mirror of
https://github.com/multica-ai/multica.git
synced 2026-07-06 05:49:12 +02:00
fix/table-wrapper-overflow
22 Commits
| Author | SHA1 | Message | Date | |
|---|---|---|---|---|
|
|
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>
|
||
|
|
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 |
||
|
|
f2f17e3355 |
Optimize chat message loading (#3685)
* Optimize chat message loading Co-authored-by: multica-agent <github@multica.ai> * Fix chat history cursor pagination Co-authored-by: multica-agent <github@multica.ai> * Fix chat session list remount key Co-authored-by: multica-agent <github@multica.ai> * fix(chat): fall back to legacy /messages when paged endpoint 404s Deployment-order compatibility: a backend deployed before the /messages/page endpoint existed returns 404 for the unknown route. The cursorless initial page now falls back to the legacy full-list /messages endpoint and wraps it in a single has_more:false page, so chat never white-screens regardless of which side deploys first. A 404 on a cursor request still propagates to avoid duplicating the full list. Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com> Co-authored-by: multica-agent <github@multica.ai> --------- Co-authored-by: multica-agent <github@multica.ai> Co-authored-by: Claude Opus 4.8 <noreply@anthropic.com> |
||
|
|
341ce7bfa5 |
feat: support local working directory for projects (MUL-2618 v1) (#3283)
* feat(project): add local_directory project_resource type (MUL-2662)
Adds a second project_resource type alongside github_repo so a project
can be pinned to an existing directory on a specific daemon (the v1 of
the local-working-directory flow tracked in MUL-2618). The ref schema is
{ local_path, daemon_id, label? }; local_path must be absolute and
daemon_id is required. The same (daemon_id, local_path) pair is allowed
on multiple projects by design — no UNIQUE constraint is added.
Implementation reuses the existing project_resource API surface: the new
type is wired through the validator switch with no migration, no new
events, and no daemon-handler changes (daemon already passes through
arbitrary resource types via ProjectResources). The CLI gains
--local-path / --daemon-id / --ref-label shortcuts so
`multica project resource add --type local_directory` mirrors the
existing `--type github_repo --url ...` ergonomics; the generic --ref
flag still works for both types.
Tests cover the full CRUD lifecycle, the same-path-across-projects
allowance, the same-path-same-project conflict, the validator rejections
(missing/blank/relative path, missing daemon_id, wrong payload type),
and the cross-platform isAbsoluteLocalPath helper.
Co-authored-by: multica-agent <github@multica.ai>
* feat(project): add update endpoint + label-shadow guard for project_resource (MUL-2662)
Addresses the Elon review on PR #3263:
- Add PUT /api/projects/{id}/resources/{resourceId} with sqlc query,
matching handler, CLI `project resource update`, and a new
EventProjectResourceUpdated WS event. resource_type stays immutable;
ref/label/position are all individually optional.
- Catch same-project (daemon_id, local_path) collisions where only the
embedded label differs — the row-level UNIQUE only matches the full
ref JSON, so a label typo would otherwise let the same working
directory bind twice.
- Tests cover the update lifecycle (label-only / ref / clear / 404 /
invalid path) and the label-shadow conflict on both create and
update; the in-place rename still succeeds because the conflict
scan ignores the row being edited.
Incidental: regenerating sqlc picked up a missing skills_local scan in
UpdateAgentCustomEnv that drifted in from #3200.
Co-authored-by: multica-agent <github@multica.ai>
* fix(project): close bundled-create label-shadow gap + merge resource_ref on CLI update (MUL-2662)
Two follow-ups from MUL-2662 review round 2:
- CreateProject inline resources path now dedupes local_directory entries on
(daemon_id, local_path) before opening the transaction. The DB-level
UNIQUE(project_id, resource_type, resource_ref) constraint only fires on a
full JSON match, so two rows with the same target but different `label`
would otherwise slip past. Standalone POST/PUT already cover this via
findLocalDirectoryConflict; bundled create was the missing surface.
- `multica project resource update` now seeds resource_ref from the existing
row before applying per-type shortcut flags, so `--default-branch-hint x`
on its own no longer constructs a payload missing `url` (which the server
400s on). Local_directory partial edits get the same merge behavior.
