Files
multica/server/pkg/db/generated/autopilot.sql.go
Jiayuan Zhang 4d6b5ad06f fix(squad): wake leader when dual-role agent posts as worker (MUL-2218) (#2626)
* fix(squad): wake leader when dual-role agent posts as worker (MUL-2218)

The squad-leader self-trigger guard skipped a comment whenever the
author equalled the squad's leader id, regardless of the role the agent
was acting in. For an agent that holds both leader and worker roles in
the same squad, this meant the leader role never reacted to its own
worker output and the issue stalled.

Tag each enqueued task with is_leader_task and consult the agent's
most recent task on the issue from both self-trigger guards (comment
path + @squad mention path) — skip only when that task was itself a
leader task.

Co-authored-by: multica-agent <github@multica.ai>

* fix(squad): inherit is_leader_task on retry task clone (MUL-2218)

CreateRetryTask cloned a parent task into a fresh queued attempt but
omitted is_leader_task from the column list, so the child silently fell
back to the column default (false). For a leader task that hit auto-retry
through MaybeRetryFailedTask, the retried task posed as a worker task —
the self-trigger guard then no longer recognised the leader's own
comments, re-opening the very loop MUL-2218 closes.

Inherit p.is_leader_task in the clone and add a query-level test that
covers both leader and worker retries.

Co-authored-by: multica-agent <github@multica.ai>

---------

Co-authored-by: multica-agent <github@multica.ai>
2026-05-14 15:23:36 +02:00

1083 lines
31 KiB
Go

// Code generated by sqlc. DO NOT EDIT.
// versions:
// sqlc v1.30.0
// source: autopilot.sql
package db
import (
"context"
"github.com/jackc/pgx/v5/pgtype"
)
const advanceTriggerNextRun = `-- name: AdvanceTriggerNextRun :exec
UPDATE autopilot_trigger
SET next_run_at = $2,
last_fired_at = now(),
updated_at = now()
WHERE id = $1
`
type AdvanceTriggerNextRunParams struct {
ID pgtype.UUID `json:"id"`
NextRunAt pgtype.Timestamptz `json:"next_run_at"`
}
func (q *Queries) AdvanceTriggerNextRun(ctx context.Context, arg AdvanceTriggerNextRunParams) error {
_, err := q.db.Exec(ctx, advanceTriggerNextRun, arg.ID, arg.NextRunAt)
return err
}
const claimDueScheduleTriggers = `-- name: ClaimDueScheduleTriggers :many
UPDATE autopilot_trigger t
SET next_run_at = NULL
FROM autopilot a
WHERE t.autopilot_id = a.id
AND t.kind = 'schedule'
AND t.enabled = true
AND t.next_run_at IS NOT NULL
AND t.next_run_at <= now()
AND a.status = 'active'
RETURNING t.id, t.autopilot_id, t.kind, t.enabled, t.cron_expression, t.timezone, t.next_run_at, t.webhook_token, t.label, t.last_fired_at, t.created_at, t.updated_at, a.workspace_id AS autopilot_workspace_id
`
type ClaimDueScheduleTriggersRow struct {
ID pgtype.UUID `json:"id"`
AutopilotID pgtype.UUID `json:"autopilot_id"`
Kind string `json:"kind"`
Enabled bool `json:"enabled"`
CronExpression pgtype.Text `json:"cron_expression"`
Timezone pgtype.Text `json:"timezone"`
NextRunAt pgtype.Timestamptz `json:"next_run_at"`
WebhookToken pgtype.Text `json:"webhook_token"`
Label pgtype.Text `json:"label"`
LastFiredAt pgtype.Timestamptz `json:"last_fired_at"`
CreatedAt pgtype.Timestamptz `json:"created_at"`
UpdatedAt pgtype.Timestamptz `json:"updated_at"`
AutopilotWorkspaceID pgtype.UUID `json:"autopilot_workspace_id"`
}
// =====================
// Scheduler Queries
// =====================
// Atomically claim all due schedule triggers to prevent concurrent execution.
// Joins the autopilot table to ensure only active autopilots are fired.
