mirror of
https://github.com/multica-ai/multica.git
synced 2026-07-17 15:19:00 +02:00
* feat(daemon-claim): machine-level batch task claim endpoint (MUL-4257) Collapse the per-runtime /tasks/claim poll fan-out into a single machine-level batch claim to cut /api/daemon claim request volume. Server: - agent.sql: = ANY(runtime_ids) batch variants of the claim queries (ListQueuedClaimCandidatesByRuntimes, PromoteDueDeferredTasksForRuntimes, ReclaimStaleDispatchedTasksForRuntimes); runtime.sql: GetAgentRuntimes(= ANY) so a whole machine's runtimes are resolved/promoted/reclaimed/listed in a constant number of queries instead of N. - service.ClaimTasksForRuntimes: claim up to max_tasks across a runtime set, preserving per-(issue,agent) serialization, the concurrency cap, the empty-claim cache short-circuit, and every dispatch side effect. Batch promote replays the per-row side effects (task:queued + empty-cache Bump). - handler.ClaimTasksByRuntime (canonical POST /api/daemon/tasks/claim, with a transitional /claim alias): validates daemon_id (required; must match the mdt_ token) and rejects runtimes bound to a different daemon (group-ownership check mirroring the WS path); resolves+authorizes each runtime_id; claims; and finalizes each task through the SAME FinalizeTaskClaim as the per-runtime endpoint (atomic token + delivered_comment_ids receipt), requeueing the exact claim and omitting it on failure. buildClaimedTaskResponse is extracted from the per-runtime handler and returns the delivered-comment ids plus a structured *claimBuildFailure so both paths share identical payload building and failure semantics (workspace-isolation, chat-input load/empty). - max_tasks: negative -> 400, zero -> empty (never coerce to 1), positive capped at 32. runtime_ids parsed with non-panicking util.ParseUUID. Daemon: - Client.ClaimTasks posts daemon_id + runtime set + free-slot count to the canonical path under a short request-scoped timeout, bounding the head-of-line coupling the per-runtime pollers avoid (MUL-1744). Tests: service batch drain / max_tasks cap / deferred-promote receipt / finalize-failure rollback+requeue; handler routing + token, cross-workspace skip, cross-daemon skip, daemon_id required, owner-missing cancel, max_tasks=0/negative, invalid-uuid skip, comment delivery receipt, stale-reclaim replacement receipt; client posts/parses (daemon_id + canonical path). Follow-up: cut the daemon pollLoop over to a single batched poller (flips the MUL-1744 isolation contract; needs its concurrency tests redesigned). Co-authored-by: multica-agent <github@multica.ai> * feat(daemon-ws): generic WS request/response transport for daemon RPC (MUL-4257) Add a generic daemon->server request/response layer over the existing WS control connection, the transport for WS-first claim (HTTP fallback): - protocol: daemon:rpc_request / daemon:rpc_response envelopes with a correlation request_id + method + body, and an rpc-v1 capability gate. - daemonws.Hub: SetRPCHandler + goroutine-dispatched handleRPCFrame (bounded by a per-connection in-flight cap) that echoes the request_id; missing handler / saturation return non-2xx so the daemon falls back to HTTP. Read limit raised to 64KB for rpc requests carrying a runtime set. - hub tests: round-trip, handler-error->non-2xx, no-handler->503. Co-authored-by: multica-agent <github@multica.ai> * feat(daemon-ws): WS-first task claim over the generic RPC transport (MUL-4257) Bind claim to the WS request/response layer, with HTTP fallback: - server: handler.DaemonRPCHandler adapts a daemon:rpc_request (method tasks.claim) to the existing HTTP ClaimTasksByRuntime via a synthetic in-process request carrying the WS connection's identity (daemon_id + workspace + capabilities), so all auth / payload-building / finalization is reused unchanged. Wired via daemonHub.SetRPCHandler. ClientIdentity now captures X-Client-Capabilities so capability gating matches the HTTP path. - daemon: wsRPCClient correlates responses by request_id over the shared WS connection; attached to the live connection's write channel (guarded so a Call racing teardown never sends on a closed channel) and detached on disconnect. rpc_response frames are routed in the read loop. Daemon.ClaimTasksWSFirst issues tasks.claim over WS and falls back to the HTTP claim endpoint on any transport failure (no conn / buffer full / timeout) — wired into the poller at the poller cutover. - tests: handler tasks.claim RPC end-to-end (claims + dispatches) + unknown method 404; daemon wsRPCClient round-trip / timeout / unavailable / server-error / detach-fails-pending (all under -race). Co-authored-by: multica-agent <github@multica.ai> * feat(daemon): cut claim poller over to machine-level ClaimTasksWSFirst (MUL-4257) Replace the per-runtime HTTP poll loop with a single batch poller: each cycle acquires all free execution slots (slot-before-claim) and issues ONE ClaimTasksWSFirst across every runtime the daemon hosts (WS-first, HTTP fallback), dispatching each returned task to its runtime. Wakeups (targeted / catch-up / runtime-set change) collapse to one nudge. Removes runRuntimePoller + runtimePollOffset. The WS handshake now advertises the same capabilities as HTTP (+ rpc-v1) so WS-built claim payloads keep skill-ref / coalesced-comment gating. Trades per-runtime isolation (MUL-1744) for one request, bounded by the short per-request WS timeout / client timeout. Tests: batch poller claims across runtimes + skips-at-capacity + pollLoop shutdown drain (replacing the per-runtime poller tests); heartbeat isolation + runtime-set watcher kept. Co-authored-by: multica-agent <github@multica.ai> * fix(daemon-ws): WS RPC disconnect-race panic + batch stale-comment-plan repair (MUL-4257) Two PR #5193 review blockers: 1) WS RPC send-on-closed-channel race, both ends: - server: give each connection a cancelable ctx (cancelled on readPump teardown) and run the RPC handler under it, so a slow claim stops on disconnect; guard c.send with sendMu/sendClosed (trySend) so a late RPC response goroutine never writes to the closed channel. Heartbeat ack routed through the same guard. - daemon: wsRPCClient.deliver now sends under the mutex, serialized with attach(nil)'s close+delete, so a delivered response can't hit a channel the detach path just closed. - regressions (-race): daemon deliver-vs-detach; server disconnect-during-handler-response. 2) batch claim now runs the stale-comment-plan repair: extracted the per-runtime handler's repair (trigger deleted, only coalesced survive -> cancel + replay survivors) into shared repairStaleCommentPlanIfNeeded, called by both claim paths. Prevents the batch path (now the default poller) from finalizing+dispatching a task with no comment input and silently dropping the surviving user comment. Regression: batch omits the stale task, cancels it, and rebuilds the survivor into a new trigger plan. Co-authored-by: multica-agent <github@multica.ai> * fix(daemon-ws): server-side RPC deadline + legacy claim fallback (MUL-4257) Two review blockers: 1) WS RPC timeout/fallback (GPT-Boy): the daemon's WS wait didn't cancel server-side claim, so a slow WS claim could commit after the daemon fell back to HTTP, leaking dispatched tasks and breaking the free-slot bound. Fix: RPC envelope carries TimeoutMs; the server bounds the handler ctx by it (so ClaimTasksByRuntime's tx is cancelled/rolled back at the deadline), and the daemon waits budget + grace so a claim that committed before the deadline still reports back. A committed-then-unreported claim degrades to the same stale-reclaim safety net as HTTP, never a double effective claim. Regression: server-side TimeoutMs cancels the handler. 2) Backward compat (Terra-Boy): a new daemon against a server without the batch route (/api/daemon/tasks/claim 404) couldn't claim. Fix: ClaimTasksWSFirst falls back to the legacy per-runtime ClaimTask loop on a batch 404 and caches 'batch unsupported' (reset on WS reconnect to re-probe after a server upgrade). Regression: server exposing only the legacy route. Co-authored-by: multica-agent <github@multica.ai> * fix(daemon-ws): no double-claim on WS teardown/detach (MUL-4257) Sol-Boy review blocker: on reconnect, teardown failed the pending RPC (→ HTTP fallback) but then flushed the queued tasks.claim frame to the still-alive socket, so the server committed the WS claim on top of the HTTP one — double claim, WS batch orphaned to stale reclaim, breaking the free-slot bound. - Teardown now closes the connection FIRST, so runWSWriter discards the queued RPC frame (write error path) instead of delivering it. - A detach while a claim's frame is already in flight now returns a distinct errWSRPCUncertain; ClaimTasksWSFirst does NOT HTTP-fall-back on uncertain (the WS claim may have committed) — it skips the cycle and lets reclaim / the next poll recover. Genuine 'not sent' / timeout still fall back (safe: the server-side deadline guarantees no uncommitted claim by budget+grace). - Regression: detach during an in-flight WS claim asserts zero HTTP claims (at most one path claims); plus the existing detach/deliver-race and server-timeout tests. Co-authored-by: multica-agent <github@multica.ai> * fix(daemon-ws): cancelable RPC frames close the backpressure double-claim (MUL-4257) Sol-Boy review blocker: the client's response budget starts at enqueue, but the socket write is async (10s write deadline). A backpressured writer could hold a tasks.claim in the local queue past the client timeout — the daemon HTTP-fell-back, then the writer woke and delivered the stale WS frame, so the server committed it too: same free slots claimed twice. No detach occurs, so the prior errWSRPCUncertain fix did not cover it. - WS frames are now cancelable (wsOutbound{sent,canceled} under a mutex). The writer calls beginWrite() before WriteMessage and skips cancelled frames. - On give-up (timeout / detach / ctx), Call cancels the queued frame: if it was still pending the cancel wins and the frame is guaranteed never delivered (errWSRPCUnavailable → safe HTTP fallback); if the writer already began sending it the cancel loses and the outcome is errWSRPCUncertain (no fallback). The decision is atomic, so at most one transport claims. Tests: wsOutbound cancel-before-write vs write-before-cancel; Call timeout cancels an unsent frame (writer then drops it) vs uncertain when already sent; plus the updated detach and existing timeout/race tests. Co-authored-by: multica-agent <github@multica.ai> * fix(batch-claim): return partial success instead of dropping committed claims (MUL-4257) Sol-Boy review blocker: ClaimTasksForRuntimes reclaims (step 2) and claims per agent (step 6) in independent transactions, but a step-4 candidate-SELECT error or a mid-loop ClaimTask error did 'return nil, err' — discarding tasks already committed as dispatched. The handler 500s; the daemon sees a definite (non- uncertain) 500 and HTTP-falls-back, claiming a SECOND batch into the same free slots while the first batch waits for stale reclaim — the double-claim this PR removes. - Both error paths now prefer partial success: if any task has already committed (claimed non-empty), return it (nil error) so the handler finalizes and returns 200; the errored candidates stay queued for the next poll. The remaining error is logged. Only a genuinely empty result still returns the error (safe: no committed claim to lose, HTTP fallback just re-fails). Regression (internal/service, DB-backed, fault-injected): - PartialSuccessOnSecondAgentClaimFailure: fail the 2nd ClaimTask's Begin → the first agent's committed task is returned, not dropped. - PartialSuccessOnCandidateQueryFailureAfterReclaim: a stale dispatched task is reclaimed, then the candidate SELECT fails → the reclaimed task is returned. Co-authored-by: multica-agent <github@multica.ai> --------- Co-authored-by: Eve <eve@multica-ai.local> Co-authored-by: multica-agent <github@multica.ai>
4414 lines
153 KiB
Go
4414 lines
153 KiB
Go
// Code generated by sqlc. DO NOT EDIT.
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// versions:
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// sqlc v1.31.1
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// source: agent.sql
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package db
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import (
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"context"
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"github.com/jackc/pgx/v5/pgtype"
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)
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const archiveAgent = `-- name: ArchiveAgent :one
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UPDATE agent SET archived_at = now(), archived_by = $2, updated_at = now()
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WHERE id = $1
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RETURNING id, workspace_id, name, avatar_url, runtime_mode, runtime_config, visibility, status, max_concurrent_tasks, owner_id, created_at, updated_at, description, runtime_id, instructions, archived_at, archived_by, custom_env, custom_args, mcp_config, model, thinking_level, composio_toolkit_allowlist, permission_mode, kind, system_key
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`
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type ArchiveAgentParams struct {
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ID pgtype.UUID `json:"id"`
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ArchivedBy pgtype.UUID `json:"archived_by"`
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}
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func (q *Queries) ArchiveAgent(ctx context.Context, arg ArchiveAgentParams) (Agent, error) {
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row := q.db.QueryRow(ctx, archiveAgent, arg.ID, arg.ArchivedBy)
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var i Agent
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err := row.Scan(
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&i.ID,
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&i.WorkspaceID,
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&i.Name,
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||
&i.AvatarUrl,
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||
&i.RuntimeMode,
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||
&i.RuntimeConfig,
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||
&i.Visibility,
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||
&i.Status,
|
||
&i.MaxConcurrentTasks,
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||
&i.OwnerID,
|
||
&i.CreatedAt,
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||
&i.UpdatedAt,
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||
&i.Description,
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||
&i.RuntimeID,
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||
&i.Instructions,
|
||
&i.ArchivedAt,
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||
&i.ArchivedBy,
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||
&i.CustomEnv,
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||
&i.CustomArgs,
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||
&i.McpConfig,
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||
&i.Model,
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||
&i.ThinkingLevel,
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||
&i.ComposioToolkitAllowlist,
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||
&i.PermissionMode,
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||
&i.Kind,
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||
&i.SystemKey,
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)
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return i, err
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||
}
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const archiveAgentsByIDs = `-- name: ArchiveAgentsByIDs :many
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UPDATE agent
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SET archived_at = now(), archived_by = $1, updated_at = now()
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WHERE id = ANY($2::uuid[]) AND archived_at IS NULL
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RETURNING id, workspace_id, name, avatar_url, runtime_mode, runtime_config, visibility, status, max_concurrent_tasks, owner_id, created_at, updated_at, description, runtime_id, instructions, archived_at, archived_by, custom_env, custom_args, mcp_config, model, thinking_level, composio_toolkit_allowlist, permission_mode, kind, system_key
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`
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type ArchiveAgentsByIDsParams struct {
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ArchivedBy pgtype.UUID `json:"archived_by"`
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AgentIds []pgtype.UUID `json:"agent_ids"`
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}
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// Narrow archive that only touches the explicit ID list. Used by the
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// cascade-delete endpoint so the user's expected_active_agent_ids list
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// is the authoritative bound on what gets archived: any agent that
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// appeared on the runtime after the user opened the dialog is filtered
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// out here so it can't be silently archived even in the (vanishingly
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// rare) case where a row-level race slips past the runtime FOR UPDATE
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// lock. Returns the affected rows so the caller can broadcast
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// agent:archived per agent.
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func (q *Queries) ArchiveAgentsByIDs(ctx context.Context, arg ArchiveAgentsByIDsParams) ([]Agent, error) {
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rows, err := q.db.Query(ctx, archiveAgentsByIDs, arg.ArchivedBy, arg.AgentIds)
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if err != nil {
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return nil, err
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}
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defer rows.Close()
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items := []Agent{}
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for rows.Next() {
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var i Agent
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if err := rows.Scan(
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&i.ID,
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&i.WorkspaceID,
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&i.Name,
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&i.AvatarUrl,
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&i.RuntimeMode,
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||
&i.RuntimeConfig,
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||
&i.Visibility,
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||
&i.Status,
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||
&i.MaxConcurrentTasks,
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||
&i.OwnerID,
|
||
&i.CreatedAt,
|
||
&i.UpdatedAt,
|
||
&i.Description,
|
||
&i.RuntimeID,
|
||
&i.Instructions,
|
||
&i.ArchivedAt,
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||
&i.ArchivedBy,
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&i.CustomEnv,
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||
&i.CustomArgs,
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&i.McpConfig,
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||
&i.Model,
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&i.ThinkingLevel,
|
||
&i.ComposioToolkitAllowlist,
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&i.PermissionMode,
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||
&i.Kind,
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||
&i.SystemKey,
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); err != nil {
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return nil, err
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||
}
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items = append(items, i)
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||
}
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||
if err := rows.Err(); err != nil {
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||
return nil, err
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}
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return items, nil
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||
}
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const archiveAgentsByRuntime = `-- name: ArchiveAgentsByRuntime :many
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UPDATE agent
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SET archived_at = now(), archived_by = $1, updated_at = now()
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WHERE runtime_id = ANY($2::uuid[]) AND archived_at IS NULL
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RETURNING id, workspace_id, name, avatar_url, runtime_mode, runtime_config, visibility, status, max_concurrent_tasks, owner_id, created_at, updated_at, description, runtime_id, instructions, archived_at, archived_by, custom_env, custom_args, mcp_config, model, thinking_level, composio_toolkit_allowlist, permission_mode, kind, system_key
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`
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type ArchiveAgentsByRuntimeParams struct {
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ArchivedBy pgtype.UUID `json:"archived_by"`
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RuntimeIds []pgtype.UUID `json:"runtime_ids"`
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}
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// Bulk-archives every active agent bound to any runtime in the given set.
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// Used when revoking a leaving member's runtimes so agents pinned to those
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// runtimes can no longer be assigned new work. Returns the affected rows so
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// the caller can broadcast agent:archived per agent.
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func (q *Queries) ArchiveAgentsByRuntime(ctx context.Context, arg ArchiveAgentsByRuntimeParams) ([]Agent, error) {
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rows, err := q.db.Query(ctx, archiveAgentsByRuntime, arg.ArchivedBy, arg.RuntimeIds)
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if err != nil {
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return nil, err
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}
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||
defer rows.Close()
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items := []Agent{}
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for rows.Next() {
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var i Agent
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||
if err := rows.Scan(
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||
&i.ID,
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&i.WorkspaceID,
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&i.Name,
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||
&i.AvatarUrl,
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||
&i.RuntimeMode,
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||
&i.RuntimeConfig,
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||
&i.Visibility,
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||
&i.Status,
|
||
&i.MaxConcurrentTasks,
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||
&i.OwnerID,
|
||
&i.CreatedAt,
|
||
&i.UpdatedAt,
|
||
&i.Description,
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||
&i.RuntimeID,
|
||
&i.Instructions,
|
||
&i.ArchivedAt,
|
||
&i.ArchivedBy,
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||
&i.CustomEnv,
|
||
&i.CustomArgs,
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||
&i.McpConfig,
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||
&i.Model,
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||
&i.ThinkingLevel,
|
||
&i.ComposioToolkitAllowlist,
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||
&i.PermissionMode,
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||
&i.Kind,
|
||
&i.SystemKey,
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||
); err != nil {
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||
return nil, err
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||
}
|
||
items = append(items, i)
|
||
}
|
||
if err := rows.Err(); err != nil {
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||
return nil, err
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||
}
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||
return items, nil
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||
}
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||
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const cancelAgentTask = `-- name: CancelAgentTask :one
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UPDATE agent_task_queue
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SET status = 'cancelled', completed_at = now(), prepare_lease_expires_at = NULL
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WHERE id = $1 AND status IN ('queued', 'dispatched', 'running', 'waiting_local_directory', 'deferred')
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RETURNING id, agent_id, issue_id, status, priority, dispatched_at, started_at, completed_at, result, error, created_at, context, runtime_id, session_id, work_dir, trigger_comment_id, chat_session_id, autopilot_run_id, attempt, max_attempts, parent_task_id, failure_reason, trigger_summary, force_fresh_session, is_leader_task, wait_reason, initiator_user_id, handoff_note, prepare_lease_expires_at, squad_id, runtime_mcp_overlay, escalation_for_task_id, fire_at, originator_user_id, runtime_connected_apps, coalesced_comment_ids, delivered_comment_ids, chat_input_task_id
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`
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func (q *Queries) CancelAgentTask(ctx context.Context, id pgtype.UUID) (AgentTaskQueue, error) {
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||
row := q.db.QueryRow(ctx, cancelAgentTask, id)
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||
var i AgentTaskQueue
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||
err := row.Scan(
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||
&i.ID,
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||
&i.AgentID,
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||
&i.IssueID,
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||
&i.Status,
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||
&i.Priority,
|
||
&i.DispatchedAt,
|
||
&i.StartedAt,
|
||
&i.CompletedAt,
|
||
&i.Result,
|
||
&i.Error,
|
||
&i.CreatedAt,
|
||
&i.Context,
|
||
&i.RuntimeID,
|
||
&i.SessionID,
|
||
&i.WorkDir,
|
||
&i.TriggerCommentID,
|
||
&i.ChatSessionID,
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||
&i.AutopilotRunID,
|
||
&i.Attempt,
|
||
&i.MaxAttempts,
|
||
&i.ParentTaskID,
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||
&i.FailureReason,
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||
&i.TriggerSummary,
|
||
&i.ForceFreshSession,
|
||
&i.IsLeaderTask,
|
||
&i.WaitReason,
|
||
&i.InitiatorUserID,
|
||
&i.HandoffNote,
|
||
&i.PrepareLeaseExpiresAt,
|
||
&i.SquadID,
|
||
&i.RuntimeMcpOverlay,
|
||
&i.EscalationForTaskID,
|
||
&i.FireAt,
|
||
&i.OriginatorUserID,
|
||
&i.RuntimeConnectedApps,
|
||
&i.CoalescedCommentIds,
|
||
&i.DeliveredCommentIds,
|
||
&i.ChatInputTaskID,
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||
)
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||
return i, err
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||
}
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||
|
||
const cancelAgentTasksByAgent = `-- name: CancelAgentTasksByAgent :many
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UPDATE agent_task_queue
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SET status = 'cancelled', completed_at = now(), prepare_lease_expires_at = NULL
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WHERE agent_id = $1 AND status IN ('queued', 'dispatched', 'running', 'waiting_local_directory', 'deferred')
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||
RETURNING id, agent_id, issue_id, status, priority, dispatched_at, started_at, completed_at, result, error, created_at, context, runtime_id, session_id, work_dir, trigger_comment_id, chat_session_id, autopilot_run_id, attempt, max_attempts, parent_task_id, failure_reason, trigger_summary, force_fresh_session, is_leader_task, wait_reason, initiator_user_id, handoff_note, prepare_lease_expires_at, squad_id, runtime_mcp_overlay, escalation_for_task_id, fire_at, originator_user_id, runtime_connected_apps, coalesced_comment_ids, delivered_comment_ids, chat_input_task_id
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||
`
|
||
|
||
// Bulk-cancel every active (queued/dispatched/running) task for an agent.
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||
// Returns the affected rows so callers can broadcast task:cancelled events.
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||
// Mirrors the shape of CancelAgentTasksByIssue / CancelAgentTasksByIssueAndAgent
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||
// (also :many + RETURNING + completed_at) so the three sibling cancel paths
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||
// behave consistently.
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||
func (q *Queries) CancelAgentTasksByAgent(ctx context.Context, agentID pgtype.UUID) ([]AgentTaskQueue, error) {
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||
rows, err := q.db.Query(ctx, cancelAgentTasksByAgent, agentID)
|
||
if err != nil {
|
||
return nil, err
|
||
}
|
||
defer rows.Close()
|
||
items := []AgentTaskQueue{}
|
||
for rows.Next() {
|
||
var i AgentTaskQueue
|
||
if err := rows.Scan(
|
||
&i.ID,
|
||
&i.AgentID,
|
||
&i.IssueID,
|
||
&i.Status,
|
||
&i.Priority,
|
||
&i.DispatchedAt,
|
||
&i.StartedAt,
|
||
&i.CompletedAt,
|
||
&i.Result,
|
||
&i.Error,
|
||
&i.CreatedAt,
|
||
&i.Context,
|
||
&i.RuntimeID,
|
||
&i.SessionID,
|
||
&i.WorkDir,
|
||
&i.TriggerCommentID,
|
||
&i.ChatSessionID,
|
||
&i.AutopilotRunID,
|
||
&i.Attempt,
|
||
&i.MaxAttempts,
|
||
&i.ParentTaskID,
|
||
&i.FailureReason,
|
||
&i.TriggerSummary,
|
||
&i.ForceFreshSession,
|
||
&i.IsLeaderTask,
|
||
&i.WaitReason,
|
||
&i.InitiatorUserID,
|
||
&i.HandoffNote,
|
||
&i.PrepareLeaseExpiresAt,
|
||
&i.SquadID,
|
||
&i.RuntimeMcpOverlay,
|
||
&i.EscalationForTaskID,
|
||
&i.FireAt,
|
||
&i.OriginatorUserID,
|
||
&i.RuntimeConnectedApps,
|
||
&i.CoalescedCommentIds,
|
||
&i.DeliveredCommentIds,
|
||
&i.ChatInputTaskID,
|
||
); err != nil {
|
||
return nil, err
|
||
}
|
||
items = append(items, i)
|
||
}
|
||
if err := rows.Err(); err != nil {
|
||
return nil, err
|
||
}
|
||
return items, nil
|
||
}
|
||
|
||
const cancelAgentTasksByChatSession = `-- name: CancelAgentTasksByChatSession :many
|
||
UPDATE agent_task_queue
|
||
SET status = 'cancelled', completed_at = now(), prepare_lease_expires_at = NULL
|
||
WHERE chat_session_id = $1 AND status IN ('queued', 'dispatched', 'running', 'waiting_local_directory', 'deferred')
|
||
RETURNING id, agent_id, issue_id, status, priority, dispatched_at, started_at, completed_at, result, error, created_at, context, runtime_id, session_id, work_dir, trigger_comment_id, chat_session_id, autopilot_run_id, attempt, max_attempts, parent_task_id, failure_reason, trigger_summary, force_fresh_session, is_leader_task, wait_reason, initiator_user_id, handoff_note, prepare_lease_expires_at, squad_id, runtime_mcp_overlay, escalation_for_task_id, fire_at, originator_user_id, runtime_connected_apps, coalesced_comment_ids, delivered_comment_ids, chat_input_task_id
|
||
`
|
||
|
||
// Cancels active tasks belonging to a chat session. Called from
|
||
// DeleteChatSession so the daemon doesn't keep running work whose result
|
||
// has nowhere to land. Must run BEFORE the chat_session row is deleted —
|
||
// the FK ON DELETE SET NULL would otherwise nullify chat_session_id and we
|
||
// could no longer reach those tasks.
|
||
func (q *Queries) CancelAgentTasksByChatSession(ctx context.Context, chatSessionID pgtype.UUID) ([]AgentTaskQueue, error) {
|
||
rows, err := q.db.Query(ctx, cancelAgentTasksByChatSession, chatSessionID)
|
||
if err != nil {
|
||
return nil, err
|
||
}
|
||
defer rows.Close()
|
||
items := []AgentTaskQueue{}
|
||
for rows.Next() {
|
||
var i AgentTaskQueue
|
||
if err := rows.Scan(
|
||
&i.ID,
|
||
&i.AgentID,
|
||
&i.IssueID,
|
||
&i.Status,
|
||
&i.Priority,
|
||
&i.DispatchedAt,
|
||
&i.StartedAt,
|
||
&i.CompletedAt,
|
||
&i.Result,
|
||
&i.Error,
|
||
&i.CreatedAt,
|
||
&i.Context,
|
||
&i.RuntimeID,
|
||
&i.SessionID,
|
||
&i.WorkDir,
|
||
&i.TriggerCommentID,
|
||
&i.ChatSessionID,
|
||
&i.AutopilotRunID,
|
||
&i.Attempt,
|
||
&i.MaxAttempts,
|
||
&i.ParentTaskID,
|
||
&i.FailureReason,
|
||
&i.TriggerSummary,
|
||
&i.ForceFreshSession,
|
||
&i.IsLeaderTask,
|
||
&i.WaitReason,
|
||
&i.InitiatorUserID,
|
||
&i.HandoffNote,
|
||
&i.PrepareLeaseExpiresAt,
|
||
&i.SquadID,
|
||
&i.RuntimeMcpOverlay,
|
||
&i.EscalationForTaskID,
|
||
&i.FireAt,
|
||
&i.OriginatorUserID,
|
||
&i.RuntimeConnectedApps,
|
||
&i.CoalescedCommentIds,
|
||
&i.DeliveredCommentIds,
|
||
&i.ChatInputTaskID,
|
||
); err != nil {
|
||
return nil, err
|
||
}
|
||
items = append(items, i)
|
||
}
|
||
if err := rows.Err(); err != nil {
|
||
return nil, err
|
||
}
|
||
return items, nil
|
||
}
|
||
|
||
const cancelAgentTasksByIssue = `-- name: CancelAgentTasksByIssue :many
|
||
UPDATE agent_task_queue
|
||
SET status = 'cancelled', completed_at = now(), prepare_lease_expires_at = NULL
|
||
WHERE issue_id = $1 AND status IN ('queued', 'dispatched', 'running', 'waiting_local_directory', 'deferred')
|
||
RETURNING id, agent_id, issue_id, status, priority, dispatched_at, started_at, completed_at, result, error, created_at, context, runtime_id, session_id, work_dir, trigger_comment_id, chat_session_id, autopilot_run_id, attempt, max_attempts, parent_task_id, failure_reason, trigger_summary, force_fresh_session, is_leader_task, wait_reason, initiator_user_id, handoff_note, prepare_lease_expires_at, squad_id, runtime_mcp_overlay, escalation_for_task_id, fire_at, originator_user_id, runtime_connected_apps, coalesced_comment_ids, delivered_comment_ids, chat_input_task_id
|
||
`
|
||
|
||
// Cancels every active task on the issue and returns the affected rows so the
|
||
// caller can reconcile each agent's status and broadcast task:cancelled events
|
||
// (#1587). Prior :exec form silently dropped that info, leaving agents stuck at
|
||
// status="working" with no self-correction. Only issue-deletion cleanup calls
|
||
// this now; a status flip to cancelled/done no longer does (MUL-4465).
