Files
multica/server/internal/daemon/execenv/execenv.go
Bohan Jiang 2d9c153695 feat: quick-create issue (async agent + inbox completion) (#1786)
* feat(server): add quick-create issue async task path

Adds POST /api/issues/quick-create which validates the picked agent's
reachability up front (not archived, has runtime, runtime online) then
queues an issue-less agent task whose context JSONB carries the user's
natural-language prompt + requester + workspace. Daemon claim resolves
the workspace from the context, and the prompt builder switches to a
quick-create template instructing the agent to translate the prompt
into a single multica issue create call.

Task completion writes a success inbox item to the requester pointing at
the newly-created issue (located by querying the agent's most recent
issue in the workspace since task start, so we don't depend on agent
stdout shape). Failures write an action_required inbox item carrying the
original prompt + agent id so the frontend can offer "Edit as advanced
form" without losing input.

* feat(views): quick-create issue modal + inbox failure CTA

Adds a streamlined create-issue UI bound to the c shortcut: pick an
agent, type one line, submit. The modal closes immediately and the
agent translates the prompt into a multica issue create call in the
background. Shift+c keeps the legacy advanced form for users who want
every field. The "Advanced" button inside the new modal seeds the
shared issue-draft store with the prompt + picked agent so switching
mid-flow doesn't lose input.

Last-used agent persists per (user, workspace) via a workspace-aware
zustand store so frequent users skip the picker on every open.

Inbox renders quick_create_done items with a status pin to the new
issue and quick_create_failed items with an "Edit as advanced form"
CTA that re-seeds the legacy modal with the original prompt.

ApiError now carries the parsed JSON body so the modal can branch on
the structured agent_unavailable code without parsing the error
message.

* fix(quick-create): execenv injection, claim race, private-agent permission

Addresses GPT-Boy review on #1786:

1. execenv was rendering the assignment-task issue_context.md / runtime
   workflow even for quick-create, telling the agent to call
   `multica issue get/status/comment add` against an empty IssueID.
   Adds QuickCreatePrompt to TaskContextForEnv, plus a quick-create
   branch in renderIssueContext + the runtime_config workflow that
   instructs the agent to run a single `multica issue create` and
   exit, with explicit "do NOT call issue get/status/comment add"
   guards.

2. ClaimAgentTask serialized only on issue_id / chat_session_id, so
   concurrent quick-creates on the same agent (both NULL on those
   columns) ran in parallel — making the success-inbox lookup race
   over "most recent issue by this agent". Adds a third OR clause
   that treats "all four FKs NULL" as a serialization key for the
   same agent, so quick-create tasks on a given agent run one at a
   time.

3. QuickCreateIssue handler bypassed the private-agent ownership rule
   that validateAssigneePair enforces elsewhere — a user could POST a
   private agent_id they didn't own and trigger it. Now routes the
   picked agent through validateAssigneePair before the runtime
   liveness check.

4. Clarifies the quick-create-store namespacing comment to match the
   actual workspace-aware StateStorage convention used by the other
   issue stores (per-user is browser-profile-local).

* fix(quick-create): branch Output section + deterministic origin lookup

Addresses GPT-Boy's second-pass review on #1786:

1. The runtime_config.go Output section forced "Final results MUST be
   delivered via multica issue comment add" for every non-autopilot
   task — quick-create still got this conflicting instruction even
   though there's no issue to comment on. Switched the Output block
   to a three-way switch so quick-create gets a tailored "stdout is
   captured automatically; do NOT call comment add" branch matching
   the autopilot variant.

2. Completion lookup was "most recent issue created by this agent
   since task.started_at", which races against concurrent issue
   creates by the same agent (assignment task running alongside
   quick-create when max_concurrent_tasks > 1). Replaced with a
   deterministic origin link:

   - Migration 060 extends issue.origin_type CHECK to allow
     'quick_create'.
   - Daemon sets MULTICA_QUICK_CREATE_TASK_ID env var when running a
     quick-create task.
   - multica issue create CLI reads the env var and stamps the new
     issue with origin_type=quick_create + origin_id=<task_id>.
   - Server CreateIssue handler accepts (origin_type, origin_id)
     from trusted callers (only "quick_create" is allowed; the pair
     is rejected unless both fields are provided together).
   - notifyQuickCreateCompleted now calls GetIssueByOrigin keyed on
     (workspace_id, "quick_create", task.ID) — no more time-window
     racing against parallel agent activity.

