Files
multica/server/pkg/db/generated/chat.sql.go
Naiyuan Qing f745a3bbbe feat(agent): presence v3 + execution log + trigger summary (#1823)
* refactor(views): migrate agent/runtime/skill lists to TanStack DataTable

Replace the per-page CSS Grid + minmax(min, fr) + sticky-first-col + truncate
implementation with a TanStack Table backend rendered through a Dice UI-style
DataTable shell. Column widths are now px-based via column.size, so cells
no longer shrink or auto-truncate as the viewport narrows; when the sum of
columns exceeds the viewport, the container scrolls horizontally instead.

- Add @tanstack/react-table to the catalog (8.21.3) and wire it into
  packages/ui (dep) and packages/views (peerDep).
- packages/ui: new DataTable + DataTableColumnHeader + lib/data-table.ts
  (getColumnPinningStyle), adapted from Dice UI's registry. The shell
  renders <table> directly (skipping shadcn's <Table> wrapper) so its own
  outer overflow controls both axes — no nested overflow conflicts.
- packages/views: each list now declares ColumnDef[] with explicit
  cell renderers. Row click navigates to detail via onRowClick (instead of
  wrapping <tr> in <a>, which is invalid HTML); kebab dropdowns
  stopPropagation so they don't trigger the row navigation.
- Drop the previous AGENT_LIST_GRID / GRID_WITH_OWNER / ROW_GRID
  templates and the sticky-first-col / subgrid mechanics that came with
  them. agent-list-item.tsx is removed; runtime-list.tsx and
  skills-page.tsx are trimmed to thin wrappers.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>

* feat(agent): cap description at 255 chars (db + api + ui)

Symmetric enforcement across DB, server, and UI:

- Migration 060: pre-flight truncate of any oversize rows, then ADD
  CONSTRAINT NOT VALID + VALIDATE CONSTRAINT so the new check doesn't
  block writes during validation.
- Server handler validates utf8.RuneCountInString on Create/Update and
  rejects over-limit input with 400.
- Front-end gets AGENT_DESCRIPTION_MAX_LENGTH in core/agents/constants
  (single source of truth shared by the create dialog + edit modal +
  test suite) and a CharCounter component that warns at 90% and errors
  past the cap.
- Description editor moves from a 288px popover to a roomy modal.
  Editor body is mounted only while the dialog is open, so the local
  draft state is locked in at mount time and never reset by an external
  WS update — the React-recommended replacement for the
  useEffect(reset, [value]) anti-pattern.

Counted in code points everywhere (rune count / spread length /
char_length) so multibyte input agrees across all three layers.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>

* refactor(views): data-table polish across runtime + skill lists

Builds on the DataTable migration in 2be0f287:

- Add ColumnMeta.grow flag — declared via TanStack module augmentation
  in ui/lib/data-table.ts. Columns marked meta.grow skip their inline
  width so fixed table-layout assigns them the leftover container space
  (no spacer column). The Title-grows / others-fixed pattern from
  Linear / GitHub PR rows.
- Authoritative table min-width = sum of column.size, applied to the
  <table> itself (fixed-layout ignores cell-level min-width per spec,
  so the floor has to live on the table).
- Header tightens to h-8 + uppercase + tracking-wider; pinned cells
  switch to opaque bg + group-hover so they cover content scrolling
  beneath them and follow row hover state.
- Toolbar slot removed from DataTable (callers wrap the toolbar
  themselves now — keeps DataTable single-purpose).

Also: hover-card popup stops contextmenu / auxclick / dblclick from
bubbling out (in addition to click). Stops the popup from triggering
ancestor handlers (e.g. issue list rows) on right-click / middle-click
without breaking Base UI's outside-click dismiss, which listens to
pointerdown — pointerdown is deliberately NOT stopped.

Runtime + skill list pages updated to use the new sizing model.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>

* refactor(agent): drop LastTaskState, introduce 3-state Workload

Continues the presence-model rework started in #1794 / #1798.