|
||
func (q *Queries) CancelAgentTasksByIssue(ctx context.Context, issueID pgtype.UUID) ([]AgentTaskQueue, error) {
|
||
rows, err := q.db.Query(ctx, cancelAgentTasksByIssue, issueID)
|
||
if err != nil {
|
||
return nil, err
|
||
}
|
||
defer rows.Close()
|
||
items := []AgentTaskQueue{}
|
||
for rows.Next() {
|
||
var i AgentTaskQueue
|
||
if err := rows.Scan(
|
||
&i.ID,
|
||
&i.AgentID,
|
||
&i.IssueID,
|
||
&i.Status,
|
||
&i.Priority,
|
||
&i.DispatchedAt,
|
||
&i.StartedAt,
|
||
&i.CompletedAt,
|
||
&i.Result,
|
||
&i.Error,
|
||
&i.CreatedAt,
|
||
&i.Context,
|
||
&i.RuntimeID,
|
||
&i.SessionID,
|
||
&i.WorkDir,
|
||
&i.TriggerCommentID,
|
||
&i.ChatSessionID,
|
||
&i.AutopilotRunID,
|
||
&i.Attempt,
|
||
&i.MaxAttempts,
|
||
&i.ParentTaskID,
|
||
&i.FailureReason,
|
||
&i.TriggerSummary,
|
||
&i.ForceFreshSession,
|
||
&i.IsLeaderTask,
|
||
&i.WaitReason,
|
||
&i.InitiatorUserID,
|
||
&i.HandoffNote,
|
||
&i.PrepareLeaseExpiresAt,
|
||
&i.SquadID,
|
||
&i.RuntimeMcpOverlay,
|
||
&i.EscalationForTaskID,
|
||
&i.FireAt,
|
||
&i.OriginatorUserID,
|
||
&i.RuntimeConnectedApps,
|
||
&i.CoalescedCommentIds,
|
||
&i.DeliveredCommentIds,
|
||
&i.ChatInputTaskID,
|
||
); err != nil {
|
||
return nil, err
|
||
}
|
||
items = append(items, i)
|
||
}
|
||
if err := rows.Err(); err != nil {
|
||
return nil, err
|
||
}
|
||
return items, nil
|
||
}
|
||
|
||
const cancelAgentTasksByIssueAndAgent = `-- name: CancelAgentTasksByIssueAndAgent :many
|
||
UPDATE agent_task_queue
|
||
SET status = 'cancelled', completed_at = now(), prepare_lease_expires_at = NULL
|
||
WHERE issue_id = $1 AND agent_id = $2 AND status IN ('queued', 'dispatched', 'running', 'waiting_local_directory', 'deferred')
|
||
RETURNING id, agent_id, issue_id, status, priority, dispatched_at, started_at, completed_at, result, error, created_at, context, runtime_id, session_id, work_dir, trigger_comment_id, chat_session_id, autopilot_run_id, attempt, max_attempts, parent_task_id, failure_reason, trigger_summary, force_fresh_session, is_leader_task, wait_reason, initiator_user_id, handoff_note, prepare_lease_expires_at, squad_id, runtime_mcp_overlay, escalation_for_task_id, fire_at, originator_user_id, runtime_connected_apps, coalesced_comment_ids, delivered_comment_ids, chat_input_task_id
|
||
`
|
||
|
||
type CancelAgentTasksByIssueAndAgentParams struct {
|
||
IssueID pgtype.UUID `json:"issue_id"`
|
||
AgentID pgtype.UUID `json:"agent_id"`
|
||
}
|
||
|
||
// Cancels active tasks for a single (issue, agent) pair without touching
|
||
// tasks belonging to other agents on the same issue. Used by the manual
|
||
// rerun flow so re-running the assignee doesn't collateral-cancel a
|
||
// still-running @-mention agent on the same issue.
|
||
func (q *Queries) CancelAgentTasksByIssueAndAgent(ctx context.Context, arg CancelAgentTasksByIssueAndAgentParams) ([]AgentTaskQueue, error) {
|
||
rows, err := q.db.Query(ctx, cancelAgentTasksByIssueAndAgent, arg.IssueID, arg.AgentID)
|
||
if err != nil {
|
||
return nil, err
|
||
}
|
||
defer rows.Close()
|
||
items := []AgentTaskQueue{}
|
||
for rows.Next() {
|
||
var i AgentTaskQueue
|
||
if err := rows.Scan(
|
||
&i.ID,
|
||
&i.AgentID,
|
||
&i.IssueID,
|
||
&i.Status,
|
||
&i.Priority,
|
||
&i.DispatchedAt,
|
||
&i.StartedAt,
|
||
&i.CompletedAt,
|
||
&i.Result,
|
||
&i.Error,
|
||
&i.CreatedAt,
|
||
&i.Context,
|
||
&i.RuntimeID,
|
||
&i.SessionID,
|
||
&i.WorkDir,
|
||
&i.TriggerCommentID,
|
||
&i.ChatSessionID,
|
||
&i.AutopilotRunID,
|
||
&i.Attempt,
|
||
&i.MaxAttempts,
|
||
&i.ParentTaskID,
|
||
&i.FailureReason,
|
||
&i.TriggerSummary,
|
||
&i.ForceFreshSession,
|
||
&i.IsLeaderTask,
|
||
&i.WaitReason,
|
||
&i.InitiatorUserID,
|
||
&i.HandoffNote,
|
||
&i.PrepareLeaseExpiresAt,
|
||
&i.SquadID,
|
||
&i.RuntimeMcpOverlay,
|
||
&i.EscalationForTaskID,
|
||
&i.FireAt,
|
||
&i.OriginatorUserID,
|
||
&i.RuntimeConnectedApps,
|
||
&i.CoalescedCommentIds,
|
||
&i.DeliveredCommentIds,
|
||
&i.ChatInputTaskID,
|
||
); err != nil {
|
||
return nil, err
|
||
}
|
||
items = append(items, i)
|
||
}
|
||
if err := rows.Err(); err != nil {
|
||
return nil, err
|
||
}
|
||
return items, nil
|
||
}
|
||
|
||
const cancelAgentTasksByTriggerComment = `-- name: CancelAgentTasksByTriggerComment :many
|
||
UPDATE agent_task_queue
|
||
SET status = 'cancelled', completed_at = now(), prepare_lease_expires_at = NULL
|
||
WHERE (trigger_comment_id = $1 OR $1 = ANY(coalesced_comment_ids))
|
||
AND status IN ('queued', 'dispatched', 'running', 'waiting_local_directory', 'deferred')
|
||
RETURNING id, agent_id, issue_id, status, priority, dispatched_at, started_at, completed_at, result, error, created_at, context, runtime_id, session_id, work_dir, trigger_comment_id, chat_session_id, autopilot_run_id, attempt, max_attempts, parent_task_id, failure_reason, trigger_summary, force_fresh_session, is_leader_task, wait_reason, initiator_user_id, handoff_note, prepare_lease_expires_at, squad_id, runtime_mcp_overlay, escalation_for_task_id, fire_at, originator_user_id, runtime_connected_apps, coalesced_comment_ids, delivered_comment_ids, chat_input_task_id
|
||
`
|
||
|
||
// Cancels active tasks whose planned batch contains the edited/deleted comment.
|
||
// The body may already have been embedded as either the primary trigger or a
|
||
// coalesced input; cancellation prevents an agent from acting on a stale or
|
||
// deleted version. Must run before deletion clears trigger_comment_id.
|
||
func (q *Queries) CancelAgentTasksByTriggerComment(ctx context.Context, triggerCommentID pgtype.UUID) ([]AgentTaskQueue, error) {
|
||
rows, err := q.db.Query(ctx, cancelAgentTasksByTriggerComment, triggerCommentID)
|
||
if err != nil {
|
||
return nil, err
|
||
}
|
||
defer rows.Close()
|
||
items := []AgentTaskQueue{}
|
||
for rows.Next() {
|
||
var i AgentTaskQueue
|
||
if err := rows.Scan(
|
||
&i.ID,
|
||
&i.AgentID,
|
||
&i.IssueID,
|
||
&i.Status,
|
||
&i.Priority,
|
||
&i.DispatchedAt,
|
||
&i.StartedAt,
|
||
&i.CompletedAt,
|
||
&i.Result,
|
||
&i.Error,
|
||
&i.CreatedAt,
|
||
&i.Context,
|
||
&i.RuntimeID,
|
||
&i.SessionID,
|
||
&i.WorkDir,
|
||
&i.TriggerCommentID,
|
||
&i.ChatSessionID,
|
||
&i.AutopilotRunID,
|
||
&i.Attempt,
|
||
&i.MaxAttempts,
|
||
&i.ParentTaskID,
|
||
&i.FailureReason,
|
||
&i.TriggerSummary,
|
||
&i.ForceFreshSession,
|
||
&i.IsLeaderTask,
|
||
&i.WaitReason,
|
||
&i.InitiatorUserID,
|
||
&i.HandoffNote,
|
||
&i.PrepareLeaseExpiresAt,
|
||
&i.SquadID,
|
||
&i.RuntimeMcpOverlay,
|
||
&i.EscalationForTaskID,
|
||
&i.FireAt,
|
||
&i.OriginatorUserID,
|
||
&i.RuntimeConnectedApps,
|
||
&i.CoalescedCommentIds,
|
||
&i.DeliveredCommentIds,
|
||
&i.ChatInputTaskID,
|
||
); err != nil {
|
||
return nil, err
|
||
}
|
||
items = append(items, i)
|
||
}
|
||
if err := rows.Err(); err != nil {
|
||
return nil, err
|
||
}
|
||
return items, nil
|
||
}
|
||
|
||
const cancelDeferredEscalationsForIssueAgent = `-- name: CancelDeferredEscalationsForIssueAgent :many
|
||
WITH cancelled AS (
|
||
UPDATE agent_task_queue fallback
|
||
SET status = 'cancelled', completed_at = now(), prepare_lease_expires_at = NULL
|
||
FROM agent_task_queue primary_task
|
||
WHERE fallback.escalation_for_task_id = primary_task.id
|
||
AND fallback.status IN ('deferred', 'queued', 'dispatched', 'waiting_local_directory')
|
||
AND primary_task.issue_id = $1
|
||
AND primary_task.agent_id = $2
|
||
RETURNING fallback.id, fallback.agent_id, fallback.issue_id, fallback.status, fallback.priority, fallback.dispatched_at, fallback.started_at, fallback.completed_at, fallback.result, fallback.error, fallback.created_at, fallback.context, fallback.runtime_id, fallback.session_id, fallback.work_dir, fallback.trigger_comment_id, fallback.chat_session_id, fallback.autopilot_run_id, fallback.attempt, fallback.max_attempts, fallback.parent_task_id, fallback.failure_reason, fallback.trigger_summary, fallback.force_fresh_session, fallback.is_leader_task, fallback.wait_reason, fallback.initiator_user_id, fallback.handoff_note, fallback.prepare_lease_expires_at, fallback.squad_id, fallback.runtime_mcp_overlay, fallback.escalation_for_task_id, fallback.fire_at, fallback.originator_user_id, fallback.runtime_connected_apps, fallback.coalesced_comment_ids, fallback.delivered_comment_ids, fallback.chat_input_task_id
|
||
)
|
||
SELECT id, agent_id, issue_id, status, priority, dispatched_at, started_at, completed_at, result, error, created_at, context, runtime_id, session_id, work_dir, trigger_comment_id, chat_session_id, autopilot_run_id, attempt, max_attempts, parent_task_id, failure_reason, trigger_summary, force_fresh_session, is_leader_task, wait_reason, initiator_user_id, handoff_note, prepare_lease_expires_at, squad_id, runtime_mcp_overlay, escalation_for_task_id, fire_at, originator_user_id, runtime_connected_apps, coalesced_comment_ids, delivered_comment_ids, chat_input_task_id FROM cancelled
|
||
`
|
||
|
||
type CancelDeferredEscalationsForIssueAgentParams struct {
|
||
IssueID pgtype.UUID `json:"issue_id"`
|
||
AgentID pgtype.UUID `json:"agent_id"`
|
||
}
|
||
|
||
type CancelDeferredEscalationsForIssueAgentRow struct {
|
||
ID pgtype.UUID `json:"id"`
|
||
AgentID pgtype.UUID `json:"agent_id"`
|
||
IssueID pgtype.UUID `json:"issue_id"`
|
||
Status string `json:"status"`
|
||
Priority int32 `json:"priority"`
|
||
DispatchedAt pgtype.Timestamptz `json:"dispatched_at"`
|
||
StartedAt pgtype.Timestamptz `json:"started_at"`
|
||
CompletedAt pgtype.Timestamptz `json:"completed_at"`
|
||
Result []byte `json:"result"`
|
||
Error pgtype.Text `json:"error"`
|
||
CreatedAt pgtype.Timestamptz `json:"created_at"`
|
||
Context []byte `json:"context"`
|
||
RuntimeID pgtype.UUID `json:"runtime_id"`
|
||
SessionID pgtype.Text `json:"session_id"`
|
||
WorkDir pgtype.Text `json:"work_dir"`
|
||
TriggerCommentID pgtype.UUID `json:"trigger_comment_id"`
|
||
ChatSessionID pgtype.UUID `json:"chat_session_id"`
|
||
AutopilotRunID pgtype.UUID `json:"autopilot_run_id"`
|
||
Attempt int32 `json:"attempt"`
|
||
MaxAttempts int32 `json:"max_attempts"`
|
||
ParentTaskID pgtype.UUID `json:"parent_task_id"`
|
||
FailureReason pgtype.Text `json:"failure_reason"`
|
||
TriggerSummary pgtype.Text `json:"trigger_summary"`
|
||
ForceFreshSession bool `json:"force_fresh_session"`
|
||
IsLeaderTask bool `json:"is_leader_task"`
|
||
WaitReason pgtype.Text `json:"wait_reason"`
|
||
InitiatorUserID pgtype.UUID `json:"initiator_user_id"`
|
||
HandoffNote pgtype.Text `json:"handoff_note"`
|
||
PrepareLeaseExpiresAt pgtype.Timestamptz `json:"prepare_lease_expires_at"`
|
||
SquadID pgtype.UUID `json:"squad_id"`
|
||
RuntimeMcpOverlay []byte `json:"runtime_mcp_overlay"`
|
||
EscalationForTaskID pgtype.UUID `json:"escalation_for_task_id"`
|
||
FireAt pgtype.Timestamptz `json:"fire_at"`
|
||
OriginatorUserID pgtype.UUID `json:"originator_user_id"`
|
||
RuntimeConnectedApps []byte `json:"runtime_connected_apps"`
|
||
CoalescedCommentIds []pgtype.UUID `json:"coalesced_comment_ids"`
|
||
DeliveredCommentIds []pgtype.UUID `json:"delivered_comment_ids"`
|
||
ChatInputTaskID pgtype.UUID `json:"chat_input_task_id"`
|
||
}
|
||
|
||
func (q *Queries) CancelDeferredEscalationsForIssueAgent(ctx context.Context, arg CancelDeferredEscalationsForIssueAgentParams) ([]CancelDeferredEscalationsForIssueAgentRow, error) {
|
||
rows, err := q.db.Query(ctx, cancelDeferredEscalationsForIssueAgent, arg.IssueID, arg.AgentID)
|
||
if err != nil {
|
||
return nil, err
|
||
}
|
||
defer rows.Close()
|
||
items := []CancelDeferredEscalationsForIssueAgentRow{}
|
||
for rows.Next() {
|
||
var i CancelDeferredEscalationsForIssueAgentRow
|
||
if err := rows.Scan(
|
||
&i.ID,
|
||
&i.AgentID,
|
||
&i.IssueID,
|
||
&i.Status,
|
||
&i.Priority,
|
||
&i.DispatchedAt,
|
||
&i.StartedAt,
|
||
&i.CompletedAt,
|
||
&i.Result,
|
||
&i.Error,
|
||
&i.CreatedAt,
|
||
&i.Context,
|
||
&i.RuntimeID,
|
||
&i.SessionID,
|
||
&i.WorkDir,
|
||
&i.TriggerCommentID,
|
||
&i.ChatSessionID,
|
||
&i.AutopilotRunID,
|
||
&i.Attempt,
|
||
&i.MaxAttempts,
|
||
&i.ParentTaskID,
|
||
&i.FailureReason,
|
||
&i.TriggerSummary,
|
||
&i.ForceFreshSession,
|
||
&i.IsLeaderTask,
|
||
&i.WaitReason,
|
||
&i.InitiatorUserID,
|
||
&i.HandoffNote,
|
||
&i.PrepareLeaseExpiresAt,
|
||
&i.SquadID,
|
||
&i.RuntimeMcpOverlay,
|
||
&i.EscalationForTaskID,
|
||
&i.FireAt,
|
||
&i.OriginatorUserID,
|
||
&i.RuntimeConnectedApps,
|
||
&i.CoalescedCommentIds,
|
||
&i.DeliveredCommentIds,
|
||
&i.ChatInputTaskID,
|
||
); err != nil {
|
||
return nil, err
|
||
}
|
||
items = append(items, i)
|
||
}
|
||
if err := rows.Err(); err != nil {
|
||
return nil, err
|
||
}
|
||
return items, nil
|
||
}
|
||
|
||
const cancelDeferredEscalationsForTask = `-- name: CancelDeferredEscalationsForTask :many
|
||
UPDATE agent_task_queue
|
||
SET status = 'cancelled', completed_at = now(), prepare_lease_expires_at = NULL
|
||
WHERE escalation_for_task_id = $1
|
||
AND status IN ('deferred', 'queued', 'dispatched', 'waiting_local_directory')
|
||
RETURNING id, agent_id, issue_id, status, priority, dispatched_at, started_at, completed_at, result, error, created_at, context, runtime_id, session_id, work_dir, trigger_comment_id, chat_session_id, autopilot_run_id, attempt, max_attempts, parent_task_id, failure_reason, trigger_summary, force_fresh_session, is_leader_task, wait_reason, initiator_user_id, handoff_note, prepare_lease_expires_at, squad_id, runtime_mcp_overlay, escalation_for_task_id, fire_at, originator_user_id, runtime_connected_apps, coalesced_comment_ids, delivered_comment_ids, chat_input_task_id
|
||
`
|
||
|
||
func (q *Queries) CancelDeferredEscalationsForTask(ctx context.Context, escalationForTaskID pgtype.UUID) ([]AgentTaskQueue, error) {
|
||
rows, err := q.db.Query(ctx, cancelDeferredEscalationsForTask, escalationForTaskID)
|
||
if err != nil {
|
||
return nil, err
|
||
}
|
||
defer rows.Close()
|
||
items := []AgentTaskQueue{}
|
||
for rows.Next() {
|
||
var i AgentTaskQueue
|
||
if err := rows.Scan(
|
||
&i.ID,
|
||
&i.AgentID,
|
||
&i.IssueID,
|
||
&i.Status,
|
||
&i.Priority,
|
||
&i.DispatchedAt,
|
||
&i.StartedAt,
|
||
&i.CompletedAt,
|
||
&i.Result,
|
||
&i.Error,
|
||
&i.CreatedAt,
|
||
&i.Context,
|
||
&i.RuntimeID,
|
||
&i.SessionID,
|
||
&i.WorkDir,
|
||
&i.TriggerCommentID,
|
||
&i.ChatSessionID,
|
||
&i.AutopilotRunID,
|
||
&i.Attempt,
|
||
&i.MaxAttempts,
|
||
&i.ParentTaskID,
|
||
&i.FailureReason,
|
||
&i.TriggerSummary,
|
||
&i.ForceFreshSession,
|
||
&i.IsLeaderTask,
|
||
&i.WaitReason,
|
||
&i.InitiatorUserID,
|
||
&i.HandoffNote,
|
||
&i.PrepareLeaseExpiresAt,
|
||
&i.SquadID,
|
||
&i.RuntimeMcpOverlay,
|
||
&i.EscalationForTaskID,
|
||
&i.FireAt,
|
||
&i.OriginatorUserID,
|
||
&i.RuntimeConnectedApps,
|
||
&i.CoalescedCommentIds,
|
||
&i.DeliveredCommentIds,
|
||
&i.ChatInputTaskID,
|
||
); err != nil {
|
||
return nil, err
|
||
}
|
||
items = append(items, i)
|
||
}
|
||
if err := rows.Err(); err != nil {
|
||
return nil, err
|
||
}
|
||
return items, nil
|
||
}
|
||
|
||
const claimAgentTask = `-- name: ClaimAgentTask :one
|
||
UPDATE agent_task_queue
|
||
SET status = 'dispatched',
|
||
dispatched_at = now(),
|
||
prepare_lease_expires_at = now() + make_interval(secs => $2::double precision)
|
||
WHERE id = (
|
||
SELECT atq.id FROM agent_task_queue atq
|
||
WHERE atq.agent_id = $1 AND atq.status = 'queued'
|
||
AND NOT EXISTS (
|
||
SELECT 1 FROM agent_task_queue active
|
||
WHERE active.agent_id = atq.agent_id
|
||
AND active.status IN ('dispatched', 'running', 'waiting_local_directory')
|
||
AND (
|
||
(atq.issue_id IS NOT NULL AND active.issue_id = atq.issue_id)
|
||
OR (atq.chat_session_id IS NOT NULL AND active.chat_session_id = atq.chat_session_id)
|
||
OR (
|
||
atq.issue_id IS NULL
|
||
AND atq.chat_session_id IS NULL
|
||
AND atq.autopilot_run_id IS NULL
|
||
AND active.issue_id IS NULL
|
||
AND active.chat_session_id IS NULL
|
||
AND active.autopilot_run_id IS NULL
|
||
)
|
||
)
|
||
)
|
||
ORDER BY atq.priority DESC, atq.created_at ASC
|
||
LIMIT 1
|
||
FOR UPDATE SKIP LOCKED
|
||
)
|
||
RETURNING id, agent_id, issue_id, status, priority, dispatched_at, started_at, completed_at, result, error, created_at, context, runtime_id, session_id, work_dir, trigger_comment_id, chat_session_id, autopilot_run_id, attempt, max_attempts, parent_task_id, failure_reason, trigger_summary, force_fresh_session, is_leader_task, wait_reason, initiator_user_id, handoff_note, prepare_lease_expires_at, squad_id, runtime_mcp_overlay, escalation_for_task_id, fire_at, originator_user_id, runtime_connected_apps, coalesced_comment_ids, delivered_comment_ids, chat_input_task_id
|
||
`
|
||
|
||
type ClaimAgentTaskParams struct {
|
||
AgentID pgtype.UUID `json:"agent_id"`
|
||
PrepareLeaseSecs float64 `json:"prepare_lease_secs"`
|
||
}
|
||
|
||
// Claims the next queued task for an agent, enforcing per-(issue, agent) serialization:
|
||
// a task is only claimable when no other task for the same issue AND same agent is
|
||
// already dispatched or running. This allows different agents to work on the same
|
||
// issue in parallel while preventing a single agent from running duplicate tasks.
|
||
// Chat tasks (issue_id IS NULL) use chat_session_id for serialization instead.
|
||
// Quick-create tasks have no issue / chat / autopilot link, so they serialize on
|
||
// "any other quick-create-shaped task" (all four FKs NULL) for the same agent —
|
||
// otherwise a user mashing the create button could fire concurrent quick-creates
|
||
// whose completion lookup would race over "most recent issue by this agent".
|
||
func (q *Queries) ClaimAgentTask(ctx context.Context, arg ClaimAgentTaskParams) (AgentTaskQueue, error) {
|
||
row := q.db.QueryRow(ctx, claimAgentTask, arg.AgentID, arg.PrepareLeaseSecs)
|
||
var i AgentTaskQueue
|
||
err := row.Scan(
|
||
&i.ID,
|
||
&i.AgentID,
|
||
&i.IssueID,
|
||
&i.Status,
|
||
&i.Priority,
|
||
&i.DispatchedAt,
|
||
&i.StartedAt,
|
||
&i.CompletedAt,
|
||
&i.Result,
|
||
&i.Error,
|
||
&i.CreatedAt,
|
||
&i.Context,
|
||
&i.RuntimeID,
|
||
&i.SessionID,
|
||
&i.WorkDir,
|
||
&i.TriggerCommentID,
|
||
&i.ChatSessionID,
|
||
&i.AutopilotRunID,
|
||
&i.Attempt,
|
||
&i.MaxAttempts,
|
||
&i.ParentTaskID,
|
||
&i.FailureReason,
|
||
&i.TriggerSummary,
|
||
&i.ForceFreshSession,
|
||
&i.IsLeaderTask,
|
||
&i.WaitReason,
|
||
&i.InitiatorUserID,
|
||
&i.HandoffNote,
|
||
&i.PrepareLeaseExpiresAt,
|
||
&i.SquadID,
|
||
&i.RuntimeMcpOverlay,
|
||
&i.EscalationForTaskID,
|
||
&i.FireAt,
|
||
&i.OriginatorUserID,
|
||
&i.RuntimeConnectedApps,
|
||
&i.CoalescedCommentIds,
|
||
&i.DeliveredCommentIds,
|
||
&i.ChatInputTaskID,
|
||
)
|
||
return i, err
|
||
}
|
||
|
||
const clearAgentComposioToolkitAllowlist = `-- name: ClearAgentComposioToolkitAllowlist :one
|
||
UPDATE agent SET composio_toolkit_allowlist = NULL, updated_at = now()
|
||
WHERE id = $1
|
||
RETURNING id, workspace_id, name, avatar_url, runtime_mode, runtime_config, visibility, status, max_concurrent_tasks, owner_id, created_at, updated_at, description, runtime_id, instructions, archived_at, archived_by, custom_env, custom_args, mcp_config, model, thinking_level, composio_toolkit_allowlist, permission_mode, kind, system_key
|
||
`
|
||
|
||
// Explicit NULL-clear for composio_toolkit_allowlist. The COALESCE-based
|
||
// UpdateAgent cannot set the column back to NULL — sending an empty array
|
||
// through there would persist `{}` (still a non-NULL, equivalent to "no
|
||
// toolkits" but distinct from "field never configured"). The API uses this
|
||
// dedicated query when the agent owner removes every toolkit; subsequent
|
||
// dispatch decisions treat NULL identically to `{}` (both -> no overlay).
|
||
func (q *Queries) ClearAgentComposioToolkitAllowlist(ctx context.Context, id pgtype.UUID) (Agent, error) {
|
||
row := q.db.QueryRow(ctx, clearAgentComposioToolkitAllowlist, id)
|
||
var i Agent
|
||
err := row.Scan(
|
||
&i.ID,
|
||
&i.WorkspaceID,
|
||
&i.Name,
|
||
&i.AvatarUrl,
|
||
&i.RuntimeMode,
|
||
&i.RuntimeConfig,
|
||
&i.Visibility,
|
||
&i.Status,
|
||
&i.MaxConcurrentTasks,
|
||
&i.OwnerID,
|
||
&i.CreatedAt,
|
||
&i.UpdatedAt,
|
||
&i.Description,
|
||
&i.RuntimeID,
|
||
&i.Instructions,
|
||
&i.ArchivedAt,
|
||
&i.ArchivedBy,
|
||
&i.CustomEnv,
|
||
&i.CustomArgs,
|
||
&i.McpConfig,
|
||
&i.Model,
|
||
&i.ThinkingLevel,
|
||
&i.ComposioToolkitAllowlist,
|
||
&i.PermissionMode,
|
||
&i.Kind,
|
||
&i.SystemKey,
|
||
)
|
||
return i, err
|
||
}
|
||
|
||
const clearAgentMcpConfig = `-- name: ClearAgentMcpConfig :one
|
||
UPDATE agent SET mcp_config = NULL, updated_at = now()
|
||
WHERE id = $1
|
||
RETURNING id, workspace_id, name, avatar_url, runtime_mode, runtime_config, visibility, status, max_concurrent_tasks, owner_id, created_at, updated_at, description, runtime_id, instructions, archived_at, archived_by, custom_env, custom_args, mcp_config, model, thinking_level, composio_toolkit_allowlist, permission_mode, kind, system_key
|
||
`
|
||
|
||
func (q *Queries) ClearAgentMcpConfig(ctx context.Context, id pgtype.UUID) (Agent, error) {
|
||
row := q.db.QueryRow(ctx, clearAgentMcpConfig, id)
|
||
var i Agent
|
||
err := row.Scan(
|
||
&i.ID,
|
||
&i.WorkspaceID,
|
||
&i.Name,
|
||
&i.AvatarUrl,
|
||
&i.RuntimeMode,
|
||
&i.RuntimeConfig,
|
||
&i.Visibility,
|
||
&i.Status,
|
||
&i.MaxConcurrentTasks,
|
||
&i.OwnerID,
|
||
&i.CreatedAt,
|
||
&i.UpdatedAt,
|
||
&i.Description,
|
||
&i.RuntimeID,
|
||
&i.Instructions,
|
||
&i.ArchivedAt,
|
||
&i.ArchivedBy,
|
||
&i.CustomEnv,
|
||
&i.CustomArgs,
|
||
&i.McpConfig,
|
||
&i.Model,
|
||
&i.ThinkingLevel,
|
||
&i.ComposioToolkitAllowlist,
|
||
&i.PermissionMode,
|
||
&i.Kind,
|
||
&i.SystemKey,
|
||
)
|
||
return i, err
|
||
}
|
||
|
||
const clearAgentThinkingLevel = `-- name: ClearAgentThinkingLevel :one
|
||
UPDATE agent SET thinking_level = NULL, updated_at = now()
|
||
WHERE id = $1
|
||
RETURNING id, workspace_id, name, avatar_url, runtime_mode, runtime_config, visibility, status, max_concurrent_tasks, owner_id, created_at, updated_at, description, runtime_id, instructions, archived_at, archived_by, custom_env, custom_args, mcp_config, model, thinking_level, composio_toolkit_allowlist, permission_mode, kind, system_key
|
||
`
|
||
|
||
// Explicit NULL-clear for thinking_level. COALESCE-based UpdateAgent cannot
|
||
// set the column back to NULL, so the API layer routes "user picked Default"
|
||
// through this dedicated query.