Co-authored-by: multica-agent <github@multica.ai>
* feat(desktop): local_directory project_resource UI (MUL-2665) (#3273)
* feat(desktop): local_directory project_resource UI (MUL-2665)
First UI surface for the local-working-directory flow tracked in MUL-2618.
Lets users on the desktop pin a project to an existing folder on this
machine; web stays read-only since the per-daemon check can't be done in
the browser.
What's new for the renderer:
- ProjectResourcesSection grows a desktop-only "Add local directory"
button next to the existing GitHub-repo popover. Clicking it opens
Electron's native folder picker, validates the path through a new
IPC pair (existence + r/w), and submits a project_resource of
resource_type=local_directory with daemon_id pulled live from
daemonAPI.getStatus.
- LocalDirectoryRow renders the rename pencil + path tooltip, and
greys out when ref.daemon_id != this machine's daemon_id (with a
"only available on the machine that registered this directory"
tooltip). Delete stays enabled so users can drop stale registrations
from any device.
- LocalDirectoryHint sits above the issue-detail comment composer and
shows "Agent will work in-place at {label} ({path})" when the issue's
project has a local_directory matching this daemon. Hidden on web.
- TaskStatusPill picks up a new "waiting_for_directory_release" stage
that the daemon will publish when it dequeues a task but can't
acquire the path lock. The render is in place now so the daemon
sibling subtask can wire the status string without an additional UI
PR.
Plumbing:
- @multica/core/types gains LocalDirectoryResourceRef +
UpdateProjectResourceRequest, and the api client gets the matching
PUT method backed by the server endpoint that landed in
|
||
|
|
1c91c2a3b2 |
security(db): scope DELETE/UpdateIssueStatus by workspace_id (defense-in-depth) (#3027)
* fix(security): scope DELETE/UpdateIssueStatus by workspace_id Add workspace_id to the WHERE clause of DeleteIssue, DeleteComment, DeleteProject, DeleteSkill, DeleteChatSession, and UpdateIssueStatus as SQL-layer defense-in-depth. Handler loaders (loadIssueForUser / loadSkillForUser / etc.) already enforce workspace membership today, so this is not patching a known live vuln. But the tenant invariant is currently a handler-layer guarantee — a future loader bypass or a new caller skipping the loader would be silently catastrophic. Making workspace_id part of the SQL identity collapses the trust surface to the schema itself: forging a sibling-workspace UUID becomes ErrNoRows instead of a cross-tenant write. Reference: incident #1661 (util.ParseUUID silent zero UUID returning 204 on a DELETE that matched zero rows) — same class of failure, prevented at a different layer. Scope: - 5 DELETE queries: issue, comment, project, skill, chat_session - 1 simple UPDATE: UpdateIssueStatus (2 narg, no SET ordering risk) - All callers updated (handlers, service, runtime sweeper fallback) Multi-narg UPDATE queries (UpdateIssue, UpdateProject, UpdateSkill, UpdateComment, UpdateChatSession*) are deferred to a follow-up to keep this change reviewable: each needs its narg pinning shifted and per-caller verification. sqlc was regenerated by hand (no local sqlc toolchain); CI's backend job is the authoritative compile check. * test(security): add workspace_scope_guard regression test Locks in the SQL-layer tenant guard added in this PR. For each of the 6 scoped queries (DeleteIssue, DeleteComment, DeleteProject, DeleteSkill, DeleteChatSession, UpdateIssueStatus), creates the resource in workspace A, invokes the query with a foreign workspace UUID, and asserts the row is untouched (0 rows affected with no error for :exec; pgx.ErrNoRows for :one). A future refactor that drops the workspace_id arg from any of these queries will now fail loudly instead of silently regressing. Includes a sanity sub-test that the in-workspace path still mutates, so a buggy guard that returns no-op for every call would not pass. Co-Authored-By: Claude Opus 4 <noreply@anthropic.com> --------- Co-authored-by: Tom Qiao <tomqiaozc@users.noreply.github.com> Co-authored-by: Claude Opus 4 <noreply@anthropic.com> |