func (q *Queries) ClaimDueScheduleTriggers(ctx context.Context) ([]ClaimDueScheduleTriggersRow, error) {
rows, err := q.db.Query(ctx, claimDueScheduleTriggers)
if err != nil {
return nil, err
}
defer rows.Close()
items := []ClaimDueScheduleTriggersRow{}
for rows.Next() {
var i ClaimDueScheduleTriggersRow
if err := rows.Scan(
&i.ID,
&i.AutopilotID,
&i.Kind,
&i.Enabled,
&i.CronExpression,
&i.Timezone,
&i.NextRunAt,
&i.WebhookToken,
&i.Label,
&i.LastFiredAt,
&i.CreatedAt,
&i.UpdatedAt,
&i.AutopilotWorkspaceID,
); err != nil {
return nil, err
}
items = append(items, i)
}
if err := rows.Err(); err != nil {
return nil, err
}
return items, nil
}
const createAutopilot = `-- name: CreateAutopilot :one
INSERT INTO autopilot (
workspace_id, title, description, assignee_id,
status, execution_mode, issue_title_template,
created_by_type, created_by_id
) VALUES (
$1, $2, $8, $3,
$4, $5, $9,
$6, $7
) RETURNING id, workspace_id, title, description, assignee_id, status, execution_mode, issue_title_template, created_by_type, created_by_id, last_run_at, created_at, updated_at
`
type CreateAutopilotParams struct {
WorkspaceID pgtype.UUID `json:"workspace_id"`
Title string `json:"title"`
AssigneeID pgtype.UUID `json:"assignee_id"`
Status string `json:"status"`
ExecutionMode string `json:"execution_mode"`
CreatedByType string `json:"created_by_type"`
CreatedByID pgtype.UUID `json:"created_by_id"`
Description pgtype.Text `json:"description"`
IssueTitleTemplate pgtype.Text `json:"issue_title_template"`
}
func (q *Queries) CreateAutopilot(ctx context.Context, arg CreateAutopilotParams) (Autopilot, error) {
row := q.db.QueryRow(ctx, createAutopilot,
arg.WorkspaceID,
arg.Title,
arg.AssigneeID,
arg.Status,
arg.ExecutionMode,
arg.CreatedByType,
arg.CreatedByID,
arg.Description,
arg.IssueTitleTemplate,
)
var i Autopilot
err := row.Scan(
&i.ID,
&i.WorkspaceID,
&i.Title,
&i.Description,
&i.AssigneeID,
&i.Status,
&i.ExecutionMode,
&i.IssueTitleTemplate,
&i.CreatedByType,
&i.CreatedByID,
&i.LastRunAt,
&i.CreatedAt,
&i.UpdatedAt,
)
return i, err
}
const createAutopilotRun = `-- name: CreateAutopilotRun :one
INSERT INTO autopilot_run (
autopilot_id, trigger_id, source, status, trigger_payload
) VALUES (
$1, $4, $2, $3, $5
) RETURNING id, autopilot_id, trigger_id, source, status, issue_id, task_id, triggered_at, completed_at, failure_reason, trigger_payload, result, created_at
`
type CreateAutopilotRunParams struct {
AutopilotID pgtype.UUID `json:"autopilot_id"`
Source string `json:"source"`
Status string `json:"status"`
TriggerID pgtype.UUID `json:"trigger_id"`
TriggerPayload []byte `json:"trigger_payload"`
}
// =====================
// Autopilot Run Management
// =====================
func (q *Queries) CreateAutopilotRun(ctx context.Context, arg CreateAutopilotRunParams) (AutopilotRun, error) {
row := q.db.QueryRow(ctx, createAutopilotRun,
arg.AutopilotID,
arg.Source,
arg.Status,
arg.TriggerID,
arg.TriggerPayload,
)
var i AutopilotRun
err := row.Scan(
&i.ID,
&i.AutopilotID,
&i.TriggerID,
&i.Source,
&i.Status,
&i.IssueID,
&i.TaskID,
&i.TriggeredAt,
&i.CompletedAt,
&i.FailureReason,
&i.TriggerPayload,
&i.Result,
&i.CreatedAt,
)
return i, err
}
const createAutopilotTask = `-- name: CreateAutopilotTask :one
INSERT INTO agent_task_queue (agent_id, runtime_id, issue_id, status, priority, autopilot_run_id, trigger_summary)
VALUES ($1, $2, NULL, 'queued', $3, $4, $5)
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
`
type CreateAutopilotTaskParams struct {
AgentID pgtype.UUID `json:"agent_id"`
RuntimeID pgtype.UUID `json:"runtime_id"`
Priority int32 `json:"priority"`