|
||
func (q *Queries) ClearAgentThinkingLevel(ctx context.Context, id pgtype.UUID) (Agent, error) {
|
||
row := q.db.QueryRow(ctx, clearAgentThinkingLevel, id)
|
||
var i Agent
|
||
err := row.Scan(
|
||
&i.ID,
|
||
&i.WorkspaceID,
|
||
&i.Name,
|
||
&i.AvatarUrl,
|
||
&i.RuntimeMode,
|
||
&i.RuntimeConfig,
|
||
&i.Visibility,
|
||
&i.Status,
|
||
&i.MaxConcurrentTasks,
|
||
&i.OwnerID,
|
||
&i.CreatedAt,
|
||
&i.UpdatedAt,
|
||
&i.Description,
|
||
&i.RuntimeID,
|
||
&i.Instructions,
|
||
&i.ArchivedAt,
|
||
&i.ArchivedBy,
|
||
&i.CustomEnv,
|
||
&i.CustomArgs,
|
||
&i.McpConfig,
|
||
&i.Model,
|
||
&i.ThinkingLevel,
|
||
&i.ComposioToolkitAllowlist,
|
||
&i.PermissionMode,
|
||
&i.Kind,
|
||
&i.SystemKey,
|
||
)
|
||
return i, err
|
||
}
|
||
|
||
const completeAgentTask = `-- name: CompleteAgentTask :one
|
||
UPDATE agent_task_queue
|
||
SET status = 'completed', completed_at = now(), result = $2, session_id = $3, work_dir = $4, prepare_lease_expires_at = NULL
|
||
WHERE id = $1 AND status = 'running'
|
||
RETURNING id, agent_id, issue_id, status, priority, dispatched_at, started_at, completed_at, result, error, created_at, context, runtime_id, session_id, work_dir, trigger_comment_id, chat_session_id, autopilot_run_id, attempt, max_attempts, parent_task_id, failure_reason, trigger_summary, force_fresh_session, is_leader_task, wait_reason, initiator_user_id, handoff_note, prepare_lease_expires_at, squad_id, runtime_mcp_overlay, escalation_for_task_id, fire_at, originator_user_id, runtime_connected_apps, coalesced_comment_ids, delivered_comment_ids, chat_input_task_id
|
||
`
|
||
|
||
type CompleteAgentTaskParams struct {
|
||
ID pgtype.UUID `json:"id"`
|
||
Result []byte `json:"result"`
|
||
SessionID pgtype.Text `json:"session_id"`
|
||
WorkDir pgtype.Text `json:"work_dir"`
|
||
}
|
||
|
||
func (q *Queries) CompleteAgentTask(ctx context.Context, arg CompleteAgentTaskParams) (AgentTaskQueue, error) {
|
||
row := q.db.QueryRow(ctx, completeAgentTask,
|
||
arg.ID,
|
||
arg.Result,
|
||
arg.SessionID,
|
||
arg.WorkDir,
|
||
)
|
||
var i AgentTaskQueue
|
||
err := row.Scan(
|
||
&i.ID,
|
||
&i.AgentID,
|
||
&i.IssueID,
|
||
&i.Status,
|
||
&i.Priority,
|
||
&i.DispatchedAt,
|
||
&i.StartedAt,
|
||
&i.CompletedAt,
|
||
&i.Result,
|
||
&i.Error,
|
||
&i.CreatedAt,
|
||
&i.Context,
|
||
&i.RuntimeID,
|
||
&i.SessionID,
|
||
&i.WorkDir,
|
||
&i.TriggerCommentID,
|
||
&i.ChatSessionID,
|
||
&i.AutopilotRunID,
|
||
&i.Attempt,
|
||
&i.MaxAttempts,
|
||
&i.ParentTaskID,
|
||
&i.FailureReason,
|
||
&i.TriggerSummary,
|
||
&i.ForceFreshSession,
|
||
&i.IsLeaderTask,
|
||
&i.WaitReason,
|
||
&i.InitiatorUserID,
|
||
&i.HandoffNote,
|
||
&i.PrepareLeaseExpiresAt,
|
||
&i.SquadID,
|
||
&i.RuntimeMcpOverlay,
|
||
&i.EscalationForTaskID,
|
||
&i.FireAt,
|
||
&i.OriginatorUserID,
|
||
&i.RuntimeConnectedApps,
|
||
&i.CoalescedCommentIds,
|
||
&i.DeliveredCommentIds,
|
||
&i.ChatInputTaskID,
|
||
)
|
||
return i, err
|
||
}
|
||
|
||
const countRunningTasks = `-- name: CountRunningTasks :one
|
||
SELECT count(*) FROM agent_task_queue
|
||
WHERE agent_id = $1 AND status IN ('dispatched', 'running', 'waiting_local_directory')
|
||
`
|
||
|
||
func (q *Queries) CountRunningTasks(ctx context.Context, agentID pgtype.UUID) (int64, error) {
|
||
row := q.db.QueryRow(ctx, countRunningTasks, agentID)
|
||
var count int64
|
||
err := row.Scan(&count)
|
||
return count, err
|
||
}
|
||
|
||
const createAgent = `-- name: CreateAgent :one
|
||
INSERT INTO agent (
|
||
workspace_id, name, description, avatar_url, runtime_mode,
|
||
runtime_config, runtime_id, visibility, max_concurrent_tasks, owner_id,
|
||
instructions, custom_env, custom_args, mcp_config, model, thinking_level,
|
||
composio_toolkit_allowlist, permission_mode
|
||
) VALUES (
|
||
$1, $2, $3, $4, $5,
|
||
$6, $7, $8, $9, $10,
|
||
$11, $12, $13, $14, $15, $16,
|
||
$17::text[],
|
||
COALESCE($18, 'private')
|
||
)
|
||
RETURNING id, workspace_id, name, avatar_url, runtime_mode, runtime_config, visibility, status, max_concurrent_tasks, owner_id, created_at, updated_at, description, runtime_id, instructions, archived_at, archived_by, custom_env, custom_args, mcp_config, model, thinking_level, composio_toolkit_allowlist, permission_mode, kind, system_key
|
||
`
|
||
|
||
type CreateAgentParams struct {
|
||
WorkspaceID pgtype.UUID `json:"workspace_id"`
|
||
Name string `json:"name"`
|
||
Description string `json:"description"`
|
||
AvatarUrl pgtype.Text `json:"avatar_url"`
|
||
RuntimeMode string `json:"runtime_mode"`
|
||
RuntimeConfig []byte `json:"runtime_config"`
|
||
RuntimeID pgtype.UUID `json:"runtime_id"`
|
||
Visibility string `json:"visibility"`
|
||
MaxConcurrentTasks int32 `json:"max_concurrent_tasks"`
|
||
OwnerID pgtype.UUID `json:"owner_id"`
|
||
Instructions string `json:"instructions"`
|
||
CustomEnv []byte `json:"custom_env"`
|
||
CustomArgs []byte `json:"custom_args"`
|
||
McpConfig []byte `json:"mcp_config"`
|
||
Model pgtype.Text `json:"model"`
|
||
ThinkingLevel pgtype.Text `json:"thinking_level"`
|
||
ComposioToolkitAllowlist []string `json:"composio_toolkit_allowlist"`
|
||
PermissionMode interface{} `json:"permission_mode"`
|
||
}
|
||
|
||
func (q *Queries) CreateAgent(ctx context.Context, arg CreateAgentParams) (Agent, error) {
|
||
row := q.db.QueryRow(ctx, createAgent,
|
||
arg.WorkspaceID,
|
||
arg.Name,
|
||
arg.Description,
|
||
arg.AvatarUrl,
|
||
arg.RuntimeMode,
|
||
arg.RuntimeConfig,
|
||
arg.RuntimeID,
|
||
arg.Visibility,
|
||
arg.MaxConcurrentTasks,
|
||
arg.OwnerID,
|
||
arg.Instructions,
|
||
arg.CustomEnv,
|
||
arg.CustomArgs,
|
||
arg.McpConfig,
|
||
arg.Model,
|
||
arg.ThinkingLevel,
|
||
arg.ComposioToolkitAllowlist,
|
||
arg.PermissionMode,
|
||
)
|
||
var i Agent
|
||
err := row.Scan(
|
||
&i.ID,
|
||
&i.WorkspaceID,
|
||
&i.Name,
|
||
&i.AvatarUrl,
|
||
&i.RuntimeMode,
|
||
&i.RuntimeConfig,
|
||
&i.Visibility,
|
||
&i.Status,
|
||
&i.MaxConcurrentTasks,
|
||
&i.OwnerID,
|
||
&i.CreatedAt,
|
||
&i.UpdatedAt,
|
||
&i.Description,
|
||
&i.RuntimeID,
|
||
&i.Instructions,
|
||
&i.ArchivedAt,
|
||
&i.ArchivedBy,
|
||
&i.CustomEnv,
|
||
&i.CustomArgs,
|
||
&i.McpConfig,
|
||
&i.Model,
|
||
&i.ThinkingLevel,
|
||
&i.ComposioToolkitAllowlist,
|
||
&i.PermissionMode,
|
||
&i.Kind,
|
||
&i.SystemKey,
|
||
)
|
||
return i, err
|
||
}
|
||
|
||
const createAgentBuilder = `-- name: CreateAgentBuilder :one
|
||
INSERT INTO agent (
|
||
workspace_id, name, description, runtime_mode, runtime_config, runtime_id,
|
||
visibility, permission_mode, max_concurrent_tasks, owner_id, instructions,
|
||
custom_env, custom_args, model, kind, system_key
|
||
) VALUES (
|
||
$1, $2, '', $3, '{}'::jsonb, $4,
|
||
'private', 'private', 1, $5, $6,
|
||
'{}'::jsonb, '[]'::jsonb, $7, 'system', $8
|
||
)
|
||
RETURNING id, workspace_id, name, avatar_url, runtime_mode, runtime_config, visibility, status, max_concurrent_tasks, owner_id, created_at, updated_at, description, runtime_id, instructions, archived_at, archived_by, custom_env, custom_args, mcp_config, model, thinking_level, composio_toolkit_allowlist, permission_mode, kind, system_key
|
||
`
|
||
|
||
type CreateAgentBuilderParams struct {
|
||
WorkspaceID pgtype.UUID `json:"workspace_id"`
|
||
Name string `json:"name"`
|
||
RuntimeMode string `json:"runtime_mode"`
|
||
RuntimeID pgtype.UUID `json:"runtime_id"`
|
||
OwnerID pgtype.UUID `json:"owner_id"`
|
||
Instructions string `json:"instructions"`
|
||
Model pgtype.Text `json:"model"`
|
||
SystemKey pgtype.Text `json:"system_key"`
|
||
}
|
||
|
||
// One hidden builder agent per creation session. Keeping the execution carrier
|
||
// session-scoped freezes its model/runtime configuration when multiple builder
|
||
// flows are open concurrently, while `kind = 'system'` keeps it out of normal
|
||
// agent lists and assignment surfaces.
|
||
func (q *Queries) CreateAgentBuilder(ctx context.Context, arg CreateAgentBuilderParams) (Agent, error) {
|
||
row := q.db.QueryRow(ctx, createAgentBuilder,
|
||
arg.WorkspaceID,
|
||
arg.Name,
|
||
arg.RuntimeMode,
|
||
arg.RuntimeID,
|
||
arg.OwnerID,
|
||
arg.Instructions,
|
||
arg.Model,
|
||
arg.SystemKey,
|
||
)
|
||
var i Agent
|
||
err := row.Scan(
|
||
&i.ID,
|
||
&i.WorkspaceID,
|
||
&i.Name,
|
||
&i.AvatarUrl,
|
||
&i.RuntimeMode,
|
||
&i.RuntimeConfig,
|
||
&i.Visibility,
|
||
&i.Status,
|
||
&i.MaxConcurrentTasks,
|
||
&i.OwnerID,
|
||
&i.CreatedAt,
|
||
&i.UpdatedAt,
|
||
&i.Description,
|
||
&i.RuntimeID,
|
||
&i.Instructions,
|
||
&i.ArchivedAt,
|
||
&i.ArchivedBy,
|
||
&i.CustomEnv,
|
||
&i.CustomArgs,
|
||
&i.McpConfig,
|
||
&i.Model,
|
||
&i.ThinkingLevel,
|
||
&i.ComposioToolkitAllowlist,
|
||
&i.PermissionMode,
|
||
&i.Kind,
|
||
&i.SystemKey,
|
||
)
|
||
return i, err
|
||
}
|
||
|
||
const createAgentTask = `-- name: CreateAgentTask :one
|
||
INSERT INTO agent_task_queue (
|
||
agent_id, runtime_id, issue_id, status, priority, trigger_comment_id,
|
||
coalesced_comment_ids, trigger_summary, force_fresh_session, is_leader_task, handoff_note,
|
||
squad_id, context, originator_user_id, runtime_mcp_overlay, runtime_connected_apps
|
||
)
|
||
VALUES (
|
||
$1, $2, $3, 'queued', $4, $5,
|
||
COALESCE($6::uuid[], '{}'),
|
||
$7,
|
||
COALESCE($8::boolean, FALSE),
|
||
COALESCE($9::boolean, FALSE),
|
||
$10,
|
||
$11,
|
||
CASE
|
||
WHEN COALESCE($12::text, '') <> ''
|
||
THEN jsonb_build_object('head_sha', $12::text)
|
||
ELSE NULL
|
||
END,
|
||
$13,
|
||
$14,
|
||
$15
|
||
)
|
||
RETURNING id, agent_id, issue_id, status, priority, dispatched_at, started_at, completed_at, result, error, created_at, context, runtime_id, session_id, work_dir, trigger_comment_id, chat_session_id, autopilot_run_id, attempt, max_attempts, parent_task_id, failure_reason, trigger_summary, force_fresh_session, is_leader_task, wait_reason, initiator_user_id, handoff_note, prepare_lease_expires_at, squad_id, runtime_mcp_overlay, escalation_for_task_id, fire_at, originator_user_id, runtime_connected_apps, coalesced_comment_ids, delivered_comment_ids, chat_input_task_id
|
||
`
|
||
|
||
type CreateAgentTaskParams struct {
|
||
AgentID pgtype.UUID `json:"agent_id"`
|
||
RuntimeID pgtype.UUID `json:"runtime_id"`
|
||
IssueID pgtype.UUID `json:"issue_id"`
|
||
Priority int32 `json:"priority"`
|
||
TriggerCommentID pgtype.UUID `json:"trigger_comment_id"`
|
||
CoalescedCommentIds []pgtype.UUID `json:"coalesced_comment_ids"`
|
||
TriggerSummary pgtype.Text `json:"trigger_summary"`
|
||
ForceFreshSession pgtype.Bool `json:"force_fresh_session"`
|
||
IsLeaderTask pgtype.Bool `json:"is_leader_task"`
|
||
HandoffNote pgtype.Text `json:"handoff_note"`
|
||
SquadID pgtype.UUID `json:"squad_id"`
|
||
HeadSha pgtype.Text `json:"head_sha"`
|
||
OriginatorUserID pgtype.UUID `json:"originator_user_id"`
|
||
RuntimeMcpOverlay []byte `json:"runtime_mcp_overlay"`
|
||
RuntimeConnectedApps []byte `json:"runtime_connected_apps"`
|
||
}
|
||
|
||
// head_sha stamps the commit under review into the task's context JSONB so the
|
||
// reviewer-loop dedup (HasPendingTaskForIssueAndAgent) can tell a pending run
|
||
// against an OLD head apart from a fresh request against a NEW head (TEN-356).
|
||
// Empty/absent head_sha leaves context NULL, preserving pre-TEN-356 behavior for
|
||
// issues with no linked PR. Issue-linked tasks never hit quick-create context
|
||
// parsing (parseQuickCreateContext short-circuits on IssueID.Valid), so this
|
||
// key rides harmlessly alongside.
|
||
func (q *Queries) CreateAgentTask(ctx context.Context, arg CreateAgentTaskParams) (AgentTaskQueue, error) {
|
||
row := q.db.QueryRow(ctx, createAgentTask,
|
||
arg.AgentID,
|
||
arg.RuntimeID,
|
||
arg.IssueID,
|
||
arg.Priority,
|
||
arg.TriggerCommentID,
|
||
arg.CoalescedCommentIds,
|
||
arg.TriggerSummary,
|
||
arg.ForceFreshSession,
|
||
arg.IsLeaderTask,
|
||
arg.HandoffNote,
|
||
arg.SquadID,
|
||
arg.HeadSha,
|
||
arg.OriginatorUserID,
|
||
arg.RuntimeMcpOverlay,
|
||
arg.RuntimeConnectedApps,
|
||
)
|
||
var i AgentTaskQueue
|
||
err := row.Scan(
|
||
&i.ID,
|
||
&i.AgentID,
|
||
&i.IssueID,
|
||
&i.Status,
|
||
&i.Priority,
|
||
&i.DispatchedAt,
|
||
&i.StartedAt,
|
||
&i.CompletedAt,
|
||
&i.Result,
|
||
&i.Error,
|
||
&i.CreatedAt,
|
||
&i.Context,
|
||
&i.RuntimeID,
|
||
&i.SessionID,
|
||
&i.WorkDir,
|
||
&i.TriggerCommentID,
|
||
&i.ChatSessionID,
|
||
&i.AutopilotRunID,
|
||
&i.Attempt,
|
||
&i.MaxAttempts,
|
||
&i.ParentTaskID,
|
||
&i.FailureReason,
|
||
&i.TriggerSummary,
|
||
&i.ForceFreshSession,
|
||
&i.IsLeaderTask,
|
||
&i.WaitReason,
|
||
&i.InitiatorUserID,
|
||
&i.HandoffNote,
|
||
&i.PrepareLeaseExpiresAt,
|
||
&i.SquadID,
|
||
&i.RuntimeMcpOverlay,
|
||
&i.EscalationForTaskID,
|
||
&i.FireAt,
|
||
&i.OriginatorUserID,
|
||
&i.RuntimeConnectedApps,
|
||
&i.CoalescedCommentIds,
|
||
&i.DeliveredCommentIds,
|
||
&i.ChatInputTaskID,
|
||
)
|
||
return i, err
|
||
}
|
||
|
||
const createDeferredAgentTask = `-- name: CreateDeferredAgentTask :one
|
||
INSERT INTO agent_task_queue (
|
||
agent_id, runtime_id, issue_id, status, priority, trigger_comment_id,
|
||
trigger_summary, is_leader_task, squad_id, escalation_for_task_id, fire_at
|
||
)
|
||
VALUES (
|
||
$1, $2, $3, 'deferred', $4,
|
||
$5,
|
||
$6,
|
||
COALESCE($7::boolean, FALSE),
|
||
$8,
|
||
$9,
|
||
$10
|
||
)
|
||
RETURNING id, agent_id, issue_id, status, priority, dispatched_at, started_at, completed_at, result, error, created_at, context, runtime_id, session_id, work_dir, trigger_comment_id, chat_session_id, autopilot_run_id, attempt, max_attempts, parent_task_id, failure_reason, trigger_summary, force_fresh_session, is_leader_task, wait_reason, initiator_user_id, handoff_note, prepare_lease_expires_at, squad_id, runtime_mcp_overlay, escalation_for_task_id, fire_at, originator_user_id, runtime_connected_apps, coalesced_comment_ids, delivered_comment_ids, chat_input_task_id
|
||
`
|
||
|
||
type CreateDeferredAgentTaskParams struct {
|
||
AgentID pgtype.UUID `json:"agent_id"`
|
||
RuntimeID pgtype.UUID `json:"runtime_id"`
|
||
IssueID pgtype.UUID `json:"issue_id"`
|
||
Priority int32 `json:"priority"`
|
||
TriggerCommentID pgtype.UUID `json:"trigger_comment_id"`
|
||
TriggerSummary pgtype.Text `json:"trigger_summary"`
|
||
IsLeaderTask pgtype.Bool `json:"is_leader_task"`
|
||
SquadID pgtype.UUID `json:"squad_id"`
|
||
EscalationForTaskID pgtype.UUID `json:"escalation_for_task_id"`
|
||
FireAt pgtype.Timestamptz `json:"fire_at"`
|
||
}
|
||
|
||
// Deferred tasks are inert until PromoteDueDeferredTasksForRuntime flips them
|
||
// to queued. Used for comment-routing escalation: a thread-owner primary task
|
||
// gets a delayed assignee fallback without waking both agents at t=0.
|
||
func (q *Queries) CreateDeferredAgentTask(ctx context.Context, arg CreateDeferredAgentTaskParams) (AgentTaskQueue, error) {
|
||
row := q.db.QueryRow(ctx, createDeferredAgentTask,
|
||
arg.AgentID,
|
||
arg.RuntimeID,
|
||
arg.IssueID,
|
||
arg.Priority,
|
||
arg.TriggerCommentID,
|
||
arg.TriggerSummary,
|
||
arg.IsLeaderTask,
|
||
arg.SquadID,
|
||
arg.EscalationForTaskID,
|
||
arg.FireAt,
|
||
)
|
||
var i AgentTaskQueue
|
||
err := row.Scan(
|
||
&i.ID,
|
||
&i.AgentID,
|
||
&i.IssueID,
|
||
&i.Status,
|
||
&i.Priority,
|
||
&i.DispatchedAt,
|
||
&i.StartedAt,
|
||
&i.CompletedAt,
|
||
&i.Result,
|
||
&i.Error,
|
||
&i.CreatedAt,
|
||
&i.Context,
|
||
&i.RuntimeID,
|
||
&i.SessionID,
|
||
&i.WorkDir,
|
||
&i.TriggerCommentID,
|
||
&i.ChatSessionID,
|
||
&i.AutopilotRunID,
|
||
&i.Attempt,
|
||
&i.MaxAttempts,
|
||
&i.ParentTaskID,
|
||
&i.FailureReason,
|
||
&i.TriggerSummary,
|
||
&i.ForceFreshSession,
|
||
&i.IsLeaderTask,
|
||
&i.WaitReason,
|
||
&i.InitiatorUserID,
|
||
&i.HandoffNote,
|
||
&i.PrepareLeaseExpiresAt,
|
||
&i.SquadID,
|
||
&i.RuntimeMcpOverlay,
|
||
&i.EscalationForTaskID,
|
||
&i.FireAt,
|
||
&i.OriginatorUserID,
|
||
&i.RuntimeConnectedApps,
|
||
&i.CoalescedCommentIds,
|
||
&i.DeliveredCommentIds,
|
||
&i.ChatInputTaskID,
|
||
)
|
||
return i, err
|
||
}
|
||
|
||
const createQuickCreateTask = `-- name: CreateQuickCreateTask :one
|
||
INSERT INTO agent_task_queue (
|
||
agent_id, runtime_id, issue_id, status, priority, context, originator_user_id,
|
||
runtime_mcp_overlay, runtime_connected_apps
|
||
)
|
||
VALUES (
|
||
$1, $2, NULL, 'queued', $3, $4,
|
||
$5,
|
||
$6,
|
||
$7
|
||
)
|
||
RETURNING id, agent_id, issue_id, status, priority, dispatched_at, started_at, completed_at, result, error, created_at, context, runtime_id, session_id, work_dir, trigger_comment_id, chat_session_id, autopilot_run_id, attempt, max_attempts, parent_task_id, failure_reason, trigger_summary, force_fresh_session, is_leader_task, wait_reason, initiator_user_id, handoff_note, prepare_lease_expires_at, squad_id, runtime_mcp_overlay, escalation_for_task_id, fire_at, originator_user_id, runtime_connected_apps, coalesced_comment_ids, delivered_comment_ids, chat_input_task_id
|
||
`
|
||
|
||
type CreateQuickCreateTaskParams struct {
|
||
AgentID pgtype.UUID `json:"agent_id"`
|
||
RuntimeID pgtype.UUID `json:"runtime_id"`
|
||
Priority int32 `json:"priority"`
|
||
Context []byte `json:"context"`
|
||
OriginatorUserID pgtype.UUID `json:"originator_user_id"`
|
||
RuntimeMcpOverlay []byte `json:"runtime_mcp_overlay"`
|
||
RuntimeConnectedApps []byte `json:"runtime_connected_apps"`
|
||
}
|
||
|
||
// Quick-create tasks have no issue / chat / autopilot link; the entire job
|
||
// description (prompt, requester, workspace) lives in context JSONB. The
|
||
// daemon detects this variant via context.type == "quick_create".
|
||
func (q *Queries) CreateQuickCreateTask(ctx context.Context, arg CreateQuickCreateTaskParams) (AgentTaskQueue, error) {
|
||
row := q.db.QueryRow(ctx, createQuickCreateTask,
|
||
arg.AgentID,
|
||
arg.RuntimeID,
|
||
arg.Priority,
|
||
arg.Context,
|
||
arg.OriginatorUserID,
|
||
arg.RuntimeMcpOverlay,
|
||
arg.RuntimeConnectedApps,
|
||
)
|
||
var i AgentTaskQueue
|
||
err := row.Scan(
|
||
&i.ID,
|
||
&i.AgentID,
|
||
&i.IssueID,
|
||
&i.Status,
|
||
&i.Priority,
|
||
&i.DispatchedAt,
|
||
&i.StartedAt,
|
||
&i.CompletedAt,
|
||
&i.Result,
|
||
&i.Error,
|
||
&i.CreatedAt,
|
||
&i.Context,
|
||
&i.RuntimeID,
|
||
&i.SessionID,
|
||
&i.WorkDir,
|
||
&i.TriggerCommentID,
|
||
&i.ChatSessionID,
|
||
&i.AutopilotRunID,
|
||
&i.Attempt,
|
||
&i.MaxAttempts,
|
||
&i.ParentTaskID,
|
||
&i.FailureReason,
|
||
&i.TriggerSummary,
|
||
&i.ForceFreshSession,
|
||
&i.IsLeaderTask,
|
||
&i.WaitReason,
|
||
&i.InitiatorUserID,
|
||
&i.HandoffNote,
|
||
&i.PrepareLeaseExpiresAt,
|
||
&i.SquadID,
|
||
&i.RuntimeMcpOverlay,
|
||
&i.EscalationForTaskID,
|
||
&i.FireAt,
|
||
&i.OriginatorUserID,
|
||
&i.RuntimeConnectedApps,
|
||
&i.CoalescedCommentIds,
|
||
&i.DeliveredCommentIds,
|
||
&i.ChatInputTaskID,
|
||
)
|
||
return i, err
|
||
}
|
||
|
||
const createRetryTask = `-- name: CreateRetryTask :one
|
||
INSERT INTO agent_task_queue (
|
||
agent_id, runtime_id, issue_id, chat_session_id, autopilot_run_id,
|
||
status, priority, trigger_comment_id, coalesced_comment_ids, trigger_summary, context,
|
||
session_id, work_dir,
|
||
attempt, max_attempts, parent_task_id, force_fresh_session, is_leader_task,
|
||
squad_id, originator_user_id, runtime_mcp_overlay, runtime_connected_apps,
|
||
chat_input_task_id
|
||
)
|
||
SELECT
|
||
p.agent_id, p.runtime_id, p.issue_id, p.chat_session_id, p.autopilot_run_id,
|
||
'queued',
|
||
CASE WHEN p.chat_session_id IS NOT NULL THEN GREATEST(p.priority, 3) ELSE p.priority END,
|
||
p.trigger_comment_id, p.coalesced_comment_ids, p.trigger_summary, p.context,
|
||
CASE WHEN p.failure_reason IS NOT DISTINCT FROM 'codex_semantic_inactivity' THEN NULL ELSE p.session_id END,
|
||
CASE WHEN p.failure_reason IS NOT DISTINCT FROM 'codex_semantic_inactivity' THEN NULL ELSE p.work_dir END,
|
||
p.attempt + 1, p.max_attempts, p.id,
|
||
p.failure_reason IS NOT DISTINCT FROM 'codex_semantic_inactivity',
|
||
p.is_leader_task,
|
||
p.squad_id,
|
||
p.originator_user_id,
|
||
$2,
|
||
$3,
|
||
p.chat_input_task_id
|
||
FROM agent_task_queue p
|
||
WHERE p.id = $1
|
||
RETURNING id, agent_id, issue_id, status, priority, dispatched_at, started_at, completed_at, result, error, created_at, context, runtime_id, session_id, work_dir, trigger_comment_id, chat_session_id, autopilot_run_id, attempt, max_attempts, parent_task_id, failure_reason, trigger_summary, force_fresh_session, is_leader_task, wait_reason, initiator_user_id, handoff_note, prepare_lease_expires_at, squad_id, runtime_mcp_overlay, escalation_for_task_id, fire_at, originator_user_id, runtime_connected_apps, coalesced_comment_ids, delivered_comment_ids, chat_input_task_id
|
||
`
|
||
|
||
type CreateRetryTaskParams struct {
|
||
ID pgtype.UUID `json:"id"`
|
||
RuntimeMcpOverlay []byte `json:"runtime_mcp_overlay"`
|
||
RuntimeConnectedApps []byte `json:"runtime_connected_apps"`
|
||
}
|
||
|
||
// Clones a parent task into a fresh queued attempt. Carries forward the
|
||
// agent's resume context (session_id/work_dir) so the child can continue
|
||
// the conversation when the backend supports it. Resume-unsafe failures are
|
||
// retried as fresh sessions so the child does not inherit a stuck agent
|
||
// conversation. Keep the CASE WHEN predicates in sync with
|
||
// resumeUnsafeFailureReason and the resume lookup blacklists. attempt is
|
||
// incremented; max_attempts, trigger_comment_id, coalesced_comment_ids,
|
||
// is_leader_task, and squad_id are inherited so the retried task receives the
|
||
// parent's complete planned comment batch and keeps the same squad-role
|
||
// provenance. delivered_comment_ids intentionally stays at its '{}' default:
|
||
// the child must earn its own delivery receipt at claim time.