||
|
|
5bacfd9742 |
MUL-2526 feat: add member(user_id, workspace_id) index + upgrade sqlc to v1.31.1 (#3046)
- Add migration 106: CREATE INDEX CONCURRENTLY on member(user_id, workspace_id) - Rewrite ListWorkspaces to drive from member table with explicit fields - Regenerate all sqlc code with v1.31.1 (intentional version upgrade) Co-authored-by: multica-agent <github@multica.ai> |
||
|
|
2f1f90c11a | fix(agent): retry codex semantic inactivity fresh (#2593) | ||
|
|
319b23eb39 |
Revert "feat(task): add claim lease mechanism (Phase 2, MUL-2246) (#2660)" (#2674)
This reverts commit
|
||
|
|
3137feecdf |
feat(task): add claim lease mechanism (Phase 2, MUL-2246) (#2660)
Add claim_token + claim_expires_at columns to agent_task_queue and three new SQL queries for the claim lease protocol: - ClaimAgentTaskWithLease: generates a UUID token and sets a lease expiry when claiming a task, so the daemon must prove it received the response - StartAgentTaskWithClaimToken: validates the token on StartTask, preventing stale daemons from starting requeued tasks - RequeueExpiredClaimLeases: moves dispatched tasks with expired leases back to queued for re-claim This closes the reliability gap where a claim response lost in transit leaves a task stuck in dispatched until the 60s dispatch timeout fires. Co-authored-by: multica-agent <github@multica.ai> |
||
|
|
4d6b5ad06f |
fix(squad): wake leader when dual-role agent posts as worker (MUL-2218) (#2626)
* fix(squad): wake leader when dual-role agent posts as worker (MUL-2218) The squad-leader self-trigger guard skipped a comment whenever the author equalled the squad's leader id, regardless of the role the agent was acting in. For an agent that holds both leader and worker roles in the same squad, this meant the leader role never reacted to its own worker output and the issue stalled. Tag each enqueued task with is_leader_task and consult the agent's most recent task on the issue from both self-trigger guards (comment path + @squad mention path) — skip only when that task was itself a leader task. Co-authored-by: multica-agent <github@multica.ai> * fix(squad): inherit is_leader_task on retry task clone (MUL-2218) CreateRetryTask cloned a parent task into a fresh queued attempt but omitted is_leader_task from the column list, so the child silently fell back to the column default (false). For a leader task that hit auto-retry through MaybeRetryFailedTask, the retried task posed as a worker task — the self-trigger guard then no longer recognised the leader's own comments, re-opening the very loop MUL-2218 closes. Inherit p.is_leader_task in the clone and add a query-level test that covers both leader and worker retries. Co-authored-by: multica-agent <github@multica.ai> --------- Co-authored-by: multica-agent <github@multica.ai> |
||
|
|
250ada1fb3 |
chore(db): drop unused agent_task_queue.last_heartbeat_at (#2212)
Drops the unused agent_task_queue.last_heartbeat_at column and removes the hot-path task heartbeat write. |
||
|
|
60b215f44f |
feat(chat): support deleting chat sessions (#2115)
* feat(chat): support deleting chat sessions
Replaces the unreachable archive endpoint with a real hard delete and
exposes it from the chat history panel.
- DELETE /api/chat/sessions/{id} now hard-deletes the session and its
messages (CASCADE), cancels any in-flight tasks before removal so the
daemon doesn't keep running work whose result has nowhere to land,
and broadcasts chat:session_deleted.
- Frontend adds a per-row delete button with a confirmation dialog,
optimistically drops the session from both list caches, and clears the
active session pointer locally + on other tabs via the WS handler.
Co-authored-by: multica-agent <github@multica.ai>
* fix(chat): make session delete atomic and keep archived sessions read-only
Address review feedback on #2115.