The previous LastTaskState union (running / completed / failed /
cancelled / idle) carried historical outcome at the list level — a
runtime-healthy agent whose last task failed showed a sticky red dot
indistinguishable from a daemon-dead agent.

New model: presence is two orthogonal "right-now" dimensions:

  AgentAvailability — runtime reachability only (online / unstable /
                      offline). Drives the dot colour everywhere.
  Workload          — current load (working / queued / idle). Three
                      states, never historical. Failure / completion /
                      cancellation are surfaced via Recent Work + Inbox,
                      not list-level state.

`queued` (= nothing running, ≥1 queued) is an honest "stuck on offline
runtime" signal. To avoid amber flashes during the brief enqueue→claim
race on healthy runtimes, the queued chip composes with availability:
muted on online, warning amber otherwise.

Activity tab cleanup that follows from the new model:
  - failureReasonLabel relocated from agents/presence.ts to
    tabs/task-failure.ts (presence no longer owns historical state).
  - Recent Work paginates (5 initial, +20 per "Show more"); chat-session
    tasks are filtered out of every Agent-scoped surface to keep
    "team work" separate from private chat.
  - Agents page drops the lastTaskFilter chip group; users find broken
    agents via Inbox / Recent Work, not a list-level filter.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>

* feat(task): trigger summary snapshot + task:queued lifecycle event

Two task-lifecycle improvements that ship together because they share
the same enqueue/retry hot paths and changes interleave inside task.go:

1. trigger_summary snapshot (migration 061)

   New nullable column on agent_task_queue. Comment-triggered tasks
   snapshot the comment content; autopilot tasks snapshot the run title.
   Truncated to 200 runes via strings.Builder so multibyte input counts
   correctly without O(N²) concatenation. Snapshot survives source
   edits/deletes — every task row self-describes across surfaces (issue
   detail Execution log, agent activity tooltip, inbox) without joining
   back to the originating row.

   Retry rows inherit the parent's snapshot (CreateRetryTask SELECT) so
   the description stays meaningful across attempts. The UI is
   responsible for stacking "Retry #N" context on top.

2. task:queued WS event

   New protocol event covering the ∅ → queued transition. Front-end
   types/events.ts registers it; use-realtime-sync's task: prefix path
   already invalidates task caches via onAny, so old clients without
   this exact-match subscription still refresh correctly. Specific
   subscribers (sticky banner) get sub-second updates instead of
   waiting for daemon claim.

   Retry path now broadcasts task:queued (not task:dispatch) — same
   status transition shape as enqueue, so all "new task created" paths
   agree on one event type.

   Ordering: broadcastTaskEvent runs *before* notifyTaskAvailable so
   the queued event is published into the WS bus before the daemon is
   poked. Without this, a fast daemon could claim and emit task:dispatch
   over the wire before the in-process queued broadcast fan-out reached
   clients — race window is tiny but unsafe-by-construction.

   Per-agent task list (agentTasksKeys.all) and per-issue task list
   (["issues","tasks"]) added to the task: invalidation set so Activity
   tab Recent Work and the Execution log section stay fresh.

Type contracts: AgentTask gains parent_task_id / attempt /
trigger_comment_id (already returned by the API, just missing from TS)
plus the new trigger_summary field.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>

* feat(issue): ExecutionLogSection — unified active+past runs panel

Replaces two pieces:
  - the click-to-expand timeline that lived inside AgentLiveCard
  - the standalone TaskRunHistory below the main content

with a single right-panel section that lists every agent run for the
issue. Active runs sit at the top (always visible when present); past
runs collapse behind a "Show past runs (N)" toggle, sorted failed →
cancelled → completed within group.

Active rows show the trigger summary, status + relative time, and
Cancel / Transcript actions on hover (gradient backdrop fades the
status text rather than hard-clipping). Past rows show the same
shape minus Cancel.

Retry tasks prepend "Retry #N · " to the inherited summary so they're
distinguishable from their parent (which would otherwise share the
exact same trigger text).