|
||
//
|
||
// originator_user_id is inherited so the Composio overlay decision sees the
|
||
// same top-of-chain human across the retry: the user behind the original
|
||
// run has not changed. The Composio overlay follows the agent's invocation
|
||
// permission and uses the agent owner's connection (MUL-3963); originator is
|
||
// carried for A2A/audit, not as an originator == agent.owner_id gate.
|
||
//
|
||
// chat_input_task_id is inherited straight from the parent so the whole retry
|
||
// chain keeps consuming the ORIGINAL root input batch (MUL-4351): the root
|
||
// direct task set it to its own id, every descendant copies that value, and a
|
||
// claim always reads the same user messages. A plain copy (not
|
||
// COALESCE(parent.chat_input_task_id, parent.id)) is deliberate: legacy/channel
|
||
// parents carry NULL and must stay NULL so their retries keep the trailing
|
||
// selector — promoting a pre-migration NULL row to the task-owned path on retry
|
||
// would risk replaying untagged history during a rolling deploy.
|
||
//
|
||
// Chat retries are queued at GREATEST(priority, 3) so a transiently-failed
|
||
// earlier turn is re-claimed ahead of any fresh chat task (priority 2) the user
|
||
// queued while the failing turn was still running — the retry continues the
|
||
// older turn first. Combined with creating the retry inside FailTask's
|
||
// transaction, this leaves no window for a newer input task to jump ahead.
|
||
func (q *Queries) CreateRetryTask(ctx context.Context, arg CreateRetryTaskParams) (AgentTaskQueue, error) {
|
||
row := q.db.QueryRow(ctx, createRetryTask, arg.ID, arg.RuntimeMcpOverlay, arg.RuntimeConnectedApps)
|
||
var i AgentTaskQueue
|
||
err := row.Scan(
|
||
&i.ID,
|
||
&i.AgentID,
|
||
&i.IssueID,
|
||
&i.Status,
|
||
&i.Priority,
|
||
&i.DispatchedAt,
|
||
&i.StartedAt,
|
||
&i.CompletedAt,
|
||
&i.Result,
|
||
&i.Error,
|
||
&i.CreatedAt,
|
||
&i.Context,
|
||
&i.RuntimeID,
|
||
&i.SessionID,
|
||
&i.WorkDir,
|
||
&i.TriggerCommentID,
|
||
&i.ChatSessionID,
|
||
&i.AutopilotRunID,
|
||
&i.Attempt,
|
||
&i.MaxAttempts,
|
||
&i.ParentTaskID,
|
||
&i.FailureReason,
|
||
&i.TriggerSummary,
|
||
&i.ForceFreshSession,
|
||
&i.IsLeaderTask,
|
||
&i.WaitReason,
|
||
&i.InitiatorUserID,
|
||
&i.HandoffNote,
|
||
&i.PrepareLeaseExpiresAt,
|
||
&i.SquadID,
|
||
&i.RuntimeMcpOverlay,
|
||
&i.EscalationForTaskID,
|
||
&i.FireAt,
|
||
&i.OriginatorUserID,
|
||
&i.RuntimeConnectedApps,
|
||
&i.CoalescedCommentIds,
|
||
&i.DeliveredCommentIds,
|
||
&i.ChatInputTaskID,
|
||
)
|
||
return i, err
|
||
}
|
||
|
||
const deleteSystemAgentByID = `-- name: DeleteSystemAgentByID :exec
|
||
DELETE FROM agent
|
||
WHERE id = $1 AND kind = 'system' AND system_key LIKE 'agent_builder:%'
|
||
`
|
||
|
||
// Builder sessions own their hidden execution agent. Deleting the session
|
||
// removes that carrier and its task rows; the kind guard prevents this cleanup
|
||
// path from ever deleting a user-authored agent.
|
||
func (q *Queries) DeleteSystemAgentByID(ctx context.Context, id pgtype.UUID) error {
|
||
_, err := q.db.Exec(ctx, deleteSystemAgentByID, id)
|
||
return err
|
||
}
|
||
|
||
const expireStaleQueuedTasks = `-- name: ExpireStaleQueuedTasks :many
|
||
WITH victims AS (
|
||
SELECT id FROM agent_task_queue
|
||
WHERE status = 'queued'
|
||
AND created_at < now() - make_interval(secs => $1::double precision)
|
||
ORDER BY created_at ASC
|
||
LIMIT $2::int
|
||
FOR UPDATE SKIP LOCKED
|
||
)
|
||
UPDATE agent_task_queue t
|
||
SET status = 'failed',
|
||
completed_at = now(),
|
||
error = 'task expired in queue',
|
||
failure_reason = 'queued_expired',
|
||
prepare_lease_expires_at = NULL
|
||
FROM victims v
|
||
WHERE t.id = v.id
|
||
AND t.status = 'queued'
|
||
AND t.created_at < now() - make_interval(secs => $1::double precision)
|
||
RETURNING t.id, t.agent_id, t.issue_id, t.status, t.priority, t.dispatched_at, t.started_at, t.completed_at, t.result, t.error, t.created_at, t.context, t.runtime_id, t.session_id, t.work_dir, t.trigger_comment_id, t.chat_session_id, t.autopilot_run_id, t.attempt, t.max_attempts, t.parent_task_id, t.failure_reason, t.trigger_summary, t.force_fresh_session, t.is_leader_task, t.wait_reason, t.initiator_user_id, t.handoff_note, t.prepare_lease_expires_at, t.squad_id, t.runtime_mcp_overlay, t.escalation_for_task_id, t.fire_at, t.originator_user_id, t.runtime_connected_apps, t.coalesced_comment_ids, t.delivered_comment_ids, t.chat_input_task_id
|
||
`
|
||
|
||
type ExpireStaleQueuedTasksParams struct {
|
||
TtlSecs float64 `json:"ttl_secs"`
|
||
MaxPerTick int32 `json:"max_per_tick"`
|
||
}
|
||
|
||
// Fails tasks that have been sitting in 'queued' for longer than the TTL.
|
||
// This is the cleanup arm of the MUL-1899 "queued backlog" fix: even with the
|
||
// new dispatch-time admission gate that refuses to enqueue when the runtime
|
||
// is offline, we still need to drain the historical 87k+ doomed rows and
|
||
// handle edge cases where a runtime goes offline AFTER a task is already
|
||
// queued (the admission check protects new enqueues, not in-flight queue
|
||
// depth).
|
||
//
|
||
// Concurrency safety: the daemon's claim path may race with this sweeper to
|
||
// transition the same row out of 'queued'. We protect against that two
|
||
// ways:
|
||
// 1. The CTE selects victims with FOR UPDATE SKIP LOCKED so a row that is
|
||
// currently being claimed (or otherwise locked) is skipped — no lock
|
||
// contention with the dispatch path, and we won't queue up behind it.
|
||
// 2. The outer UPDATE re-checks status='queued' AND the TTL predicate at
|
||
// apply time. If a daemon claimed the row between selection and update
|
||
// (e.g. lock released after the claim transaction commits), the row is
|
||
// already 'dispatched'/'running' and the WHERE clause filters it out
|
||
// so we cannot clobber an in-flight task.
|
||
//
|
||
// Capped via LIMIT inside the CTE so a single sweep tick cannot monopolise
|
||
// the DB when the backlog is large — the sweeper drains the rest on
|
||
// subsequent ticks.
|
||
func (q *Queries) ExpireStaleQueuedTasks(ctx context.Context, arg ExpireStaleQueuedTasksParams) ([]AgentTaskQueue, error) {
|
||
rows, err := q.db.Query(ctx, expireStaleQueuedTasks, arg.TtlSecs, arg.MaxPerTick)
|
||
if err != nil {
|
||
return nil, err
|
||
}
|
||
defer rows.Close()
|
||
items := []AgentTaskQueue{}
|
||
for rows.Next() {
|
||
var i AgentTaskQueue
|
||
if err := rows.Scan(
|
||
&i.ID,
|
||
&i.AgentID,
|
||
&i.IssueID,
|
||
&i.Status,
|
||
&i.Priority,
|
||
&i.DispatchedAt,
|
||
&i.StartedAt,
|
||
&i.CompletedAt,
|
||
&i.Result,
|
||
&i.Error,
|
||
&i.CreatedAt,
|
||
&i.Context,
|
||
&i.RuntimeID,
|
||
&i.SessionID,
|
||
&i.WorkDir,
|
||
&i.TriggerCommentID,
|
||
&i.ChatSessionID,
|
||
&i.AutopilotRunID,
|
||
&i.Attempt,
|
||
&i.MaxAttempts,
|
||
&i.ParentTaskID,
|
||
&i.FailureReason,
|
||
&i.TriggerSummary,
|
||
&i.ForceFreshSession,
|
||
&i.IsLeaderTask,
|
||
&i.WaitReason,
|
||
&i.InitiatorUserID,
|
||
&i.HandoffNote,
|
||
&i.PrepareLeaseExpiresAt,
|
||
&i.SquadID,
|
||
&i.RuntimeMcpOverlay,
|
||
&i.EscalationForTaskID,
|
||
&i.FireAt,
|
||
&i.OriginatorUserID,
|
||
&i.RuntimeConnectedApps,
|
||
&i.CoalescedCommentIds,
|
||
&i.DeliveredCommentIds,
|
||
&i.ChatInputTaskID,
|
||
); err != nil {
|
||
return nil, err
|
||
}
|
||
items = append(items, i)
|
||
}
|
||
if err := rows.Err(); err != nil {
|
||
return nil, err
|
||
}
|
||
return items, nil
|
||
}
|
||
|
||
const extendAgentTaskPrepareLease = `-- name: ExtendAgentTaskPrepareLease :one
|
||
UPDATE agent_task_queue
|
||
SET prepare_lease_expires_at = now() + make_interval(secs => $3::double precision)
|
||
WHERE id = $1
|
||
AND runtime_id = $2
|
||
AND status IN ('dispatched', 'waiting_local_directory')
|
||
AND started_at IS NULL
|
||
RETURNING id, agent_id, issue_id, status, priority, dispatched_at, started_at, completed_at, result, error, created_at, context, runtime_id, session_id, work_dir, trigger_comment_id, chat_session_id, autopilot_run_id, attempt, max_attempts, parent_task_id, failure_reason, trigger_summary, force_fresh_session, is_leader_task, wait_reason, initiator_user_id, handoff_note, prepare_lease_expires_at, squad_id, runtime_mcp_overlay, escalation_for_task_id, fire_at, originator_user_id, runtime_connected_apps, coalesced_comment_ids, delivered_comment_ids, chat_input_task_id
|
||
`
|
||
|
||
type ExtendAgentTaskPrepareLeaseParams struct {
|
||
ID pgtype.UUID `json:"id"`
|
||
RuntimeID pgtype.UUID `json:"runtime_id"`
|
||
LeaseSecs float64 `json:"lease_secs"`
|
||
}
|
||
|
||
// Keeps a dispatched task protected while the daemon resolves/cache/materializes
|
||
// startup inputs before StartTask. Once the daemon stops extending this short
|
||
// lease, the stale-dispatched reclaim path can recover the task without waiting
|
||
// for a long global recovery window.
|
||
func (q *Queries) ExtendAgentTaskPrepareLease(ctx context.Context, arg ExtendAgentTaskPrepareLeaseParams) (AgentTaskQueue, error) {
|
||
row := q.db.QueryRow(ctx, extendAgentTaskPrepareLease, arg.ID, arg.RuntimeID, arg.LeaseSecs)
|
||
var i AgentTaskQueue
|
||
err := row.Scan(
|
||
&i.ID,
|
||
&i.AgentID,
|
||
&i.IssueID,
|
||
&i.Status,
|
||
&i.Priority,
|
||
&i.DispatchedAt,
|
||
&i.StartedAt,
|
||
&i.CompletedAt,
|
||
&i.Result,
|
||
&i.Error,
|
||
&i.CreatedAt,
|
||
&i.Context,
|
||
&i.RuntimeID,
|
||
&i.SessionID,
|
||
&i.WorkDir,
|
||
&i.TriggerCommentID,
|
||
&i.ChatSessionID,
|
||
&i.AutopilotRunID,
|
||
&i.Attempt,
|
||
&i.MaxAttempts,
|
||
&i.ParentTaskID,
|
||
&i.FailureReason,
|
||
&i.TriggerSummary,
|
||
&i.ForceFreshSession,
|
||
&i.IsLeaderTask,
|
||
&i.WaitReason,
|
||
&i.InitiatorUserID,
|
||
&i.HandoffNote,
|
||
&i.PrepareLeaseExpiresAt,
|
||
&i.SquadID,
|
||
&i.RuntimeMcpOverlay,
|
||
&i.EscalationForTaskID,
|
||
&i.FireAt,
|
||
&i.OriginatorUserID,
|
||
&i.RuntimeConnectedApps,
|
||
&i.CoalescedCommentIds,
|
||
&i.DeliveredCommentIds,
|
||
&i.ChatInputTaskID,
|
||
)
|
||
return i, err
|
||
}
|
||
|
||
const failAgentTask = `-- name: FailAgentTask :one
|
||
UPDATE agent_task_queue
|
||
SET status = 'failed',
|
||
completed_at = now(),
|
||
error = $2,
|
||
failure_reason = COALESCE($3, 'agent_error'),
|
||
session_id = COALESCE($4, session_id),
|
||
work_dir = COALESCE($5, work_dir),
|
||
prepare_lease_expires_at = NULL
|
||
WHERE id = $1 AND status IN ('dispatched', 'running', 'waiting_local_directory')
|
||
RETURNING id, agent_id, issue_id, status, priority, dispatched_at, started_at, completed_at, result, error, created_at, context, runtime_id, session_id, work_dir, trigger_comment_id, chat_session_id, autopilot_run_id, attempt, max_attempts, parent_task_id, failure_reason, trigger_summary, force_fresh_session, is_leader_task, wait_reason, initiator_user_id, handoff_note, prepare_lease_expires_at, squad_id, runtime_mcp_overlay, escalation_for_task_id, fire_at, originator_user_id, runtime_connected_apps, coalesced_comment_ids, delivered_comment_ids, chat_input_task_id
|
||
`
|
||
|
||
type FailAgentTaskParams struct {
|
||
ID pgtype.UUID `json:"id"`
|
||
Error pgtype.Text `json:"error"`
|
||
FailureReason pgtype.Text `json:"failure_reason"`
|
||
SessionID pgtype.Text `json:"session_id"`
|
||
WorkDir pgtype.Text `json:"work_dir"`
|
||
}
|
||
|
||
// Marks a task as failed. session_id and work_dir are merged via COALESCE so
|
||
// if the agent already established a real session before failing (e.g. it
|
||
// crashed mid-conversation, was cancelled, or hit a tool error) the resume
|
||
// pointer is preserved on the task row. The next chat task can then fall
|
||
// back to GetLastChatTaskSession and continue the conversation instead of
|
||
// silently starting over.
|
||
//
|
||
// failure_reason is a coarse classifier consumed by the auto-retry path;
|
||
// 'agent_error' is the safe default when the daemon doesn't supply one.
|
||
func (q *Queries) FailAgentTask(ctx context.Context, arg FailAgentTaskParams) (AgentTaskQueue, error) {
|
||
row := q.db.QueryRow(ctx, failAgentTask,
|
||
arg.ID,
|
||
arg.Error,
|
||
arg.FailureReason,
|
||
arg.SessionID,
|
||
arg.WorkDir,
|
||
)
|
||
var i AgentTaskQueue
|
||
err := row.Scan(
|
||
&i.ID,
|
||
&i.AgentID,
|
||
&i.IssueID,
|
||
&i.Status,
|
||
&i.Priority,
|
||
&i.DispatchedAt,
|
||
&i.StartedAt,
|
||
&i.CompletedAt,
|
||
&i.Result,
|
||
&i.Error,
|
||
&i.CreatedAt,
|
||
&i.Context,
|
||
&i.RuntimeID,
|
||
&i.SessionID,
|
||
&i.WorkDir,
|
||
&i.TriggerCommentID,
|
||
&i.ChatSessionID,
|
||
&i.AutopilotRunID,
|
||
&i.Attempt,
|
||
&i.MaxAttempts,
|
||
&i.ParentTaskID,
|
||
&i.FailureReason,
|
||
&i.TriggerSummary,
|
||
&i.ForceFreshSession,
|
||
&i.IsLeaderTask,
|
||
&i.WaitReason,
|
||
&i.InitiatorUserID,
|
||
&i.HandoffNote,
|
||
&i.PrepareLeaseExpiresAt,
|
||
&i.SquadID,
|
||
&i.RuntimeMcpOverlay,
|
||
&i.EscalationForTaskID,
|
||
&i.FireAt,
|
||
&i.OriginatorUserID,
|
||
&i.RuntimeConnectedApps,
|
||
&i.CoalescedCommentIds,
|
||
&i.DeliveredCommentIds,
|
||
&i.ChatInputTaskID,
|
||
)
|
||
return i, err
|
||
}
|
||
|
||
const failStaleTasks = `-- name: FailStaleTasks :many
|
||
UPDATE agent_task_queue
|
||
SET status = 'failed', completed_at = now(), error = 'task timed out',
|
||
failure_reason = 'timeout',
|
||
prepare_lease_expires_at = NULL
|
||
WHERE (
|
||
status = 'dispatched'
|
||
AND dispatched_at < now() - make_interval(secs => $1::double precision)
|
||
AND (prepare_lease_expires_at IS NULL OR prepare_lease_expires_at < now())
|
||
)
|
||
OR (
|
||
status = 'running'
|
||
AND started_at < now() - make_interval(secs => $2::double precision)
|
||
AND NOT EXISTS (
|
||
SELECT 1 FROM agent_runtime r
|
||
WHERE r.id = agent_task_queue.runtime_id
|
||
AND r.status = 'online'
|
||
AND r.last_seen_at >= now() - make_interval(secs => $3::double precision)
|
||
)
|
||
)
|
||
RETURNING id, agent_id, issue_id, status, priority, dispatched_at, started_at, completed_at, result, error, created_at, context, runtime_id, session_id, work_dir, trigger_comment_id, chat_session_id, autopilot_run_id, attempt, max_attempts, parent_task_id, failure_reason, trigger_summary, force_fresh_session, is_leader_task, wait_reason, initiator_user_id, handoff_note, prepare_lease_expires_at, squad_id, runtime_mcp_overlay, escalation_for_task_id, fire_at, originator_user_id, runtime_connected_apps, coalesced_comment_ids, delivered_comment_ids, chat_input_task_id
|
||
`
|
||
|
||
type FailStaleTasksParams struct {
|
||
DispatchTimeoutSecs float64 `json:"dispatch_timeout_secs"`
|
||
RunningTimeoutSecs float64 `json:"running_timeout_secs"`
|
||
RuntimeStaleSecs float64 `json:"runtime_stale_secs"`
|
||
}
|
||
|
||
// Fails tasks stuck in dispatched/running beyond the given thresholds.
|
||
//
|
||
// Each branch pairs a wall-clock deadline with a task-appropriate liveness
|
||
// signal, so the sweeper only kills tasks whose owning daemon is no longer
|
||
// proving it is alive:
|
||
//
|
||
// - Dispatched: `prepare_lease_expires_at` is refreshed every 15s by the
|
||
// daemon between claim and StartTask (see startTaskPrepareLeaseExtender).
|
||
// A live lease excludes the row.
|
||
//
|
||
// - Running: no per-task lease is renewed once StartTask fires, so we key
|
||
// off the daemon-wide heartbeat instead — `agent_runtime.last_seen_at`,
|
||
// which the daemon bumps every ~15s while it is up. A running task whose
|
||
// runtime is `online` AND whose `last_seen_at` is within
|
||
// @runtime_stale_secs is treated as alive and is NOT killed by this
|
||
// wall-clock backstop, even after `started_at` exceeds the running
|
||
// timeout. This is what lets healthy multi-hour research / training runs
|
||
// survive on self-hosted deployments (MUL-4107): the daemon side is
|
||
// bounded only by inactivity watchdogs (idle / per-tool), so the
|
||
// server-side wall clock must not shadow that with a coarser cap.
|
||
//
|
||
// The daemon-dead case is the primary responsibility of `sweepStaleRuntimes`
|
||
// (which mixes DB `last_seen_at` with the Redis LivenessStore and calls
|
||
// `FailTasksForOfflineRuntimes` in the same tick). The wall-clock branch
|
||
// here is a defensive backstop for pathological cases where a runtime row
|
||
// somehow retains status='online' with a stale DB heartbeat for longer than
|
||
// the wall clock allows.
|
||
//
|
||
// runtime_id IS NULL: a running row with no runtime is by definition not
|
||
// proving liveness, so the wall clock is allowed to fire — same shape as
|
||
// the legacy pure-wall-clock behavior for that (rare / historical) case.
|
||
//
|
||
// waiting_local_directory rows are intentionally excluded: the daemon owns
|
||
// the wait (with its own ctx-driven timeout) and a legitimate queue ahead
|
||
// of this task can exceed the dispatch / running timeouts without being
|
||
// "stuck". If the daemon dies, RecoverOrphanedTasksForRuntime reclaims
|
||
// those rows at restart.
|
||
func (q *Queries) FailStaleTasks(ctx context.Context, arg FailStaleTasksParams) ([]AgentTaskQueue, error) {
|
||
rows, err := q.db.Query(ctx, failStaleTasks, arg.DispatchTimeoutSecs, arg.RunningTimeoutSecs, arg.RuntimeStaleSecs)
|
||
if err != nil {
|
||
return nil, err
|
||
}
|
||
defer rows.Close()
|
||
items := []AgentTaskQueue{}
|
||
for rows.Next() {
|
||
var i AgentTaskQueue
|
||
if err := rows.Scan(
|
||
&i.ID,
|
||
&i.AgentID,
|
||
&i.IssueID,
|
||
&i.Status,
|
||
&i.Priority,
|
||
&i.DispatchedAt,
|
||
&i.StartedAt,
|
||
&i.CompletedAt,
|
||
&i.Result,
|
||
&i.Error,
|
||
&i.CreatedAt,
|
||
&i.Context,
|
||
&i.RuntimeID,
|
||
&i.SessionID,
|
||
&i.WorkDir,
|
||
&i.TriggerCommentID,
|
||
&i.ChatSessionID,
|
||
&i.AutopilotRunID,
|
||
&i.Attempt,
|
||
&i.MaxAttempts,
|
||
&i.ParentTaskID,
|
||
&i.FailureReason,
|
||
&i.TriggerSummary,
|
||
&i.ForceFreshSession,
|
||
&i.IsLeaderTask,
|
||
&i.WaitReason,
|
||
&i.InitiatorUserID,
|
||
&i.HandoffNote,
|
||
&i.PrepareLeaseExpiresAt,
|
||
&i.SquadID,
|
||
&i.RuntimeMcpOverlay,
|
||
&i.EscalationForTaskID,
|
||
&i.FireAt,
|
||
&i.OriginatorUserID,
|
||
&i.RuntimeConnectedApps,
|
||
&i.CoalescedCommentIds,
|
||
&i.DeliveredCommentIds,
|
||
&i.ChatInputTaskID,
|
||
); err != nil {
|
||
return nil, err
|
||
}
|
||
items = append(items, i)
|
||
}
|
||
if err := rows.Err(); err != nil {
|
||
return nil, err
|
||
}
|
||
return items, nil
|
||
}
|
||
|
||
const getAgent = `-- name: GetAgent :one
|
||
SELECT id, workspace_id, name, avatar_url, runtime_mode, runtime_config, visibility, status, max_concurrent_tasks, owner_id, created_at, updated_at, description, runtime_id, instructions, archived_at, archived_by, custom_env, custom_args, mcp_config, model, thinking_level, composio_toolkit_allowlist, permission_mode, kind, system_key FROM agent
|
||
WHERE id = $1
|
||
`
|
||
|
||
func (q *Queries) GetAgent(ctx context.Context, id pgtype.UUID) (Agent, error) {
|
||
row := q.db.QueryRow(ctx, getAgent, id)
|
||
var i Agent
|
||
err := row.Scan(
|
||
&i.ID,
|
||
&i.WorkspaceID,
|
||
&i.Name,
|
||
&i.AvatarUrl,
|
||
&i.RuntimeMode,
|
||
&i.RuntimeConfig,
|
||
&i.Visibility,
|
||
&i.Status,
|
||
&i.MaxConcurrentTasks,
|
||
&i.OwnerID,
|
||
&i.CreatedAt,
|
||
&i.UpdatedAt,
|
||
&i.Description,
|
||
&i.RuntimeID,
|
||
&i.Instructions,
|
||
&i.ArchivedAt,
|
||
&i.ArchivedBy,
|
||
&i.CustomEnv,
|
||
&i.CustomArgs,
|
||
&i.McpConfig,
|
||
&i.Model,
|
||
&i.ThinkingLevel,
|
||
&i.ComposioToolkitAllowlist,
|
||
&i.PermissionMode,
|
||
&i.Kind,
|
||
&i.SystemKey,
|
||
)
|
||
return i, err
|
||
}
|
||
|
||
const getAgentForClaimUpdate = `-- name: GetAgentForClaimUpdate :one
|
||
SELECT id, workspace_id, name, avatar_url, runtime_mode, runtime_config, visibility, status, max_concurrent_tasks, owner_id, created_at, updated_at, description, runtime_id, instructions, archived_at, archived_by, custom_env, custom_args, mcp_config, model, thinking_level, composio_toolkit_allowlist, permission_mode, kind, system_key FROM agent
|
||
WHERE id = $1
|
||
FOR UPDATE
|
||
`
|
||
|
||
func (q *Queries) GetAgentForClaimUpdate(ctx context.Context, id pgtype.UUID) (Agent, error) {
|
||
row := q.db.QueryRow(ctx, getAgentForClaimUpdate, id)
|
||
var i Agent
|
||
err := row.Scan(
|
||
&i.ID,
|
||
&i.WorkspaceID,
|
||
&i.Name,
|
||
&i.AvatarUrl,
|
||
&i.RuntimeMode,
|
||
&i.RuntimeConfig,
|
||
&i.Visibility,
|
||
&i.Status,
|
||
&i.MaxConcurrentTasks,
|
||
&i.OwnerID,
|
||
&i.CreatedAt,
|
||
&i.UpdatedAt,
|
||
&i.Description,
|
||
&i.RuntimeID,
|
||
&i.Instructions,
|
||
&i.ArchivedAt,
|
||
&i.ArchivedBy,
|
||
&i.CustomEnv,
|
||
&i.CustomArgs,
|
||
&i.McpConfig,
|
||
&i.Model,
|
||
&i.ThinkingLevel,
|
||
&i.ComposioToolkitAllowlist,
|
||
&i.PermissionMode,
|
||
&i.Kind,
|
||
&i.SystemKey,
|
||
)
|
||
return i, err
|
||
}
|
||
|
||
const getAgentInWorkspace = `-- name: GetAgentInWorkspace :one
|
||
SELECT id, workspace_id, name, avatar_url, runtime_mode, runtime_config, visibility, status, max_concurrent_tasks, owner_id, created_at, updated_at, description, runtime_id, instructions, archived_at, archived_by, custom_env, custom_args, mcp_config, model, thinking_level, composio_toolkit_allowlist, permission_mode, kind, system_key FROM agent
|
||
WHERE id = $1 AND workspace_id = $2 AND kind = 'user'
|
||
`
|
||
|
||
type GetAgentInWorkspaceParams struct {
|
||
ID pgtype.UUID `json:"id"`
|
||
WorkspaceID pgtype.UUID `json:"workspace_id"`
|
||
}
|
||
|
||
func (q *Queries) GetAgentInWorkspace(ctx context.Context, arg GetAgentInWorkspaceParams) (Agent, error) {
|
||
row := q.db.QueryRow(ctx, getAgentInWorkspace, arg.ID, arg.WorkspaceID)
|
||
var i Agent
|
||
err := row.Scan(
|
||
&i.ID,
|
||
&i.WorkspaceID,
|
||
&i.Name,
|
||
&i.AvatarUrl,
|
||
&i.RuntimeMode,
|
||
&i.RuntimeConfig,
|
||
&i.Visibility,
|
||
&i.Status,
|
||
&i.MaxConcurrentTasks,
|
||
&i.OwnerID,
|
||
&i.CreatedAt,
|
||
&i.UpdatedAt,
|
||
&i.Description,
|
||
&i.RuntimeID,
|
||
&i.Instructions,
|
||
&i.ArchivedAt,
|
||
&i.ArchivedBy,
|
||
&i.CustomEnv,
|
||
&i.CustomArgs,
|
||
&i.McpConfig,
|
||
&i.Model,
|
||
&i.ThinkingLevel,
|
||
&i.ComposioToolkitAllowlist,
|
||
&i.PermissionMode,
|
||
&i.Kind,
|
||
&i.SystemKey,
|
||
)
|
||
return i, err
|
||
}
|
||
|
||
const getAgentTask = `-- name: GetAgentTask :one
|
||
SELECT id, agent_id, issue_id, status, priority, dispatched_at, started_at, completed_at, result, error, created_at, context, runtime_id, session_id, work_dir, trigger_comment_id, chat_session_id, autopilot_run_id, attempt, max_attempts, parent_task_id, failure_reason, trigger_summary, force_fresh_session, is_leader_task, wait_reason, initiator_user_id, handoff_note, prepare_lease_expires_at, squad_id, runtime_mcp_overlay, escalation_for_task_id, fire_at, originator_user_id, runtime_connected_apps, coalesced_comment_ids, delivered_comment_ids, chat_input_task_id FROM agent_task_queue
|
||
WHERE id = $1
|
||
`
|
||
|
||
func (q *Queries) GetAgentTask(ctx context.Context, id pgtype.UUID) (AgentTaskQueue, error) {
|
||
row := q.db.QueryRow(ctx, getAgentTask, id)
|
||
var i AgentTaskQueue
|
||
err := row.Scan(
|
||
&i.ID,
|
||
&i.AgentID,
|
||
&i.IssueID,
|
||
&i.Status,
|
||
&i.Priority,
|
||
&i.DispatchedAt,
|
||
&i.StartedAt,
|
||
&i.CompletedAt,
|
||
&i.Result,
|
||
&i.Error,
|
||
&i.CreatedAt,
|
||
&i.Context,
|
||
&i.RuntimeID,
|
||
&i.SessionID,
|
||
&i.WorkDir,
|
||
&i.TriggerCommentID,
|
||
&i.ChatSessionID,
|
||
&i.AutopilotRunID,
|
||
&i.Attempt,
|
||
&i.MaxAttempts,
|
||
&i.ParentTaskID,
|
||
&i.FailureReason,
|
||
&i.TriggerSummary,
|
||
&i.ForceFreshSession,
|
||
&i.IsLeaderTask,
|
||
&i.WaitReason,
|
||
&i.InitiatorUserID,
|
||
&i.HandoffNote,
|
||
&i.PrepareLeaseExpiresAt,
|
||
&i.SquadID,
|
||
&i.RuntimeMcpOverlay,
|
||
&i.EscalationForTaskID,
|
||
&i.FireAt,
|
||
&i.OriginatorUserID,
|
||
&i.RuntimeConnectedApps,
|
||
&i.CoalescedCommentIds,
|
||
&i.DeliveredCommentIds,
|
||
&i.ChatInputTaskID,
|
||
)
|
||
return i, err
|
||
}
|
||
|
||
const getAgentTaskInWorkspace = `-- name: GetAgentTaskInWorkspace :one
|
||
SELECT atq.id, atq.agent_id, atq.issue_id, atq.status, atq.priority, atq.dispatched_at, atq.started_at, atq.completed_at, atq.result, atq.error, atq.created_at, atq.context, atq.runtime_id, atq.session_id, atq.work_dir, atq.trigger_comment_id, atq.chat_session_id, atq.autopilot_run_id, atq.attempt, atq.max_attempts, atq.parent_task_id, atq.failure_reason, atq.trigger_summary, atq.force_fresh_session, atq.is_leader_task, atq.wait_reason, atq.initiator_user_id, atq.handoff_note, atq.prepare_lease_expires_at, atq.squad_id, atq.runtime_mcp_overlay, atq.escalation_for_task_id, atq.fire_at, atq.originator_user_id, atq.runtime_connected_apps, atq.coalesced_comment_ids, atq.delivered_comment_ids, atq.chat_input_task_id FROM agent_task_queue atq
|
||
JOIN agent a ON a.id = atq.agent_id
|
||
WHERE atq.id = $1 AND a.workspace_id = $2
|
||
`
|
||
|
||
type GetAgentTaskInWorkspaceParams struct {
|
||
ID pgtype.UUID `json:"id"`
|
||
WorkspaceID pgtype.UUID `json:"workspace_id"`
|
||
}
|
||
|
||
// Loads a task only when its owning agent lives in the given workspace.