- DeleteChatSession now runs lock + cancel + delete in a single tx and
only broadcasts events post-commit. The new LockChatSessionForDelete
query takes FOR UPDATE on chat_session, which blocks the FK validation
of any concurrent SendChatMessage trying to enqueue a task for this
session — that insert fails after we commit, so it can no longer
produce an orphaned task whose chat_session_id is nulled by
ON DELETE SET NULL. Cancel failure now aborts the delete instead of
warn-and-continue.
- SendChatMessage refuses non-active sessions again. The archive code
path is gone, but legacy rows with status='archived' may still exist
in the DB; keep the guard until we explicitly migrate them.
- Frontend re-reads allChatSessionsOptions to disable ChatInput on
legacy archived sessions so the UX matches the server-side guard.
Co-authored-by: multica-agent <github@multica.ai>
---------
Co-authored-by: multica-agent <github@multica.ai>
|
||
|
|
cf47d9b702 | fix: guard session resume by runtime (#1905) | ||
|
|
b1345685a3 |
fix(task): rerun starts a fresh session, skip poisoned resume (#1928)
* fix(task): rerun starts a fresh session, skip poisoned resume
When a task ended in a known agent fallback ("I reached the iteration
limit and couldn't generate a summary.", "Put your final update inside
the content string. Keep it concise.") the (agent_id, issue_id) resume
lookup would still pick that session, so a manual rerun inherited the
poisoned state and reproduced the same bad output.
Two complementary guards:
1. Daemon classifies poisoned terminal output and routes it through the
blocked path with failure_reason set ('iteration_limit' /
'agent_fallback_message'). GetLastTaskSession excludes failed tasks
with those reasons, so even comment-triggered tasks no longer resume
them. Tasks that failed mid-flight (timeout, runtime_recovery, etc.)
are still resumable, preserving MUL-1128's auto-retry contract.
2. Manual rerun marks the new task force_fresh_session=true. The daemon
claim handler skips the resume lookup entirely when the flag is set,
capturing the user-intent signal that "the prior output was bad" even
when poisoned classification misses a future fallback wording.
Auto-retry of orphaned mid-flight failures (MaybeRetryFailedTask →
CreateRetryTask) does not take this path, so it keeps resuming.
Tests: classifyPoisonedOutput unit test; integration tests assert the
SQL filter excludes poisoned classifiers, RerunIssue flips the flag,
and the normal enqueue path leaves it false.
Co-authored-by: multica-agent <github@multica.ai>
* fix(daemon): cap poisoned-output matcher to short trimmed text
GPT-Boy review on MUL-1630: the previous strings.Contains match would
classify any output that quoted the marker substring — including a
review/analysis that simply discussed the marker itself. Real fallback
messages are short single-sentence affairs, so cap the candidate at
~one paragraph and trim whitespace before matching. Adds regression
tests covering a long quoting review and a marker buried in a long
real conclusion; both must stay classified as completed.
Co-authored-by: multica-agent <github@multica.ai>
* fix(migrations): rename 065 force_fresh_session → 066 to clear collision
main introduced 065_project_resources after this branch was cut, so
both files shared the 065_ prefix. The readiness check
(server/cmd/server/health.go → migrations.LatestVersion) takes the
last entry by lexical order, which is 065_project_resources, leaving
this branch's 065_force_fresh_session unguarded — a deploy that
applied project_resources but not force_fresh_session would still
report ready, and the next enqueue / rerun / claim would crash on
"column force_fresh_session does not exist".
Renaming to 066_force_fresh_session puts it strictly after
project_resources so readiness blocks until it's applied.
Co-authored-by: multica-agent <github@multica.ai>
---------
Co-authored-by: multica-agent <github@multica.ai>
|
||
|
|
4ad0a0b847 |
feat(chat): presence v4 — status pill, failure bubble, elapsed timing (#1856)
A complete UX upgrade for chat sending → receiving → recovering.
* StatusPill replaces the orphan spinner — stage-aware copy
("Reading files · 12s", "Searching the web · 14s", "Typing · 24s"),
shimmer text, monotonic timer, derived effective status, > 60s
warning tone, > 5min cancel button.
* WS writethrough on task:queued / task:dispatch / task:cancelled so
pendingTask cache stays in sync with the daemon state machine without
invalidate-refetch latency. broadcastTaskDispatch now includes
chat_session_id when the task is for a chat session — the existing
payload only carried it on the generic task: events, leaving the pill
stuck at "Queued" until completion.
