Files
multica/server/pkg/db/generated/chat.sql.go
Bohan Jiang 24b162cdbc feat(daemon): surface the real task initiator to the agent runtime (MUL-2645) (#3899)
* feat(daemon): surface the real task initiator to the agent runtime (MUL-2645)

In a multi-person workspace the agent runtime only ever saw the runtime
OWNER identity: the brief's `## Requesting User` is sourced from
runtime.OwnerID and the task-scoped token is owner-bound, so every
requester (whoever commented, @mentioned, or chatted) appeared to the
agent as the owner. Agents that route by initiator for permission,
privacy, or audit all misjudged.

Resolve the real task initiator at claim time and surface it distinctly
from the owner:
- comment / mention trigger -> triggering comment's author (member or agent)
- chat task -> chat session creator (sessions are creator-only)
- on-assign / autopilot / quick-create -> no attributable initiator (omitted)

Adds initiator_{type,id,name,email} to the claim response, the daemon
Task, and TaskContextForEnv, rendered into the brief as a new
`## Task Initiator` section. The section documents the privacy boundary:
the agent's credentials stay owner-scoped, so this is an attested
identity for the agent's own routing/privacy logic, not act-as. No DB
migration — both paths are derivable from existing rows.

Tests: brief rendering (member/agent/omit/sanitize) + email guard unit
tests, and claim-handler tests for the comment and chat paths.

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

* fix(chat): store real sender as task initiator, not chat_session creator (MUL-2645)

Review fix (Niko, PR #3899). v1 resolved the chat task initiator from
chat_session.creator_id at claim time. That is correct for web chat and
Lark p2p (creator == sender), but WRONG for Lark group chats: the group
session creator is deliberately the installer (stable identity across
member churn), not the message sender. So in a Lark group, every member
who triggered the agent showed up in the brief as the installer/owner —
the exact bug this issue is about, still live at that entry point.

Capture the real sender at enqueue time instead of deriving it from the
session creator at claim time:

- migration 117: agent_task_queue.initiator_user_id (FK user, ON DELETE
  SET NULL); NULL for non-chat and pre-migration rows.
- EnqueueChatTask now takes an explicit initiatorUserID. Web chat passes
  the authenticated request user; the Lark dispatcher threads the inbound
  sender (binding.MulticaUserID) through scheduleRun -> flushChatRun. The
  debouncer keeps the latest scheduled flush per session, so in a multi-
  sender silence window the LATEST sender wins (documented + tested).
- claim handler resolves the initiator from task.initiator_user_id and
  drops the creator_id fallback entirely.

The Lark group session creator stays the installer (unchanged) — only the
task initiator is corrected, keeping the two concepts cleanly separate.

Tests: dispatcher group regression (initiator = sender, not installer),
latest-sender-wins, p2p initiator assertion; the chat claim handler test
now sets creator != initiator and asserts the stored sender wins.

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

---------

Co-authored-by: J <j@multica.ai>
Co-authored-by: multica-agent <github@multica.ai>
2026-06-08 19:29:57 +08:00