|
||
// agent_id is NOT NULL on every task row (and ON DELETE CASCADE, so the agent
|
||
// always exists), which makes this the universal tenant guard for
|
||
// user-initiated cancellation — independent of which optional source FK
|
||
// (issue / chat_session / autopilot_run) happens to be set. It is what lets
|
||
// run_only autopilot tasks and quick_create tasks (whose issue does not exist
|
||
// yet) be cancelled at all, instead of 404-ing on a missing source FK.
|
||
func (q *Queries) GetAgentTaskInWorkspace(ctx context.Context, arg GetAgentTaskInWorkspaceParams) (AgentTaskQueue, error) {
|
||
row := q.db.QueryRow(ctx, getAgentTaskInWorkspace, arg.ID, arg.WorkspaceID)
|
||
var i AgentTaskQueue
|
||
err := row.Scan(
|
||
&i.ID,
|
||
&i.AgentID,
|
||
&i.IssueID,
|
||
&i.Status,
|
||
&i.Priority,
|
||
&i.DispatchedAt,
|
||
&i.StartedAt,
|
||
&i.CompletedAt,
|
||
&i.Result,
|
||
&i.Error,
|
||
&i.CreatedAt,
|
||
&i.Context,
|
||
&i.RuntimeID,
|
||
&i.SessionID,
|
||
&i.WorkDir,
|
||
&i.TriggerCommentID,
|
||
&i.ChatSessionID,
|
||
&i.AutopilotRunID,
|
||
&i.Attempt,
|
||
&i.MaxAttempts,
|
||
&i.ParentTaskID,
|
||
&i.FailureReason,
|
||
&i.TriggerSummary,
|
||
&i.ForceFreshSession,
|
||
&i.IsLeaderTask,
|
||
&i.WaitReason,
|
||
&i.InitiatorUserID,
|
||
&i.HandoffNote,
|
||
&i.PrepareLeaseExpiresAt,
|
||
&i.SquadID,
|
||
&i.RuntimeMcpOverlay,
|
||
&i.EscalationForTaskID,
|
||
&i.FireAt,
|
||
&i.OriginatorUserID,
|
||
&i.RuntimeConnectedApps,
|
||
&i.CoalescedCommentIds,
|
||
&i.DeliveredCommentIds,
|
||
&i.ChatInputTaskID,
|
||
)
|
||
return i, err
|
||
}
|
||
|
||
const getLastTaskSession = `-- name: GetLastTaskSession :one
|
||
SELECT session_id, work_dir, runtime_id FROM agent_task_queue
|
||
WHERE agent_id = $1 AND issue_id = $2
|
||
AND (
|
||
status = 'completed'
|
||
OR (
|
||
status = 'failed'
|
||
AND COALESCE(failure_reason, '') NOT IN ('iteration_limit', 'agent_fallback_message', 'api_invalid_request', 'codex_semantic_inactivity')
|
||
AND NOT (COALESCE(error, '') ILIKE '%400%' AND COALESCE(error, '') ILIKE '%invalid_request_error%')
|
||
)
|
||
)
|
||
AND session_id IS NOT NULL
|
||
ORDER BY COALESCE(completed_at, started_at, dispatched_at, created_at) DESC
|
||
LIMIT 1
|
||
`
|
||
|
||
type GetLastTaskSessionParams struct {
|
||
AgentID pgtype.UUID `json:"agent_id"`
|
||
IssueID pgtype.UUID `json:"issue_id"`
|
||
}
|
||
|
||
type GetLastTaskSessionRow struct {
|
||
SessionID pgtype.Text `json:"session_id"`
|
||
WorkDir pgtype.Text `json:"work_dir"`
|
||
RuntimeID pgtype.UUID `json:"runtime_id"`
|
||
}
|
||
|
||
// Returns the session_id and work_dir from the most recent task for a given
|
||
// (agent_id, issue_id) pair, used for session resumption on the auto-retry
|
||
// path. We accept both 'completed' and 'failed' tasks: a failed task may
|
||
// have established a real agent session before crashing (orphaned by a
|
||
// daemon restart, runtime offline, or sweeper timeout), and the daemon pins
|
||
// the resume pointer mid-flight via UpdateAgentTaskSession. Without this,
|
||
// an auto-retry of a mid-run failure would silently start a fresh
|
||
// conversation and lose the in-flight context — exactly what MUL-1128's B
|
||
// branch is meant to fix.
|
||
//
|
||
// Manual rerun (TaskService.RerunIssue) does NOT take this path: it sets
|
||
// force_fresh_session=true on the new task, and the daemon claim handler
|
||
// skips this lookup entirely. The user already judged the prior output bad;
|
||
// resuming the same conversation would replay a poisoned state.
|
||
//
|
||
// Tasks that ended in a known "poisoned" terminal state are also excluded
|
||
// here so even auto-retry does not inherit the bad session. The daemon
|
||
// classifies these failures (iteration_limit, agent_fallback_message,
|
||
// api_invalid_request, codex_semantic_inactivity) when it detects either an
|
||
// agent fallback marker in the output, an upstream API 400 that means the
|
||
// conversation history itself is unprocessable (oversized image, malformed
|
||
// base64, etc.), or a Codex semantic inactivity timeout whose recorded
|
||
// session may replay the same stuck state.
|
||
//
|
||
// The error-text ILIKE clause is defense-in-depth for the api_invalid_request
|
||
// shape: a legacy row tagged 'agent_error' (pre-MUL-1921), a deploy-window
|
||
// row that the old code wrote between migration and rollout, or a future
|
||
// error format that escapes the daemon classifier all still get filtered
|
||
// here as long as the canonical Anthropic 400 marker is present in the
|
||
// error text. Migration 079 backfills the failure_reason column itself,
|
||
// so observability stays accurate; this clause guarantees session resume
|
||
// never picks up a bad session even when failure_reason hasn't caught up.
|
||
func (q *Queries) GetLastTaskSession(ctx context.Context, arg GetLastTaskSessionParams) (GetLastTaskSessionRow, error) {
|
||
row := q.db.QueryRow(ctx, getLastTaskSession, arg.AgentID, arg.IssueID)
|
||
var i GetLastTaskSessionRow
|
||
err := row.Scan(&i.SessionID, &i.WorkDir, &i.RuntimeID)
|
||
return i, err
|
||
}
|
||
|
||
const getLastTaskStartedAtForIssueAndAgent = `-- name: GetLastTaskStartedAtForIssueAndAgent :one
|
||
SELECT started_at FROM agent_task_queue
|
||
WHERE agent_id = $1 AND issue_id = $2 AND started_at IS NOT NULL
|
||
ORDER BY started_at DESC
|
||
LIMIT 1
|
||
`
|
||
|
||
type GetLastTaskStartedAtForIssueAndAgentParams struct {
|
||
AgentID pgtype.UUID `json:"agent_id"`
|
||
IssueID pgtype.UUID `json:"issue_id"`
|
||
}
|
||
|
||
// Returns the started_at of the most recent prior task for this (agent, issue)
|
||
// pair, used as the "since" anchor for counting comments that arrived since the
|
||
// agent's last run. Any terminal state counts as "a run happened". Tasks with
|
||
// no started_at (never dispatched / the just-claimed current task) are excluded,
|
||
// so this never returns the current claim's own row. MUST use started_at, never
|
||
// completed_at: a long run would otherwise miss comments posted while it ran.
|
||
func (q *Queries) GetLastTaskStartedAtForIssueAndAgent(ctx context.Context, arg GetLastTaskStartedAtForIssueAndAgentParams) (pgtype.Timestamptz, error) {
|
||
row := q.db.QueryRow(ctx, getLastTaskStartedAtForIssueAndAgent, arg.AgentID, arg.IssueID)
|
||
var started_at pgtype.Timestamptz
|
||
err := row.Scan(&started_at)
|
||
return started_at, err
|
||
}
|
||
|
||
const getLatestTaskRoleForIssueAndAgent = `-- name: GetLatestTaskRoleForIssueAndAgent :one
|
||
SELECT is_leader_task, squad_id FROM agent_task_queue
|
||
WHERE issue_id = $1 AND agent_id = $2
|
||
ORDER BY created_at DESC
|
||
LIMIT 1
|
||
`
|
||
|
||
type GetLatestTaskRoleForIssueAndAgentParams struct {
|
||
IssueID pgtype.UUID `json:"issue_id"`
|
||
AgentID pgtype.UUID `json:"agent_id"`
|
||
}
|
||
|
||
type GetLatestTaskRoleForIssueAndAgentRow struct {
|
||
IsLeaderTask bool `json:"is_leader_task"`
|
||
SquadID pgtype.UUID `json:"squad_id"`
|
||
}
|
||
|
||
// Returns the role markers from the agent's most recent task on this issue.
|
||
// Used by the squad-leader self-trigger guard to tell apart leader tasks,
|
||
// same-squad worker tasks, and generic agent tasks such as direct mentions or
|
||
// thread-parent replies.
|
||
func (q *Queries) GetLatestTaskRoleForIssueAndAgent(ctx context.Context, arg GetLatestTaskRoleForIssueAndAgentParams) (GetLatestTaskRoleForIssueAndAgentRow, error) {
|
||
row := q.db.QueryRow(ctx, getLatestTaskRoleForIssueAndAgent, arg.IssueID, arg.AgentID)
|
||
var i GetLatestTaskRoleForIssueAndAgentRow
|
||
err := row.Scan(&i.IsLeaderTask, &i.SquadID)
|
||
return i, err
|
||
}
|
||
|
||
const getWorkspaceAgentActivity30d = `-- name: GetWorkspaceAgentActivity30d :many
|
||
SELECT
|
||
atq.agent_id,
|
||
DATE_TRUNC('day', atq.completed_at)::timestamptz AS bucket,
|
||
COUNT(*)::int AS task_count,
|
||
COUNT(*) FILTER (WHERE atq.status = 'failed')::int AS failed_count
|
||
FROM agent_task_queue atq
|
||
JOIN agent a ON a.id = atq.agent_id
|
||
WHERE a.workspace_id = $1
|
||
AND atq.completed_at IS NOT NULL
|
||
AND atq.completed_at > now() - INTERVAL '30 days'
|
||
GROUP BY atq.agent_id, bucket
|
||
ORDER BY atq.agent_id, bucket
|
||
`
|
||
|
||
type GetWorkspaceAgentActivity30dRow struct {
|
||
AgentID pgtype.UUID `json:"agent_id"`
|
||
Bucket pgtype.Timestamptz `json:"bucket"`
|
||
TaskCount int32 `json:"task_count"`
|
||
FailedCount int32 `json:"failed_count"`
|
||
}
|
||
|
||
// Returns per-agent daily activity buckets for the last 30 days. Single
|
||
// workspace-wide read backs both surfaces:
|
||
// - Agents list ACTIVITY column — uses only the trailing 7 buckets
|
||
// - Agent detail "Last 30 days" panel — uses the full 30
|
||
//
|
||
// 30 days contains 7 days, so one fetch + a client-side .slice(-7) wins
|
||
// over fetching twice. Days with no completion produce no row; the
|
||
// front-end zero-fills.
|
||
//
|
||
// Anchored on completed_at (not created_at) because the sparkline answers
|
||
// "what did this agent produce?" not "what was queued at it?". A task that's
|
||
// still in flight has no completed_at and contributes nothing here — that's
|
||
// correct: in-flight tasks are surfaced via the live presence indicator,
|
||
// not the historical trend.
|
||
func (q *Queries) GetWorkspaceAgentActivity30d(ctx context.Context, workspaceID pgtype.UUID) ([]GetWorkspaceAgentActivity30dRow, error) {
|
||
rows, err := q.db.Query(ctx, getWorkspaceAgentActivity30d, workspaceID)
|
||
if err != nil {
|
||
return nil, err
|
||
}
|
||
defer rows.Close()
|
||
items := []GetWorkspaceAgentActivity30dRow{}
|
||
for rows.Next() {
|
||
var i GetWorkspaceAgentActivity30dRow
|
||
if err := rows.Scan(
|
||
&i.AgentID,
|
||
&i.Bucket,
|
||
&i.TaskCount,
|
||
&i.FailedCount,
|
||
); err != nil {
|
||
return nil, err
|
||
}
|
||
items = append(items, i)
|
||
}
|
||
if err := rows.Err(); err != nil {
|
||
return nil, err
|
||
}
|
||
return items, nil
|
||
}
|
||
|
||
const getWorkspaceAgentRunCounts = `-- name: GetWorkspaceAgentRunCounts :many
|
||
SELECT
|
||
atq.agent_id,
|
||
COUNT(*)::int AS run_count
|
||
FROM agent_task_queue atq
|
||
JOIN agent a ON a.id = atq.agent_id
|
||
WHERE a.workspace_id = $1
|
||
AND atq.created_at > now() - INTERVAL '30 days'
|
||
GROUP BY atq.agent_id
|
||
`
|
||
|
||
type GetWorkspaceAgentRunCountsRow struct {
|
||
AgentID pgtype.UUID `json:"agent_id"`
|
||
RunCount int32 `json:"run_count"`
|
||
}
|
||
|
||
// Total task runs per agent over the trailing 30 days, used by the Agents
|
||
// list RUNS column. 30-day window keeps the count meaningful (a long-dormant
|
||
// agent shouldn't show "5,420 runs from 2 years ago") and keeps the scan
|
||
// bounded as the workspace ages.
|
||
func (q *Queries) GetWorkspaceAgentRunCounts(ctx context.Context, workspaceID pgtype.UUID) ([]GetWorkspaceAgentRunCountsRow, error) {
|
||
rows, err := q.db.Query(ctx, getWorkspaceAgentRunCounts, workspaceID)
|
||
if err != nil {
|
||
return nil, err
|
||
}
|
||
defer rows.Close()
|
||
items := []GetWorkspaceAgentRunCountsRow{}
|
||
for rows.Next() {
|
||
var i GetWorkspaceAgentRunCountsRow
|
||
if err := rows.Scan(&i.AgentID, &i.RunCount); err != nil {
|
||
return nil, err
|
||
}
|
||
items = append(items, i)
|
||
}
|
||
if err := rows.Err(); err != nil {
|
||
return nil, err
|
||
}
|
||
return items, nil
|
||
}
|
||
|
||
const hasActiveTaskForIssue = `-- name: HasActiveTaskForIssue :one
|
||
SELECT count(*) > 0 AS has_active FROM agent_task_queue
|
||
WHERE issue_id = $1 AND status IN ('queued', 'dispatched', 'running', 'waiting_local_directory')
|
||
`
|
||
|
||
// Returns true if there is any queued, dispatched, waiting_local_directory,
|
||
// or running task for the issue.
|
||
func (q *Queries) HasActiveTaskForIssue(ctx context.Context, issueID pgtype.UUID) (bool, error) {
|
||
row := q.db.QueryRow(ctx, hasActiveTaskForIssue, issueID)
|
||
var has_active bool
|
||
err := row.Scan(&has_active)
|
||
return has_active, err
|
||
}
|
||
|
||
const hasActiveTaskForIssueAndAgent = `-- name: HasActiveTaskForIssueAndAgent :one
|
||
SELECT count(*) > 0 AS has_active FROM agent_task_queue
|
||
WHERE issue_id = $1 AND agent_id = $2
|
||
AND status IN ('queued', 'dispatched', 'running', 'waiting_local_directory')
|
||
`
|
||
|
||
type HasActiveTaskForIssueAndAgentParams struct {
|
||
IssueID pgtype.UUID `json:"issue_id"`
|
||
AgentID pgtype.UUID `json:"agent_id"`
|
||
}
|
||
|
||
// MUL-4195: true when the (issue, agent) pair has any non-terminal task in a
|
||
// state whose completion will run completion reconciliation — queued,
|
||
// dispatched, running, or waiting_local_directory. Used by the comment enqueue
|
||
// path: when a merge into a pre-claim task fails (the task is already
|
||
// dispatched/running, or a mismatched pre-claim task exists), a fresh queued
|
||
// INSERT would collide with idx_one_pending_task_per_issue_agent AND would risk
|
||
// a duplicate run. Instead the caller relies on that active task's completion
|
||
// reconcile to schedule the guaranteed follow-up, and only enqueues fresh when
|
||
// NO active task exists.
|
||
func (q *Queries) HasActiveTaskForIssueAndAgent(ctx context.Context, arg HasActiveTaskForIssueAndAgentParams) (bool, error) {
|
||
row := q.db.QueryRow(ctx, hasActiveTaskForIssueAndAgent, arg.IssueID, arg.AgentID)
|
||
var has_active bool
|
||
err := row.Scan(&has_active)
|
||
return has_active, err
|
||
}
|
||
|
||
const hasPendingTaskForIssue = `-- name: HasPendingTaskForIssue :one
|
||
SELECT count(*) > 0 AS has_pending FROM agent_task_queue
|
||
WHERE issue_id = $1 AND status IN ('queued', 'dispatched')
|
||
`
|
||
|
||
// Returns true if there is a queued or dispatched (but not yet running) task for the issue.
|
||
// Used by the coalescing queue: allow enqueue when a task is running (so
|
||
// the agent picks up new comments on the next cycle) but skip if a pending
|
||
// task already exists (natural dedup).
|
||
func (q *Queries) HasPendingTaskForIssue(ctx context.Context, issueID pgtype.UUID) (bool, error) {
|
||
row := q.db.QueryRow(ctx, hasPendingTaskForIssue, issueID)
|
||
var has_pending bool
|
||
err := row.Scan(&has_pending)
|
||
return has_pending, err
|
||
}
|
||
|
||
const hasPendingTaskForIssueAndAgent = `-- name: HasPendingTaskForIssueAndAgent :one
|
||
SELECT count(*) > 0 AS has_pending FROM agent_task_queue
|
||
WHERE issue_id = $1 AND agent_id = $2 AND status IN ('queued', 'dispatched')
|
||
AND (
|
||
COALESCE($3::text, '') = ''
|
||
OR context->>'head_sha' = $3::text
|
||
)
|
||
`
|
||
|
||
type HasPendingTaskForIssueAndAgentParams struct {
|
||
IssueID pgtype.UUID `json:"issue_id"`
|
||
AgentID pgtype.UUID `json:"agent_id"`
|
||
HeadSha pgtype.Text `json:"head_sha"`
|
||
}
|
||
|
||
// Returns true if a specific agent already has a queued or dispatched task
|
||
// for the given issue. Used by @mention trigger dedup.
|
||
//
|
||
// head_sha keys the dedup on the commit under review (TEN-356): when a caller
|
||
// passes a non-empty head_sha, a pending task only dedups if it was stamped
|
||
// with the SAME head_sha at enqueue time. If HEAD advanced since the pending
|
||
// task's run began (its context head_sha differs, or predates the stamp and is
|
||
// NULL), the dedup MISSES and a fresh review enqueues against the new HEAD.
|
||
// When head_sha is empty/NULL (issue has no linked PR) the check falls back to
|
||
// the pre-TEN-356 (issue_id, agent_id) key so non-PR issues keep coalescing.
|
||
func (q *Queries) HasPendingTaskForIssueAndAgent(ctx context.Context, arg HasPendingTaskForIssueAndAgentParams) (bool, error) {
|
||
row := q.db.QueryRow(ctx, hasPendingTaskForIssueAndAgent, arg.IssueID, arg.AgentID, arg.HeadSha)
|
||
var has_pending bool
|
||
err := row.Scan(&has_pending)
|
||
return has_pending, err
|
||
}
|
||
|
||
const hasPendingTaskForIssueAndAgentExcludingTriggerComment = `-- name: HasPendingTaskForIssueAndAgentExcludingTriggerComment :one
|
||
SELECT count(*) > 0 AS has_pending FROM agent_task_queue
|
||
WHERE issue_id = $1
|
||
AND agent_id = $2
|
||
AND status IN ('queued', 'dispatched')
|
||
AND trigger_comment_id IS DISTINCT FROM $3::uuid
|
||
AND (
|
||
COALESCE($4::text, '') = ''
|
||
OR context->>'head_sha' = $4::text
|
||
)
|
||
`
|
||
|
||
type HasPendingTaskForIssueAndAgentExcludingTriggerCommentParams struct {
|
||
IssueID pgtype.UUID `json:"issue_id"`
|
||
AgentID pgtype.UUID `json:"agent_id"`
|
||
ExcludeTriggerCommentID pgtype.UUID `json:"exclude_trigger_comment_id"`
|
||
HeadSha pgtype.Text `json:"head_sha"`
|
||
}
|
||
|
||
// Same as HasPendingTaskForIssueAndAgent, but ignores tasks triggered by the
|
||
// current comment being edited. Edit preview needs this because save cancels
|
||
// that comment's old queued/dispatched tasks before re-computing triggers.
|
||
// Carries the same head_sha dedup key as HasPendingTaskForIssueAndAgent (TEN-356).
|
||
func (q *Queries) HasPendingTaskForIssueAndAgentExcludingTriggerComment(ctx context.Context, arg HasPendingTaskForIssueAndAgentExcludingTriggerCommentParams) (bool, error) {
|
||
row := q.db.QueryRow(ctx, hasPendingTaskForIssueAndAgentExcludingTriggerComment,
|
||
arg.IssueID,
|
||
arg.AgentID,
|
||
arg.ExcludeTriggerCommentID,
|
||
arg.HeadSha,
|
||
)
|
||
var has_pending bool
|
||
err := row.Scan(&has_pending)
|
||
return has_pending, err
|
||
}
|
||
|
||
const linkTaskToIssue = `-- name: LinkTaskToIssue :exec
|
||
UPDATE agent_task_queue
|
||
SET issue_id = $2
|
||
WHERE id = $1 AND issue_id IS NULL
|
||
`
|
||
|
||
type LinkTaskToIssueParams struct {
|
||
ID pgtype.UUID `json:"id"`
|
||
IssueID pgtype.UUID `json:"issue_id"`
|
||
}
|
||
|
||
// Attaches the issue a quick-create task produced back to the task row, once
|
||
// the agent has finished and the issue exists. Guarded by `issue_id IS NULL`
|
||
// so this never overwrites an issue id that was set at task creation (only
|
||
// quick-create tasks land here unset). Fixes the activity row staying on
|
||
// "Creating issue" forever after completion.
|
||
func (q *Queries) LinkTaskToIssue(ctx context.Context, arg LinkTaskToIssueParams) error {
|
||
_, err := q.db.Exec(ctx, linkTaskToIssue, arg.ID, arg.IssueID)
|
||
return err
|
||
}
|
||
|
||
const listActiveAgentsByRuntime = `-- name: ListActiveAgentsByRuntime :many
|
||
SELECT id, workspace_id, name, avatar_url, runtime_mode, runtime_config, visibility, status, max_concurrent_tasks, owner_id, created_at, updated_at, description, runtime_id, instructions, archived_at, archived_by, custom_env, custom_args, mcp_config, model, thinking_level, composio_toolkit_allowlist, permission_mode, kind, system_key FROM agent
|
||
WHERE runtime_id = $1 AND archived_at IS NULL AND kind = 'user'
|
||
ORDER BY name ASC
|
||
`
|
||
|
||
// Returns every non-archived agent bound to a runtime. Backs the cascade
|
||
// delete dialog: when DELETE /api/runtimes/:id refuses with
|
||
// runtime_has_active_agents, the response carries this list so the front-end
|
||
// can render exactly the agents that will be archived if the user confirms,
|
||
// and so the cascade endpoint's expected_active_agent_ids check has a stable
|
||
// snapshot to compare against. Ordered by name for a deterministic display.
