repo-level third-party notice file exists, and the header cannot get separated from the ported code). Also add the suggested Send-layer regression test (TestSend_AppliesMrkdwn) that pins the wiring: slackChannel.Send converts Markdown to mrkdwn before posting. Co-authored-by: multica-agent <github@multica.ai> * refactor(lark): migrate Feishu onto shared engine.ChatSession, drop duplicate (MUL-3516) Completes 'every IM reuses one shared session service' and removes the dual-path the reviewers flagged as temporary. Feishu's ResolverSet now drives the channel-agnostic engine.ChatSession (channel_type=feishu, Lark session titles preserved) instead of the Feishu-specific lark.chatSessionService, which is deleted. Behavior is unchanged: engine.ChatSession is the verbatim port of the old logic and is unit-tested; the new Feishu binder param-mapping (BindingKey=chat id, CommandText=un-enriched CommandBody from Raw) is covered by feishu_resolvers_test.go. - Delete chat_service.go (chatSessionService + helpers) and issue_command.go/_test.go (parser now engine.ParseIssueCommand). Relocate the shared TxStarter interface to tx.go (still used by binding-token + registration services). - chat.go keeps only the AuditLogger seam; remove the now-dead ChatSessionService / EnsureChatSessionParams / AppendUserMessageParams / AppendResult / IssueCommand types. - router.go constructs engine.NewChatSession for Feishu; inbound_enricher_test + doc.go updated. make-test parity: go build ./..., go vet, gofmt, and go test ./internal/integrations/{lark,channel/...,slack} all pass (full Feishu suite green). Co-authored-by: multica-agent <github@multica.ai> * feat(slack): wire Slack adapter + ResolverSet + outbound into router (MUL-3516) Activates the full Slack pipeline, gated by MULTICA_SLACK_SECRET_KEY (the bot/app-token decryption key). When unset the block is skipped, so existing deployments are unaffected and Feishu is untouched. - router.go registers slack.RegisterSlack (Socket Mode connect/send Factory) + channelRouter.Register(TypeSlack, NewSlackResolverSet) (inbound pipeline) + slack.NewOutbound(...).Register(bus) (outbound). - New slack/outbound.go: an EventChatDone subscriber mirroring the Feishu Patcher. It finds the Slack chat binding for the finished session, recovers the real channel from the binding config (the channel_chat_id may be a composite thread-isolation key) + the reply thread from last_thread_id, and posts via slackChannel.Send (reusing formatMrkdwn / chunking / threading). Sessions with no Slack binding are ignored, so it coexists with the Feishu Patcher on the shared bus. - Tests: posts to the bound channel/thread with the real channel id; ignores non-Slack sessions, empty completions, revoked installations, and non-chat events. Slack now shares engine.ChatSession, channel_* tables, IssueService and TaskService with Feishu. Remaining: config-driven installation provisioning (an operator currently creates the channel_type='slack' row; the config block shape — which workspace/agent — is a product decision) and a live end-to-end smoke. go build ./..., go vet, gofmt, and go test ./internal/integrations/{slack,channel/...,lark} all pass. Co-authored-by: multica-agent <github@multica.ai> --------- Co-authored-by: J <j@multica.ai> Co-authored-by: multica-agent <github@multica.ai> |
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3e21e58df0 |
feat(channel): channel-agnostic engine (Supervisor + Router); Feishu as channel.Channel (MUL-3620) (#4512)
* feat(channel): add channel-agnostic engine Supervisor (MUL-3620) Stage-1 (MUL-3515) shipped the channel abstraction but nothing drove it. Add the generic engine that does: - channel.InboundHandler + Config.Handler: the single shared inbound entry the engine injects into every adapter (Hermes set_message_handler model). - channel.Channel.Connect now blocks for the connection lifetime (doc), so the supervisor can tie lease renewal to connection liveness. - new package channel/engine: Supervisor, generalized out of lark.Hub. It enumerates active installations across ALL channel types (no hard-coded feishu), fences each behind the WS lease CAS, builds the platform Channel via channel.Registry, drives Connect/Disconnect with backoff+jitter, and restarts on credential rotation. Knows nothing about any platform. channel.Channel is now driven by an engine; integrations/channel has an external consumer. Feishu adapter + boot cutover follow next. Tests: supervisor_test.go covers lease CAS, reclaim, reap-on-revoke, rotation restart + token fencing, backoff on build error, lease-loss teardown, bounded release, shutdown timeout. Race-clean. Co-authored-by: multica-agent <github@multica.ai> * feat(lark): drive Feishu through the channel engine; remove lark.Hub (MUL-3620) Refactor Feishu into the first channel.Channel and cut boot over to the channel-agnostic engine.Supervisor, removing the Feishu-only Hub. - feishuChannel implements channel.Channel: Connect runs the existing WS long-conn connector for one installation; Send posts a text reply via the Lark IM API; Capabilities declares Feishu's feature set. RegisterFeishu wires it to channel.TypeFeishu — adding a platform is now 'register a Factory', no engine edit. - FeishuRuntime extracts the former Hub.handleEvent / scheduleReply: runs the Dispatcher and drives the detached typing indicator + OutcomeReplier off the connector ACK path. main.go drains it on shutdown after the supervisor stops delivering events. - channelInstallationStore (engine.InstallationStore) enumerates active installations across ALL channel types via the new de-hardcoded query ListAllActiveChannelInstallations; the Supervisor routes each row to its registered Factory by channel_type. Generic per-row fingerprint replaces the feishu-specific one. - boot: engine.Supervisor replaces lark.Hub.Run; MULTICA_LARK_HUB_DISABLED keeps its name for runbook compatibility. - delete hub.go / hub_pgx.go / hub_test.go; relocate the connector contract (EventConnector/EventEmitter), uuidString, and the reply-path tests (-> feishu_runtime_test.go) so coverage is preserved. No channel_* schema change. Feishu behaviour unchanged; lark + channel + engine tests green under -race; go build/vet ./... clean. Remaining (follow-up): lift the Dispatcher pipeline into a channel- agnostic engine.Router over channel.InboundMessage + resolver interfaces, so the inbound core stops being Lark-shaped and adding a channel needs zero core edits (validated by Slack, MUL-3516). Co-authored-by: multica-agent <github@multica.ai> * feat(channel): add channel-agnostic engine.Router (inbound pipeline) (MUL-3620) Generalize lark.Dispatcher's inbound pipeline into engine.Router: the single shared channel.InboundHandler the Supervisor injects into every Channel. It routes by ChannelType to a registered ResolverSet and runs the same ordered pipeline for every platform (install route -> two-phase dedup -> group @bot filter -> identity+membership -> ensure session -> append+mark -> /issue -> debounced run), then drives the detached OutboundReplier + typing indicator. Platform specifics live behind resolver interfaces (InstallationResolver, IdentityResolver, Deduper, SessionBinder, Auditor, OutboundReplier, TypingNotifier) + shared services (IssueCreator/TaskEnqueuer/SessionReader). Adding a platform is 'register a ResolverSet', not 'edit the Router'. Outcome / DropReason values match the legacy lark ones 1:1. Additive: lark.Dispatcher untouched and still wired; the feishu ResolverSet, the cutover, and the old-path removal land next. channel.InboundMessage gains ForceFresh (the normalized /fresh affordance). Batcher moved into engine. router_test.go covers the pipeline invariants (routing, dedup finalize states, group filter, identity, membership, ensure/append, /issue, debounce, flush offline, force-fresh, drain) with generic fakes; race-clean. Co-authored-by: multica-agent <github@multica.ai> * feat(lark): cut Feishu over to engine.Router; remove lark.Dispatcher; core no longer Lark-shaped (MUL-3620) Wire the channel-agnostic engine.Router (added in the prior commit) as the shared inbound handler and refactor Feishu into a ResolverSet, completing the generic-engine cutover. The inbound core (engine.Router) now contains zero platform specifics. - Feishu ResolverSet (feishu_resolvers.go): InstallationResolver, IdentityResolver, Deduper, SessionBinder, Auditor, OutboundReplier, TypingNotifier — each backed by the existing ChannelStore / ChatSessionService / OutcomeReplier / typing indicator, translating at the channel.InboundMessage boundary (platform fields read from Raw). origin_type stays 'lark_chat'. - feishuChannel now produces a normalized channel.InboundMessage and hands it to the engine handler via channel.Config.Handler; the old Raw round-trip through lark.Dispatcher is gone. - Remove lark.Dispatcher, FeishuRuntime, and lark's pending_batcher (the engine owns the pipeline + batcher now); their behavioural coverage moved to engine.Router tests. Surviving native types (InboundMessage / Outcome / DispatchResult) relocated to feishu_types.go. elon review nits addressed: - The channel engine (Registry + Router + Supervisor) is now built UNCONDITIONALLY, outside the MULTICA_LARK_SECRET_KEY gate, so a non-Lark deployment runs it; Feishu registers its Factory + ResolverSet only when its key is present. - channel.Config.Raw is now genuinely the platform config JSONB (channel_installation.config): the feishu factory builds a credentials-only Installation from it, and the workspace/agent identity is resolved per message by the Router — no full-db-row marshaling. - feishuChannel gains direct unit tests: factory config decode, Send text + reply-target mapping, Capabilities, inbound normalization + Raw round-trip, msg-type + result mapping. No channel_* schema change. go build/vet ./... clean; channel + engine + lark green under -race. Feishu behaviour preserved (pipeline logic lifted verbatim, only generalized). Co-authored-by: multica-agent <github@multica.ai> * docs(channel): fix stale comments on the channel engine boot (MUL-3620) Address Elon's review nit: three comments still described the pre-cutover behavior. - handler.go: ChannelSupervisor is built UNCONDITIONALLY now, not nil when MULTICA_LARK_SECRET_KEY is unset. - main.go: same — the supervisor always exists; only MULTICA_LARK_HUB_DISABLED parks it. - router.go: with no platform registered the store still lists active rows; Registry.Build returns ErrUnknownType and the supervisor backs off (it does not 'find no installations'). Comment-only; no behavior change. Co-authored-by: multica-agent <github@multica.ai> --------- Co-authored-by: J <j@multica.ai> Co-authored-by: multica-agent <github@multica.ai> |
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af34b8f83a |
feat(lark): add proxy support for WebSocket connections (#4166)
Add ProxyURL field to GorillaDialer so deployments behind a corporate proxy can route Lark WebSocket connections through an HTTP CONNECT proxy. - GorillaDialer.ProxyURL: optional proxy URL parsed and applied to the underlying gorilla/websocket dialer before each DialContext call. Empty value preserves the default ProxyFromEnvironment behaviour. - Router reads MULTICA_LARK_WS_PROXY_URL env var and sets it on the production dialer. - Three new unit tests cover invalid URL, proxy-applied, and empty-URL default paths. Closes #4032 Co-authored-by: multica-agent <github@multica.ai> |
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b92e4a53fb |
DH-106 为飞书接入补上 /new 会话指令 (MUL-3503) (#4396)
Lark/飞书入站消息新增 /new 首行指令,解析为 force_fresh_session,复用既有 daemon 会话续接门控。 Co-authored-by: Wilson-G <Wilson-G@users.noreply.github.com> |
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ce28d0aa0e |
feat(integrations): add platform-agnostic channel foundation (MUL-3515) (#4412)
* feat(integrations): add platform-agnostic channel foundation Introduce server/internal/integrations/channel — the contract every inbound IM integration implements, so the core never learns a platform's event JSON. Four pieces: - Channel interface (Type/Connect/Disconnect/Send/Capabilities) + Factory + Config (channel_type + opaque JSON blob, maps to channel_installation). - Normalized InboundMessage/OutboundMessage envelopes + Source/MediaRef/ ReplyCtx/MsgType/ChatType. Envelope holds only cross-platform-true fields; platform specifics live in Raw, read only by the adapter. - Capability bitmask: declaration only, no degrade logic in core. - Registry: Type->Factory map, last-writer-wins, concurrency-safe. Pure package (no DB/network/platform deps). Foundation for MUL-3515; the lark cutover + lark_*->channel_* generalization land in follow-up PRs. MUL-3515 Co-authored-by: multica-agent <github@multica.ai> * feat(channel): generalize lark_* tables into channel_* (DB layer) Migration 123 creates channel_installation / channel_user_binding / channel_chat_session_binding / channel_inbound_message_dedup / channel_inbound_audit / channel_outbound_card_message / channel_binding_token. Each carries a channel_type discriminator and a JSONB config for platform-specific identifiers/credentials; cross-platform columns stay flat. Existing Feishu rows are backfilled (channel_type= 'feishu', app_secret_encrypted via base64). NO foreign keys / cascades (MUL-3515 §4) — integrity moves to the app layer in the cutover. queries/channel.sql ports the lark query surface to channel_*, JSONB-aware, plus DeleteChannelUserBindingsByWorkspaceMember / DeleteChannelChatSessionBindingBySession for the app-layer cleanup that replaces the removed cascades. lark_* tables/queries are left in place here and removed once the Go cutover lands, so this commit ships green on its own. Verified: sqlc generate, go build ./..., full migrate chain (1..123) on Postgres 17, and a real-data backfill spot-check (base64 round-trip, NULL-strip, functional unique index on (channel_type, app_id)). MUL-3515 Co-authored-by: multica-agent <github@multica.ai> * fix(channel): name app_id query param + multi-IM install key + null-safe binding merge Addresses review on MUL-3515 (PR #4412): - GetChannelInstallationByAppID: explicitly name params and cast app_id to ::text so sqlc emits AppID string. A bare $2 next to `config ->> 'app_id'` was mis-attributed to the JSONB config column, generating Config []byte. - channel_installation uniqueness -> (workspace_id, agent_id, channel_type), with the UpsertChannelInstallation conflict key matched. Lets one agent hold one installation per IM (feishu + slack + ...) instead of a later install clobbering an earlier one. Behaviorally identical in the current feishu-only world; "one agent, at most one IM overall" stays an app-layer rule per MUL-3515 §4, not a DB constraint. - CreateChannelUserBinding merges jsonb_strip_nulls(EXCLUDED.config) so a re-bind carrying {"union_id": null} no longer erases an already-captured union_id, restoring the old COALESCE(EXCLUDED.union_id, ...) semantics. Regenerated with sqlc v1.31.1. Verified on PG17: re-install replaces in place, feishu+slack coexist, null re-bind keeps union_id, real union_id wins. Co-authored-by: multica-agent <github@multica.ai> * feat(lark): channel-backed Feishu store + fix base64 backfill wrapping Cutover step 1 of switching the lark Go code from lark_* onto the channel_* tables (MUL-3515). Introduces the JSONB config boundary the rest of the cutover sits on, and fixes a latent backfill bug surfaced while building it. - migration 123: strip newlines from the app_secret_encrypted base64 backfill. PostgreSQL encode(...,'base64') MIME-wraps at 76 chars, and a secretbox- sealed ~72-byte secret exceeds that. Go's encoding/json decodes a JSON string into []byte with base64.StdEncoding, which rejects embedded newlines, so without the strip every migrated installation would fail to decrypt its app secret once reads move to channel_installation.config. - store.go: flat domain types (Installation / UserBinding / ChatSessionBinding) with field parity to the retired db.Lark* rows, plus the feishu config codec. Row->domain mappers decode the JSONB config; the secret decoder is whitespace-tolerant so legacy MIME-wrapped data still round-trips, while the encoder emits unwrapped base64. Binding config encodes an absent union_id as "{}" so the upsert's jsonb_strip_nulls merge never clobbers a stored union_id. - store_test.go: 72-byte secret round-trip, MIME-wrapped tolerance, optional null-strip, and flat-column preservation. Verified on PG17. Field parity keeps the upcoming ~190 db.LarkInstallation call sites a mechanical rename. No call sites switched yet; behavior unchanged. Co-authored-by: multica-agent <github@multica.ai> * feat(lark): route inbound integration onto channel_* + explicit membership checks Cutover step 2 (MUL-3515): switch the Feishu Go code from the lark_* queries to channel_* via a ChannelStore adapter, and replace the removed member foreign key with explicit application-layer membership checks. No user-visible behavior change. - channel_store.go: ChannelStore embeds *db.Queries and SHADOWS the ~24 lark query methods with channel_*-backed equivalents, keeping the db.Lark* signatures so the dispatcher/hub/services and their ~20k lines of tests stay untouched; the feishu JSONB config is (de)coded by store.go. Adds IsWorkspaceMember and a tx-aware WithTx. Only production wiring swaps *db.Queries for *ChannelStore. - Membership re-check (§4 removed the lark_user_binding -> member FK, so a binding row no longer proves current membership): * the dispatcher inbound identity step verifies membership after the binding lookup; a former member's stale binding is dropped as non_workspace_member + audited and never reaches chat_session (§4.3 safety property). * RedeemAndBind and BindInstallerTx replace the now-dead FK (23503) branch with an explicit IsWorkspaceMember gate, preserving the existing ErrBindingNotWorkspaceMember outcome without burning the token. - router wires the ChannelStore into the patcher, typing indicator, dispatcher, hub, and the union_id/region backfills; constructor-based services wrap *db.Queries internally so their signatures and nil-check tests are unchanged. Verified: go build ./... ; go vet ; gofmt ; go test -race ./internal/integrations/... (full lark suite green unchanged + new membership drop/error tests). Adapter field mappings (secret base64, union_id RMW, chat-id/open-id remaps, dedup, token, card) checked end-to-end against a PG17 channel_* schema. lark_* tables and queries remain (unused at runtime) until the S3 cleanup-hooks and S4 drop-tables/rename commits. Co-authored-by: multica-agent <github@multica.ai> * fix(channel): renumber generalization migration 123 -> 124 main merged 123_issue_stage after this branch forked, so the branch's 123_channel_generalization now collides on the migration number. The runner keys schema_migrations by full version string and would still apply both, but a duplicate number is a merge hazard and convention violation, so move the channel migration to the next free slot (124). issue_stage (ALTER issue ADD COLUMN stage) and the channel generalization touch disjoint tables; verified on PG17 that 123_issue_stage applies cleanly on a DB already carrying 124_channel_generalization, so the two are order-independent. sqlc regenerated (v1.31.1): only the migration-number comment changed. MUL-3515 Co-authored-by: multica-agent <github@multica.ai> * feat(channel): prune channel bindings on member removal + chat session delete MUL-3515 §4 dropped every channel_* foreign key, so the old ON DELETE CASCADE that cleared a user's channel_user_binding when they left a workspace, and a chat's channel_chat_session_binding when its chat_session was deleted, no longer fires. Re-establish that integrity in the application layer, inside the existing transactions: revokeAndRemoveMember -> DeleteChannelUserBindingsByWorkspaceMember, DeleteChatSession -> DeleteChannelChatSessionBindingBySession. Adds real-DB tests for both paths, including a scoping check that a remaining member's binding survives the prune. Verified on PG17: both new tests plus the existing revocation tests and the full handler package pass. MUL-3515 Co-authored-by: multica-agent <github@multica.ai> * fix(channel): scope Lark/Feishu store reads to channel_type='feishu' The S2 cutover routed the Feishu integration onto channel_*, but the Lark-facing ChannelStore wrappers read installation / chat-session-binding / outbound-card rows across ALL channel_type values. Once a second IM exists, that would let the Lark hub supervise a non-Feishu installation, the Lark install list show it, /lark/installations/{id} revoke another channel's row, and the outbound patcher / typing indicator act on a non-Feishu chat binding or card. Add a channel_type predicate to the six read/list channel queries and pass channelTypeFeishu from every wrapper: GetChannelInstallation, GetChannelInstallationInWorkspace, ListChannelInstallationsByWorkspace, ListActiveChannelInstallations, GetChannelChatSessionBindingBySession, GetChannelOutboundCardByTask. The S3 cleanup deletes (DeleteChannelUserBindingsByWorkspaceMember / DeleteChannelChatSessionBindingBySession) stay all-channel on purpose: a member leaving or a chat_session being deleted should clear every IM's binding. Adds a real-DB test that seeds a Slack installation/binding/card next to the Feishu ones and asserts the Lark wrappers never return them. MUL-3515 Co-authored-by: multica-agent <github@multica.ai> * refactor(channel): replace db.Lark* translation layer with lark domain types S2 introduced ChannelStore as a translation layer that read/wrote channel_* but kept the retired db.Lark* struct/param shapes so the dispatcher/hub/services and their ~20k lines of tests did not have to change. This collapses that layer: the store now takes and returns the package's flat domain types (Installation, UserBinding, ChatSessionBinding, InboundMessageDedup, BindingTokenRow, OutboundCardMessage) and the *Params types in params.go, with channel-neutral field names (ChannelUserID / ChannelChatID / ...). All call sites, fakes, and tests move to the domain types. No behavior change: only channel_* is read/written (as before); db.Lark* is now unused, and the lark_* tables + queries/lark.sql are removed in the next commit. Verified on PG17: go build / vet / gofmt clean, go test -race ./internal/integrations/... green (the ~20k-line fake suite), and the lark + handler suites pass. MUL-3515 Co-authored-by: multica-agent <github@multica.ai> * refactor(channel): drop lark_* tables and queries (remove old path) The Go cutover (previous commit) moved the lark package entirely onto channel_* and the domain types, leaving the lark_* tables, queries/lark.sql, and the generated db.Lark* models unused. Remove them per the design (§5: replace, do not keep both): migration 125 drops the seven lark_* tables (data already lives in channel_* since migration 124), and queries/lark.sql is deleted + sqlc regenerated, removing the db.Lark* models and lark query methods. The 125 down recreates the authoritative pre-drop schema (bot_union_id, region, per-installation dedup PK, thread-reply columns). Verified on PG17: fresh migrate up ends with lark_* gone + channel_* present; isolated 125 down/up round-trips correctly; go build / vet / gofmt clean; go test -race ./internal/integrations/... and the handler suite pass. MUL-3515 Co-authored-by: multica-agent <github@multica.ai> * fix(migrations): remove trailing blank line at EOF of 125 down migration git diff --check flagged a blank line at EOF of 125_drop_lark_tables.down.sql (a pg_dump-generation artifact). Whitespace only; the recreate SQL is unchanged. MUL-3515 Co-authored-by: multica-agent <github@multica.ai> * refactor(channel): defer lark_* table drop to a follow-up migration Preflight deploy review: dropping lark_* in the same release that cuts over (old migration 125) is not rollback/rolling-safe — the v0.3.27 release still reads lark_*, so a rolling deploy or a post-deploy code rollback would hit "relation does not exist". Remove the drop and keep the old tables for one release (standard expand/contract): migration 124 already backfilled lark_* -> channel_*, the new code reads/writes only channel_*, and the physical drop moves to a separate cleanup migration once this ships and is observed. The lark_* tables remain in the schema, so sqlc regenerates the (now unused) db.Lark* models; queries/lark.sql stays deleted (the new code uses channel_*). No code path reads lark_* — only the destructive drop is deferred, keeping the design's no-compat-layer / no-dual-write rule while being deploy-safe. MUL-3515 Co-authored-by: multica-agent <github@multica.ai> * fix(channel): skip orphaned installations in hub-boot active scan Preflight deploy review: channel_installation dropped the workspace/agent FK (MUL-3515 §4), so unlike lark_installation it does not cascade away when its workspace is deleted or