707 lines
22 KiB
Go

// Code generated by sqlc. DO NOT EDIT.
// versions:
// sqlc v1.31.1
// source: chat.sql
package db
import (
"context"
"github.com/jackc/pgx/v5/pgtype"
)
const createChatMessage = `-- name: CreateChatMessage :one
INSERT INTO chat_message (chat_session_id, role, content, task_id, failure_reason, elapsed_ms)
VALUES ($1, $2, $3, $4, $5, $6)
RETURNING id, chat_session_id, role, content, task_id, created_at, failure_reason, elapsed_ms
`
type CreateChatMessageParams struct {
ChatSessionID pgtype.UUID `json:"chat_session_id"`
Role string `json:"role"`
Content string `json:"content"`
TaskID pgtype.UUID `json:"task_id"`
FailureReason pgtype.Text `json:"failure_reason"`
ElapsedMs pgtype.Int8 `json:"elapsed_ms"`
}
func (q *Queries) CreateChatMessage(ctx context.Context, arg CreateChatMessageParams) (ChatMessage, error) {
row := q.db.QueryRow(ctx, createChatMessage,
arg.ChatSessionID,
arg.Role,
arg.Content,
arg.TaskID,
arg.FailureReason,
arg.ElapsedMs,
)
var i ChatMessage
err := row.Scan(
&i.ID,
&i.ChatSessionID,
&i.Role,
&i.Content,
&i.TaskID,
&i.CreatedAt,
&i.FailureReason,
&i.ElapsedMs,
)
return i, err
}
const createChatSession = `-- name: CreateChatSession :one
INSERT INTO chat_session (workspace_id, agent_id, creator_id, title, runtime_id)
VALUES ($1, $2, $3, $4, (SELECT runtime_id FROM agent WHERE id = $2))
RETURNING id, workspace_id, agent_id, creator_id, title, session_id, work_dir, status, created_at, updated_at, unread_since, runtime_id
`
type CreateChatSessionParams struct {
WorkspaceID pgtype.UUID `json:"workspace_id"`
AgentID pgtype.UUID `json:"agent_id"`
CreatorID pgtype.UUID `json:"creator_id"`
Title string `json:"title"`
}
func (q *Queries) CreateChatSession(ctx context.Context, arg CreateChatSessionParams) (ChatSession, error) {
row := q.db.QueryRow(ctx, createChatSession,
arg.WorkspaceID,
arg.AgentID,
arg.CreatorID,
arg.Title,
)
var i ChatSession
err := row.Scan(
&i.ID,
&i.WorkspaceID,
&i.AgentID,
&i.CreatorID,
&i.Title,
&i.SessionID,
&i.WorkDir,
&i.Status,
&i.CreatedAt,
&i.UpdatedAt,
&i.UnreadSince,
&i.RuntimeID,
)
return i, err
}
const createChatTask = `-- name: CreateChatTask :one
INSERT INTO agent_task_queue (agent_id, runtime_id, issue_id, status, priority, chat_session_id, initiator_user_id)
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, wait_reason, initiator_user_id
`
type CreateChatTaskParams struct {
AgentID pgtype.UUID `json:"agent_id"`
RuntimeID pgtype.UUID `json:"runtime_id"`
Priority int32 `json:"priority"`
ChatSessionID pgtype.UUID `json:"chat_session_id"`
InitiatorUserID pgtype.UUID `json:"initiator_user_id"`
}
func (q *Queries) CreateChatTask(ctx context.Context, arg CreateChatTaskParams) (AgentTaskQueue, error) {
row := q.db.QueryRow(ctx, createChatTask,
arg.AgentID,
arg.RuntimeID,
arg.Priority,
arg.ChatSessionID,
arg.InitiatorUserID,
)
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,
)
return i, err
}
const deleteChatSession = `-- name: DeleteChatSession :exec
DELETE FROM chat_session WHERE id = $1 AND workspace_id = $2
`
type DeleteChatSessionParams struct {
ID pgtype.UUID `json:"id"`
WorkspaceID pgtype.UUID `json:"workspace_id"`
}
// Hard delete. chat_message rows cascade via FK ON DELETE CASCADE; the
// chat_session_id on agent_task_queue is set NULL by FK so completed/failed