The old GetRecentIssueByCreatorSince query is removed.
2026-04-29 14:05:26 +08:00

245 lines
8.5 KiB
Go

// Package execenv manages isolated per-task execution environments for the daemon.
// Each task gets its own directory with injected context files. Repositories are
// checked out on demand by the agent via `multica repo checkout`.
package execenv
import (
"encoding/json"
"fmt"
"log/slog"
"os"
"path/filepath"
"time"
)
// RepoContextForEnv describes a workspace repo available for checkout.
type RepoContextForEnv struct {
URL string // remote URL
Description string // human-readable description
}
// PrepareParams holds all inputs needed to set up an execution environment.
type PrepareParams struct {
WorkspacesRoot string // base path for all envs (e.g., ~/multica_workspaces)
WorkspaceID string // workspace UUID — tasks are grouped under this
TaskID string // task UUID — used for directory name
AgentName string // for git branch naming only
Provider string // agent provider (determines runtime config and skill injection paths)
CodexVersion string // detected Codex CLI version (only used when Provider == "codex")
Task TaskContextForEnv // context data for writing files
}
// TaskContextForEnv is the subset of task context used for writing context files.
type TaskContextForEnv struct {
IssueID string
TriggerCommentID string // comment that triggered this task (empty for on_assign)
AgentID string // unique ID of the dispatched agent
AgentName string
AgentInstructions string // agent identity/persona instructions, injected into CLAUDE.md
AgentSkills []SkillContextForEnv
Repos []RepoContextForEnv // workspace repos available for checkout
ChatSessionID string // non-empty for chat tasks
AutopilotRunID string // non-empty for autopilot run_only tasks
AutopilotID string
AutopilotTitle string
AutopilotDescription string
AutopilotSource string
AutopilotTriggerPayload string
QuickCreatePrompt string // non-empty for quick-create tasks
}
// SkillContextForEnv represents a skill to be written into the execution environment.
type SkillContextForEnv struct {
Name string
Content string
Files []SkillFileContextForEnv
}
// SkillFileContextForEnv represents a supporting file within a skill.
type SkillFileContextForEnv struct {
Path string
Content string
}
// Environment represents a prepared, isolated execution environment.
type Environment struct {
// RootDir is the top-level env directory ({workspacesRoot}/{task_id_short}/).
RootDir string
// WorkDir is the directory to pass as Cwd to the agent ({RootDir}/workdir/).
WorkDir string
// CodexHome is the path to the per-task CODEX_HOME directory (set only for codex provider).
CodexHome string
logger *slog.Logger // for cleanup logging
}
// Prepare creates an isolated execution environment for a task.
// The workdir starts empty (no repo checkouts). The agent checks out repos
// on demand via `multica repo checkout <url>`.
func Prepare(params PrepareParams, logger *slog.Logger) (*Environment, error) {
if params.WorkspacesRoot == "" {
return nil, fmt.Errorf("execenv: workspaces root is required")
}
if params.WorkspaceID == "" {
return nil, fmt.Errorf("execenv: workspace ID is required")
}
if params.TaskID == "" {
return nil, fmt.Errorf("execenv: task ID is required")
}
envRoot := filepath.Join(params.WorkspacesRoot, params.WorkspaceID, shortID(params.TaskID))
// Remove existing env if present (defensive — task IDs are unique).
if _, err := os.Stat(envRoot); err == nil {
if err := os.RemoveAll(envRoot); err != nil {
return nil, fmt.Errorf("execenv: remove existing env: %w", err)
}
}
// Create directory tree.
workDir := filepath.Join(envRoot, "workdir")
for _, dir := range []string{workDir, filepath.Join(envRoot, "output"), filepath.Join(envRoot, "logs")} {
if err := os.MkdirAll(dir, 0o755); err != nil {
return nil, fmt.Errorf("execenv: create directory %s: %w", dir, err)
}
}
env := &Environment{
RootDir: envRoot,
WorkDir: workDir,
logger: logger,
}
// Write context files into workdir (skills go to provider-native paths).
if err := writeContextFiles(workDir, params.Provider, params.Task); err != nil {