|
||
func (q *Queries) ListActiveAgentsByRuntime(ctx context.Context, runtimeID pgtype.UUID) ([]Agent, error) {
|
||
rows, err := q.db.Query(ctx, listActiveAgentsByRuntime, runtimeID)
|
||
if err != nil {
|
||
return nil, err
|
||
}
|
||
defer rows.Close()
|
||
items := []Agent{}
|
||
for rows.Next() {
|
||
var i Agent
|
||
if err := rows.Scan(
|
||
&i.ID,
|
||
&i.WorkspaceID,
|
||
&i.Name,
|
||
&i.AvatarUrl,
|
||
&i.RuntimeMode,
|
||
&i.RuntimeConfig,
|
||
&i.Visibility,
|
||
&i.Status,
|
||
&i.MaxConcurrentTasks,
|
||
&i.OwnerID,
|
||
&i.CreatedAt,
|
||
&i.UpdatedAt,
|
||
&i.Description,
|
||
&i.RuntimeID,
|
||
&i.Instructions,
|
||
&i.ArchivedAt,
|
||
&i.ArchivedBy,
|
||
&i.CustomEnv,
|
||
&i.CustomArgs,
|
||
&i.McpConfig,
|
||
&i.Model,
|
||
&i.ThinkingLevel,
|
||
&i.ComposioToolkitAllowlist,
|
||
&i.PermissionMode,
|
||
&i.Kind,
|
||
&i.SystemKey,
|
||
); err != nil {
|
||
return nil, err
|
||
}
|
||
items = append(items, i)
|
||
}
|
||
if err := rows.Err(); err != nil {
|
||
return nil, err
|
||
}
|
||
return items, nil
|
||
}
|
||
|
||
const listActiveAgentsByRuntimeForUpdate = `-- name: ListActiveAgentsByRuntimeForUpdate :many
|
||
SELECT id, workspace_id, name, avatar_url, runtime_mode, runtime_config, visibility, status, max_concurrent_tasks, owner_id, created_at, updated_at, description, runtime_id, instructions, archived_at, archived_by, custom_env, custom_args, mcp_config, model, thinking_level, composio_toolkit_allowlist, permission_mode, kind, system_key FROM agent
|
||
WHERE runtime_id = $1 AND archived_at IS NULL AND kind = 'user'
|
||
ORDER BY name ASC
|
||
FOR UPDATE
|
||
`
|
||
|
||
// FOR UPDATE variant used inside the cascade-delete transaction. Locks
|
||
// each currently-active agent row so a concurrent archive/move of one
|
||
// of those rows blocks until our transaction commits. Pair with
|
||
// LockAgentRuntime, which holds the runtime row exclusively to also
|
||
// block FK-validated INSERTs / runtime_id updates that would otherwise
|
||
// add a new agent to the runtime mid-cascade. Together they guarantee
|
||
// that the set we compared against expected_active_agent_ids is exactly
|
||
// the set ArchiveAgentsByIDs will operate on — no race window.
|
||
func (q *Queries) ListActiveAgentsByRuntimeForUpdate(ctx context.Context, runtimeID pgtype.UUID) ([]Agent, error) {
|
||
rows, err := q.db.Query(ctx, listActiveAgentsByRuntimeForUpdate, runtimeID)
|
||
if err != nil {
|
||
return nil, err
|
||
}
|
||
defer rows.Close()
|
||
items := []Agent{}
|
||
for rows.Next() {
|
||
var i Agent
|
||
if err := rows.Scan(
|
||
&i.ID,
|
||
&i.WorkspaceID,
|
||
&i.Name,
|
||
&i.AvatarUrl,
|
||
&i.RuntimeMode,
|
||
&i.RuntimeConfig,
|
||
&i.Visibility,
|
||
&i.Status,
|
||
&i.MaxConcurrentTasks,
|
||
&i.OwnerID,
|
||
&i.CreatedAt,
|
||
&i.UpdatedAt,
|
||
&i.Description,
|
||
&i.RuntimeID,
|
||
&i.Instructions,
|
||
&i.ArchivedAt,
|
||
&i.ArchivedBy,
|
||
&i.CustomEnv,
|
||
&i.CustomArgs,
|
||
&i.McpConfig,
|
||
&i.Model,
|
||
&i.ThinkingLevel,
|
||
&i.ComposioToolkitAllowlist,
|
||
&i.PermissionMode,
|
||
&i.Kind,
|
||
&i.SystemKey,
|
||
); err != nil {
|
||
return nil, err
|
||
}
|
||
items = append(items, i)
|
||
}
|
||
if err := rows.Err(); err != nil {
|
||
return nil, err
|
||
}
|
||
return items, nil
|
||
}
|
||
|
||
const listActiveTasksByIssue = `-- name: ListActiveTasksByIssue :many
|
||
SELECT id, agent_id, issue_id, status, priority, dispatched_at, started_at, completed_at, result, error, created_at, context, runtime_id, session_id, work_dir, trigger_comment_id, chat_session_id, autopilot_run_id, attempt, max_attempts, parent_task_id, failure_reason, trigger_summary, force_fresh_session, is_leader_task, wait_reason, initiator_user_id, handoff_note, prepare_lease_expires_at, squad_id, runtime_mcp_overlay, escalation_for_task_id, fire_at, originator_user_id, runtime_connected_apps, coalesced_comment_ids, delivered_comment_ids, chat_input_task_id FROM agent_task_queue
|
||
WHERE issue_id = $1 AND status IN ('queued', 'dispatched', 'running', 'waiting_local_directory')
|
||
ORDER BY created_at DESC
|
||
`
|
||
|
||
// Backs the issue-detail "agent live" banner. Includes 'queued' so the
|
||
// banner shows up the moment a task is enqueued — not only after a runtime
|
||
// claims it. The queued window can be long when the runtime is offline or
|
||
// busy on a prior task, and a silent UI during that window looks like the
|
||
// platform never received the trigger.
|
||
func (q *Queries) ListActiveTasksByIssue(ctx context.Context, issueID pgtype.UUID) ([]AgentTaskQueue, error) {
|
||
rows, err := q.db.Query(ctx, listActiveTasksByIssue, issueID)
|
||
if err != nil {
|
||
return nil, err
|
||
}
|
||
defer rows.Close()
|
||
items := []AgentTaskQueue{}
|
||
for rows.Next() {
|
||
var i AgentTaskQueue
|
||
if err := rows.Scan(
|
||
&i.ID,
|
||
&i.AgentID,
|
||
&i.IssueID,
|
||
&i.Status,
|
||
&i.Priority,
|
||
&i.DispatchedAt,
|
||
&i.StartedAt,
|
||
&i.CompletedAt,
|
||
&i.Result,
|
||
&i.Error,
|
||
&i.CreatedAt,
|
||
&i.Context,
|
||
&i.RuntimeID,
|
||
&i.SessionID,
|
||
&i.WorkDir,
|
||
&i.TriggerCommentID,
|
||
&i.ChatSessionID,
|
||
&i.AutopilotRunID,
|
||
&i.Attempt,
|
||
&i.MaxAttempts,
|
||
&i.ParentTaskID,
|
||
&i.FailureReason,
|
||
&i.TriggerSummary,
|
||
&i.ForceFreshSession,
|
||
&i.IsLeaderTask,
|
||
&i.WaitReason,
|
||
&i.InitiatorUserID,
|
||
&i.HandoffNote,
|
||
&i.PrepareLeaseExpiresAt,
|
||
&i.SquadID,
|
||
&i.RuntimeMcpOverlay,
|
||
&i.EscalationForTaskID,
|
||
&i.FireAt,
|
||
&i.OriginatorUserID,
|
||
&i.RuntimeConnectedApps,
|
||
&i.CoalescedCommentIds,
|
||
&i.DeliveredCommentIds,
|
||
&i.ChatInputTaskID,
|
||
); err != nil {
|
||
return nil, err
|
||
}
|
||
items = append(items, i)
|
||
}
|
||
if err := rows.Err(); err != nil {
|
||
return nil, err
|
||
}
|
||
return items, nil
|
||
}
|
||
|
||
const listAgentTasks = `-- name: ListAgentTasks :many
|
||
SELECT id, agent_id, issue_id, status, priority, dispatched_at, started_at, completed_at, result, error, created_at, context, runtime_id, session_id, work_dir, trigger_comment_id, chat_session_id, autopilot_run_id, attempt, max_attempts, parent_task_id, failure_reason, trigger_summary, force_fresh_session, is_leader_task, wait_reason, initiator_user_id, handoff_note, prepare_lease_expires_at, squad_id, runtime_mcp_overlay, escalation_for_task_id, fire_at, originator_user_id, runtime_connected_apps, coalesced_comment_ids, delivered_comment_ids, chat_input_task_id FROM agent_task_queue
|
||
WHERE agent_id = $1
|
||
ORDER BY created_at DESC
|
||
`
|
||
|
||
func (q *Queries) ListAgentTasks(ctx context.Context, agentID pgtype.UUID) ([]AgentTaskQueue, error) {
|
||
rows, err := q.db.Query(ctx, listAgentTasks, agentID)
|
||
if err != nil {
|
||
return nil, err
|
||
}
|
||
defer rows.Close()
|
||
items := []AgentTaskQueue{}
|
||
for rows.Next() {
|
||
var i AgentTaskQueue
|
||
if err := rows.Scan(
|
||
&i.ID,
|
||
&i.AgentID,
|
||
&i.IssueID,
|
||
&i.Status,
|
||
&i.Priority,
|
||
&i.DispatchedAt,
|
||
&i.StartedAt,
|
||
&i.CompletedAt,
|
||
&i.Result,
|
||
&i.Error,
|
||
&i.CreatedAt,
|
||
&i.Context,
|
||
&i.RuntimeID,
|
||
&i.SessionID,
|
||
&i.WorkDir,
|
||
&i.TriggerCommentID,
|
||
&i.ChatSessionID,
|
||
&i.AutopilotRunID,
|
||
&i.Attempt,
|
||
&i.MaxAttempts,
|
||
&i.ParentTaskID,
|
||
&i.FailureReason,
|
||
&i.TriggerSummary,
|
||
&i.ForceFreshSession,
|
||
&i.IsLeaderTask,
|
||
&i.WaitReason,
|
||
&i.InitiatorUserID,
|
||
&i.HandoffNote,
|
||
&i.PrepareLeaseExpiresAt,
|
||
&i.SquadID,
|
||
&i.RuntimeMcpOverlay,
|
||
&i.EscalationForTaskID,
|
||
&i.FireAt,
|
||
&i.OriginatorUserID,
|
||
&i.RuntimeConnectedApps,
|
||
&i.CoalescedCommentIds,
|
||
&i.DeliveredCommentIds,
|
||
&i.ChatInputTaskID,
|
||
); err != nil {
|
||
return nil, err
|
||
}
|
||
items = append(items, i)
|
||
}
|
||
if err := rows.Err(); err != nil {
|
||
return nil, err
|
||
}
|
||
return items, nil
|
||
}
|
||
|
||
const listAgents = `-- name: ListAgents :many
|
||
SELECT id, workspace_id, name, avatar_url, runtime_mode, runtime_config, visibility, status, max_concurrent_tasks, owner_id, created_at, updated_at, description, runtime_id, instructions, archived_at, archived_by, custom_env, custom_args, mcp_config, model, thinking_level, composio_toolkit_allowlist, permission_mode, kind, system_key FROM agent
|
||
WHERE workspace_id = $1 AND archived_at IS NULL AND kind = 'user'
|
||
ORDER BY created_at ASC
|
||
`
|
||
|
||
func (q *Queries) ListAgents(ctx context.Context, workspaceID pgtype.UUID) ([]Agent, error) {
|
||
rows, err := q.db.Query(ctx, listAgents, workspaceID)
|
||
if err != nil {
|
||
return nil, err
|
||
}
|
||
defer rows.Close()
|
||
items := []Agent{}
|
||
for rows.Next() {
|
||
var i Agent
|
||
if err := rows.Scan(
|
||
&i.ID,
|
||
&i.WorkspaceID,
|
||
&i.Name,
|
||
&i.AvatarUrl,
|
||
&i.RuntimeMode,
|
||
&i.RuntimeConfig,
|
||
&i.Visibility,
|
||
&i.Status,
|
||
&i.MaxConcurrentTasks,
|
||
&i.OwnerID,
|
||
&i.CreatedAt,
|
||
&i.UpdatedAt,
|
||
&i.Description,
|
||
&i.RuntimeID,
|
||
&i.Instructions,
|
||
&i.ArchivedAt,
|
||
&i.ArchivedBy,
|
||
&i.CustomEnv,
|
||
&i.CustomArgs,
|
||
&i.McpConfig,
|
||
&i.Model,
|
||
&i.ThinkingLevel,
|
||
&i.ComposioToolkitAllowlist,
|
||
&i.PermissionMode,
|
||
&i.Kind,
|
||
&i.SystemKey,
|
||
); err != nil {
|
||
return nil, err
|
||
}
|
||
items = append(items, i)
|
||
}
|
||
if err := rows.Err(); err != nil {
|
||
return nil, err
|
||
}
|
||
return items, nil
|
||
}
|
||
|
||
const listAllAgents = `-- name: ListAllAgents :many
|
||
SELECT id, workspace_id, name, avatar_url, runtime_mode, runtime_config, visibility, status, max_concurrent_tasks, owner_id, created_at, updated_at, description, runtime_id, instructions, archived_at, archived_by, custom_env, custom_args, mcp_config, model, thinking_level, composio_toolkit_allowlist, permission_mode, kind, system_key FROM agent
|
||
WHERE workspace_id = $1 AND kind = 'user'
|
||
ORDER BY created_at ASC
|
||
`
|
||
|
||
func (q *Queries) ListAllAgents(ctx context.Context, workspaceID pgtype.UUID) ([]Agent, error) {
|
||
rows, err := q.db.Query(ctx, listAllAgents, workspaceID)
|
||
if err != nil {
|
||
return nil, err
|
||
}
|
||
defer rows.Close()
|
||
items := []Agent{}
|
||
for rows.Next() {
|
||
var i Agent
|
||
if err := rows.Scan(
|
||
&i.ID,
|
||
&i.WorkspaceID,
|
||
&i.Name,
|
||
&i.AvatarUrl,
|
||
&i.RuntimeMode,
|
||
&i.RuntimeConfig,
|
||
&i.Visibility,
|
||
&i.Status,
|
||
&i.MaxConcurrentTasks,
|
||
&i.OwnerID,
|
||
&i.CreatedAt,
|
||
&i.UpdatedAt,
|
||
&i.Description,
|
||
&i.RuntimeID,
|
||
&i.Instructions,
|
||
&i.ArchivedAt,
|
||
&i.ArchivedBy,
|
||
&i.CustomEnv,
|
||
&i.CustomArgs,
|
||
&i.McpConfig,
|
||
&i.Model,
|
||
&i.ThinkingLevel,
|
||
&i.ComposioToolkitAllowlist,
|
||
&i.PermissionMode,
|
||
&i.Kind,
|
||
&i.SystemKey,
|
||
); err != nil {
|
||
return nil, err
|
||
}
|
||
items = append(items, i)
|
||
}
|
||
if err := rows.Err(); err != nil {
|
||
return nil, err
|
||
}
|
||
return items, nil
|
||
}
|
||
|
||
const listPendingTasksByRuntime = `-- name: ListPendingTasksByRuntime :many
|
||
SELECT id, agent_id, issue_id, status, priority, dispatched_at, started_at, completed_at, result, error, created_at, context, runtime_id, session_id, work_dir, trigger_comment_id, chat_session_id, autopilot_run_id, attempt, max_attempts, parent_task_id, failure_reason, trigger_summary, force_fresh_session, is_leader_task, wait_reason, initiator_user_id, handoff_note, prepare_lease_expires_at, squad_id, runtime_mcp_overlay, escalation_for_task_id, fire_at, originator_user_id, runtime_connected_apps, coalesced_comment_ids, delivered_comment_ids, chat_input_task_id FROM agent_task_queue
|
||
WHERE runtime_id = $1 AND status IN ('queued', 'dispatched')
|
||
ORDER BY priority DESC, created_at ASC
|
||
`
|
||
|
||
func (q *Queries) ListPendingTasksByRuntime(ctx context.Context, runtimeID pgtype.UUID) ([]AgentTaskQueue, error) {
|
||
rows, err := q.db.Query(ctx, listPendingTasksByRuntime, runtimeID)
|
||
if err != nil {
|
||
return nil, err
|
||
}
|
||
defer rows.Close()
|
||
items := []AgentTaskQueue{}
|
||
for rows.Next() {
|
||
var i AgentTaskQueue
|
||
if err := rows.Scan(
|
||
&i.ID,
|
||
&i.AgentID,
|
||
&i.IssueID,
|
||
&i.Status,
|
||
&i.Priority,
|
||
&i.DispatchedAt,
|
||
&i.StartedAt,
|
||
&i.CompletedAt,
|
||
&i.Result,
|
||
&i.Error,
|
||
&i.CreatedAt,
|
||
&i.Context,
|
||
&i.RuntimeID,
|
||
&i.SessionID,
|
||
&i.WorkDir,
|
||
&i.TriggerCommentID,
|
||
&i.ChatSessionID,
|
||
&i.AutopilotRunID,
|
||
&i.Attempt,
|
||
&i.MaxAttempts,
|
||
&i.ParentTaskID,
|
||
&i.FailureReason,
|
||
&i.TriggerSummary,
|
||
&i.ForceFreshSession,
|
||
&i.IsLeaderTask,
|
||
&i.WaitReason,
|
||
&i.InitiatorUserID,
|
||
&i.HandoffNote,
|
||
&i.PrepareLeaseExpiresAt,
|
||
&i.SquadID,
|
||
&i.RuntimeMcpOverlay,
|
||
&i.EscalationForTaskID,
|
||
&i.FireAt,
|
||
&i.OriginatorUserID,
|
||
&i.RuntimeConnectedApps,
|
||
&i.CoalescedCommentIds,
|
||
&i.DeliveredCommentIds,
|
||
&i.ChatInputTaskID,
|
||
); err != nil {
|
||
return nil, err
|
||
}
|
||
items = append(items, i)
|
||
}
|
||
if err := rows.Err(); err != nil {
|
||
return nil, err
|
||
}
|
||
return items, nil
|
||
}
|
||
|
||
const listQueuedClaimCandidatesByRuntime = `-- name: ListQueuedClaimCandidatesByRuntime :many
|
||
SELECT id, agent_id, issue_id, status, priority, dispatched_at, started_at, completed_at, result, error, created_at, context, runtime_id, session_id, work_dir, trigger_comment_id, chat_session_id, autopilot_run_id, attempt, max_attempts, parent_task_id, failure_reason, trigger_summary, force_fresh_session, is_leader_task, wait_reason, initiator_user_id, handoff_note, prepare_lease_expires_at, squad_id, runtime_mcp_overlay, escalation_for_task_id, fire_at, originator_user_id, runtime_connected_apps, coalesced_comment_ids, delivered_comment_ids, chat_input_task_id FROM agent_task_queue
|
||
WHERE runtime_id = $1 AND status = 'queued'
|
||
ORDER BY priority DESC, created_at ASC
|
||
`
|
||
|
||
// Returns rows the runtime can attempt to claim. Status is restricted to
|
||
// 'queued' (in contrast to ListPendingTasksByRuntime which also includes
|
||
// 'dispatched') because dispatched rows are by definition already owned
|
||
// and cannot be re-claimed — including them in the candidate list pads
|
||
// the result with rows that always lose the per-(issue, agent) race in
|
||
// ClaimAgentTask, wasting CPU and a SELECT every poll cycle when the
|
||
// runtime is busy on a long-running task. Backed by the partial index
|
||
// idx_agent_task_queue_claim_candidates so the warm path is cheap.
|
||
func (q *Queries) ListQueuedClaimCandidatesByRuntime(ctx context.Context, runtimeID pgtype.UUID) ([]AgentTaskQueue, error) {
|
||
rows, err := q.db.Query(ctx, listQueuedClaimCandidatesByRuntime, runtimeID)
|
||
if err != nil {
|
||
return nil, err
|
||
}
|
||
defer rows.Close()
|
||
items := []AgentTaskQueue{}
|
||
for rows.Next() {
|
||
var i AgentTaskQueue
|
||
if err := rows.Scan(
|
||
&i.ID,
|
||
&i.AgentID,
|
||
&i.IssueID,
|
||
&i.Status,
|
||
&i.Priority,
|
||
&i.DispatchedAt,
|
||
&i.StartedAt,
|
||
&i.CompletedAt,
|
||
&i.Result,
|
||
&i.Error,
|
||
&i.CreatedAt,
|
||
&i.Context,
|
||
&i.RuntimeID,
|
||
&i.SessionID,
|
||
&i.WorkDir,
|
||
&i.TriggerCommentID,
|
||
&i.ChatSessionID,
|
||
&i.AutopilotRunID,
|
||
&i.Attempt,
|
||
&i.MaxAttempts,
|
||
&i.ParentTaskID,
|
||
&i.FailureReason,
|
||
&i.TriggerSummary,
|
||
&i.ForceFreshSession,
|
||
&i.IsLeaderTask,
|
||
&i.WaitReason,
|
||
&i.InitiatorUserID,
|
||
&i.HandoffNote,
|
||
&i.PrepareLeaseExpiresAt,
|
||
&i.SquadID,
|
||
&i.RuntimeMcpOverlay,
|
||
&i.EscalationForTaskID,
|
||
&i.FireAt,
|
||
&i.OriginatorUserID,
|
||
&i.RuntimeConnectedApps,
|
||
&i.CoalescedCommentIds,
|
||
&i.DeliveredCommentIds,
|
||
&i.ChatInputTaskID,
|
||
); err != nil {
|
||
return nil, err
|
||
}
|
||
items = append(items, i)
|
||
}
|
||
if err := rows.Err(); err != nil {
|
||
return nil, err
|
||
}
|
||
return items, nil
|
||
}
|
||
|
||
const listQueuedClaimCandidatesByRuntimes = `-- name: ListQueuedClaimCandidatesByRuntimes :many
|
||
SELECT id, agent_id, issue_id, status, priority, dispatched_at, started_at, completed_at, result, error, created_at, context, runtime_id, session_id, work_dir, trigger_comment_id, chat_session_id, autopilot_run_id, attempt, max_attempts, parent_task_id, failure_reason, trigger_summary, force_fresh_session, is_leader_task, wait_reason, initiator_user_id, handoff_note, prepare_lease_expires_at, squad_id, runtime_mcp_overlay, escalation_for_task_id, fire_at, originator_user_id, runtime_connected_apps, coalesced_comment_ids, delivered_comment_ids, chat_input_task_id FROM agent_task_queue
|
||
WHERE runtime_id = ANY($1::uuid[]) AND status = 'queued'
|
||
ORDER BY priority DESC, created_at ASC
|
||
`
|
||
|
||
// Batch variant of ListQueuedClaimCandidatesByRuntime (MUL-4257): returns
|
||
// queued claim candidates across every runtime_id in the input set in ONE round
|
||
// trip, so a daemon can list candidates for all of its runtimes with a single
|
||
// query instead of one per runtime. Ordering matches the singular query
|
||
// (priority, then FIFO) so the batch claim loop keeps the same fairness. The
|
||
// runtime_id filter is served by the partial index
|
||
// idx_agent_task_queue_claim_candidates; the cross-runtime ORDER BY still needs
|
||
// a sort step (each runtime's slice is index-ordered, but merging several
|
||
// runtimes' rows into one priority/FIFO order is not). The per-machine
|
||
// candidate set is small, so this is cheap in practice.
|
||
func (q *Queries) ListQueuedClaimCandidatesByRuntimes(ctx context.Context, runtimeIds []pgtype.UUID) ([]AgentTaskQueue, error) {
|
||
rows, err := q.db.Query(ctx, listQueuedClaimCandidatesByRuntimes, runtimeIds)
|
||
if err != nil {
|
||
return nil, err
|
||
}
|
||
defer rows.Close()
|
||
items := []AgentTaskQueue{}
|
||
for rows.Next() {
|
||
var i AgentTaskQueue
|
||
if err := rows.Scan(
|
||
&i.ID,
|
||
&i.AgentID,
|
||
&i.IssueID,
|
||
&i.Status,
|
||
&i.Priority,
|
||
&i.DispatchedAt,
|
||
&i.StartedAt,
|
||
&i.CompletedAt,
|
||
&i.Result,
|
||
&i.Error,
|
||
&i.CreatedAt,
|
||
&i.Context,
|
||
&i.RuntimeID,
|
||
&i.SessionID,
|
||
&i.WorkDir,
|
||
&i.TriggerCommentID,
|
||
&i.ChatSessionID,
|
||
&i.AutopilotRunID,
|
||
&i.Attempt,
|
||
&i.MaxAttempts,
|
||
&i.ParentTaskID,
|
||
&i.FailureReason,
|
||
&i.TriggerSummary,
|
||
&i.ForceFreshSession,
|
||
&i.IsLeaderTask,
|
||
&i.WaitReason,
|
||
&i.InitiatorUserID,
|
||
&i.HandoffNote,
|
||
&i.PrepareLeaseExpiresAt,
|
||
&i.SquadID,
|
||
&i.RuntimeMcpOverlay,
|
||
&i.EscalationForTaskID,
|
||
&i.FireAt,
|
||
&i.OriginatorUserID,
|
||
&i.RuntimeConnectedApps,
|
||
&i.CoalescedCommentIds,
|
||
&i.DeliveredCommentIds,
|
||
&i.ChatInputTaskID,
|
||
); err != nil {
|
||
return nil, err
|
||
}
|
||
items = append(items, i)
|
||
}
|
||
if err := rows.Err(); err != nil {
|
||
return nil, err
|
||
}
|
||
return items, nil
|
||
}
|
||
|
||
const listTasksByIssue = `-- name: ListTasksByIssue :many
|
||
SELECT id, agent_id, issue_id, status, priority, dispatched_at, started_at, completed_at, result, error, created_at, context, runtime_id, session_id, work_dir, trigger_comment_id, chat_session_id, autopilot_run_id, attempt, max_attempts, parent_task_id, failure_reason, trigger_summary, force_fresh_session, is_leader_task, wait_reason, initiator_user_id, handoff_note, prepare_lease_expires_at, squad_id, runtime_mcp_overlay, escalation_for_task_id, fire_at, originator_user_id, runtime_connected_apps, coalesced_comment_ids, delivered_comment_ids, chat_input_task_id FROM agent_task_queue
|
||
WHERE issue_id = $1
|
||
ORDER BY created_at DESC
|
||
`
|
||
|
||
func (q *Queries) ListTasksByIssue(ctx context.Context, issueID pgtype.UUID) ([]AgentTaskQueue, error) {
|
||
rows, err := q.db.Query(ctx, listTasksByIssue, issueID)
|
||
if err != nil {
|
||
return nil, err
|
||
}
|
||
defer rows.Close()
|
||
items := []AgentTaskQueue{}
|
||
for rows.Next() {
|
||
var i AgentTaskQueue
|
||
if err := rows.Scan(
|
||
&i.ID,
|
||
&i.AgentID,
|
||
&i.IssueID,
|
||
&i.Status,
|
||
&i.Priority,
|
||
&i.DispatchedAt,
|
||
&i.StartedAt,
|
||
&i.CompletedAt,
|
||
&i.Result,
|
||
&i.Error,
|
||
&i.CreatedAt,
|
||
&i.Context,
|
||
&i.RuntimeID,
|
||
&i.SessionID,
|
||
&i.WorkDir,
|
||
&i.TriggerCommentID,
|
||
&i.ChatSessionID,
|
||
&i.AutopilotRunID,
|
||
&i.Attempt,
|
||
&i.MaxAttempts,
|
||
&i.ParentTaskID,
|
||
&i.FailureReason,
|
||
&i.TriggerSummary,
|
||
&i.ForceFreshSession,
|
||
&i.IsLeaderTask,
|
||
&i.WaitReason,
|
||
&i.InitiatorUserID,
|
||
&i.HandoffNote,
|
||
&i.PrepareLeaseExpiresAt,
|
||
&i.SquadID,
|
||
&i.RuntimeMcpOverlay,
|
||
&i.EscalationForTaskID,
|
||
&i.FireAt,
|
||
&i.OriginatorUserID,
|
||
&i.RuntimeConnectedApps,
|
||
&i.CoalescedCommentIds,
|
||
&i.DeliveredCommentIds,
|
||
&i.ChatInputTaskID,
|
||
); err != nil {
|
||
return nil, err
|
||
}
|
||
items = append(items, i)
|
||
}
|
||
if err := rows.Err(); err != nil {
|
||
return nil, err
|
||
}
|
||
return items, nil
|
||
}
|
||
|
||
const listWorkspaceAgentTaskSnapshot = `-- name: ListWorkspaceAgentTaskSnapshot :many
|
||
SELECT atq.id, atq.agent_id, atq.issue_id, atq.status, atq.priority, atq.dispatched_at, atq.started_at, atq.completed_at, atq.result, atq.error, atq.created_at, atq.context, atq.runtime_id, atq.session_id, atq.work_dir, atq.trigger_comment_id, atq.chat_session_id, atq.autopilot_run_id, atq.attempt, atq.max_attempts, atq.parent_task_id, atq.failure_reason, atq.trigger_summary, atq.force_fresh_session, atq.is_leader_task, atq.wait_reason, atq.initiator_user_id, atq.handoff_note, atq.prepare_lease_expires_at, atq.squad_id, atq.runtime_mcp_overlay, atq.escalation_for_task_id, atq.fire_at, atq.originator_user_id, atq.runtime_connected_apps, atq.coalesced_comment_ids, atq.delivered_comment_ids, atq.chat_input_task_id FROM agent_task_queue atq
|
||
JOIN agent a ON a.id = atq.agent_id
|
||
WHERE a.workspace_id = $1
|
||
AND atq.status IN ('queued', 'dispatched', 'running', 'waiting_local_directory')
|
||
|
||
UNION ALL
|
||
|
||
SELECT t.id, t.agent_id, t.issue_id, t.status, t.priority, t.dispatched_at, t.started_at, t.completed_at, t.result, t.error, t.created_at, t.context, t.runtime_id, t.session_id, t.work_dir, t.trigger_comment_id, t.chat_session_id, t.autopilot_run_id, t.attempt, t.max_attempts, t.parent_task_id, t.failure_reason, t.trigger_summary, t.force_fresh_session, t.is_leader_task, t.wait_reason, t.initiator_user_id, t.handoff_note, t.prepare_lease_expires_at, t.squad_id, t.runtime_mcp_overlay, t.escalation_for_task_id, t.fire_at, t.originator_user_id, t.runtime_connected_apps, t.coalesced_comment_ids, t.delivered_comment_ids, t.chat_input_task_id FROM (
|
||
SELECT DISTINCT ON (atq.agent_id) atq.id, atq.agent_id, atq.issue_id, atq.status, atq.priority, atq.dispatched_at, atq.started_at, atq.completed_at, atq.result, atq.error, atq.created_at, atq.context, atq.runtime_id, atq.session_id, atq.work_dir, atq.trigger_comment_id, atq.chat_session_id, atq.autopilot_run_id, atq.attempt, atq.max_attempts, atq.parent_task_id, atq.failure_reason, atq.trigger_summary, atq.force_fresh_session, atq.is_leader_task, atq.wait_reason, atq.initiator_user_id, atq.handoff_note, atq.prepare_lease_expires_at, atq.squad_id, atq.runtime_mcp_overlay, atq.escalation_for_task_id, atq.fire_at, atq.originator_user_id, atq.runtime_connected_apps, atq.coalesced_comment_ids, atq.delivered_comment_ids, atq.chat_input_task_id
|
||
FROM agent_task_queue atq
|
||
JOIN agent a ON a.id = atq.agent_id
|
||
WHERE a.workspace_id = $1
|
||
AND atq.status IN ('completed', 'failed')
|
||
ORDER BY atq.agent_id, atq.completed_at DESC NULLS LAST
|
||
) t
|
||
`
|
||
|
||
// Returns the tasks needed to derive each agent's current presence:
|
||
// - All active tasks (queued / dispatched / running) — for working signal + counts
|
||
// - Each agent's most recent OUTCOME task (completed / failed) — for sticky
|
||
// failed signal
|
||
//
|
||
// The front-end picks "active wins, else latest outcome" — see derive-presence.ts.