// task history survives the session being removed. Callers MUST run inside
// the same transaction that holds LockChatSessionForDelete and that has
// already cancelled any in-flight tasks (see CancelAgentTasksByChatSession)
// so the daemon does not keep running work whose result has nowhere to
// land. workspace_id in the WHERE clause is a SQL-layer tenant guard; see
// DeleteIssue.
func (q *Queries) DeleteChatSession(ctx context.Context, arg DeleteChatSessionParams) error {
_, err := q.db.Exec(ctx, deleteChatSession, arg.ID, arg.WorkspaceID)
return err
}
const getChatMessage = `-- name: GetChatMessage :one
SELECT id, chat_session_id, role, content, task_id, created_at, failure_reason, elapsed_ms FROM chat_message
WHERE id = $1
`
func (q *Queries) GetChatMessage(ctx context.Context, id pgtype.UUID) (ChatMessage, error) {
row := q.db.QueryRow(ctx, getChatMessage, id)
var i ChatMessage
err := row.Scan(
&i.ID,
&i.ChatSessionID,
&i.Role,
&i.Content,
&i.TaskID,
&i.CreatedAt,
&i.FailureReason,
&i.ElapsedMs,
)
return i, err
}
const getChatSession = `-- name: GetChatSession :one
SELECT id, workspace_id, agent_id, creator_id, title, session_id, work_dir, status, created_at, updated_at, unread_since, runtime_id FROM chat_session
WHERE id = $1
`
func (q *Queries) GetChatSession(ctx context.Context, id pgtype.UUID) (ChatSession, error) {
row := q.db.QueryRow(ctx, getChatSession, id)
var i ChatSession
err := row.Scan(
&i.ID,
&i.WorkspaceID,
&i.AgentID,
&i.CreatorID,
&i.Title,
&i.SessionID,
&i.WorkDir,
&i.Status,
&i.CreatedAt,
&i.UpdatedAt,
&i.UnreadSince,
&i.RuntimeID,
)
return i, err
}
const getChatSessionInWorkspace = `-- name: GetChatSessionInWorkspace :one
SELECT id, workspace_id, agent_id, creator_id, title, session_id, work_dir, status, created_at, updated_at, unread_since, runtime_id FROM chat_session
WHERE id = $1 AND workspace_id = $2
`
type GetChatSessionInWorkspaceParams struct {
ID pgtype.UUID `json:"id"`
WorkspaceID pgtype.UUID `json:"workspace_id"`
}
func (q *Queries) GetChatSessionInWorkspace(ctx context.Context, arg GetChatSessionInWorkspaceParams) (ChatSession, error) {
row := q.db.QueryRow(ctx, getChatSessionInWorkspace, arg.ID, arg.WorkspaceID)
var i ChatSession
err := row.Scan(
&i.ID,
&i.WorkspaceID,
&i.AgentID,
&i.CreatorID,
&i.Title,
&i.SessionID,
&i.WorkDir,
&i.Status,
&i.CreatedAt,
&i.UpdatedAt,
&i.UnreadSince,
&i.RuntimeID,
)
return i, err
}
const getLastChatTaskSession = `-- name: GetLastChatTaskSession :one
SELECT session_id, work_dir, runtime_id FROM agent_task_queue
WHERE chat_session_id = $1
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 completed_at DESC
LIMIT 1
`
type GetLastChatTaskSessionRow struct {
SessionID pgtype.Text `json:"session_id"`
WorkDir pgtype.Text `json:"work_dir"`
RuntimeID pgtype.UUID `json:"runtime_id"`
}
// Returns the most recent task in this chat session that managed to record a
// session_id. Includes both completed and failed tasks: even a failed task
// may have established a real agent session before failing, and we'd rather
// resume there than start over and lose conversation memory. Used as a
// fallback when chat_session.session_id is NULL. Resume-unsafe failures are
// excluded because replaying those sessions deterministically reproduces the
// same terminal state.