* Failure fallback — FailTask writes a chat_message tagged with
failure_reason (mirrors the issue path's system comment, gated on
retried==nil). Front-end renders an inline note ("Connection failed",
with a Show details collapsible) instead of the previous black hole.
* Elapsed timing — chat_message.elapsed_ms persists task.completed_at -
task.created_at on success/failure rows. UI shows "Replied in 38s" /
"Failed after 12s" beneath assistant bubbles. Format helper shared
between StatusPill and the persisted caption so the live timer and
final reading never disagree.
* Optimistic burst rebalanced — pendingTask seed + created_at moved
before the HTTP roundtrip so the pill appears the instant the user
hits send; handleStop is fire-and-forget so cancel feels immediate
(server confirmation arrives via task:cancelled WS).
* Presence integration — chat avatars use ActorAvatar (status dot +
hover card); OfflineBanner above the input on offline/unstable;
SessionDropdown shows per-row in-flight/unread pip plus a
cross-session aggregate pip on the closed trigger.
* Editor blur on send so the caret stops competing with the StatusPill
/ streaming reply for the user's attention.
* Chat panel isOpen now persists globally; defaults to OPEN for new
users (storage key absence) so the feature is discoverable. Existing
users' prior choice is respected.
* DB: migrations 062 (failure_reason) + 063 (elapsed_ms), both
ADD COLUMN NULL — fast, non-blocking, backwards compatible.
* WS: task:failed chat path now invalidates chatKeys.messages — fixes
a pre-existing bug where the failure bubble required a page refresh
to appear.
Co-authored-by: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
|
||
|
|
f745a3bbbe |
feat(agent): presence v3 + execution log + trigger summary (#1823)
* refactor(views): migrate agent/runtime/skill lists to TanStack DataTable
Replace the per-page CSS Grid + minmax(min, fr) + sticky-first-col + truncate
implementation with a TanStack Table backend rendered through a Dice UI-style
DataTable shell. Column widths are now px-based via column.size, so cells
no longer shrink or auto-truncate as the viewport narrows; when the sum of
columns exceeds the viewport, the container scrolls horizontally instead.
- Add @tanstack/react-table to the catalog (8.21.3) and wire it into
packages/ui (dep) and packages/views (peerDep).
- packages/ui: new DataTable + DataTableColumnHeader + lib/data-table.ts
(getColumnPinningStyle), adapted from Dice UI's registry. The shell
renders <table> directly (skipping shadcn's <Table> wrapper) so its own
outer overflow controls both axes — no nested overflow conflicts.
- packages/views: each list now declares ColumnDef[] with explicit
cell renderers. Row click navigates to detail via onRowClick (instead of
wrapping <tr> in <a>, which is invalid HTML); kebab dropdowns
stopPropagation so they don't trigger the row navigation.
- Drop the previous AGENT_LIST_GRID / GRID_WITH_OWNER / ROW_GRID
templates and the sticky-first-col / subgrid mechanics that came with
them. agent-list-item.tsx is removed; runtime-list.tsx and
skills-page.tsx are trimmed to thin wrappers.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
* feat(agent): cap description at 255 chars (db + api + ui)
Symmetric enforcement across DB, server, and UI:
- Migration 060: pre-flight truncate of any oversize rows, then ADD
CONSTRAINT NOT VALID + VALIDATE CONSTRAINT so the new check doesn't
block writes during validation.
- Server handler validates utf8.RuneCountInString on Create/Update and
rejects over-limit input with 400.
- Front-end gets AGENT_DESCRIPTION_MAX_LENGTH in core/agents/constants
(single source of truth shared by the create dialog + edit modal +
test suite) and a CharCounter component that warns at 90% and errors
past the cap.
- Description editor moves from a 288px popover to a roomy modal.
Editor body is mounted only while the dialog is open, so the local
draft state is locked in at mount time and never reset by an external
WS update — the React-recommended replacement for the
useEffect(reset, [value]) anti-pattern.