Cache key registered as issueKeys.tasks(issueId); the global
useRealtimeSync task: prefix path already invalidates ["issues","tasks"]
on every task lifecycle event, so the section stays fresh without
local WS subscriptions.

AgentLiveCard slims down to a header-only "agent is working" sticky
banner — keeps the at-a-glance "is anyone working on this right now"
signal and the Stop / Transcript actions, drops the inline timeline
that ExecutionLogSection now owns. Subscribes to both task:queued and
task:dispatch so retries (which only emit queued) land in the banner
without waiting for daemon claim.

issue-detail mounts ExecutionLogSection in the right panel and removes
the now-defunct TaskRunHistory call site.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>

---------

Co-authored-by: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
2026-04-29 14:50:58 +08:00

551 lines
16 KiB
Go

// Code generated by sqlc. DO NOT EDIT.
// versions:
// sqlc v1.30.0
// source: chat.sql
package db
import (
"context"
"github.com/jackc/pgx/v5/pgtype"
)
const archiveChatSession = `-- name: ArchiveChatSession :exec
UPDATE chat_session SET status = 'archived', updated_at = now()
WHERE id = $1
`
func (q *Queries) ArchiveChatSession(ctx context.Context, id pgtype.UUID) error {
_, err := q.db.Exec(ctx, archiveChatSession, id)
return err
}
const createChatMessage = `-- name: CreateChatMessage :one
INSERT INTO chat_message (chat_session_id, role, content, task_id)
VALUES ($1, $2, $3, $4)
RETURNING id, chat_session_id, role, content, task_id, created_at
`
type CreateChatMessageParams struct {
ChatSessionID pgtype.UUID `json:"chat_session_id"`
Role string `json:"role"`
Content string `json:"content"`
TaskID pgtype.UUID `json:"task_id"`
}
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,
)
var i ChatMessage
err := row.Scan(
&i.ID,
&i.ChatSessionID,
&i.Role,
&i.Content,
&i.TaskID,
&i.CreatedAt,
)
return i, err
}
const createChatSession = `-- name: CreateChatSession :one
INSERT INTO chat_session (workspace_id, agent_id, creator_id, title)
VALUES ($1, $2, $3, $4)
RETURNING id, workspace_id, agent_id, creator_id, title, session_id, work_dir, status, created_at, updated_at, unread_since
`
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,
)
return i, err
}
const createChatTask = `-- name: CreateChatTask :one
INSERT INTO agent_task_queue (agent_id, runtime_id, issue_id, status, priority, chat_session_id)
VALUES ($1, $2, NULL, 'queued', $3, $4)
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, last_heartbeat_at, trigger_summary
`
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"`
}
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,
)
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.LastHeartbeatAt,
&i.TriggerSummary,
)
return i, err
}
const getChatMessage = `-- name: GetChatMessage :one
SELECT id, chat_session_id, role, content, task_id, created_at 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,
)
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 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,
)
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 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,
)
return i, err
}
const getLastChatTaskSession = `-- name: GetLastChatTaskSession :one
SELECT session_id, work_dir FROM agent_task_queue
WHERE chat_session_id = $1
AND status IN ('completed', 'failed')
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"`
}
// 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.
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)
return i, err
}
const getPendingChatTask = `-- name: GetPendingChatTask :one
SELECT id, status FROM agent_task_queue
WHERE chat_session_id = $1 AND status IN ('queued', 'dispatched', 'running')
ORDER BY created_at DESC
LIMIT 1
`
type GetPendingChatTaskRow struct {
ID pgtype.UUID `json:"id"`
Status string `json:"status"`
}
// Returns the most recent in-flight task for a chat session, if any.
// Used by the frontend to recover pending state after refresh / reopen.
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)
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.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"`
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.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 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,
); 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.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"`
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.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')
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 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),
updated_at = now()
WHERE id = $3
`
type UpdateChatSessionSessionParams struct {
SessionID pgtype.Text `json:"session_id"`
WorkDir pgtype.Text `json:"work_dir"`
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.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
`
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,
)
return i, err
}