AutopilotRunID pgtype.UUID `json:"autopilot_run_id"`
TriggerSummary pgtype.Text `json:"trigger_summary"`
}
// =====================
// Task Queue (run_only mode)
// =====================
func (q *Queries) CreateAutopilotTask(ctx context.Context, arg CreateAutopilotTaskParams) (AgentTaskQueue, error) {
row := q.db.QueryRow(ctx, createAutopilotTask,
arg.AgentID,
arg.RuntimeID,
arg.Priority,
arg.AutopilotRunID,
arg.TriggerSummary,
)
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,
)
return i, err
}
const createAutopilotTrigger = `-- name: CreateAutopilotTrigger :one
INSERT INTO autopilot_trigger (
autopilot_id, kind, enabled, cron_expression, timezone,
next_run_at, webhook_token, label
) VALUES (
$1, $2, $3, $4, $5,
$6, $7, $8
) RETURNING id, autopilot_id, kind, enabled, cron_expression, timezone, next_run_at, webhook_token, label, last_fired_at, created_at, updated_at
`
type CreateAutopilotTriggerParams struct {
AutopilotID pgtype.UUID `json:"autopilot_id"`
Kind string `json:"kind"`
Enabled bool `json:"enabled"`
CronExpression pgtype.Text `json:"cron_expression"`
Timezone pgtype.Text `json:"timezone"`
NextRunAt pgtype.Timestamptz `json:"next_run_at"`
WebhookToken pgtype.Text `json:"webhook_token"`
Label pgtype.Text `json:"label"`
}
func (q *Queries) CreateAutopilotTrigger(ctx context.Context, arg CreateAutopilotTriggerParams) (AutopilotTrigger, error) {
row := q.db.QueryRow(ctx, createAutopilotTrigger,
arg.AutopilotID,
arg.Kind,
arg.Enabled,
arg.CronExpression,
arg.Timezone,
arg.NextRunAt,
arg.WebhookToken,
arg.Label,
)
var i AutopilotTrigger
err := row.Scan(
&i.ID,
&i.AutopilotID,
&i.Kind,
&i.Enabled,
&i.CronExpression,
&i.Timezone,
&i.NextRunAt,
&i.WebhookToken,
&i.Label,
&i.LastFiredAt,
&i.CreatedAt,
&i.UpdatedAt,
)
return i, err
}
const deleteAutopilot = `-- name: DeleteAutopilot :exec
DELETE FROM autopilot WHERE id = $1
`
func (q *Queries) DeleteAutopilot(ctx context.Context, id pgtype.UUID) error {
_, err := q.db.Exec(ctx, deleteAutopilot, id)
return err
}
const deleteAutopilotTrigger = `-- name: DeleteAutopilotTrigger :exec
DELETE FROM autopilot_trigger WHERE id = $1
`
func (q *Queries) DeleteAutopilotTrigger(ctx context.Context, id pgtype.UUID) error {
_, err := q.db.Exec(ctx, deleteAutopilotTrigger, id)
return err
}
const failAutopilotRunsByIssue = `-- name: FailAutopilotRunsByIssue :exec
UPDATE autopilot_run
SET status = 'failed', completed_at = now(), failure_reason = 'linked issue was deleted'
WHERE issue_id = $1
AND status IN ('issue_created', 'running')
`
// Fails active autopilot runs linked to a given issue.
// Must be called BEFORE issue deletion (ON DELETE SET NULL clears issue_id).
func (q *Queries) FailAutopilotRunsByIssue(ctx context.Context, issueID pgtype.UUID) error {
_, err := q.db.Exec(ctx, failAutopilotRunsByIssue, issueID)
return err
}
const getAutopilot = `-- name: GetAutopilot :one
SELECT id, workspace_id, title, description, assignee_id, status, execution_mode, issue_title_template, created_by_type, created_by_id, last_run_at, created_at, updated_at FROM autopilot
WHERE id = $1
`
func (q *Queries) GetAutopilot(ctx context.Context, id pgtype.UUID) (Autopilot, error) {
row := q.db.QueryRow(ctx, getAutopilot, id)
var i Autopilot
err := row.Scan(
&i.ID,
&i.WorkspaceID,
&i.Title,
&i.Description,
&i.AssigneeID,
&i.Status,
&i.ExecutionMode,
&i.IssueTitleTemplate,
&i.CreatedByType,
&i.CreatedByID,
&i.LastRunAt,
&i.CreatedAt,
&i.UpdatedAt,
)
return i, err
}
const getAutopilotInWorkspace = `-- name: GetAutopilotInWorkspace :one
SELECT id, workspace_id, title, description, assignee_id, status, execution_mode, issue_title_template, created_by_type, created_by_id, last_run_at, created_at, updated_at FROM autopilot