Counted in code points everywhere (rune count / spread length /
char_length) so multibyte input agrees across all three layers.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
* refactor(views): data-table polish across runtime + skill lists
Builds on the DataTable migration in
|
||
|
|
0b1333fb00 |
feat(server): orphan-task recovery + auto-retry + manual rerun (MUL-1128) (#1476)
* feat(server): orphan-task recovery + auto-retry + manual rerun (MUL-1128)
When the daemon process crashed mid-task the issue was stuck at
in_progress for up to 2.5h: the in-flight task timeout was the only
mechanism that ever moved the row, and the runtime heartbeat sweeper
only fires after the runtime stays offline for 45s — a quick restart
beats both windows.
This change implements the A+B plan from the issue thread:
A. lifecycle hygiene
- migration 055 adds attempt / max_attempts / parent_task_id /
failure_reason / last_heartbeat_at to agent_task_queue
- new daemon-auth endpoint POST /runtimes/{id}/recover-orphans:
daemon calls it on every register so the server fails any
dispatched/running tasks the previous process left behind
- new daemon-auth endpoint POST /tasks/{id}/session: persists the
agent's session_id + work_dir mid-flight so a crash doesn't
lose the resume pointer (claude+codex emit MessageStatus with
SessionID; daemon forwards on the first one it sees)
- FailAgentTask / FailStaleTasks / FailTasksForOfflineRuntimes
now set failure_reason ('agent_error' / 'timeout' /
'runtime_offline')
B. auto-retry with resume context
- TaskService.MaybeRetryFailedTask spawns a fresh queued attempt
carrying parent's session_id/work_dir when the failure reason
is infrastructure-shaped (timeout, runtime_offline,
runtime_recovery) and attempt < max_attempts; skips autopilot
- wired into the runtime sweeper paths and TaskService.FailTask
so the user transparently sees a new in_progress run instead of
a stuck row
- new user-auth POST /api/issues/{id}/rerun + multica issue rerun
CLI for the manual escape hatch
Co-authored-by: Copilot <223556219+Copilot@users.noreply.github.com>
* fix(server): address PR review for orphan-task recovery (MUL-1128)
Three review-must-fix items on top of the A+B implementation:
1. recover-orphans now funnels through TaskService.HandleFailedTasks,
the same shared post-failure pipeline used by the runtime sweeper.
This guarantees task:failed events are emitted, agent status is
reconciled, and issues stuck in_progress with no remaining active
task are reset to todo even when no auto-retry is created
(max_attempts exhausted, autopilot, non-retryable reason).
2. RerunIssue now uses CancelAgentTasksByIssueAndAgent, scoped to the
issue's current assignee. The previous implementation called
CancelAgentTasksByIssue, which would collateral-cancel parallel
@-mention agents on the same issue.
3. GetLastTaskSession now considers both completed and failed tasks
(mirroring GetLastChatTaskSession), ordering by the most recent
timestamp. With UpdateAgentTaskSession pinning session_id/work_dir
mid-flight, an auto-retry or manual rerun of a daemon-crash failure
now actually resumes the prior conversation context instead of
starting fresh — matching the stated B-branch behaviour.
go build / go vet pass; the existing service and agent test suites pass.
runtime_sweeper / handler integration tests require a local DB with the
055 migration (and the pre-existing 050 first_executed_at column).