|
||
//
|
||
// Cancelled tasks are excluded from the outcome half on purpose: cancel is a
|
||
// procedural signal ("attempt aborted"), not an outcome. It tells us nothing
|
||
// about whether the agent works, so it must NOT be allowed to mask a prior
|
||
// failure. Concretely: if an agent fails and then the user cancels the queued
|
||
// retry (or the parent issue closes and cascades cancels), the failed signal
|
||
// has to stay red. Only a real success (completed) or a fresh attempt (active)
|
||
// clears it.
|
||
//
|
||
// No UI windows in SQL: stickiness is decided by "is the latest outcome a
|
||
// failure?", not a 2-minute clock. JOINs agent because agent_task_queue has
|
||
// no workspace_id column.
|
||
func (q *Queries) ListWorkspaceAgentTaskSnapshot(ctx context.Context, workspaceID pgtype.UUID) ([]AgentTaskQueue, error) {
|
||
rows, err := q.db.Query(ctx, listWorkspaceAgentTaskSnapshot, workspaceID)
|
||
if err != nil {
|
||
return nil, err
|
||
}
|
||
defer rows.Close()
|
||
items := []AgentTaskQueue{}
|
||
for rows.Next() {
|
||
var i AgentTaskQueue
|
||
if err := rows.Scan(
|
||
&i.ID,
|
||
&i.AgentID,
|
||
&i.IssueID,
|
||
&i.Status,
|
||
&i.Priority,
|
||
&i.DispatchedAt,
|
||
&i.StartedAt,
|
||
&i.CompletedAt,
|
||
&i.Result,
|
||
&i.Error,
|
||
&i.CreatedAt,
|
||
&i.Context,
|
||
&i.RuntimeID,
|
||
&i.SessionID,
|
||
&i.WorkDir,
|
||
&i.TriggerCommentID,
|
||
&i.ChatSessionID,
|
||
&i.AutopilotRunID,
|
||
&i.Attempt,
|
||
&i.MaxAttempts,
|
||
&i.ParentTaskID,
|
||
&i.FailureReason,
|
||
&i.TriggerSummary,
|
||
&i.ForceFreshSession,
|
||
&i.IsLeaderTask,
|
||
&i.WaitReason,
|
||
&i.InitiatorUserID,
|
||
&i.HandoffNote,
|
||
&i.PrepareLeaseExpiresAt,
|
||
&i.SquadID,
|
||
&i.RuntimeMcpOverlay,
|
||
&i.EscalationForTaskID,
|
||
&i.FireAt,
|
||
&i.OriginatorUserID,
|
||
&i.RuntimeConnectedApps,
|
||
&i.CoalescedCommentIds,
|
||
&i.DeliveredCommentIds,
|
||
&i.ChatInputTaskID,
|
||
); err != nil {
|
||
return nil, err
|
||
}
|
||
items = append(items, i)
|
||
}
|
||
if err := rows.Err(); err != nil {
|
||
return nil, err
|
||
}
|
||
return items, nil
|
||
}
|
||
|
||
const markAgentTaskWaitingLocalDirectory = `-- name: MarkAgentTaskWaitingLocalDirectory :one
|
||
UPDATE agent_task_queue
|
||
SET status = 'waiting_local_directory',
|
||
wait_reason = $2,
|
||
prepare_lease_expires_at = now() + make_interval(secs => $3::double precision)
|
||
WHERE id = $1 AND status = 'dispatched'
|
||
RETURNING id, agent_id, issue_id, status, priority, dispatched_at, started_at, completed_at, result, error, created_at, context, runtime_id, session_id, work_dir, trigger_comment_id, chat_session_id, autopilot_run_id, attempt, max_attempts, parent_task_id, failure_reason, trigger_summary, force_fresh_session, is_leader_task, wait_reason, initiator_user_id, handoff_note, prepare_lease_expires_at, squad_id, runtime_mcp_overlay, escalation_for_task_id, fire_at, originator_user_id, runtime_connected_apps, coalesced_comment_ids, delivered_comment_ids, chat_input_task_id
|
||
`
|
||
|
||
type MarkAgentTaskWaitingLocalDirectoryParams struct {
|
||
ID pgtype.UUID `json:"id"`
|
||
WaitReason pgtype.Text `json:"wait_reason"`
|
||
PrepareLeaseSecs float64 `json:"prepare_lease_secs"`
|
||
}
|
||
|
||
// Transitions a freshly-dispatched task into 'waiting_local_directory' while
|
||
// the daemon waits for another in-flight task to release the path lock on a
|
||
// project_resource of type local_directory. wait_reason carries a short
|
||
// human-readable hint (typically the contested path) that the UI surfaces
|
||
// alongside the status.
|
||
//
|
||
// The CHECK only allows the transition from 'dispatched' so a daemon can't
|
||
// mark an already-running or terminal task as waiting; the StartAgentTask
|
||
// mutation handles the reverse transition once the lock is acquired.
|
||
func (q *Queries) MarkAgentTaskWaitingLocalDirectory(ctx context.Context, arg MarkAgentTaskWaitingLocalDirectoryParams) (AgentTaskQueue, error) {
|
||
row := q.db.QueryRow(ctx, markAgentTaskWaitingLocalDirectory, arg.ID, arg.WaitReason, arg.PrepareLeaseSecs)
|
||
var i AgentTaskQueue
|
||
err := row.Scan(
|
||
&i.ID,
|
||
&i.AgentID,
|
||
&i.IssueID,
|
||
&i.Status,
|
||
&i.Priority,
|
||
&i.DispatchedAt,
|
||
&i.StartedAt,
|
||
&i.CompletedAt,
|
||
&i.Result,
|
||
&i.Error,
|
||
&i.CreatedAt,
|
||
&i.Context,
|
||
&i.RuntimeID,
|
||
&i.SessionID,
|
||
&i.WorkDir,
|
||
&i.TriggerCommentID,
|
||
&i.ChatSessionID,
|
||
&i.AutopilotRunID,
|
||
&i.Attempt,
|
||
&i.MaxAttempts,
|
||
&i.ParentTaskID,
|
||
&i.FailureReason,
|
||
&i.TriggerSummary,
|
||
&i.ForceFreshSession,
|
||
&i.IsLeaderTask,
|
||
&i.WaitReason,
|
||
&i.InitiatorUserID,
|
||
&i.HandoffNote,
|
||
&i.PrepareLeaseExpiresAt,
|
||
&i.SquadID,
|
||
&i.RuntimeMcpOverlay,
|
||
&i.EscalationForTaskID,
|
||
&i.FireAt,
|
||
&i.OriginatorUserID,
|
||
&i.RuntimeConnectedApps,
|
||
&i.CoalescedCommentIds,
|
||
&i.DeliveredCommentIds,
|
||
&i.ChatInputTaskID,
|
||
)
|
||
return i, err
|
||
}
|
||
|
||
const mergeCommentIntoPendingTask = `-- name: MergeCommentIntoPendingTask :one
|
||
UPDATE agent_task_queue
|
||
SET coalesced_comment_ids = (
|
||
SELECT COALESCE(array_agg(DISTINCT e), '{}')
|
||
FROM unnest(array_append(coalesced_comment_ids, trigger_comment_id)) AS e
|
||
WHERE e IS NOT NULL AND e <> $1::uuid
|
||
),
|
||
trigger_comment_id = $1::uuid,
|
||
trigger_summary = COALESCE($2, trigger_summary),
|
||
originator_user_id = $3::uuid,
|
||
runtime_mcp_overlay = $4,
|
||
runtime_connected_apps = $5
|
||
WHERE id = (
|
||
SELECT t.id FROM agent_task_queue t
|
||
WHERE t.issue_id = $6
|
||
AND t.agent_id = $7
|
||
AND t.status = 'queued'
|
||
ORDER BY t.created_at DESC
|
||
LIMIT 1
|
||
)
|
||
RETURNING id, coalesced_comment_ids
|
||
`
|
||
|
||
type MergeCommentIntoPendingTaskParams struct {
|
||
NewTriggerCommentID pgtype.UUID `json:"new_trigger_comment_id"`
|
||
NewTriggerSummary pgtype.Text `json:"new_trigger_summary"`
|
||
NewOriginatorUserID pgtype.UUID `json:"new_originator_user_id"`
|
||
NewRuntimeMcpOverlay []byte `json:"new_runtime_mcp_overlay"`
|
||
NewRuntimeConnectedApps []byte `json:"new_runtime_connected_apps"`
|
||
IssueID pgtype.UUID `json:"issue_id"`
|
||
AgentID pgtype.UUID `json:"agent_id"`
|
||
}
|
||
|
||
type MergeCommentIntoPendingTaskRow struct {
|
||
ID pgtype.UUID `json:"id"`
|
||
CoalescedCommentIds []pgtype.UUID `json:"coalesced_comment_ids"`
|
||
}
|
||
|
||
// MUL-4195: fold a newly-arrived comment into an existing task for (issue,
|
||
// agent) that has NOT yet been claimed, instead of letting the
|
||
// HasPendingTaskForIssueAndAgent dedup silently DROP it. The task's prior
|
||
// trigger_comment_id becomes a coalesced ("also cover") comment and
|
||
// @new_trigger_comment_id becomes the new trigger, so the injected prompt shows
|
||
// the latest deliberate instruction while the single run is still told to
|
||
// address every folded comment.
|
||
//
|
||
// Target is restricted to the single 'queued' task on purpose (MUL-4195 review
|
||
// rounds 2–4). This merge is only reached when HasPendingTaskForIssueAndAgent
|
||
// matched a 'queued'/'dispatched' task, and 'dispatched' is deliberately NOT a
|
||
// target: a dispatched / waiting_local_directory / running task has already had
|
||
// its claim response built. Folding afterward would add a planned id that is
|
||
// absent from that response's delivered_comment_ids receipt; completion
|
||
// reconciliation handles it instead. 'deferred' is also NOT
|
||
// a target: a deferred row is an assignee-fallback escalation with its own
|
||
// fire_at/promotion lifecycle, and it never sets AlreadyPending
|
||
// (HasPendingTaskForIssueAndAgent only looks at queued/dispatched). If a newer
|
||
// deferred fallback and an older queued task coexisted, a status-IN target would
|
||
// pick the deferred one by created_at and steal the coalescing target away from
|
||
// the queued run that is actually about to be claimed — so we match ONLY the
|
||
// queued row (the idx_one_pending_task_per_issue_agent unique index guarantees
|
||
// at most one). coalesced_comment_ids remains the pre-claim plan; the claim
|
||
// path records the actual embedded subset in delivered_comment_ids.
|
||
//
|
||
// Recompute-on-merge (MUL-4195 review must-fix #1): originator_user_id,
|
||
// runtime_mcp_overlay and runtime_connected_apps are re-stamped to the NEW
|
||
// trigger comment's originator (computed by the caller). Earlier this only
|
||
// repointed the trigger and kept the old originator's overlay/attribution, so a
|
||
// run answering user B's comment could execute under user A's connected-app
|
||
// capabilities and audit identity. Re-stamping means the single coalescing run
|
||
// carries the latest deliberate instruction's originator and the matching
|
||
// overlay — no cross-user capability bleed, no stale attribution. This also
|
||
// removes the previous originator gate + fresh-enqueue fallback, which could not
|
||
// create a second task anyway (the idx_one_pending_task_per_issue_agent unique
|
||
// index allows only one queued/dispatched task per (issue, agent)) and therefore
|
||
// silently dropped the mismatched-originator comment.
|
||
//
|
||
// Returns pgx.ErrNoRows when no queued task exists (it was claimed/started
|
||
// between the dedup check and this call, or the only task is already
|
||
// dispatched/running). The caller must NOT blindly enqueue a fresh task in that
|
||
// case — a dispatched sibling would trip the unique index — it defers to
|
||
// completion reconciliation unless no active task exists at all.
|
||
func (q *Queries) MergeCommentIntoPendingTask(ctx context.Context, arg MergeCommentIntoPendingTaskParams) (MergeCommentIntoPendingTaskRow, error) {
|
||
row := q.db.QueryRow(ctx, mergeCommentIntoPendingTask,
|
||
arg.NewTriggerCommentID,
|
||
arg.NewTriggerSummary,
|
||
arg.NewOriginatorUserID,
|
||
arg.NewRuntimeMcpOverlay,
|
||
arg.NewRuntimeConnectedApps,
|
||
arg.IssueID,
|
||
arg.AgentID,
|
||
)
|
||
var i MergeCommentIntoPendingTaskRow
|
||
err := row.Scan(&i.ID, &i.CoalescedCommentIds)
|
||
return i, err
|
||
}
|
||
|
||
const promoteDueDeferredTasksForRuntime = `-- name: PromoteDueDeferredTasksForRuntime :many
|
||
UPDATE agent_task_queue
|
||
SET status = 'queued'
|
||
WHERE runtime_id = $1
|
||
AND status = 'deferred'
|
||
AND fire_at <= now()
|
||
RETURNING id, agent_id, issue_id, status, priority, dispatched_at, started_at, completed_at, result, error, created_at, context, runtime_id, session_id, work_dir, trigger_comment_id, chat_session_id, autopilot_run_id, attempt, max_attempts, parent_task_id, failure_reason, trigger_summary, force_fresh_session, is_leader_task, wait_reason, initiator_user_id, handoff_note, prepare_lease_expires_at, squad_id, runtime_mcp_overlay, escalation_for_task_id, fire_at, originator_user_id, runtime_connected_apps, coalesced_comment_ids, delivered_comment_ids, chat_input_task_id
|
||
`
|
||
|
||
func (q *Queries) PromoteDueDeferredTasksForRuntime(ctx context.Context, runtimeID pgtype.UUID) ([]AgentTaskQueue, error) {
|
||
rows, err := q.db.Query(ctx, promoteDueDeferredTasksForRuntime, runtimeID)
|
||
if err != nil {
|
||
return nil, err
|
||
}
|
||
defer rows.Close()
|
||
items := []AgentTaskQueue{}
|
||
for rows.Next() {
|
||
var i AgentTaskQueue
|
||
if err := rows.Scan(
|
||
&i.ID,
|
||
&i.AgentID,
|
||
&i.IssueID,
|
||
&i.Status,
|
||
&i.Priority,
|
||
&i.DispatchedAt,
|
||
&i.StartedAt,
|
||
&i.CompletedAt,
|
||
&i.Result,
|
||
&i.Error,
|
||
&i.CreatedAt,
|
||
&i.Context,
|
||
&i.RuntimeID,
|
||
&i.SessionID,
|
||
&i.WorkDir,
|
||
&i.TriggerCommentID,
|
||
&i.ChatSessionID,
|
||
&i.AutopilotRunID,
|
||
&i.Attempt,
|
||
&i.MaxAttempts,
|
||
&i.ParentTaskID,
|
||
&i.FailureReason,
|
||
&i.TriggerSummary,
|
||
&i.ForceFreshSession,
|
||
&i.IsLeaderTask,
|
||
&i.WaitReason,
|
||
&i.InitiatorUserID,
|
||
&i.HandoffNote,
|
||
&i.PrepareLeaseExpiresAt,
|
||
&i.SquadID,
|
||
&i.RuntimeMcpOverlay,
|
||
&i.EscalationForTaskID,
|
||
&i.FireAt,
|
||
&i.OriginatorUserID,
|
||
&i.RuntimeConnectedApps,
|
||
&i.CoalescedCommentIds,
|
||
&i.DeliveredCommentIds,
|
||
&i.ChatInputTaskID,
|
||
); err != nil {
|
||
return nil, err
|
||
}
|
||
items = append(items, i)
|
||
}
|
||
if err := rows.Err(); err != nil {
|
||
return nil, err
|
||
}
|
||
return items, nil
|
||
}
|
||
|
||
const promoteDueDeferredTasksForRuntimes = `-- name: PromoteDueDeferredTasksForRuntimes :many
|
||
UPDATE agent_task_queue
|
||
SET status = 'queued'
|
||
WHERE runtime_id = ANY($1::uuid[])
|
||
AND status = 'deferred'
|
||
AND fire_at <= now()
|
||
RETURNING id, agent_id, issue_id, status, priority, dispatched_at, started_at, completed_at, result, error, created_at, context, runtime_id, session_id, work_dir, trigger_comment_id, chat_session_id, autopilot_run_id, attempt, max_attempts, parent_task_id, failure_reason, trigger_summary, force_fresh_session, is_leader_task, wait_reason, initiator_user_id, handoff_note, prepare_lease_expires_at, squad_id, runtime_mcp_overlay, escalation_for_task_id, fire_at, originator_user_id, runtime_connected_apps, coalesced_comment_ids, delivered_comment_ids, chat_input_task_id
|
||
`
|
||
|
||
// Batch variant of PromoteDueDeferredTasksForRuntime (MUL-4257): promotes all
|
||
// due deferred tasks across the runtime set in one UPDATE.
|
||
func (q *Queries) PromoteDueDeferredTasksForRuntimes(ctx context.Context, runtimeIds []pgtype.UUID) ([]AgentTaskQueue, error) {
|
||
rows, err := q.db.Query(ctx, promoteDueDeferredTasksForRuntimes, runtimeIds)
|
||
if err != nil {
|
||
return nil, err
|
||
}
|
||
defer rows.Close()
|
||
items := []AgentTaskQueue{}
|
||
for rows.Next() {
|
||
var i AgentTaskQueue
|
||
if err := rows.Scan(
|
||
&i.ID,
|
||
&i.AgentID,
|
||
&i.IssueID,
|
||
&i.Status,
|
||
&i.Priority,
|
||
&i.DispatchedAt,
|
||
&i.StartedAt,
|
||
&i.CompletedAt,
|
||
&i.Result,
|
||
&i.Error,
|
||
&i.CreatedAt,
|
||
&i.Context,
|
||
&i.RuntimeID,
|
||
&i.SessionID,
|
||
&i.WorkDir,
|
||
&i.TriggerCommentID,
|
||
&i.ChatSessionID,
|
||
&i.AutopilotRunID,
|
||
&i.Attempt,
|
||
&i.MaxAttempts,
|
||
&i.ParentTaskID,
|
||
&i.FailureReason,
|
||
&i.TriggerSummary,
|
||
&i.ForceFreshSession,
|
||
&i.IsLeaderTask,
|
||
&i.WaitReason,
|
||
&i.InitiatorUserID,
|
||
&i.HandoffNote,
|
||
&i.PrepareLeaseExpiresAt,
|
||
&i.SquadID,
|
||
&i.RuntimeMcpOverlay,
|
||
&i.EscalationForTaskID,
|
||
&i.FireAt,
|
||
&i.OriginatorUserID,
|
||
&i.RuntimeConnectedApps,
|
||
&i.CoalescedCommentIds,
|
||
&i.DeliveredCommentIds,
|
||
&i.ChatInputTaskID,
|
||
); err != nil {
|
||
return nil, err
|
||
}
|
||
items = append(items, i)
|
||
}
|
||
if err := rows.Err(); err != nil {
|
||
return nil, err
|
||
}
|
||
return items, nil
|
||
}
|
||
|
||
const reclaimStaleDispatchedTaskForRuntime = `-- name: ReclaimStaleDispatchedTaskForRuntime :one
|
||
UPDATE agent_task_queue
|
||
SET dispatched_at = now(),
|
||
prepare_lease_expires_at = now() + make_interval(secs => $2::double precision)
|
||
WHERE id = (
|
||
SELECT atq.id FROM agent_task_queue atq
|
||
WHERE atq.runtime_id = $1
|
||
AND atq.status = 'dispatched'
|
||
AND atq.started_at IS NULL
|
||
AND atq.dispatched_at < now() - make_interval(secs => $3::double precision)
|
||
AND (atq.prepare_lease_expires_at IS NULL OR atq.prepare_lease_expires_at < now())
|
||
ORDER BY atq.priority DESC, atq.dispatched_at ASC
|
||
LIMIT 1
|
||
FOR UPDATE SKIP LOCKED
|
||
)
|
||
RETURNING id, agent_id, issue_id, status, priority, dispatched_at, started_at, completed_at, result, error, created_at, context, runtime_id, session_id, work_dir, trigger_comment_id, chat_session_id, autopilot_run_id, attempt, max_attempts, parent_task_id, failure_reason, trigger_summary, force_fresh_session, is_leader_task, wait_reason, initiator_user_id, handoff_note, prepare_lease_expires_at, squad_id, runtime_mcp_overlay, escalation_for_task_id, fire_at, originator_user_id, runtime_connected_apps, coalesced_comment_ids, delivered_comment_ids, chat_input_task_id
|
||
`
|
||
|
||
type ReclaimStaleDispatchedTaskForRuntimeParams struct {
|
||
RuntimeID pgtype.UUID `json:"runtime_id"`
|
||
PrepareLeaseSecs float64 `json:"prepare_lease_secs"`
|
||
ClaimRecoverySecs float64 `json:"claim_recovery_secs"`
|
||
}
|
||
|
||
// Re-delivers a task whose previous claim likely succeeded server-side but
|
||
// whose response never reached the daemon. The task is still in `dispatched`
|
||
// with no `started_at`, so the daemon has not acknowledged it via StartTask.
|
||
// Refresh dispatched_at so the server-side dispatch timeout measures from the
|
||
// recovered delivery attempt.
|
||
func (q *Queries) ReclaimStaleDispatchedTaskForRuntime(ctx context.Context, arg ReclaimStaleDispatchedTaskForRuntimeParams) (AgentTaskQueue, error) {
|
||
row := q.db.QueryRow(ctx, reclaimStaleDispatchedTaskForRuntime, arg.RuntimeID, arg.PrepareLeaseSecs, arg.ClaimRecoverySecs)
|
||
var i AgentTaskQueue
|
||
err := row.Scan(
|
||
&i.ID,
|
||
&i.AgentID,
|
||
&i.IssueID,
|
||
&i.Status,
|
||
&i.Priority,
|
||
&i.DispatchedAt,
|
||
&i.StartedAt,
|
||
&i.CompletedAt,
|
||
&i.Result,
|
||
&i.Error,
|
||
&i.CreatedAt,
|
||
&i.Context,
|
||
&i.RuntimeID,
|
||
&i.SessionID,
|
||
&i.WorkDir,
|
||
&i.TriggerCommentID,
|
||
&i.ChatSessionID,
|
||
&i.AutopilotRunID,
|
||
&i.Attempt,
|
||
&i.MaxAttempts,
|
||
&i.ParentTaskID,
|
||
&i.FailureReason,
|
||
&i.TriggerSummary,
|
||
&i.ForceFreshSession,
|
||
&i.IsLeaderTask,
|
||
&i.WaitReason,
|
||
&i.InitiatorUserID,
|
||
&i.HandoffNote,
|
||
&i.PrepareLeaseExpiresAt,
|
||
&i.SquadID,
|
||
&i.RuntimeMcpOverlay,
|
||
&i.EscalationForTaskID,
|
||
&i.FireAt,
|
||
&i.OriginatorUserID,
|
||
&i.RuntimeConnectedApps,
|
||
&i.CoalescedCommentIds,
|
||
&i.DeliveredCommentIds,
|
||
&i.ChatInputTaskID,
|
||
)
|
||
return i, err
|
||
}
|
||
|
||
const reclaimStaleDispatchedTasksForRuntimes = `-- name: ReclaimStaleDispatchedTasksForRuntimes :many
|
||
UPDATE agent_task_queue
|
||
SET dispatched_at = now(),
|
||
prepare_lease_expires_at = now() + make_interval(secs => $1::double precision)
|
||
WHERE id IN (
|
||
SELECT atq.id FROM agent_task_queue atq
|
||
WHERE atq.runtime_id = ANY($2::uuid[])
|
||
AND atq.status = 'dispatched'
|
||
AND atq.started_at IS NULL
|
||
AND atq.dispatched_at < now() - make_interval(secs => $3::double precision)
|
||
AND (atq.prepare_lease_expires_at IS NULL OR atq.prepare_lease_expires_at < now())
|
||
ORDER BY atq.priority DESC, atq.dispatched_at ASC
|
||
LIMIT $4::int
|
||
FOR UPDATE SKIP LOCKED
|
||
)
|
||
RETURNING id, agent_id, issue_id, status, priority, dispatched_at, started_at, completed_at, result, error, created_at, context, runtime_id, session_id, work_dir, trigger_comment_id, chat_session_id, autopilot_run_id, attempt, max_attempts, parent_task_id, failure_reason, trigger_summary, force_fresh_session, is_leader_task, wait_reason, initiator_user_id, handoff_note, prepare_lease_expires_at, squad_id, runtime_mcp_overlay, escalation_for_task_id, fire_at, originator_user_id, runtime_connected_apps, coalesced_comment_ids, delivered_comment_ids, chat_input_task_id
|
||
`
|
||
|
||
type ReclaimStaleDispatchedTasksForRuntimesParams struct {
|
||
PrepareLeaseSecs float64 `json:"prepare_lease_secs"`
|
||
RuntimeIds []pgtype.UUID `json:"runtime_ids"`
|
||
ClaimRecoverySecs float64 `json:"claim_recovery_secs"`
|
||
MaxTasks int32 `json:"max_tasks"`
|
||
}
|
||
|
||
// Batch variant of ReclaimStaleDispatchedTaskForRuntime (MUL-4257): re-delivers
|
||
// up to @max_tasks tasks across the whole runtime set in one round trip, so a
|
||
// machine-level batch claim recovers lost-response dispatches for every runtime
|
||
// it hosts without one query per runtime. Same eligibility as the singular
|
||
// query (dispatched, never started, past the recovery window, expired/absent
|
||
// prepare lease) and the same dispatched_at refresh; only the runtime filter
|
||
// (= ANY) and the LIMIT (max_tasks instead of 1) differ.