WHERE id = $1 AND workspace_id = $2
`
type GetAutopilotInWorkspaceParams struct {
ID pgtype.UUID `json:"id"`
WorkspaceID pgtype.UUID `json:"workspace_id"`
}
func (q *Queries) GetAutopilotInWorkspace(ctx context.Context, arg GetAutopilotInWorkspaceParams) (Autopilot, error) {
row := q.db.QueryRow(ctx, getAutopilotInWorkspace, arg.ID, arg.WorkspaceID)
var i Autopilot
err := row.Scan(
&i.ID,
&i.WorkspaceID,
&i.Title,
&i.Description,
&i.AssigneeID,
&i.Status,
&i.ExecutionMode,
&i.IssueTitleTemplate,
&i.CreatedByType,
&i.CreatedByID,
&i.LastRunAt,
&i.CreatedAt,
&i.UpdatedAt,
)
return i, err
}
const getAutopilotRun = `-- name: GetAutopilotRun :one
SELECT id, autopilot_id, trigger_id, source, status, issue_id, task_id, triggered_at, completed_at, failure_reason, trigger_payload, result, created_at FROM autopilot_run
WHERE id = $1
`
func (q *Queries) GetAutopilotRun(ctx context.Context, id pgtype.UUID) (AutopilotRun, error) {
row := q.db.QueryRow(ctx, getAutopilotRun, id)
var i AutopilotRun
err := row.Scan(
&i.ID,
&i.AutopilotID,
&i.TriggerID,
&i.Source,
&i.Status,
&i.IssueID,
&i.TaskID,
&i.TriggeredAt,
&i.CompletedAt,
&i.FailureReason,
&i.TriggerPayload,
&i.Result,
&i.CreatedAt,
)
return i, err
}
const getAutopilotRunByIssue = `-- name: GetAutopilotRunByIssue :one
SELECT id, autopilot_id, trigger_id, source, status, issue_id, task_id, triggered_at, completed_at, failure_reason, trigger_payload, result, created_at FROM autopilot_run
WHERE issue_id = $1 AND status IN ('issue_created', 'running')
LIMIT 1
`
// =====================
// Run lookup by linked entities
// =====================
func (q *Queries) GetAutopilotRunByIssue(ctx context.Context, issueID pgtype.UUID) (AutopilotRun, error) {
row := q.db.QueryRow(ctx, getAutopilotRunByIssue, issueID)
var i AutopilotRun
err := row.Scan(
&i.ID,
&i.AutopilotID,
&i.TriggerID,
&i.Source,
&i.Status,
&i.IssueID,
&i.TaskID,
&i.TriggeredAt,
&i.CompletedAt,
&i.FailureReason,
&i.TriggerPayload,
&i.Result,
&i.CreatedAt,
)
return i, err
}
const getAutopilotTrigger = `-- name: GetAutopilotTrigger :one
SELECT id, autopilot_id, kind, enabled, cron_expression, timezone, next_run_at, webhook_token, label, last_fired_at, created_at, updated_at FROM autopilot_trigger
WHERE id = $1
`
func (q *Queries) GetAutopilotTrigger(ctx context.Context, id pgtype.UUID) (AutopilotTrigger, error) {
row := q.db.QueryRow(ctx, getAutopilotTrigger, id)
var i AutopilotTrigger
err := row.Scan(
&i.ID,
&i.AutopilotID,
&i.Kind,
&i.Enabled,
&i.CronExpression,
&i.Timezone,
&i.NextRunAt,
&i.WebhookToken,
&i.Label,
&i.LastFiredAt,
&i.CreatedAt,
&i.UpdatedAt,
)
return i, err
}
const listAutopilotRuns = `-- name: ListAutopilotRuns :many
SELECT id, autopilot_id, trigger_id, source, status, issue_id, task_id, triggered_at, completed_at, failure_reason, trigger_payload, result, created_at FROM autopilot_run
WHERE autopilot_id = $1
ORDER BY created_at DESC
LIMIT $2 OFFSET $3
`
type ListAutopilotRunsParams struct {
AutopilotID pgtype.UUID `json:"autopilot_id"`
Limit int32 `json:"limit"`
Offset int32 `json:"offset"`
}
func (q *Queries) ListAutopilotRuns(ctx context.Context, arg ListAutopilotRunsParams) ([]AutopilotRun, error) {
rows, err := q.db.Query(ctx, listAutopilotRuns, arg.AutopilotID, arg.Limit, arg.Offset)
if err != nil {
return nil, err
}
defer rows.Close()
items := []AutopilotRun{}
for rows.Next() {
var i AutopilotRun
if err := rows.Scan(
&i.ID,
&i.AutopilotID,
&i.TriggerID,
&i.Source,
&i.Status,
&i.IssueID,
&i.TaskID,
&i.TriggeredAt,
&i.CompletedAt,
&i.FailureReason,
&i.TriggerPayload,