Co-authored-by: Copilot <223556219+Copilot@users.noreply.github.com>
---------
Co-authored-by: Copilot <223556219+Copilot@users.noreply.github.com>
|
||
|
|
5fa1da448f |
fix(chat): preserve chat session resume pointer across failures (#1360)
* fix(chat): preserve chat session resume pointer across failures The chat 'forgets earlier messages' bug came from PriorSessionID being silently lost in several edge cases: - UpdateChatSessionSession unconditionally overwrote chat_session.session_id, so any task that completed without a session_id (early agent crash, missing result) wiped the resume pointer to NULL. - CompleteAgentTask + UpdateChatSessionSession ran in separate calls. A follow-up chat message claimed in between resumed against a stale (or NULL) session and started over. - FailAgentTask never wrote session_id back, so a task that established a real session before failing lost its resume pointer. - ClaimTaskByRuntime only trusted chat_session.session_id and never fell back to the existing GetLastChatTaskSession query, so a single bad turn could permanently drop the conversation memory. This change: - Use COALESCE in UpdateChatSessionSession so empty inputs preserve the existing pointer; surface DB errors instead of swallowing them. - Run CompleteAgentTask/FailAgentTask + UpdateChatSessionSession inside the same transaction (TaskService now takes a TxStarter). - Extend FailAgentTask + the daemon FailTask path (client, handler, service) to forward session_id/work_dir, so failed/blocked tasks that built a real session still record it. - Fall back to GetLastChatTaskSession in ClaimTaskByRuntime when the chat_session pointer is missing, and include failed tasks in that lookup so a single failure can't lose the conversation. Co-authored-by: Copilot <223556219+Copilot@users.noreply.github.com> * fix(daemon): forward session_id/work_dir on blocked + timeout paths runTask previously dropped result.SessionID and env.WorkDir on the non-completed return paths: - timeout returned a naked error, so handleTask called FailTask with empty session info and the chat resume pointer was either left stale or eventually overwritten with NULL. - blocked / failed (default branch) returned a TaskResult without SessionID / WorkDir, so even though FailTask now COALESCEs into chat_session, there was no value to write through. - the empty-output completion path was the same: it raised an error even when a real session_id had been built. All three paths now return a TaskResult that carries the SessionID / WorkDir the backend produced. Combined with the COALESCE-based update in UpdateChatSessionSession and the FailTask plumbing introduced in PR #1360, the next chat turn can always resume from the latest agent session — even when the previous turn timed out, was rate-limited, or returned an empty completion — instead of starting over with no memory of the conversation. Co-authored-by: Copilot <223556219+Copilot@users.noreply.github.com> * fix(copilot): capture session id from session.start as fallback The Copilot backend only read sessionId from the synthetic 'result' event, ignoring the one already present on session.start. When the CLI was killed before result arrived (timeout, cancel, crash, or a session.error mid-turn), the daemon reported SessionID="" and the chat-session resume pointer could not advance — causing the chat to silently drop conversation memory on the next turn. Capture session.start.sessionId into state up front, and only let 'result' overwrite it when it actually carries one. result still wins when present (it is the authoritative end-of-turn record). Co-authored-by: Copilot <223556219+Copilot@users.noreply.github.com> * fix(copilot): parse premiumRequests as float to preserve session id Copilot CLI v1.0.32 serializes premiumRequests as a float (e.g. 7.5), not an integer. Our copilotResultUsage struct typed it as int, which made the entire 'result' line fail json.Unmarshal — silently dropping sessionId on every turn. This was the real cause of chat memory loss: the daemon reported SessionID="" to the server, chat_session.session_id stayed NULL, and the next chat turn never received --resume <id>, so each turn started a fresh Copilot session with no prior context. Add a regression test using the real JSON line from CLI v1.0.32 that asserts sessionId is preserved when premiumRequests is fractional. Co-authored-by: Copilot <223556219+Copilot@users.noreply.github.com> --------- Co-authored-by: Devv <devv@Devvs-Mac-mini.local> Co-authored-by: Copilot <223556219+Copilot@users.noreply.github.com> Co-authored-by: Eve <eve@multica.ai> Co-authored-by: yushen <ldnvnbl@gmail.com> |
||
|
|
d88fe2608e |
feat(autopilot): scheduled/triggered automations for AI agents (#1028)