its agent is hard-deleted (e.g. runtime teardown). The hub-boot query then keeps opening a WebSocket for a bot whose owner is gone. JOIN ListActiveChannelInstallations to live workspace + agent so an orphaned installation is never connected, uniformly for every deletion path. The JOIN matches the old ON DELETE CASCADE semantics (row existence, not agent archival), so an archived-but-present agent's installation is still listed; the orphaned row's encrypted secret is thereby never decrypted/used. Tests: a real-DB handler test asserts a deleted-workspace/agent installation and a non-Feishu one are both excluded; the lark scope test's active-list assertion moved there since the JOIN now needs real workspace/agent fixtures. (Physically deleting dormant orphaned channel rows on workspace/agent deletion is a separate app-layer-cleanup follow-up.) MUL-3515 Co-authored-by: multica-agent <github@multica.ai> * docs(channel): document non-rolling cutover constraint for the lark->channel migration Elon deploy review: keeping the lark_* tables (deferred drop) stops old v0.3.27 code from crashing, but is not full expand/contract. Migration 124 is a one-time backfill; afterwards new code runs on channel_* (lease + dedup on channel_*) while pre-cutover code runs on lark_* (lease + dedup on lark_*). If both run concurrently during a rolling deploy, each side claims the same Feishu bot's WS lease on its own table and double-processes inbound events. This release therefore requires a NON-ROLLING cutover (stop the old hub before applying migration 124 + starting new code; rollback is not lossless once new code writes channel_*). Documented where deployers/reviewers see it: migration 124 header gains a ROLLOUT note; the channel_store.go header is corrected (lark_* tables are retained one release for rollback safety, not "gone"; the store still never touches them). Comment-only — no schema/codegen/behavior change. MUL-3515 Co-authored-by: multica-agent <github@multica.ai> * feat(lark): add MULTICA_LARK_HUB_DISABLED switch for the channel cutover The lark_*->channel_* cutover needs a way to make the Feishu bot briefly unavailable WITHOUT taking down the whole multica-api process — the Lark hub is a goroutine inside it, not a separate Deployment. MULTICA_LARK_HUB_DISABLED=true parks the hub at startup: the API serves HTTP normally but never claims a WS lease or opens a Feishu connection. Rollout (see migration 124 ROLLOUT note): ship the new release with the flag SET so new pods run API-only while old pods (hub on lark_*) drain during the rolling deploy — the two hubs never overlap. After the old pods are gone and migration 124 has run, flip the flag off; the new hub comes up on channel_*. The old backend does NOT need this switch — its hub stops when k8s terminates the old pods, not via a flag. Nil-ing LarkHub reuses the existing not-configured path so both the startup start and the shutdown join skip it. MUL-3515 Co-authored-by: multica-agent <github@multica.ai> * docs(channel): point migration 124 ROLLOUT note at the hub-disable switch Refine the rollout note to use MULTICA_LARK_HUB_DISABLED for a bot-only cutover (new pods serve API with the hub parked while old pods drain; flip the switch off after the migration), instead of the earlier whole-API recreate. Comment-only. MUL-3515 Co-authored-by: multica-agent <github@multica.ai> * docs(channel): fix migration 124 rollout order and document self-host cutover The previous ROLLOUT note shipped the new (channel_*) build before running migration 124, so the channel_*-backed HTTP paths (installation list/install/revoke, chat-session delete, member revoke) would 500 in the window between new-pod boot and the deferred migration. Restate the runbook around two explicit invariants — channel_* must exist before the new build serves those paths, and the old/new hubs must never overlap — and order the steps so channel_* is created first (park old hub -> snapshot -> deploy parked new build -> unpark). Document that default self-host (entrypoint migrate + single-replica Recreate) satisfies both invariants automatically and needs no manual steps; only prd / multi-replica rolling self-host needs the switch procedure. Clarify in main.go that the hub-park switch is generation-agnostic (parks whichever hub the build carries), which is what enables the preparatory release. Refs MUL-3515 Co-authored-by: multica-agent <github@multica.ai> --------- Co-authored-by: J <j@multica.ai> Co-authored-by: multica-agent <github@multica.ai> |
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0aa3b53c25 |
MUL-3378 feat(lark): reply inside the originating thread (话题) instead of the group (#4262)
* feat(lark): reply inside the originating thread (话题) instead of the group When a user @-mentions the bot inside a Lark topic/thread, the bot now replies back into that thread rather than posting a fresh message at the chat level. Behavior is automatic and scoped: only triggers that were themselves inside a thread get a threaded reply, so normal group/p2p chats are unchanged. The outbound path is event-driven and decoupled from the inbound message, so the trigger message_id + thread_id are persisted on lark_chat_session_binding (migration 122) at ingest time. The patcher then routes the agent reply (text / markdown card / error card) and the OutcomeReplier notices (/issue confirmation, offline/archived) through Lark's reply endpoint with reply_in_thread=true when a thread is present, falling back to a chat-level send if the threaded reply fails. Co-authored-by: Cursor <cursoragent@cursor.com> * fix(lark): classify thread-reply failures before chat-level fallback Only retry a threaded reply at the chat level when Lark returns an explicit "this message/topic cannot receive a threaded reply" error (recalled trigger, topic gone, topics disabled, aggregated message, etc.). Transport errors, 5xx, timeouts, rate limits, and ambiguous failures are now logged and returned as failures instead of being retried, so we never duplicate a reply or leak a thread-only reply into the main group chat. The three reply-capable send methods now return a structured *APIError carrying the Lark business code, and isThreadReplyUnsupported drives the fallback via an allowlist. sendWithThreadFallback is promoted to a package-level function so the immediate OutcomeReplier sends (/issue confirmation, offline/archived notices) share the same classified fallback path instead of silently swallowing thread-reply failures. Co-authored-by: Cursor <cursoragent@cursor.com> --------- Co-authored-by: kun <kuen@micous.com> Co-authored-by: Cursor <cursoragent@cursor.com> |
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2c0f6edca8 |
MUL-3320: feat(lark): add proxy support for WebSocket connections (#4165)
* feat(lark): add proxy support for WebSocket connections - Add Proxy field to GorillaDialer (func(*http.Request) (*url.URL, error)) - Default to http.ProxyFromEnvironment when Proxy is nil, so standard HTTPS_PROXY/HTTP_PROXY/NO_PROXY env vars are respected automatically - Allow explicit override via GorillaDialer.Proxy for custom proxy auth or fixed proxy URLs - Add unit tests for proxy defaults and error forwarding Closes #4032 Co-authored-by: multica-agent <github@multica.ai> * fix(lark): add missing net/url import in ws_connector_test.go TestGorillaDialerProxyDefaults and TestGorillaDialerProxyForwardsError use *url.URL in their Proxy func signatures but net/url was not imported. Co-authored-by: multica-agent <github@multica.ai> * fix(lark): preserve configured websocket proxy Co-authored-by: multica-agent <github@multica.ai> --------- Co-authored-by: multica-agent <github@multica.ai> Co-authored-by: J <j@multica.ai> |
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24b162cdbc |
feat(daemon): surface the real task initiator to the agent runtime (MUL-2645) (#3899)
* feat(daemon): surface the real task initiator to the agent runtime (MUL-2645)
In a multi-person workspace the agent runtime only ever saw the runtime
OWNER identity: the brief's `## Requesting User` is sourced from
runtime.OwnerID and the task-scoped token is owner-bound, so every
requester (whoever commented, @mentioned, or chatted) appeared to the
agent as the owner. Agents that route by initiator for permission,
privacy, or audit all misjudged.