&i.Result,
&i.CreatedAt,
); err != nil {
return nil, err
}
items = append(items, i)
}
if err := rows.Err(); err != nil {
return nil, err
}
return items, nil
}
const listAutopilotTriggers = `-- name: ListAutopilotTriggers :many
SELECT id, autopilot_id, kind, enabled, cron_expression, timezone, next_run_at, webhook_token, label, last_fired_at, created_at, updated_at FROM autopilot_trigger
WHERE autopilot_id = $1
ORDER BY created_at ASC
`
// =====================
// Autopilot Trigger CRUD
// =====================
func (q *Queries) ListAutopilotTriggers(ctx context.Context, autopilotID pgtype.UUID) ([]AutopilotTrigger, error) {
rows, err := q.db.Query(ctx, listAutopilotTriggers, autopilotID)
if err != nil {
return nil, err
}
defer rows.Close()
items := []AutopilotTrigger{}
for rows.Next() {
var i AutopilotTrigger
if err := rows.Scan(
&i.ID,
&i.AutopilotID,
&i.Kind,
&i.Enabled,
&i.CronExpression,
&i.Timezone,
&i.NextRunAt,
&i.WebhookToken,
&i.Label,
&i.LastFiredAt,
&i.CreatedAt,
&i.UpdatedAt,
); err != nil {
return nil, err
}
items = append(items, i)
}
if err := rows.Err(); err != nil {
return nil, err
}
return items, nil
}
const listAutopilots = `-- name: ListAutopilots :many
SELECT id, workspace_id, title, description, assignee_id, status, execution_mode, issue_title_template, created_by_type, created_by_id, last_run_at, created_at, updated_at FROM autopilot
WHERE workspace_id = $1
AND ($2::text IS NULL OR status = $2)
ORDER BY created_at DESC
`
type ListAutopilotsParams struct {
WorkspaceID pgtype.UUID `json:"workspace_id"`
Status pgtype.Text `json:"status"`
}
// =====================
// Autopilot CRUD
// =====================
func (q *Queries) ListAutopilots(ctx context.Context, arg ListAutopilotsParams) ([]Autopilot, error) {
rows, err := q.db.Query(ctx, listAutopilots, arg.WorkspaceID, arg.Status)
if err != nil {
return nil, err
}
defer rows.Close()
items := []Autopilot{}
for rows.Next() {
var i Autopilot
if err := rows.Scan(
&i.ID,
&i.WorkspaceID,
&i.Title,
&i.Description,
&i.AssigneeID,
&i.Status,
&i.ExecutionMode,
&i.IssueTitleTemplate,
&i.CreatedByType,
&i.CreatedByID,
&i.LastRunAt,
&i.CreatedAt,
&i.UpdatedAt,
); err != nil {
return nil, err
}
items = append(items, i)
}
if err := rows.Err(); err != nil {
return nil, err
}
return items, nil
}
const recoverLostTriggers = `-- name: RecoverLostTriggers :many
SELECT t.id, t.autopilot_id, t.kind, t.enabled, t.cron_expression, t.timezone, t.next_run_at, t.webhook_token, t.label, t.last_fired_at, t.created_at, t.updated_at, a.workspace_id AS autopilot_workspace_id
FROM autopilot_trigger t
JOIN autopilot a ON t.autopilot_id = a.id
WHERE t.kind = 'schedule'
AND t.enabled = true
AND t.next_run_at IS NULL
AND t.cron_expression IS NOT NULL
AND a.status = 'active'
`
type RecoverLostTriggersRow struct {
ID pgtype.UUID `json:"id"`
AutopilotID pgtype.UUID `json:"autopilot_id"`
Kind string `json:"kind"`
Enabled bool `json:"enabled"`
CronExpression pgtype.Text `json:"cron_expression"`
Timezone pgtype.Text `json:"timezone"`
NextRunAt pgtype.Timestamptz `json:"next_run_at"`
WebhookToken pgtype.Text `json:"webhook_token"`
Label pgtype.Text `json:"label"`
LastFiredAt pgtype.Timestamptz `json:"last_fired_at"`
CreatedAt pgtype.Timestamptz `json:"created_at"`
UpdatedAt pgtype.Timestamptz `json:"updated_at"`
AutopilotWorkspaceID pgtype.UUID `json:"autopilot_workspace_id"`
}
// =====================
// Scheduler Recovery
// =====================
// Finds schedule triggers that were claimed (next_run_at = NULL) but never
// advanced — typically due to a scheduler crash. Returns them so the scheduler
// can recompute next_run_at.