|
||
func (q *Queries) ReclaimStaleDispatchedTasksForRuntimes(ctx context.Context, arg ReclaimStaleDispatchedTasksForRuntimesParams) ([]AgentTaskQueue, error) {
|
||
rows, err := q.db.Query(ctx, reclaimStaleDispatchedTasksForRuntimes,
|
||
arg.PrepareLeaseSecs,
|
||
arg.RuntimeIds,
|
||
arg.ClaimRecoverySecs,
|
||
arg.MaxTasks,
|
||
)
|
||
if err != nil {
|
||
return nil, err
|
||
}
|
||
defer rows.Close()
|
||
items := []AgentTaskQueue{}
|
||
for rows.Next() {
|
||
var i AgentTaskQueue
|
||
if err := rows.Scan(
|
||
&i.ID,
|
||
&i.AgentID,
|
||
&i.IssueID,
|
||
&i.Status,
|
||
&i.Priority,
|
||
&i.DispatchedAt,
|
||
&i.StartedAt,
|
||
&i.CompletedAt,
|
||
&i.Result,
|
||
&i.Error,
|
||
&i.CreatedAt,
|
||
&i.Context,
|
||
&i.RuntimeID,
|
||
&i.SessionID,
|
||
&i.WorkDir,
|
||
&i.TriggerCommentID,
|
||
&i.ChatSessionID,
|
||
&i.AutopilotRunID,
|
||
&i.Attempt,
|
||
&i.MaxAttempts,
|
||
&i.ParentTaskID,
|
||
&i.FailureReason,
|
||
&i.TriggerSummary,
|
||
&i.ForceFreshSession,
|
||
&i.IsLeaderTask,
|
||
&i.WaitReason,
|
||
&i.InitiatorUserID,
|
||
&i.HandoffNote,
|
||
&i.PrepareLeaseExpiresAt,
|
||
&i.SquadID,
|
||
&i.RuntimeMcpOverlay,
|
||
&i.EscalationForTaskID,
|
||
&i.FireAt,
|
||
&i.OriginatorUserID,
|
||
&i.RuntimeConnectedApps,
|
||
&i.CoalescedCommentIds,
|
||
&i.DeliveredCommentIds,
|
||
&i.ChatInputTaskID,
|
||
); err != nil {
|
||
return nil, err
|
||
}
|
||
items = append(items, i)
|
||
}
|
||
if err := rows.Err(); err != nil {
|
||
return nil, err
|
||
}
|
||
return items, nil
|
||
}
|
||
|
||
const recoverOrphanedTasksForRuntime = `-- name: RecoverOrphanedTasksForRuntime :many
|
||
UPDATE agent_task_queue
|
||
SET status = 'failed',
|
||
completed_at = now(),
|
||
error = 'daemon restarted while task was in flight',
|
||
failure_reason = 'runtime_recovery',
|
||
wait_reason = NULL,
|
||
prepare_lease_expires_at = NULL
|
||
WHERE runtime_id = $1 AND status IN ('dispatched', 'running', 'waiting_local_directory')
|
||
RETURNING id, agent_id, issue_id, status, priority, dispatched_at, started_at, completed_at, result, error, created_at, context, runtime_id, session_id, work_dir, trigger_comment_id, chat_session_id, autopilot_run_id, attempt, max_attempts, parent_task_id, failure_reason, trigger_summary, force_fresh_session, is_leader_task, wait_reason, initiator_user_id, handoff_note, prepare_lease_expires_at, squad_id, runtime_mcp_overlay, escalation_for_task_id, fire_at, originator_user_id, runtime_connected_apps, coalesced_comment_ids, delivered_comment_ids, chat_input_task_id
|
||
`
|
||
|
||
// Called by the daemon at startup. Atomically fails any dispatched/running/
|
||
// waiting_local_directory task that the prior incarnation of this runtime
|
||
// owned but did not finalize. Returns the failed rows so callers can hand
|
||
// them to the auto-retry path. waiting_local_directory rows are included
|
||
// because the daemon holding the path lock is the same process that just
|
||
// died — without us, the row would sit waiting forever.
|
||
func (q *Queries) RecoverOrphanedTasksForRuntime(ctx context.Context, runtimeID pgtype.UUID) ([]AgentTaskQueue, error) {
|
||
rows, err := q.db.Query(ctx, recoverOrphanedTasksForRuntime, runtimeID)
|
||
if err != nil {
|
||
return nil, err
|
||
}
|
||
defer rows.Close()
|
||
items := []AgentTaskQueue{}
|
||
for rows.Next() {
|
||
var i AgentTaskQueue
|
||
if err := rows.Scan(
|
||
&i.ID,
|
||
&i.AgentID,
|
||
&i.IssueID,
|
||
&i.Status,
|
||
&i.Priority,
|
||
&i.DispatchedAt,
|
||
&i.StartedAt,
|
||
&i.CompletedAt,
|
||
&i.Result,
|
||
&i.Error,
|
||
&i.CreatedAt,
|
||
&i.Context,
|
||
&i.RuntimeID,
|
||
&i.SessionID,
|
||
&i.WorkDir,
|
||
&i.TriggerCommentID,
|
||
&i.ChatSessionID,
|
||
&i.AutopilotRunID,
|
||
&i.Attempt,
|
||
&i.MaxAttempts,
|
||
&i.ParentTaskID,
|
||
&i.FailureReason,
|
||
&i.TriggerSummary,
|
||
&i.ForceFreshSession,
|
||
&i.IsLeaderTask,
|
||
&i.WaitReason,
|
||
&i.InitiatorUserID,
|
||
&i.HandoffNote,
|
||
&i.PrepareLeaseExpiresAt,
|
||
&i.SquadID,
|
||
&i.RuntimeMcpOverlay,
|
||
&i.EscalationForTaskID,
|
||
&i.FireAt,
|
||
&i.OriginatorUserID,
|
||
&i.RuntimeConnectedApps,
|
||
&i.CoalescedCommentIds,
|
||
&i.DeliveredCommentIds,
|
||
&i.ChatInputTaskID,
|
||
); err != nil {
|
||
return nil, err
|
||
}
|
||
items = append(items, i)
|
||
}
|
||
if err := rows.Err(); err != nil {
|
||
return nil, err
|
||
}
|
||
return items, nil
|
||
}
|
||
|
||
const refreshAgentStatusFromTasks = `-- name: RefreshAgentStatusFromTasks :one
|
||
UPDATE agent AS a
|
||
SET status = CASE WHEN EXISTS (
|
||
SELECT 1 FROM agent_task_queue q
|
||
WHERE q.agent_id = a.id AND q.status IN ('dispatched', 'running', 'waiting_local_directory')
|
||
) THEN 'working' ELSE 'idle' END,
|
||
updated_at = now()
|
||
WHERE a.id = $1
|
||
RETURNING id, workspace_id, name, avatar_url, runtime_mode, runtime_config, visibility, status, max_concurrent_tasks, owner_id, created_at, updated_at, description, runtime_id, instructions, archived_at, archived_by, custom_env, custom_args, mcp_config, model, thinking_level, composio_toolkit_allowlist, permission_mode, kind, system_key
|
||
`
|
||
|
||
func (q *Queries) RefreshAgentStatusFromTasks(ctx context.Context, id pgtype.UUID) (Agent, error) {
|
||
row := q.db.QueryRow(ctx, refreshAgentStatusFromTasks, id)
|
||
var i Agent
|
||
err := row.Scan(
|
||
&i.ID,
|
||
&i.WorkspaceID,
|
||
&i.Name,
|
||
&i.AvatarUrl,
|
||
&i.RuntimeMode,
|
||
&i.RuntimeConfig,
|
||
&i.Visibility,
|
||
&i.Status,
|
||
&i.MaxConcurrentTasks,
|
||
&i.OwnerID,
|
||
&i.CreatedAt,
|
||
&i.UpdatedAt,
|
||
&i.Description,
|
||
&i.RuntimeID,
|
||
&i.Instructions,
|
||
&i.ArchivedAt,
|
||
&i.ArchivedBy,
|
||
&i.CustomEnv,
|
||
&i.CustomArgs,
|
||
&i.McpConfig,
|
||
&i.Model,
|
||
&i.ThinkingLevel,
|
||
&i.ComposioToolkitAllowlist,
|
||
&i.PermissionMode,
|
||
&i.Kind,
|
||
&i.SystemKey,
|
||
)
|
||
return i, err
|
||
}
|
||
|
||
const requeueAgentTaskAfterClaimFailure = `-- name: RequeueAgentTaskAfterClaimFailure :one
|
||
UPDATE agent_task_queue
|
||
SET status = 'queued',
|
||
dispatched_at = NULL,
|
||
prepare_lease_expires_at = NULL,
|
||
delivered_comment_ids = '{}'
|
||
WHERE id = $1
|
||
AND runtime_id = $2
|
||
AND status = 'dispatched'
|
||
AND started_at IS NULL
|
||
AND dispatched_at = $3
|
||
RETURNING id, agent_id, issue_id, status, priority, dispatched_at, started_at, completed_at, result, error, created_at, context, runtime_id, session_id, work_dir, trigger_comment_id, chat_session_id, autopilot_run_id, attempt, max_attempts, parent_task_id, failure_reason, trigger_summary, force_fresh_session, is_leader_task, wait_reason, initiator_user_id, handoff_note, prepare_lease_expires_at, squad_id, runtime_mcp_overlay, escalation_for_task_id, fire_at, originator_user_id, runtime_connected_apps, coalesced_comment_ids, delivered_comment_ids, chat_input_task_id
|
||
`
|
||
|
||
type RequeueAgentTaskAfterClaimFailureParams struct {
|
||
TaskID pgtype.UUID `json:"task_id"`
|
||
RuntimeID pgtype.UUID `json:"runtime_id"`
|
||
DispatchedAt pgtype.Timestamptz `json:"dispatched_at"`
|
||
}
|
||
|
||
// Claim finalization (task token + optional comment receipt) failed before any
|
||
// response bytes were written. Return only that exact claim generation to the
|
||
// queue so another poll can retry immediately instead of waiting for stale
|
||
// dispatch recovery. The dispatched_at CAS prevents an old handler from
|
||
// rolling back a newer reclaim.
|
||
func (q *Queries) RequeueAgentTaskAfterClaimFailure(ctx context.Context, arg RequeueAgentTaskAfterClaimFailureParams) (AgentTaskQueue, error) {
|
||
row := q.db.QueryRow(ctx, requeueAgentTaskAfterClaimFailure, arg.TaskID, arg.RuntimeID, arg.DispatchedAt)
|
||
var i AgentTaskQueue
|
||
err := row.Scan(
|
||
&i.ID,
|
||
&i.AgentID,
|
||
&i.IssueID,
|
||
&i.Status,
|
||
&i.Priority,
|
||
&i.DispatchedAt,
|
||
&i.StartedAt,
|
||
&i.CompletedAt,
|
||
&i.Result,
|
||
&i.Error,
|
||
&i.CreatedAt,
|
||
&i.Context,
|
||
&i.RuntimeID,
|
||
&i.SessionID,
|
||
&i.WorkDir,
|
||
&i.TriggerCommentID,
|
||
&i.ChatSessionID,
|
||
&i.AutopilotRunID,
|
||
&i.Attempt,
|
||
&i.MaxAttempts,
|
||
&i.ParentTaskID,
|
||
&i.FailureReason,
|
||
&i.TriggerSummary,
|
||
&i.ForceFreshSession,
|
||
&i.IsLeaderTask,
|
||
&i.WaitReason,
|
||
&i.InitiatorUserID,
|
||
&i.HandoffNote,
|
||
&i.PrepareLeaseExpiresAt,
|
||
&i.SquadID,
|
||
&i.RuntimeMcpOverlay,
|
||
&i.EscalationForTaskID,
|
||
&i.FireAt,
|
||
&i.OriginatorUserID,
|
||
&i.RuntimeConnectedApps,
|
||
&i.CoalescedCommentIds,
|
||
&i.DeliveredCommentIds,
|
||
&i.ChatInputTaskID,
|
||
)
|
||
return i, err
|
||
}
|
||
|
||
const restoreAgent = `-- name: RestoreAgent :one
|
||
UPDATE agent SET archived_at = NULL, archived_by = NULL, updated_at = now()
|
||
WHERE id = $1
|
||
RETURNING id, workspace_id, name, avatar_url, runtime_mode, runtime_config, visibility, status, max_concurrent_tasks, owner_id, created_at, updated_at, description, runtime_id, instructions, archived_at, archived_by, custom_env, custom_args, mcp_config, model, thinking_level, composio_toolkit_allowlist, permission_mode, kind, system_key
|
||
`
|
||
|
||
func (q *Queries) RestoreAgent(ctx context.Context, id pgtype.UUID) (Agent, error) {
|
||
row := q.db.QueryRow(ctx, restoreAgent, id)
|
||
var i Agent
|
||
err := row.Scan(
|
||
&i.ID,
|
||
&i.WorkspaceID,
|
||
&i.Name,
|
||
&i.AvatarUrl,
|
||
&i.RuntimeMode,
|
||
&i.RuntimeConfig,
|
||
&i.Visibility,
|
||
&i.Status,
|
||
&i.MaxConcurrentTasks,
|
||
&i.OwnerID,
|
||
&i.CreatedAt,
|
||
&i.UpdatedAt,
|
||
&i.Description,
|
||
&i.RuntimeID,
|
||
&i.Instructions,
|
||
&i.ArchivedAt,
|
||
&i.ArchivedBy,
|
||
&i.CustomEnv,
|
||
&i.CustomArgs,
|
||
&i.McpConfig,
|
||
&i.Model,
|
||
&i.ThinkingLevel,
|
||
&i.ComposioToolkitAllowlist,
|
||
&i.PermissionMode,
|
||
&i.Kind,
|
||
&i.SystemKey,
|
||
)
|
||
return i, err
|
||
}
|
||
|
||
const setTaskDeliveredCommentIDs = `-- name: SetTaskDeliveredCommentIDs :one
|
||
UPDATE agent_task_queue
|
||
SET delivered_comment_ids = $1::uuid[]
|
||
WHERE id = $2
|
||
AND runtime_id = $3
|
||
AND status = 'dispatched'
|
||
AND started_at IS NULL
|
||
AND dispatched_at = $4
|
||
AND trigger_comment_id IS NOT DISTINCT FROM $5::uuid
|
||
AND NOT EXISTS (
|
||
SELECT 1
|
||
FROM unnest($1::uuid[]) AS delivered(id)
|
||
WHERE delivered.id IS NULL
|
||
OR (
|
||
delivered.id IS DISTINCT FROM trigger_comment_id
|
||
AND NOT (delivered.id = ANY(coalesced_comment_ids))
|
||
)
|
||
)
|
||
RETURNING delivered_comment_ids
|
||
`
|
||
|
||
type SetTaskDeliveredCommentIDsParams struct {
|
||
DeliveredCommentIds []pgtype.UUID `json:"delivered_comment_ids"`
|
||
TaskID pgtype.UUID `json:"task_id"`
|
||
RuntimeID pgtype.UUID `json:"runtime_id"`
|
||
DispatchedAt pgtype.Timestamptz `json:"dispatched_at"`
|
||
ExpectedTriggerCommentID pgtype.UUID `json:"expected_trigger_comment_id"`
|
||
}
|
||
|
||
// Replace (rather than append to) the delivery receipt for this claim. A stale
|
||
// dispatched task may be reclaimed by a daemon with different capabilities,
|
||
// so only the ids embedded in the newest response count as delivered. The CAS
|
||
// keeps a stale handler from writing after execution starts, and the subset
|
||
// guard prevents acknowledging an id outside the task's enqueue-time plan.
|
||
func (q *Queries) SetTaskDeliveredCommentIDs(ctx context.Context, arg SetTaskDeliveredCommentIDsParams) ([]pgtype.UUID, error) {
|
||
row := q.db.QueryRow(ctx, setTaskDeliveredCommentIDs,
|
||
arg.DeliveredCommentIds,
|
||
arg.TaskID,
|
||
arg.RuntimeID,
|
||
arg.DispatchedAt,
|
||
arg.ExpectedTriggerCommentID,
|
||
)
|
||
var delivered_comment_ids []pgtype.UUID
|
||
err := row.Scan(&delivered_comment_ids)
|
||
return delivered_comment_ids, err
|
||
}
|
||
|
||
const startAgentTask = `-- name: StartAgentTask :one
|
||
UPDATE agent_task_queue
|
||
SET status = 'running',
|
||
started_at = now(),
|
||
wait_reason = NULL,
|
||
prepare_lease_expires_at = NULL
|
||
WHERE id = $1 AND status IN ('dispatched', 'waiting_local_directory')
|
||
RETURNING id, agent_id, issue_id, status, priority, dispatched_at, started_at, completed_at, result, error, created_at, context, runtime_id, session_id, work_dir, trigger_comment_id, chat_session_id, autopilot_run_id, attempt, max_attempts, parent_task_id, failure_reason, trigger_summary, force_fresh_session, is_leader_task, wait_reason, initiator_user_id, handoff_note, prepare_lease_expires_at, squad_id, runtime_mcp_overlay, escalation_for_task_id, fire_at, originator_user_id, runtime_connected_apps, coalesced_comment_ids, delivered_comment_ids, chat_input_task_id
|
||
`
|
||
|
||
// Transitions a task to running. Accepts either 'dispatched' (the normal
|
||
// claim → run flow) or 'waiting_local_directory' (the daemon held the row in
|
||
// a wait state while another task owned the local_directory path lock; once
|
||
// the lock was acquired the daemon flips here). wait_reason is cleared on
|
||
// the transition so a future read can't conflate "currently waiting" with
|
||
// "previously waited".
|
||
func (q *Queries) StartAgentTask(ctx context.Context, id pgtype.UUID) (AgentTaskQueue, error) {
|
||
row := q.db.QueryRow(ctx, startAgentTask, id)
|
||
var i AgentTaskQueue
|
||
err := row.Scan(
|
||
&i.ID,
|
||
&i.AgentID,
|
||
&i.IssueID,
|
||
&i.Status,
|
||
&i.Priority,
|
||
&i.DispatchedAt,
|
||
&i.StartedAt,
|
||
&i.CompletedAt,
|
||
&i.Result,
|
||
&i.Error,
|
||
&i.CreatedAt,
|
||
&i.Context,
|
||
&i.RuntimeID,
|
||
&i.SessionID,
|
||
&i.WorkDir,
|
||
&i.TriggerCommentID,
|
||
&i.ChatSessionID,
|
||
&i.AutopilotRunID,
|
||
&i.Attempt,
|
||
&i.MaxAttempts,
|
||
&i.ParentTaskID,
|
||
&i.FailureReason,
|
||
&i.TriggerSummary,
|
||
&i.ForceFreshSession,
|
||
&i.IsLeaderTask,
|
||
&i.WaitReason,
|
||
&i.InitiatorUserID,
|
||
&i.HandoffNote,
|
||
&i.PrepareLeaseExpiresAt,
|
||
&i.SquadID,
|
||
&i.RuntimeMcpOverlay,
|
||
&i.EscalationForTaskID,
|
||
&i.FireAt,
|
||
&i.OriginatorUserID,
|
||
&i.RuntimeConnectedApps,
|
||
&i.CoalescedCommentIds,
|
||
&i.DeliveredCommentIds,
|
||
&i.ChatInputTaskID,
|
||
)
|
||
return i, err
|
||
}
|
||
|
||
const updateAgent = `-- name: UpdateAgent :one
|
||
UPDATE agent SET
|
||
name = COALESCE($2, name),
|
||
description = COALESCE($3, description),
|
||
avatar_url = COALESCE($4, avatar_url),
|
||
runtime_config = COALESCE($5, runtime_config),
|
||
runtime_mode = COALESCE($6, runtime_mode),
|
||
runtime_id = COALESCE($7, runtime_id),
|
||
visibility = COALESCE($8, visibility),
|
||
permission_mode = COALESCE($9, permission_mode),
|
||
status = COALESCE($10, status),
|
||
max_concurrent_tasks = COALESCE($11, max_concurrent_tasks),
|
||
instructions = COALESCE($12, instructions),
|
||
custom_env = COALESCE($13, custom_env),
|
||
custom_args = COALESCE($14, custom_args),
|
||
mcp_config = COALESCE($15, mcp_config),
|
||
model = COALESCE($16, model),
|
||
thinking_level = COALESCE($17, thinking_level),
|
||
composio_toolkit_allowlist = COALESCE($18::text[], composio_toolkit_allowlist),
|
||
updated_at = now()
|
||
WHERE id = $1
|
||
RETURNING id, workspace_id, name, avatar_url, runtime_mode, runtime_config, visibility, status, max_concurrent_tasks, owner_id, created_at, updated_at, description, runtime_id, instructions, archived_at, archived_by, custom_env, custom_args, mcp_config, model, thinking_level, composio_toolkit_allowlist, permission_mode, kind, system_key
|
||
`
|
||
|
||
type UpdateAgentParams struct {
|
||
ID pgtype.UUID `json:"id"`
|
||
Name pgtype.Text `json:"name"`
|
||
Description pgtype.Text `json:"description"`
|
||
AvatarUrl pgtype.Text `json:"avatar_url"`
|
||
RuntimeConfig []byte `json:"runtime_config"`
|
||
RuntimeMode pgtype.Text `json:"runtime_mode"`
|
||
RuntimeID pgtype.UUID `json:"runtime_id"`
|
||
Visibility pgtype.Text `json:"visibility"`
|
||
PermissionMode pgtype.Text `json:"permission_mode"`
|
||
Status pgtype.Text `json:"status"`
|
||
MaxConcurrentTasks pgtype.Int4 `json:"max_concurrent_tasks"`
|
||
Instructions pgtype.Text `json:"instructions"`
|
||
CustomEnv []byte `json:"custom_env"`
|
||
CustomArgs []byte `json:"custom_args"`
|
||
McpConfig []byte `json:"mcp_config"`
|
||
Model pgtype.Text `json:"model"`
|
||
ThinkingLevel pgtype.Text `json:"thinking_level"`
|
||
ComposioToolkitAllowlist []string `json:"composio_toolkit_allowlist"`
|
||
}
|
||
|
||
// composio_toolkit_allowlist is set wholesale: the API layer is responsible
|
||
// for normalising the request payload to either (a) the new slug list — sent
|
||
// here verbatim — or (b) an empty array to explicitly disable Composio.
|
||
// Distinguish "field omitted" (preserve) from "explicit clear" via
|
||
// ClearAgentComposioToolkitAllowlist below, mirroring the
|
||
// thinking_level / mcp_config two-query pattern: COALESCE can't restore NULL.
|
||
func (q *Queries) UpdateAgent(ctx context.Context, arg UpdateAgentParams) (Agent, error) {
|
||
row := q.db.QueryRow(ctx, updateAgent,
|
||
arg.ID,
|
||
arg.Name,
|
||
arg.Description,
|
||
arg.AvatarUrl,
|
||
arg.RuntimeConfig,
|
||
arg.RuntimeMode,
|
||
arg.RuntimeID,
|
||
arg.Visibility,
|
||
arg.PermissionMode,
|
||
arg.Status,
|
||
arg.MaxConcurrentTasks,
|
||
arg.Instructions,
|
||
arg.CustomEnv,
|
||
arg.CustomArgs,
|
||
arg.McpConfig,
|
||
arg.Model,
|
||
arg.ThinkingLevel,
|
||
arg.ComposioToolkitAllowlist,
|
||
)
|
||
var i Agent
|
||
err := row.Scan(
|
||
&i.ID,
|
||
&i.WorkspaceID,
|
||
&i.Name,
|
||
&i.AvatarUrl,
|
||
&i.RuntimeMode,
|
||
&i.RuntimeConfig,
|
||
&i.Visibility,
|
||
&i.Status,
|
||
&i.MaxConcurrentTasks,
|
||
&i.OwnerID,
|
||
&i.CreatedAt,
|
||
&i.UpdatedAt,
|
||
&i.Description,
|
||
&i.RuntimeID,
|
||
&i.Instructions,
|
||
&i.ArchivedAt,
|
||
&i.ArchivedBy,
|
||
&i.CustomEnv,
|
||
&i.CustomArgs,
|
||
&i.McpConfig,
|
||
&i.Model,
|
||
&i.ThinkingLevel,
|
||
&i.ComposioToolkitAllowlist,
|
||
&i.PermissionMode,
|
||
&i.Kind,
|
||
&i.SystemKey,
|
||
)
|
||
return i, err
|
||
}
|
||
|
||
const updateAgentCustomEnv = `-- name: UpdateAgentCustomEnv :one
|
||
UPDATE agent
|
||
SET custom_env = $2, updated_at = now()
|
||
WHERE id = $1
|
||
RETURNING id, workspace_id, name, avatar_url, runtime_mode, runtime_config, visibility, status, max_concurrent_tasks, owner_id, created_at, updated_at, description, runtime_id, instructions, archived_at, archived_by, custom_env, custom_args, mcp_config, model, thinking_level, composio_toolkit_allowlist, permission_mode, kind, system_key
|
||
`
|
||
|
||
type UpdateAgentCustomEnvParams struct {
|
||
ID pgtype.UUID `json:"id"`
|
||
CustomEnv []byte `json:"custom_env"`
|
||
}
|
||
|
||
// Replaces an agent's custom_env map wholesale. Used by the dedicated
|
||
// env-management endpoint (POST/PUT /api/agents/{id}/env), which is the
|
||
// only post-creation write path for env. UpdateAgent has been stripped
|
||
// of custom_env handling so all env mutations flow through here and the
|
||
// handler's audit-log + **** sentinel guard.
|
||
func (q *Queries) UpdateAgentCustomEnv(ctx context.Context, arg UpdateAgentCustomEnvParams) (Agent, error) {
|
||
row := q.db.QueryRow(ctx, updateAgentCustomEnv, arg.ID, arg.CustomEnv)
|
||
var i Agent
|
||
err := row.Scan(
|
||
&i.ID,
|
||
&i.WorkspaceID,
|
||
&i.Name,
|
||
&i.AvatarUrl,
|
||
&i.RuntimeMode,
|
||
&i.RuntimeConfig,
|
||
&i.Visibility,
|
||
&i.Status,
|
||
&i.MaxConcurrentTasks,
|
||
&i.OwnerID,
|
||
&i.CreatedAt,
|
||
&i.UpdatedAt,
|
||
&i.Description,
|
||
&i.RuntimeID,
|
||
&i.Instructions,
|
||
&i.ArchivedAt,
|
||
&i.ArchivedBy,
|
||
&i.CustomEnv,
|
||
&i.CustomArgs,
|
||
&i.McpConfig,
|
||
&i.Model,
|
||
&i.ThinkingLevel,
|
||
&i.ComposioToolkitAllowlist,
|
||
&i.PermissionMode,
|
||
&i.Kind,
|
||
&i.SystemKey,
|
||
)
|
||
return i, err
|
||
}
|
||
|
||
const updateAgentStatus = `-- name: UpdateAgentStatus :one
|
||
UPDATE agent SET status = $2, updated_at = now()
|
||
WHERE id = $1
|
||
RETURNING id, workspace_id, name, avatar_url, runtime_mode, runtime_config, visibility, status, max_concurrent_tasks, owner_id, created_at, updated_at, description, runtime_id, instructions, archived_at, archived_by, custom_env, custom_args, mcp_config, model, thinking_level, composio_toolkit_allowlist, permission_mode, kind, system_key
|
||
`
|
||
|
||
type UpdateAgentStatusParams struct {
|
||
ID pgtype.UUID `json:"id"`
|
||
Status string `json:"status"`
|
||
}
|
||
|
||
func (q *Queries) UpdateAgentStatus(ctx context.Context, arg UpdateAgentStatusParams) (Agent, error) {
|
||
row := q.db.QueryRow(ctx, updateAgentStatus, arg.ID, arg.Status)
|
||
var i Agent
|
||
err := row.Scan(
|
||
&i.ID,
|
||
&i.WorkspaceID,
|
||
&i.Name,
|
||
&i.AvatarUrl,
|
||
&i.RuntimeMode,
|
||
&i.RuntimeConfig,
|
||
&i.Visibility,
|
||
&i.Status,
|
||
&i.MaxConcurrentTasks,
|
||
&i.OwnerID,
|
||
&i.CreatedAt,
|
||
&i.UpdatedAt,
|
||
&i.Description,
|
||
&i.RuntimeID,
|
||
&i.Instructions,
|
||
&i.ArchivedAt,
|
||
&i.ArchivedBy,
|
||
&i.CustomEnv,
|
||
&i.CustomArgs,
|
||
&i.McpConfig,
|
||
&i.Model,
|
||
&i.ThinkingLevel,
|
||
&i.ComposioToolkitAllowlist,
|
||
&i.PermissionMode,
|
||
&i.Kind,
|
||
&i.SystemKey,
|
||
)
|
||
return i, err
|
||
}
|
||
|
||
const updateAgentTaskSession = `-- name: UpdateAgentTaskSession :exec
|
||
UPDATE agent_task_queue
|
||
SET session_id = COALESCE($2, session_id),
|
||
work_dir = COALESCE($3, work_dir)
|
||
WHERE id = $1 AND status IN ('dispatched', 'running')
|
||
`
|
||
|
||
type UpdateAgentTaskSessionParams struct {
|
||
ID pgtype.UUID `json:"id"`
|
||
SessionID pgtype.Text `json:"session_id"`
|
||
WorkDir pgtype.Text `json:"work_dir"`
|
||
}
|
||
|
||
// Pins the resume pointer mid-flight so a daemon crash leaves a usable
|
||
// session_id/work_dir on the task row. No-op if the task is no longer
|
||
// in dispatched/running. waiting_local_directory tasks have no session yet
|
||
// so this query intentionally skips them.
|
||
func (q *Queries) UpdateAgentTaskSession(ctx context.Context, arg UpdateAgentTaskSessionParams) error {
|
||
_, err := q.db.Exec(ctx, updateAgentTaskSession, arg.ID, arg.SessionID, arg.WorkDir)
|
||
return err
|
||
}
|