Resolve the real task initiator at claim time and surface it distinctly
from the owner:
- comment / mention trigger -> triggering comment's author (member or agent)
- chat task -> chat session creator (sessions are creator-only)
- on-assign / autopilot / quick-create -> no attributable initiator (omitted)
Adds initiator_{type,id,name,email} to the claim response, the daemon
Task, and TaskContextForEnv, rendered into the brief as a new
`## Task Initiator` section. The section documents the privacy boundary:
the agent's credentials stay owner-scoped, so this is an attested
identity for the agent's own routing/privacy logic, not act-as. No DB
migration — both paths are derivable from existing rows.
Tests: brief rendering (member/agent/omit/sanitize) + email guard unit
tests, and claim-handler tests for the comment and chat paths.
Co-authored-by: multica-agent <github@multica.ai>
* fix(chat): store real sender as task initiator, not chat_session creator (MUL-2645)
Review fix (Niko, PR #3899). v1 resolved the chat task initiator from
chat_session.creator_id at claim time. That is correct for web chat and
Lark p2p (creator == sender), but WRONG for Lark group chats: the group
session creator is deliberately the installer (stable identity across
member churn), not the message sender. So in a Lark group, every member
who triggered the agent showed up in the brief as the installer/owner —
the exact bug this issue is about, still live at that entry point.
Capture the real sender at enqueue time instead of deriving it from the
session creator at claim time:
- migration 117: agent_task_queue.initiator_user_id (FK user, ON DELETE
SET NULL); NULL for non-chat and pre-migration rows.
- EnqueueChatTask now takes an explicit initiatorUserID. Web chat passes
the authenticated request user; the Lark dispatcher threads the inbound
sender (binding.MulticaUserID) through scheduleRun -> flushChatRun. The
debouncer keeps the latest scheduled flush per session, so in a multi-
sender silence window the LATEST sender wins (documented + tested).
- claim handler resolves the initiator from task.initiator_user_id and
drops the creator_id fallback entirely.
The Lark group session creator stays the installer (unchanged) — only the
task initiator is corrected, keeping the two concepts cleanly separate.
Tests: dispatcher group regression (initiator = sender, not installer),
latest-sender-wins, p2p initiator assertion; the chat claim handler test
now sets creator != initiator and asserts the stored sender wins.
Co-authored-by: multica-agent <github@multica.ai>
---------
Co-authored-by: J <j@multica.ai>
Co-authored-by: multica-agent <github@multica.ai>
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26ca943d45 |
feat(lark): add typing indicator lifecycle for inbound messages (#3860)
When a message is successfully ingested, send a Typing reaction to the user's message. When the agent replies (EventChatDone) or fails (EventTaskFailed), clear the reaction before the reply is visible. - Add AddMessageReaction / DeleteMessageReaction to APIClient - Implement reaction HTTP calls in httpAPIClient - Introduce TypingIndicatorManager for per-session state tracking - Wire into Hub (add on ingest) and Patcher (clear before reply) - Skip typing for messages older than 2 minutes (WS replay guard) Co-authored-by: miaolong001 <miaolong@xd.com> |
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f8bd1d8fc2 |
feat(lark): show real speaker names in Feishu group context (MUL-3084) (#3828)
* feat(lark): resolve real speaker names in group context (MUL-3084) The recent-context block (and quoted/forwarded blocks) labeled senders positionally as "User 1 / User 2", and the agent had no idea who had @-mentioned it. Add APIClient.BatchGetUsers (contact/v3/users/batch) and, on the group prefetch path, resolve the surrounding speakers AND the trigger sender to display names in one batch call. Speakers now render as "[Alice]: ..." and the user's own message as "[Charlie]: ..." so the agent knows who addressed it. Unresolved senders (restricted contact scope, deactivated user) fall back to positional "User N"; resolution is best-effort and never blocks ingestion. Closes the standing speaker-name TODO in the enricher. Co-authored-by: multica-agent <github@multica.ai> * fix(lark): resolve names for quoted/forwarded senders too (review) Address the #3828 review: BatchGetUsers only included the recent-window and trigger senders, so a quoted parent / merge_forward child whose sender was NOT in the recent window still rendered as "User N". Restructure Enrich into fetch (Phase 1) -> resolve names (Phase 2) -> render (Phase 3): quote/forward items are now fetched up front and their senders folded into the single Contact batch, so every block (recent + quoted + forwarded) shows real names in group chats. p2p keeps positional labels. Replaces the fetch+render renderQuoted/renderForwarded with a render-only renderQuotedBlock plus an inline forward fetch. Co-authored-by: multica-agent <github@multica.ai> --------- Co-authored-by: J <j@multica.ai> Co-authored-by: multica-agent <github@multica.ai> |
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05e38e5d37 |
feat(lark): split bind CTA into Feishu and Lark entry points (MUL-3083) (#3832)
* feat(lark): split bind CTA into Feishu and Lark entry points (MUL-3083 follow-up)
The single "Bind to Lark" button began the device flow against
accounts.feishu.cn and relied on a mid-poll tenant_brand="lark" to
auto-switch international users over to accounts.larksuite.com. Lark
users had to scan a QR served from a Feishu domain first, which
surfaced as confusing in real use.
Replace with two explicit CTAs side by side — "Bind to Feishu" and
"Bind to Lark" — and route the device-flow begin straight to the
matching accounts host based on the user's choice. The mid-poll
auto-switch is preserved as a safety net for users who pick the wrong
entry.
Backend
- RegistrationClient.Begin(ctx, namePreset, region): POSTs to
c.cfg.LarkDomain when region=lark, c.cfg.Domain otherwise. Empty /
unknown region falls back to Feishu (matches RegionOrDefault).
- BeginInstallParams.Region threads through to the registration session
and onto runPolling's initial region local. SwitchedDomain still
flips it on tenant_brand=lark.
- POST /api/workspaces/{id}/lark/install/begin accepts ?region=feishu|lark
with empty defaulting to feishu for back-compat.
Frontend
- api.beginLarkInstall(wsId, agentId, region) — region now required
so every call site is forced to pick a cloud explicitly.
- LarkAgentBindButton renders two buttons; dialog state collapsed into
a single dialogRegion useState so an "open but with no region picked"
intermediate state can't exist.
- LarkInstallDialog takes region as a required prop and renders
region-aware copy (title, description, scan hint, link fallback,
success toast).
i18n
- Add bind_button_{feishu,lark}, install_dialog_{title,description}_*,
install_scan_hint_*, install_open_link_fallback_*, and
install_success_toast_* keys across en, zh-Hans, ja, ko. Legacy
single-region keys are kept for now; nothing in the tree references
them anymore but a follow-up cleanup can remove them once the dust
settles.
Tests
- Two new lark.RegistrationClient tests pin region routing in both
directions (region=lark hits LarkDomain; region=feishu hits Domain).