return nil, fmt.Errorf("execenv: write context files: %w", err)
}
// For Codex, set up a per-task CODEX_HOME seeded from ~/.codex/ with skills.
if params.Provider == "codex" {
codexHome := filepath.Join(envRoot, "codex-home")
if err := prepareCodexHomeWithOpts(codexHome, CodexHomeOptions{CodexVersion: params.CodexVersion}, logger); err != nil {
return nil, fmt.Errorf("execenv: prepare codex-home: %w", err)
}
if err := writeCodexWorkspaceSkills(codexHome, params.Task.AgentSkills); err != nil {
return nil, fmt.Errorf("execenv: write codex skills: %w", err)
}
env.CodexHome = codexHome
}
logger.Info("execenv: prepared env", "root", envRoot, "repos_available", len(params.Task.Repos))
return env, nil
}
// Reuse wraps an existing workdir into an Environment and refreshes context files.
// Returns nil if the workdir does not exist (caller should fall back to Prepare).
//
// codexVersion is the detected Codex CLI version, used (only when provider is
// "codex") to pick the right sandbox policy for the per-task config.toml.
// Pass an empty string when the version is unknown.
func Reuse(workDir, provider, codexVersion string, task TaskContextForEnv, logger *slog.Logger) *Environment {
if _, err := os.Stat(workDir); err != nil {
return nil
}
env := &Environment{
RootDir: filepath.Dir(workDir),
WorkDir: workDir,
logger: logger,
}
// Refresh context files (issue_context.md, skills).
if err := writeContextFiles(workDir, provider, task); err != nil {
logger.Warn("execenv: refresh context files failed", "error", err)
}
// Restore CodexHome for Codex provider — the per-task codex-home directory
// lives alongside the workdir. Re-run prepareCodexHomeWithOpts to ensure
// config (especially sandbox/network access) is up to date.
if provider == "codex" {
codexHome := filepath.Join(env.RootDir, "codex-home")
if err := prepareCodexHomeWithOpts(codexHome, CodexHomeOptions{CodexVersion: codexVersion}, logger); err != nil {
logger.Warn("execenv: refresh codex-home failed", "error", err)
} else {
env.CodexHome = codexHome
if err := writeCodexWorkspaceSkills(codexHome, task.AgentSkills); err != nil {
logger.Warn("execenv: refresh codex skills failed", "error", err)
}
}
}
logger.Info("execenv: reusing env", "workdir", workDir)
return env
}
func writeCodexWorkspaceSkills(codexHome string, skills []SkillContextForEnv) error {
if len(skills) == 0 {
return nil
}
return writeSkillFiles(filepath.Join(codexHome, "skills"), skills)
}
// GCMeta is persisted to .gc_meta.json inside the env root so the GC loop
// can determine which issue this directory belongs to.
type GCMeta struct {
IssueID string `json:"issue_id"`
WorkspaceID string `json:"workspace_id"`
CompletedAt time.Time `json:"completed_at"`
}
const gcMetaFile = ".gc_meta.json"
// WriteGCMeta writes GC metadata into the given directory.
func WriteGCMeta(envRoot, issueID, workspaceID string) error {
if envRoot == "" {
return nil
}
meta := GCMeta{
IssueID: issueID,
WorkspaceID: workspaceID,
CompletedAt: time.Now().UTC(),
}
data, err := json.Marshal(meta)
if err != nil {
return fmt.Errorf("marshal gc meta: %w", err)
}
return os.WriteFile(filepath.Join(envRoot, gcMetaFile), data, 0o644)
}
// ReadGCMeta reads GC metadata from a task directory root.
func ReadGCMeta(envRoot string) (*GCMeta, error) {
data, err := os.ReadFile(filepath.Join(envRoot, gcMetaFile))
if err != nil {
return nil, err
}
var meta GCMeta
if err := json.Unmarshal(data, &meta); err != nil {
return nil, err
}
return &meta, nil
}
// Cleanup tears down the execution environment.
// If removeAll is true, the entire env root is deleted. Otherwise, workdir is
// removed but output/ and logs/ are preserved for debugging.
func (env *Environment) Cleanup(removeAll bool) error {
if env == nil {
return nil
}
if removeAll {
if err := os.RemoveAll(env.RootDir); err != nil {
env.logger.Warn("execenv: cleanup removeAll failed", "error", err)
return err
}
return nil
}
// Partial cleanup: remove workdir, keep output/ and logs/.
if err := os.RemoveAll(env.WorkDir); err != nil {
env.logger.Warn("execenv: cleanup workdir failed", "error", err)
return err
}
return nil
}