func (q *Queries) GetLastChatTaskSession(ctx context.Context, chatSessionID pgtype.UUID) (GetLastChatTaskSessionRow, error) {
row := q.db.QueryRow(ctx, getLastChatTaskSession, chatSessionID)
var i GetLastChatTaskSessionRow
err := row.Scan(&i.SessionID, &i.WorkDir, &i.RuntimeID)
return i, err
}
const getMostRecentUserChatMessage = `-- name: GetMostRecentUserChatMessage :one
SELECT id, chat_session_id, role, content, task_id, created_at, failure_reason, elapsed_ms FROM chat_message
WHERE chat_session_id = $1 AND role = 'user'
ORDER BY created_at DESC
LIMIT 1
`
// Returns the most recent role='user' message in a session. Used by the
// Lark `/issue` command parser: when the user types `/issue` with no
// title, the spec falls back to "use the previous user message as the
// title". Bot replies (role='assistant') are excluded — only human
// input qualifies as a fallback title source.
func (q *Queries) GetMostRecentUserChatMessage(ctx context.Context, chatSessionID pgtype.UUID) (ChatMessage, error) {
row := q.db.QueryRow(ctx, getMostRecentUserChatMessage, chatSessionID)
var i ChatMessage
err := row.Scan(
&i.ID,
&i.ChatSessionID,
&i.Role,
&i.Content,
&i.TaskID,
&i.CreatedAt,
&i.FailureReason,
&i.ElapsedMs,
)
return i, err
}
const getPendingChatTask = `-- name: GetPendingChatTask :one
SELECT id, status, created_at FROM agent_task_queue
WHERE chat_session_id = $1 AND status IN ('queued', 'dispatched', 'running', 'waiting_local_directory')
ORDER BY created_at DESC
LIMIT 1
`
type GetPendingChatTaskRow struct {
ID pgtype.UUID `json:"id"`
Status string `json:"status"`
CreatedAt pgtype.Timestamptz `json:"created_at"`
}
// Returns the most recent in-flight task for a chat session, if any.
// Used by the frontend to recover pending state after refresh / reopen.
// created_at is the anchor for the chat StatusPill timer (it computes
// elapsed = now - task.created_at), so the pill survives refresh / reopen
// without "resetting to 0s".
func (q *Queries) GetPendingChatTask(ctx context.Context, chatSessionID pgtype.UUID) (GetPendingChatTaskRow, error) {
row := q.db.QueryRow(ctx, getPendingChatTask, chatSessionID)
var i GetPendingChatTaskRow
err := row.Scan(&i.ID, &i.Status, &i.CreatedAt)
return i, err
}
const listAllChatSessionsByCreator = `-- name: ListAllChatSessionsByCreator :many
SELECT cs.id, cs.workspace_id, cs.agent_id, cs.creator_id, cs.title, cs.session_id, cs.work_dir, cs.status, cs.created_at, cs.updated_at, cs.unread_since, cs.runtime_id,
(cs.unread_since IS NOT NULL)::bool AS has_unread
FROM chat_session cs
WHERE cs.workspace_id = $1 AND cs.creator_id = $2
ORDER BY cs.updated_at DESC
`
type ListAllChatSessionsByCreatorParams struct {
WorkspaceID pgtype.UUID `json:"workspace_id"`
CreatorID pgtype.UUID `json:"creator_id"`
}
type ListAllChatSessionsByCreatorRow struct {
ID pgtype.UUID `json:"id"`
WorkspaceID pgtype.UUID `json:"workspace_id"`
AgentID pgtype.UUID `json:"agent_id"`
CreatorID pgtype.UUID `json:"creator_id"`
Title string `json:"title"`
SessionID pgtype.Text `json:"session_id"`
WorkDir pgtype.Text `json:"work_dir"`
Status string `json:"status"`
CreatedAt pgtype.Timestamptz `json:"created_at"`
UpdatedAt pgtype.Timestamptz `json:"updated_at"`
UnreadSince pgtype.Timestamptz `json:"unread_since"`
RuntimeID pgtype.UUID `json:"runtime_id"`