- Two new lark-tab.test.tsx cases pin that clicking each CTA calls
beginLarkInstall with the matching region argument. Existing CTA
tests updated to expect both buttons in place of one.
MUL-3083
Co-authored-by: multica-agent <github@multica.ai>
* fix(lark): bidirectional tenant_brand swap + region-aware badge + link context menu
Addresses Elon's review on PR #3832 plus a separate report that the
"Or tap here to open in Lark" link in the install dialog had no
standard right-click affordances on the desktop app.
Backend (must-fix from review)
The PR's stated 'safety net for users who pick the wrong CTA' only
worked one direction: a Feishu-first begin already swapped to Lark on
tenant_brand=lark, but the new Lark-first begin (added by this same PR)
had no reverse path — a user who picked 'Bind to Lark' but actually
authorized with a Feishu account would carry RegionLark all the way
through finishSuccess and either fail at GetBotInfo or commit a
wrong-region row.
- PollResult now carries SwitchedDomain AND SwitchedRegion in
lockstep, so the caller never has to re-derive region from the
domain string.
- Poll() detects tenant_brand=feishu while polling against a non-Feishu
host symmetrically with the existing tenant_brand=lark check, gated
on the current host so we don't loop on a brand we already match.
- runPolling reads region from res.SwitchedRegion instead of the
hardcoded RegionLark — the SwitchedDomain branch now flips both
feishu→lark and lark→feishu cleanly.
- Tests: updated the existing TestRegistrationClient_Poll_DomainSwitchOnLarkTenant
to assert SwitchedRegion, added TestRegistrationClient_Poll_DomainSwitchOnFeishuTenant
for the reverse, and TestRegistrationClient_Poll_NoSwitchWhenAlreadyOnMatchingHost
(table-driven, both directions) to pin that the gate doesn't loop.
Backend (nit from review)
Handler comment on /lark/install/begin claimed unknown region defaults
to Feishu downstream, but the handler already returns 400 on unknown
values. Updated the comment to match the actual behavior and document
why we 400 rather than silently normalize (so a frontend typo can't
land users on the wrong cloud without telling them).
Frontend (nit from review)
The Agent inspector's Connected badge was hardcoded 'Connected to
Lark' / 'Manage in Lark' (en) and 'Connected to Feishu' / 'Manage in
Feishu' (zh-Hans) — both wrong half the time now that the install
flow can land on either cloud per agent. Made the badge text and
Manage tooltip read from installation.region:
- agent_bot_connected_label_{feishu,lark}
- agent_bot_manage_link_{feishu,lark}
- agent_bot_manage_tooltip_{feishu,lark}
across en / zh-Hans / ja / ko. Legacy single-region keys retained for
safety. Existing badge tests updated: fixtures without 'region' now
expect the Feishu copy; the region: 'lark' test was promoted to also
assert the Lark badge text and link target. 21/21 lark-tab tests pass.
Desktop (separate report)
Right-clicking an <a> in the renderer surfaced only Copy / Cut /
Paste / Select All — no 'Open Link in Browser' or 'Copy Link Address'.
The renderer's <a target="_blank"> click path already routes through
setWindowOpenHandler → openExternalSafely, but discoverability via the
context menu was missing.
context-menu.ts now appends two link-specific items when params.linkURL
is an http(s) URL. Open Link routes through openExternalSafely (reuses
the existing scheme allowlist); Copy Link Address writes to Electron's
clipboard. Labels are localized to the OS preferred language for the
four locales the renderer ships (en / zh-Hans / ja / ko); zh-* variants
all route to zh-Hans, anything else falls back to English. New
context-menu.test.ts pins five cases: link items show for http(s),
not for javascript:/mailto:/etc., not when no link is under the cursor,
zh-CN gets Chinese, fr-FR falls back to English. 198/198 desktop tests
pass.
MUL-3083
Co-authored-by: multica-agent <github@multica.ai>
---------
Co-authored-by: Eve <eve@multica-ai.local>
Co-authored-by: multica-agent <github@multica.ai>
Co-authored-by: Jiang Bohan <bhjiang@outlook.com>
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6d0b9e3918 |
feat(lark): prefetch surrounding group context on @-mention (MUL-3084) (#3819)
* feat(lark): prefetch surrounding group context on @-mention (MUL-3084) In Feishu group chats the Bot only saw the single message that @-mentioned it — never the surrounding conversation — because the inbound enricher only inlined context the user explicitly attached (a quoted reply or a merge_forward), and the API client had no way to list a chat's history. Add APIClient.ListChatMessages (GET /open-apis/im/v1/messages, container_id_type=chat, ByCreateTimeDesc, page_size clamped to Lark's 50 cap) and, for a group message addressed to the Bot, prefetch a bounded window of recent messages and inline them as a <recent_context> block ahead of the user's own message. The trigger and any quoted parent are excluded so nothing is duplicated; speakers are labeled positionally (User 1/2 / Bot); failures degrade to a visible placeholder and never block ingestion. Window size is configurable via InboundEnricherConfig.RecentContextSize (<=0 disables); production wires DefaultRecentContextSize (20). One list call per addressed turn keeps the fetch within the inbound ACK / EnrichTimeout budget. Co-authored-by: multica-agent <github@multica.ai> * feat(lark): anchor group context window to trigger time, default 10 Address review feedback on MUL-3084: - Anchor the recent-context prefetch to the trigger message's time: thread the message create_time through InboundMessage and pass it as the list end_time (millis -> seconds), so the window is the conversation up to the @-mention rather than whatever is newest when the slightly-later prefetch HTTP call runs. end_time is omitted when the time is missing/unparseable (falls back to newest N). - Lower DefaultRecentContextSize from 20 to 10. Co-authored-by: multica-agent <github@multica.ai> * docs(lark): clarify recent-context persistence stance and fetch-window semantics Co-authored-by: multica-agent <github@multica.ai> * fix(lark): region-aware doJSON for ListChatMessages after rebase origin/main merged #3815 (Lark dual-region support), which changed doJSON to take a per-call baseURL resolved via resolveBaseURL(creds). Adapt the new ListChatMessages call to that signature so the backend build passes against latest main, and refresh the now-stale ListMessagesParams comment (EndTime is exposed). Co-authored-by: multica-agent <github@multica.ai> --------- Co-authored-by: J <j@multica.ai> Co-authored-by: multica-agent <github@multica.ai> |
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6ac8314711 |
feat(lark): support both Feishu and Lark from one deployment (MUL-3083) (#3815)
* feat(lark): serve Feishu and Lark from one deployment, per installation
The Lark integration was locked to a single open-platform host chosen
deployment-wide (MULTICA_LARK_HTTP_BASE_URL / _CALLBACK_BASE_URL,
defaulting to open.feishu.cn), so one deployment could talk to only the
mainland Feishu cloud OR Lark international — never both. Teams on the
other tenant could not use the integration at all.
Make the host per-installation. The device-flow installer already
auto-detects the tenant (Lark emits tenant_brand="lark" mid-poll); we now
persist that as lark_installation.region, carry it on
InstallationCredentials.Region, and resolve the open-platform host per
call (REST + WS bootstrap) from the region. An explicit cfg.BaseURL
(env / httptest) still overrides every region, so existing tests and
staging/proxy setups keep working.
- migration 116: lark_installation.region TEXT NOT NULL DEFAULT 'feishu'
CHECK (region IN ('feishu','lark')) — existing rows are all mainland.
- lark.Region enum + OpenPlatformBaseURL/RegionOrDefault helpers.
- registration: thread the detected region into finishSuccess so the
install-time GetBotInfo hits the right cloud AND the row records it.
- every credential-build site (patcher, replier, WS provider, union_id
backfill) copies region off the installation row.