func (q *Queries) RecoverLostTriggers(ctx context.Context) ([]RecoverLostTriggersRow, error) {
rows, err := q.db.Query(ctx, recoverLostTriggers)
if err != nil {
return nil, err
}
defer rows.Close()
items := []RecoverLostTriggersRow{}
for rows.Next() {
var i RecoverLostTriggersRow
if err := rows.Scan(
&i.ID,
&i.AutopilotID,
&i.Kind,
&i.Enabled,
&i.CronExpression,
&i.Timezone,
&i.NextRunAt,
&i.WebhookToken,
&i.Label,
&i.LastFiredAt,
&i.CreatedAt,
&i.UpdatedAt,
&i.AutopilotWorkspaceID,
); err != nil {
return nil, err
}
items = append(items, i)
}
if err := rows.Err(); err != nil {
return nil, err
}
return items, nil
}
const selectAutopilotsExceedingFailureThreshold = `-- name: SelectAutopilotsExceedingFailureThreshold :many
WITH stats AS (
SELECT autopilot_id,
count(*) FILTER (WHERE status IN ('completed', 'failed')) AS total,
count(*) FILTER (WHERE status = 'failed') AS failed
FROM autopilot_run
WHERE created_at >= $3::timestamptz
GROUP BY autopilot_id
)
SELECT a.id, a.workspace_id, a.title, a.assignee_id,
a.created_by_type, a.created_by_id,
s.total::bigint AS total_runs,
s.failed::bigint AS failed_runs
FROM autopilot a
JOIN stats s ON s.autopilot_id = a.id
WHERE a.status = 'active'
AND s.total >= $1::bigint
AND s.failed::float8 / NULLIF(s.total, 0)::float8 >= $2::float8
ORDER BY s.failed DESC, a.id ASC
`
type SelectAutopilotsExceedingFailureThresholdParams struct {
MinRuns int64 `json:"min_runs"`
FailRatioThreshold float64 `json:"fail_ratio_threshold"`
Since pgtype.Timestamptz `json:"since"`
}
type SelectAutopilotsExceedingFailureThresholdRow struct {
ID pgtype.UUID `json:"id"`
WorkspaceID pgtype.UUID `json:"workspace_id"`
Title string `json:"title"`
AssigneeID pgtype.UUID `json:"assignee_id"`
CreatedByType string `json:"created_by_type"`
CreatedByID pgtype.UUID `json:"created_by_id"`
TotalRuns int64 `json:"total_runs"`
FailedRuns int64 `json:"failed_runs"`
}
// =====================
// Failure-rate auto-pause
// =====================
// Find active autopilots whose recent run failure rate exceeds the threshold.
// Counts only "real" terminal runs (completed | failed). 'skipped' is
// excluded from BOTH numerator and denominator: an admission-skipped run
// (e.g. assignee runtime offline at dispatch time, MUL-1899) is neither a
// success nor a failure, so it must not dilute the failure ratio (which
// would let a 100%-failing autopilot mask itself behind a wall of skips)
// nor inflate it. issue_created/running are still excluded so in-flight
// work isn't penalised.
// Used by the failure monitor to auto-pause sustained-failure autopilots
// (the canonical example from MUL-1336 was an autopilot scheduled every 5 min
// that 100% failed for days, burning ~1.5k useless tasks per week).
func (q *Queries) SelectAutopilotsExceedingFailureThreshold(ctx context.Context, arg SelectAutopilotsExceedingFailureThresholdParams) ([]SelectAutopilotsExceedingFailureThresholdRow, error) {
rows, err := q.db.Query(ctx, selectAutopilotsExceedingFailureThreshold, arg.MinRuns, arg.FailRatioThreshold, arg.Since)
if err != nil {
return nil, err
}
defer rows.Close()
items := []SelectAutopilotsExceedingFailureThresholdRow{}
for rows.Next() {
var i SelectAutopilotsExceedingFailureThresholdRow
if err := rows.Scan(
&i.ID,
&i.WorkspaceID,
&i.Title,
&i.AssigneeID,
&i.CreatedByType,
&i.CreatedByID,
&i.TotalRuns,
&i.FailedRuns,
); err != nil {
return nil, err
}
items = append(items, i)
}
if err := rows.Err(); err != nil {
return nil, err
}
return items, nil
}
const systemPauseAutopilot = `-- name: SystemPauseAutopilot :one
UPDATE autopilot
SET status = 'paused', updated_at = now()
WHERE id = $1 AND status = 'active'
RETURNING id, workspace_id, title, description, assignee_id, status, execution_mode, issue_title_template, created_by_type, created_by_id, last_run_at, created_at, updated_at
`
// Atomically pauses an autopilot only if it is currently active. Returns no
// rows when the autopilot was already paused/archived (or another worker
// raced first), letting the caller treat that as a benign no-op rather than
// an error.