HasUnread bool `json:"has_unread"`
}
func (q *Queries) ListAllChatSessionsByCreator(ctx context.Context, arg ListAllChatSessionsByCreatorParams) ([]ListAllChatSessionsByCreatorRow, error) {
rows, err := q.db.Query(ctx, listAllChatSessionsByCreator, arg.WorkspaceID, arg.CreatorID)
if err != nil {
return nil, err
}
defer rows.Close()
items := []ListAllChatSessionsByCreatorRow{}
for rows.Next() {
var i ListAllChatSessionsByCreatorRow
if err := rows.Scan(
&i.ID,
&i.WorkspaceID,
&i.AgentID,
&i.CreatorID,
&i.Title,
&i.SessionID,
&i.WorkDir,
&i.Status,
&i.CreatedAt,
&i.UpdatedAt,
&i.UnreadSince,
&i.RuntimeID,
&i.HasUnread,
); err != nil {
return nil, err
}
items = append(items, i)
}
if err := rows.Err(); err != nil {
return nil, err
}
return items, nil
}
const listChatMessages = `-- name: ListChatMessages :many
SELECT id, chat_session_id, role, content, task_id, created_at, failure_reason, elapsed_ms FROM chat_message
WHERE chat_session_id = $1
ORDER BY created_at ASC
`
func (q *Queries) ListChatMessages(ctx context.Context, chatSessionID pgtype.UUID) ([]ChatMessage, error) {
rows, err := q.db.Query(ctx, listChatMessages, chatSessionID)
if err != nil {
return nil, err
}
defer rows.Close()
items := []ChatMessage{}
for rows.Next() {
var i ChatMessage
if err := rows.Scan(
&i.ID,
&i.ChatSessionID,
&i.Role,
&i.Content,
&i.TaskID,
&i.CreatedAt,
&i.FailureReason,
&i.ElapsedMs,
); err != nil {
return nil, err
}
items = append(items, i)
}
if err := rows.Err(); err != nil {
return nil, err
}
return items, nil
}
const listChatMessagesPage = `-- name: ListChatMessagesPage :many
SELECT id, chat_session_id, role, content, task_id, created_at, failure_reason, elapsed_ms FROM chat_message
WHERE chat_session_id = $1
AND (
$3::timestamptz IS NULL
OR (created_at, id) < ($3::timestamptz, $4::uuid)
)
ORDER BY created_at DESC, id DESC
LIMIT $2
`
type ListChatMessagesPageParams struct {
ChatSessionID pgtype.UUID `json:"chat_session_id"`
Limit int32 `json:"limit"`
BeforeCreatedAt pgtype.Timestamptz `json:"before_created_at"`
BeforeID pgtype.UUID `json:"before_id"`
}
func (q *Queries) ListChatMessagesPage(ctx context.Context, arg ListChatMessagesPageParams) ([]ChatMessage, error) {
rows, err := q.db.Query(ctx, listChatMessagesPage,
arg.ChatSessionID,
arg.Limit,
arg.BeforeCreatedAt,
arg.BeforeID,
)
if err != nil {
return nil, err
}
defer rows.Close()
items := []ChatMessage{}
for rows.Next() {
var i ChatMessage
if err := rows.Scan(
&i.ID,
&i.ChatSessionID,
&i.Role,
&i.Content,
&i.TaskID,
&i.CreatedAt,
&i.FailureReason,
&i.ElapsedMs,
); err != nil {
return nil, err
}
items = append(items, i)
}
if err := rows.Err(); err != nil {
return nil, err
}
return items, nil
}
const listChatSessionsByCreator = `-- name: ListChatSessionsByCreator :many
SELECT cs.id, cs.workspace_id, cs.agent_id, cs.creator_id, cs.title, cs.session_id, cs.work_dir, cs.status, cs.created_at, cs.updated_at, cs.unread_since, cs.runtime_id,
(cs.unread_since IS NOT NULL)::bool AS has_unread
FROM chat_session cs
WHERE cs.workspace_id = $1 AND cs.creator_id = $2 AND cs.status = 'active'
ORDER BY cs.updated_at DESC
`
type ListChatSessionsByCreatorParams struct {
WorkspaceID pgtype.UUID `json:"workspace_id"`
CreatorID pgtype.UUID `json:"creator_id"`
}
type ListChatSessionsByCreatorRow struct {
ID pgtype.UUID `json:"id"`