- region is part of the WS supervisor fingerprint so a re-install that
switches cloud restarts the connection.
- API: surface region on the installation listing DTO.
MUL-3083
Co-authored-by: multica-agent <github@multica.ai>
* feat(lark): surface installation region in settings UI
Read the per-installation region off the listings response: build the
"Manage in Lark" dev-console host from it (open.feishu.cn vs
open.larksuite.com instead of a hardcoded mainland host) and render a
Feishu / Lark badge on each connected bot. The field is optional and
defaults to Feishu when an older server omits it (API-compat). Adds the
region_feishu / region_lark labels to all four locales.
MUL-3083
Co-authored-by: multica-agent <github@multica.ai>
* docs(lark): document simultaneous Feishu + Lark support
The cloud each bot belongs to is now auto-detected at install and stored
per installation, so one deployment serves both. Replace the old
"point MULTICA_LARK_HTTP_BASE_URL at larksuite for international tenants"
guidance (now just an optional override) in all four locales.
MUL-3083
Co-authored-by: multica-agent <github@multica.ai>
* fix(lark): repair legacy Lark-international installs on upgrade
Review follow-up (MUL-3083). Migration 116 backfilled every existing
lark_installation to region='feishu', assuming all historical rows were
mainland. But self-host deployments could already run Lark international
via the deployment-wide MULTICA_LARK_HTTP_BASE_URL override, so those
rows are really Lark — clearing the override after upgrade (which the new
docs invite) would route them to open.feishu.cn and break them.
Add a one-shot startup repair, BackfillRegionFromLegacyOverride, fired
off the hot path like BackfillBotUnionIDs: when the deployment's global
base-URL override targets open.larksuite.com, relabel the still-default
'feishu' rows to 'lark'. Gating on the deployment-wide override is what
makes it safe — every pre-existing install on such a deployment was Lark.
Idempotent; no-op on mainland / fresh deployments. Verified end-to-end
against a scratch DB (flip then 0-row idempotent re-run).
Also document that a Lark/飞书 app_id is globally unique across both
clouds, which is what makes the app_id-keyed token cache and the
UNIQUE(app_id) constraint safe across regions (review nit).
MUL-3083
Co-authored-by: multica-agent <github@multica.ai>
* docs(lark): fix ops guidance to match auto per-installation region
Review follow-up (MUL-3083). .env.example and docker-compose.selfhost.yml
still told operators that international Lark requires pointing both base
URLs at open.larksuite.com — now wrong, and it would push a fresh
deployment back into a single-cloud override. Rewrite them: the base
URLs are optional deployment-wide overrides; normal dual-cloud operation
keeps them empty. Document the first-boot auto-relabel for deployments
migrating off the old single-cloud override, across the integration docs
(en/zh/ja/ko).
MUL-3083
Co-authored-by: multica-agent <github@multica.ai>
---------
Co-authored-by: J <j@multica.ai>
Co-authored-by: multica-agent <github@multica.ai>
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f3ab29cdfc |
fix(lark): publish lark_installation:created at row-commit, not on status poll (#3770)
The agent Integrations tab's "已连接到飞书" connection badge only updated after a manual page refresh. lark_installation:created had a single emit site — the status-poll handler GetLarkInstallStatus — so it only fired while a browser was actively polling the install dialog to success. Every other surface (a second admin, the inspector sidebar, the Settings panel, or the installer whose dialog closed before the success poll) never received the invalidation frame, and under the QueryClient defaults (staleTime: Infinity) the installations cache stayed stale until a full page refresh. Publish the event from RegistrationService.finishSuccess at the row-commit point, mirroring the already-correct revoke path, so every workspace client refreshes the moment the install lands. Wire the bus via an optional SetEventBus (keeps the constructor and its validation tests untouched, nil-safe) and remove the now- redundant poll-handler emit. MUL-3059 Co-authored-by: J <j@multica.ai> Co-authored-by: multica-agent <github@multica.ai> |
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6e004149a8 |
feat(lark): debounce inbound run trigger per chat session (MUL-2968) (#3742)
A forwarded transcript plus a follow-up note arrive as two separate Lark messages, each of which synchronously called EnqueueChatTask — so the bot ran twice (once on the bare forward, before the note arrived). The chat task already reads the whole session history at run time, so the messages never needed stitching; only the run TRIGGER did. Introduce pendingBatcher: a per-chat_session debouncer that collapses a burst into one agent run on a 3s silence window. Each message is still appended, deduped, and ACKed synchronously and individually; step 8 of the dispatcher now schedules a debounced flush instead of enqueuing inline. Because EnqueueChatTask's agent-offline / agent-archived verdict is now only known at flush, the dispatcher emits that notice itself via an injected FlushReply (wired to OutcomeReplier.Reply) rather than returning it synchronously to the hub. Infra failures are logged, not surfaced — the inbound frame was ACKed long ago. The hub drains the batcher on graceful shutdown so a normal restart does not drop a pending window. Out of scope (owner-aligned): group-chat multi-speaker batching, restart recovery for the in-process window, and forwarded-sender real-name resolution. Co-authored-by: J <j@multica.ai> Co-authored-by: multica-agent <github@multica.ai> |
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5eba94ee25 |
feat(lark): inbound context enrichment — post / merge_forward / quoted-reply (MUL-2951) (#3724)
Expand an inbound Lark bot message's body before dispatch with the context
a user explicitly attached, so the agent sees a semantically complete
conversation instead of a bare "@bot 总结一下".
- post: flatten rich-text (title + paragraphs, links, @-mentions) to plain
text synchronously in the decoder.
- merge_forward: inline the forwarded transcript via a single GetMessage —
GET /open-apis/im/v1/messages/{id} returns the forward sentinel plus the
bundled children. (The issue's container_id_type=merge_forward query is
undocumented; this avoids it and also handles a forwarded quoted parent.)
- quoted reply: prepend the parent_id message as a <quoted_message> block;
a parent that is itself a forward nests a <forwarded_messages> block.
- new InboundEnricher runs in the WS connector between decode and emit,
bounded by EnrichTimeout and degrading to "[unable to fetch]" placeholders
so it never blocks the ~3s long-conn ACK budget.
/issue stays parseable on a quote-reply by parsing the command from the
user's own text (CommandBody) rather than the enriched body.
Short-window debounce batching (issue item #4) is tracked as a follow-up.