func (q *Queries) SystemPauseAutopilot(ctx context.Context, id pgtype.UUID) (Autopilot, error) {
row := q.db.QueryRow(ctx, systemPauseAutopilot, id)
var i Autopilot
err := row.Scan(
&i.ID,
&i.WorkspaceID,
&i.Title,
&i.Description,
&i.AssigneeID,
&i.Status,
&i.ExecutionMode,
&i.IssueTitleTemplate,
&i.CreatedByType,
&i.CreatedByID,
&i.LastRunAt,
&i.CreatedAt,
&i.UpdatedAt,
)
return i, err
}
const updateAutopilot = `-- name: UpdateAutopilot :one
UPDATE autopilot SET
title = COALESCE($2, title),
description = COALESCE($3, description),
assignee_id = COALESCE($4::uuid, assignee_id),
status = COALESCE($5, status),
execution_mode = COALESCE($6, execution_mode),
issue_title_template = $7,
updated_at = now()
WHERE id = $1
RETURNING id, workspace_id, title, description, assignee_id, status, execution_mode, issue_title_template, created_by_type, created_by_id, last_run_at, created_at, updated_at
`
type UpdateAutopilotParams struct {
ID pgtype.UUID `json:"id"`
Title pgtype.Text `json:"title"`
Description pgtype.Text `json:"description"`
AssigneeID pgtype.UUID `json:"assignee_id"`
Status pgtype.Text `json:"status"`
ExecutionMode pgtype.Text `json:"execution_mode"`
IssueTitleTemplate pgtype.Text `json:"issue_title_template"`
}
func (q *Queries) UpdateAutopilot(ctx context.Context, arg UpdateAutopilotParams) (Autopilot, error) {
row := q.db.QueryRow(ctx, updateAutopilot,
arg.ID,
arg.Title,
arg.Description,
arg.AssigneeID,
arg.Status,
arg.ExecutionMode,
arg.IssueTitleTemplate,
)
var i Autopilot
err := row.Scan(
&i.ID,
&i.WorkspaceID,
&i.Title,
&i.Description,
&i.AssigneeID,
&i.Status,
&i.ExecutionMode,
&i.IssueTitleTemplate,
&i.CreatedByType,
&i.CreatedByID,
&i.LastRunAt,
&i.CreatedAt,
&i.UpdatedAt,
)
return i, err
}
const updateAutopilotLastRunAt = `-- name: UpdateAutopilotLastRunAt :exec
UPDATE autopilot SET last_run_at = now(), updated_at = now()
WHERE id = $1
`
func (q *Queries) UpdateAutopilotLastRunAt(ctx context.Context, id pgtype.UUID) error {
_, err := q.db.Exec(ctx, updateAutopilotLastRunAt, id)
return err
}
const updateAutopilotRunCompleted = `-- name: UpdateAutopilotRunCompleted :one
UPDATE autopilot_run
SET status = 'completed', completed_at = now(), result = $2
WHERE id = $1
RETURNING id, autopilot_id, trigger_id, source, status, issue_id, task_id, triggered_at, completed_at, failure_reason, trigger_payload, result, created_at
`
type UpdateAutopilotRunCompletedParams struct {
ID pgtype.UUID `json:"id"`
Result []byte `json:"result"`
}
func (q *Queries) UpdateAutopilotRunCompleted(ctx context.Context, arg UpdateAutopilotRunCompletedParams) (AutopilotRun, error) {
row := q.db.QueryRow(ctx, updateAutopilotRunCompleted, arg.ID, arg.Result)
var i AutopilotRun
err := row.Scan(
&i.ID,
&i.AutopilotID,
&i.TriggerID,
&i.Source,
&i.Status,
&i.IssueID,
&i.TaskID,
&i.TriggeredAt,
&i.CompletedAt,
&i.FailureReason,
&i.TriggerPayload,
&i.Result,
&i.CreatedAt,
)
return i, err
}
const updateAutopilotRunFailed = `-- name: UpdateAutopilotRunFailed :one
UPDATE autopilot_run
SET status = 'failed', completed_at = now(), failure_reason = $2
WHERE id = $1
RETURNING id, autopilot_id, trigger_id, source, status, issue_id, task_id, triggered_at, completed_at, failure_reason, trigger_payload, result, created_at
`
type UpdateAutopilotRunFailedParams struct {
ID pgtype.UUID `json:"id"`
FailureReason pgtype.Text `json:"failure_reason"`
}
func (q *Queries) UpdateAutopilotRunFailed(ctx context.Context, arg UpdateAutopilotRunFailedParams) (AutopilotRun, error) {
row := q.db.QueryRow(ctx, updateAutopilotRunFailed, arg.ID, arg.FailureReason)
var i AutopilotRun
err := row.Scan(
&i.ID,
&i.AutopilotID,
&i.TriggerID,
&i.Source,
&i.Status,
&i.IssueID,
&i.TaskID,
&i.TriggeredAt,
&i.CompletedAt,
&i.FailureReason,
&i.TriggerPayload,
&i.Result,
&i.CreatedAt,
)
return i, err
}
const updateAutopilotRunIssueCreated = `-- name: UpdateAutopilotRunIssueCreated :one
UPDATE autopilot_run
SET status = 'issue_created', issue_id = $2
WHERE id = $1