WorkspaceID pgtype.UUID `json:"workspace_id"`
AgentID pgtype.UUID `json:"agent_id"`
CreatorID pgtype.UUID `json:"creator_id"`
Title string `json:"title"`
SessionID pgtype.Text `json:"session_id"`
WorkDir pgtype.Text `json:"work_dir"`
Status string `json:"status"`
CreatedAt pgtype.Timestamptz `json:"created_at"`
UpdatedAt pgtype.Timestamptz `json:"updated_at"`
UnreadSince pgtype.Timestamptz `json:"unread_since"`
RuntimeID pgtype.UUID `json:"runtime_id"`
HasUnread bool `json:"has_unread"`
}
// Returns active sessions with a boolean unread flag. Unread is strictly
// per-session: either the user has uncleared assistant replies in this
// session or they don't. Counting messages would be misleading.
func (q *Queries) ListChatSessionsByCreator(ctx context.Context, arg ListChatSessionsByCreatorParams) ([]ListChatSessionsByCreatorRow, error) {
rows, err := q.db.Query(ctx, listChatSessionsByCreator, arg.WorkspaceID, arg.CreatorID)
if err != nil {
return nil, err
}
defer rows.Close()
items := []ListChatSessionsByCreatorRow{}
for rows.Next() {
var i ListChatSessionsByCreatorRow
if err := rows.Scan(
&i.ID,
&i.WorkspaceID,
&i.AgentID,
&i.CreatorID,
&i.Title,
&i.SessionID,
&i.WorkDir,
&i.Status,
&i.CreatedAt,
&i.UpdatedAt,
&i.UnreadSince,
&i.RuntimeID,
&i.HasUnread,
); err != nil {
return nil, err
}
items = append(items, i)
}
if err := rows.Err(); err != nil {
return nil, err
}
return items, nil
}
const listPendingChatTasksByCreator = `-- name: ListPendingChatTasksByCreator :many
SELECT atq.id AS task_id, atq.status, atq.chat_session_id
FROM agent_task_queue atq
JOIN chat_session cs ON cs.id = atq.chat_session_id
WHERE cs.workspace_id = $1
AND cs.creator_id = $2
AND atq.status IN ('queued', 'dispatched', 'running', 'waiting_local_directory')
ORDER BY atq.created_at DESC
`
type ListPendingChatTasksByCreatorParams struct {
WorkspaceID pgtype.UUID `json:"workspace_id"`
CreatorID pgtype.UUID `json:"creator_id"`
}
type ListPendingChatTasksByCreatorRow struct {
TaskID pgtype.UUID `json:"task_id"`
Status string `json:"status"`
ChatSessionID pgtype.UUID `json:"chat_session_id"`
}
// Aggregate view of all in-flight chat tasks owned by a given creator in a
// workspace. Drives the FAB's "running" indicator when the chat window is
// closed and no single session's query is active.
func (q *Queries) ListPendingChatTasksByCreator(ctx context.Context, arg ListPendingChatTasksByCreatorParams) ([]ListPendingChatTasksByCreatorRow, error) {
rows, err := q.db.Query(ctx, listPendingChatTasksByCreator, arg.WorkspaceID, arg.CreatorID)
if err != nil {
return nil, err
}
defer rows.Close()
items := []ListPendingChatTasksByCreatorRow{}
for rows.Next() {
var i ListPendingChatTasksByCreatorRow
if err := rows.Scan(&i.TaskID, &i.Status, &i.ChatSessionID); err != nil {
return nil, err
}
items = append(items, i)
}
if err := rows.Err(); err != nil {
return nil, err
}
return items, nil
}
const lockChatSessionForDelete = `-- name: LockChatSessionForDelete :one
SELECT id FROM chat_session
WHERE id = $1
FOR UPDATE
`
// Acquires an exclusive (FOR UPDATE) row lock on chat_session(id). Used by
// the delete path so that a concurrent SendChatMessage cannot enqueue a new
// agent_task_queue row referencing this session between our cancel and
// delete steps. The FK from agent_task_queue.chat_session_id takes a