Co-authored-by: J <j@multica.ai>
Co-authored-by: multica-agent <github@multica.ai>
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8c98940b79 |
Lark Bot integration MVP: migration + service boundary (MUL-2671) (#3277)
* feat(db): add Lark integration migration (MUL-2671) Introduces seven tables for the 飞书 Bot integration MVP — per-agent PersonalAgent installations, user/chat bindings, inbound dedup + non-content drop audit, outbound card mapping, and short-lived single-use member binding tokens. Schema notes: - chat_session schema unchanged; Lark routes through a separate binding table rather than adding a metadata JSONB column. - Outbound card mapping is task/message scoped so multiple runs on the same session can't stomp each other's cards. - lark_inbound_audit stores routing / identity / drop_reason ONLY, never message body — the audit channel for unbound users and group messages that don't address the Bot. - app_secret stores ciphertext (encryption helper lands in a follow-up commit on this branch); DB never sees plaintext. Co-authored-by: multica-agent <github@multica.ai> * feat(util): add secretbox AES-256-GCM helper for at-rest secrets First consumer is lark_installation.app_secret (MUL-2671 §4.4), but the helper is intentionally generic — future per-tenant secrets that must not appear in a DB dump can reuse it. Construction: AES-256-GCM with a per-message random nonce, providing authenticated encryption. Tampered ciphertext fails Open instead of silently decrypting to garbage. Master key loaded from a base64 env var via LoadKey; key rotation is not in scope yet. Co-authored-by: multica-agent <github@multica.ai> * refactor(issues): extract IssueService.Create as single create entry (MUL-2671) Establishes the service-layer boundary mandated by Elon's 二审 of MUL-2671 §4.8: issue creation no longer lives inside the HTTP handler. Both the HTTP POST /issues handler and the future Lark /issue command call into service.IssueService.Create, so duplicate guard, issue numbering, attachment linking, broadcast, analytics, and agent/squad enqueue stay aligned. Handler responsibilities shrink to parsing the HTTP request, doing actor resolution / validation (transport-specific), and converting service results into the IssueResponse + 201. The transaction-wrapped core, attachment link, event publish, analytics capture, and agent/squad enqueue all move into service.IssueService.Create. A BroadcastPayload callback on the service keeps the WS broadcast shape (the full IssueResponse) without forcing the service to depend on handler-layer response types. Co-authored-by: multica-agent <github@multica.ai> * feat(integrations): add Lark package skeleton (MUL-2671) Establishes the architectural boundaries Elon's 二审 mandated as first-PR blockers without dragging in OAuth, WebSocket, or card-patching code (those land in follow-up PRs): - ChatSessionService interface — channel-aware chat-session entry point for Lark, deliberately separate from the HTTP SendChatMessage handler. The HTTP handler's single-creator guard (creator_id == request user_id) is correct for the browser client but rejects group chat_sessions by construction; Lark needs its own service. - AuditLogger interface — the only path for recording dropped events. Its signature deliberately omits message body, enforcing the drop-audit policy (MUL-2671 §4.7) at the type level: unbound users and non-addressed group messages can't accidentally end up in chat_session. - Typed IDs (OpenID, ChatID) prevent UUIDs from being conflated with Lark-side identifiers at compile time. - DropReason constants align dashboard/audit queries across callers. Co-authored-by: multica-agent <github@multica.ai> * refactor(issues): move parent/project workspace check into IssueService (MUL-2671) Parent existence and project workspace membership now live inside IssueService.Create, inside the same transaction as the duplicate guard and counter increment. The HTTP handler stops re-implementing the lookup; every future create entry (Lark /issue, MCP, API keys) inherits the same boundary without copy-pasting the SQL. Adds two error sentinels (ErrParentIssueNotFound, ErrProjectNotFound) so transports can translate to their own error shapes. Handler-level cross-workspace tests guard the boundary against future regressions. Co-authored-by: multica-agent <github@multica.ai> * fix(db): harden Lark migration safety底座 — TTL cap + workspace FK (MUL-2671) Two storage-layer hardenings that move the must-fix line off "the app layer enforces it" and onto the schema itself, so future write paths or hand-inserted rows cannot regress the invariants. 1) lark_binding_token TTL cap. The DB CHECK was 1 hour as defense-in-depth while the app constant was 15 minutes; the CHECK now matches the product cap (15 minutes). Application constant docstring updated to reflect that storage enforces the same bound. 2) lark_user_binding workspace membership. The table previously only FK'd to workspace / user / installation independently, so a binding could exist for a user no longer in the workspace, or claim a workspace different from its installation's. Two composite FKs close the gap structurally: * (installation_id, workspace_id) → lark_installation(id, workspace_id) — guarantees a binding's workspace_id always matches its installation's workspace_id. A new UNIQUE (id, workspace_id) on lark_installation is added as the FK target. * (workspace_id, multica_user_id) → member(workspace_id, user_id) with ON DELETE CASCADE — when a user is removed from the workspace, the binding cascades away in the same transaction. There is no longer a path where lark_user_binding outlives workspace membership. These two FKs are the schema-level proof for §4.3's "unbound or non-workspace members cannot leak content into chat_session" invariant. Co-authored-by: multica-agent <github@multica.ai> * feat(integrations/lark): inbound services + /issue dispatcher (MUL-2671) Lands the inbound service layer for the Lark Bot MVP, sitting on top of the migration + service-boundary scaffold from the previous commits. What ships: - sqlc queries for all seven lark_* tables (idempotent dedup insert, CAS WS-lease, single-use binding-token consume, etc.) plus GetMostRecentUserChatMessage for the /issue fallback. - AuditLogger backed by lark_inbound_audit; signature deliberately body-free so callers cannot leak content into the drop log. - ChatSessionService: find-or-create chat_session via the binding table (winner-takes-all on the UNIQUE race), append-with-dedup, /issue parser, "previous user message" fallback for bare `/issue` invocation. - Dispatcher orchestrates the inbound pipeline in one place: installation routing → group-mention filter → identity check → ensure session → append+dedup → /issue → enqueue chat task. Group sessions use the installer as creator (stable workspace identity); p2p uses the sender. Agent-offline path falls through with OutcomeAgentOffline so the WS adapter can reply with the offline notice from §4.6. - BindingTokenService: random URL-safe token, SHA-256 stored hash, 15-min TTL pinned at the application AND the DB CHECK; Redeem returns the same opaque error for all rejection cases (no timing oracle on replay). - Unit tests for the parser (13 cases), dispatcher (8 cases via fake Queries/Chat/Audit/IssueCreator/Enqueuer), and binding-token hash/entropy. Real-DB integration tests for OAuth + token redeem land alongside the HTTP handlers in the next commit. Out of scope for this commit (next ones on the same feature branch): OAuth callback, HTTP routes, WebSocket hub, outbound card patcher, frontend. Co-authored-by: multica-agent <github@multica.ai> * feat(integrations/lark): installation HTTP surface + secretbox-gated wiring (MUL-2671) Lands the HTTP boundary on top of the inbound services from the previous commit. What ships: - InstallationService.Upsert: the only path that writes lark_installation. Encrypts app_secret with the secretbox passed in at construction time; refuses to fall back to plaintext storage (returns an error from the constructor if no Box is supplied), so a misconfigured dev environment cannot accidentally land a row with cleartext credentials. Revoke flips status without DELETE so audit trail survives. - HTTP handlers under /api/workspaces/{id}/lark/: * GET /installations — member-visible (Integrations tab renders for non-admins). Soft 200 with empty list + configured:false when MULTICA_LARK_SECRET_KEY is unset, so the tab does not error on self-host that has not opted in. * POST /installations — admin-only; 503 when not configured. Re-validates agent_id ∈ workspace before accepting credentials so a cross-workspace agent UUID is rejected. * DELETE /installations/{id} — admin-only; workspace-scoped lookup so one workspace cannot revoke another's installation by UUID guess. - POST /api/lark/binding/redeem (user-scoped, no workspace context): the only path that mints a lark_user_binding row from user action. Redeemer identity comes from the session, not the token, so a stolen link cannot bind an open_id to an attacker's Multica user. The composite FK on lark_user_binding cascades the binding away if the user is not (or no longer) a workspace member, so a non-member who steals the link gets 403 at the DB layer. - Two new event-bus types in protocol.events: EventLarkInstallationCreated, EventLarkInstallationRevoked. - Router wiring: MULTICA_LARK_SECRET_KEY drives a conditional initialization of h.LarkInstallations + h.LarkBindingTokens. When unset, the integration disables itself with an INFO log and the rest of the server boots normally. - Handler tests cover all four not-configured short-circuits. Happy-path integration tests (real DB, full create→list→revoke cycle and token mint→redeem) ship alongside the WS hub PR. Co-authored-by: multica-agent <github@multica.ai> * fix(integrations/lark): close binding-token rebind & typed task errors (MUL-2671) Two must-fixes from PR review on HEAD |