RETURNING id, autopilot_id, trigger_id, source, status, issue_id, task_id, triggered_at, completed_at, failure_reason, trigger_payload, result, created_at
`
type UpdateAutopilotRunIssueCreatedParams struct {
ID pgtype.UUID `json:"id"`
IssueID pgtype.UUID `json:"issue_id"`
}
func (q *Queries) UpdateAutopilotRunIssueCreated(ctx context.Context, arg UpdateAutopilotRunIssueCreatedParams) (AutopilotRun, error) {
row := q.db.QueryRow(ctx, updateAutopilotRunIssueCreated, arg.ID, arg.IssueID)
var i AutopilotRun
err := row.Scan(
&i.ID,
&i.AutopilotID,
&i.TriggerID,
&i.Source,
&i.Status,
&i.IssueID,
&i.TaskID,
&i.TriggeredAt,
&i.CompletedAt,
&i.FailureReason,
&i.TriggerPayload,
&i.Result,
&i.CreatedAt,
)
return i, err
}
const updateAutopilotRunRunning = `-- name: UpdateAutopilotRunRunning :one
UPDATE autopilot_run
SET status = 'running', task_id = $2
WHERE id = $1
RETURNING id, autopilot_id, trigger_id, source, status, issue_id, task_id, triggered_at, completed_at, failure_reason, trigger_payload, result, created_at
`
type UpdateAutopilotRunRunningParams struct {
ID pgtype.UUID `json:"id"`
TaskID pgtype.UUID `json:"task_id"`
}
func (q *Queries) UpdateAutopilotRunRunning(ctx context.Context, arg UpdateAutopilotRunRunningParams) (AutopilotRun, error) {
row := q.db.QueryRow(ctx, updateAutopilotRunRunning, arg.ID, arg.TaskID)
var i AutopilotRun
err := row.Scan(
&i.ID,
&i.AutopilotID,
&i.TriggerID,
&i.Source,
&i.Status,
&i.IssueID,
&i.TaskID,
&i.TriggeredAt,
&i.CompletedAt,
&i.FailureReason,
&i.TriggerPayload,
&i.Result,
&i.CreatedAt,
)
return i, err
}
const updateAutopilotRunSkipped = `-- name: UpdateAutopilotRunSkipped :one
UPDATE autopilot_run
SET status = 'skipped', completed_at = now(), failure_reason = $2
WHERE id = $1
RETURNING id, autopilot_id, trigger_id, source, status, issue_id, task_id, triggered_at, completed_at, failure_reason, trigger_payload, result, created_at
`
type UpdateAutopilotRunSkippedParams struct {
ID pgtype.UUID `json:"id"`
FailureReason pgtype.Text `json:"failure_reason"`
}
// Marks an autopilot_run as skipped without enqueueing any task. Used by the
// pre-flight admission check when the assignee agent's runtime is offline:
// creating an issue / task in that state would just pile a doomed job onto
// agent_task_queue (the canonical "持续给离线 local agent 入队" symptom from
// MUL-1899). Recording the skip + reason gives the UI / failure monitor / ops
// a paper trail without polluting the failure ratio.
func (q *Queries) UpdateAutopilotRunSkipped(ctx context.Context, arg UpdateAutopilotRunSkippedParams) (AutopilotRun, error) {
row := q.db.QueryRow(ctx, updateAutopilotRunSkipped, arg.ID, arg.FailureReason)
var i AutopilotRun
err := row.Scan(
&i.ID,
&i.AutopilotID,
&i.TriggerID,
&i.Source,
&i.Status,
&i.IssueID,
&i.TaskID,
&i.TriggeredAt,
&i.CompletedAt,
&i.FailureReason,
&i.TriggerPayload,
&i.Result,
&i.CreatedAt,
)
return i, err
}
const updateAutopilotTrigger = `-- name: UpdateAutopilotTrigger :one
UPDATE autopilot_trigger SET
enabled = COALESCE($2::boolean, enabled),
cron_expression = COALESCE($3, cron_expression),
timezone = COALESCE($4, timezone),
next_run_at = $5,
label = COALESCE($6, label),
updated_at = now()
WHERE id = $1
RETURNING id, autopilot_id, kind, enabled, cron_expression, timezone, next_run_at, webhook_token, label, last_fired_at, created_at, updated_at
`
type UpdateAutopilotTriggerParams struct {
ID pgtype.UUID `json:"id"`
Enabled pgtype.Bool `json:"enabled"`
CronExpression pgtype.Text `json:"cron_expression"`
Timezone pgtype.Text `json:"timezone"`
NextRunAt pgtype.Timestamptz `json:"next_run_at"`
Label pgtype.Text `json:"label"`
}
func (q *Queries) UpdateAutopilotTrigger(ctx context.Context, arg UpdateAutopilotTriggerParams) (AutopilotTrigger, error) {
row := q.db.QueryRow(ctx, updateAutopilotTrigger,
arg.ID,
arg.Enabled,
arg.CronExpression,
arg.Timezone,
arg.NextRunAt,
arg.Label,
)
var i AutopilotTrigger
err := row.Scan(
&i.ID,
&i.AutopilotID,
&i.Kind,
&i.Enabled,
&i.CronExpression,
&i.Timezone,
&i.NextRunAt,
&i.WebhookToken,
&i.Label,
&i.LastFiredAt,
&i.CreatedAt,
&i.UpdatedAt,
)
return i, err
}