* feat(autopilot): add scheduled/triggered automation for AI agents Introduce the Autopilot feature — recurring automations that assign work to AI agents on a schedule or manual trigger. Supports two execution modes: create_issue (creates an issue for the agent to work on) and run_only (directly enqueues an agent task without issue pollution). Backend: migration (3 tables + 2 columns), sqlc queries, AutopilotService with concurrency policies (skip/queue/replace), HTTP CRUD + trigger endpoints, background cron scheduler (30s tick), event listeners for issue→run and task→run status sync. Frontend: types, API client methods, TanStack Query hooks with optimistic mutations, realtime cache invalidation, list page with create dialog, detail page with trigger management and run history, sidebar nav + routes for both web and desktop apps. * feat(autopilot): improve UX — trigger config, edit dialog, template gallery - Replace raw cron input with friendly frequency tabs (Hourly/Daily/Weekdays/Weekly/Custom), time picker, and timezone dropdown defaulting to user's local timezone - Fix Select components showing UUIDs instead of names (Base UI render function pattern) - Add Edit button on detail page opening a unified edit dialog - Remove project/concurrency/issue-title-template from create/edit (simplify for users) - Add trigger configuration inline during autopilot creation - Add template gallery on empty state (6 step-by-step workflow templates) - Rename "Description" to "Prompt" throughout UI - Inject autopilot run timestamp into issue description for agent date awareness - Treat issue status "in_review" as run completion (fixes skip on next trigger) - Make migration idempotent with IF NOT EXISTS clauses |
||
|
|
a744cd4f45 |
feat(chat): redesign state, header, and unread tracking
State management - Pending task / live timeline are now Query-cache single source; Zustand mirror removed (fixes duplicate assistant render caused by the invalidate→refetch race window) - WS subscriptions moved from ChatWindow to global useRealtimeSync so pending state survives minimize and refresh - New GET /chat/sessions/:id/pending-task to recover live state on mount - Drafts persisted per-session (was per-workspace) Unread tracking - Migration 040: chat_session.unread_since (event-driven; old chats stay clean — no mass backfill) - POST /chat/sessions/:id/read clears unread; broadcasts chat:session_read so other devices sync - New GET /chat/pending-tasks aggregate for the FAB - ChatFab: brand-color impulse animation while running, brand-dot badge of unread session count - ChatWindow auto-marks read when user is viewing the session Header redesign - Two independent dropdowns: agent (avatar + name + My/Others grouping) at the input bottom-left; session (title + agent avatar) in the header - ⊕ new-chat button replaces the old + and history buttons - Session dropdown lists all sessions across agents with avatars - Empty state: 3 clickable starter prompts that send immediately - Mention link renderer falls through to default span on null — fixes @member/@agent/@all silently disappearing app-wide - User messages render through Markdown - Enter submits in chat input only (with IME guard + codeBlock skip); bubble menu hidden in chat Misc - Partial index on agent_task_queue for fast pending-task lookup - 2 new storage keys added to clearWorkspaceStorage - useMarkChatSessionRead has onError rollback - chat.* namespace logs across store, mutations, components, realtime Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com> |
||
|
|
25080c6719 |
feat(chat): add session history panel to view archived conversations (#602)
Support viewing historical/archived chat sessions in the Master Agent chat window. Previously, only active sessions were visible and archived ones were permanently hidden. Changes: - Add ListAllChatSessionsByCreator SQL query (no status filter) - Add ?status=all query param to GET /api/chat/sessions endpoint - Add history button in chat header that opens a session list panel - Sessions grouped by Active/Archived with archive action on active ones - Clicking an archived session loads its messages in read-only mode - Chat input disabled with "This session is archived" placeholder Co-authored-by: Claude Opus 4.6 (1M context) <noreply@anthropic.com> |
||
|
|
50f9e673e8 |
feat(chat): add agent chat feature (full stack)
Implement the Master Agent chat feature allowing users to chat with agents directly from a floating window, separate from the issue-based workflow. Backend: - New chat_session and chat_message tables (migration 033) - Make issue_id nullable on agent_task_queue for chat tasks - REST API: create/list/get/archive sessions, send/list messages - EnqueueChatTask in TaskService with session_id persistence - WS events: chat:message, chat:done - Daemon: chat task type with separate prompt builder - ClaimTaskByRuntime populates chat context (session, message, repos) Frontend: - ChatSession/ChatMessage types + API client methods - core/chat: TanStack Query options, mutations with optimistic updates, WS updaters - features/chat: Zustand store, ChatFab (floating button), ChatWindow with real-time streaming via task:message events - Mounted in dashboard layout (bottom-right corner) Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com> |