// KEY SHARE lock on the parent row during INSERT validation, which
// conflicts with FOR UPDATE — concurrent inserts block here and then fail
// their FK check after we commit the delete.
func (q *Queries) LockChatSessionForDelete(ctx context.Context, id pgtype.UUID) (pgtype.UUID, error) {
row := q.db.QueryRow(ctx, lockChatSessionForDelete, id)
var id_2 pgtype.UUID
err := row.Scan(&id_2)
return id_2, err
}
const markChatSessionRead = `-- name: MarkChatSessionRead :exec
UPDATE chat_session SET unread_since = NULL
WHERE id = $1
`
// Clears unread_since, dropping the session's unread count to 0.
func (q *Queries) MarkChatSessionRead(ctx context.Context, id pgtype.UUID) error {
_, err := q.db.Exec(ctx, markChatSessionRead, id)
return err
}
const setUnreadSinceIfNull = `-- name: SetUnreadSinceIfNull :exec
UPDATE chat_session SET unread_since = now()
WHERE id = $1 AND unread_since IS NULL
`
// Atomically stamps the first unread assistant message's arrival time.
// No-op if the session is already in "has unread" state — keeps the earliest
// unread boundary stable across multiple incoming replies.
func (q *Queries) SetUnreadSinceIfNull(ctx context.Context, id pgtype.UUID) error {
_, err := q.db.Exec(ctx, setUnreadSinceIfNull, id)
return err
}
const touchChatSession = `-- name: TouchChatSession :exec
UPDATE chat_session SET updated_at = now()
WHERE id = $1
`
func (q *Queries) TouchChatSession(ctx context.Context, id pgtype.UUID) error {
_, err := q.db.Exec(ctx, touchChatSession, id)
return err
}
const updateChatSessionSession = `-- name: UpdateChatSessionSession :exec
UPDATE chat_session
SET session_id = COALESCE($1, session_id),
work_dir = COALESCE($2, work_dir),
runtime_id = COALESCE($3, runtime_id),
updated_at = now()
WHERE id = $4
`
type UpdateChatSessionSessionParams struct {
SessionID pgtype.Text `json:"session_id"`
WorkDir pgtype.Text `json:"work_dir"`
RuntimeID pgtype.UUID `json:"runtime_id"`
ID pgtype.UUID `json:"id"`
}
// Updates the resume pointer for a chat session. Empty/NULL inputs are
// ignored via COALESCE so a task that completes without a session_id (e.g.
// the agent crashed before establishing one) cannot wipe out a previously
// recorded resume pointer. This makes the chat memory robust against
// intermittent agent failures.
func (q *Queries) UpdateChatSessionSession(ctx context.Context, arg UpdateChatSessionSessionParams) error {
_, err := q.db.Exec(ctx, updateChatSessionSession,
arg.SessionID,
arg.WorkDir,
arg.RuntimeID,
arg.ID,
)
return err
}
const updateChatSessionTitle = `-- name: UpdateChatSessionTitle :one
UPDATE chat_session SET title = $2, updated_at = now()
WHERE id = $1
RETURNING id, workspace_id, agent_id, creator_id, title, session_id, work_dir, status, created_at, updated_at, unread_since, runtime_id
`
type UpdateChatSessionTitleParams struct {
ID pgtype.UUID `json:"id"`
Title string `json:"title"`
}
func (q *Queries) UpdateChatSessionTitle(ctx context.Context, arg UpdateChatSessionTitleParams) (ChatSession, error) {
row := q.db.QueryRow(ctx, updateChatSessionTitle, arg.ID, arg.Title)
var i ChatSession
err := row.Scan(
&i.ID,
&i.WorkspaceID,
&i.AgentID,
&i.CreatorID,
&i.Title,
&i.SessionID,
&i.WorkDir,
&i.Status,
&i.CreatedAt,
&i.UpdatedAt,
&i.UnreadSince,
&i.RuntimeID,
)
return i, err
}