agent-orchestrator/packages/core
Harsh Batheja 4edf19df32
feat: lifecycle manager, backlog auto-claim, task decomposition, and verification gate (#365)
* feat: wire lifecycle manager, backlog auto-claim, and dashboard overhaul

- Start LifecycleManager in dashboard server (30s polling) so reactions
  actually fire: CI failures, review comments, merge conflicts are now
  auto-forwarded to agents
- Add backlog auto-claim poller (60s interval) that watches for issues
  labeled `agent:backlog` and auto-spawns agent sessions up to max
  concurrent limit (5)
- Add tabbed dashboard UI: Board (kanban), Backlog (issue queue), PRs
- Add issue creation form in dashboard — creates GitHub issues with
  `agent:backlog` label for immediate agent pickup
- Add API routes: /api/backlog, /api/issues, /api/setup-labels
- Pass notifier config through plugin registry (slack webhook fix)

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>

* feat: add task decomposition layer (classify → decompose → recurse)

Adds LLM-driven recursive task decomposition upstream of session spawning.
Complex issues are broken into atomic subtasks before agents start working.
Each agent receives lineage context (where it fits in the hierarchy) and
sibling awareness (what parallel agents are doing).

Core changes:
- New decomposer module (core/src/decomposer.ts) — classify, decompose,
  plan tree, lineage formatting, using Claude API
- Extended SessionSpawnConfig with lineage/siblings fields
- Prompt builder Layer 4: decomposition context (hierarchy + siblings)
- ProjectConfig.decomposer config section with Zod validation
- Tracker plugin: added removeLabels support for label management

CLI:
- `ao spawn <project> <issue> --decompose` flag
- `--max-depth <n>` option for decomposition depth
- Spawns multiple sessions with lineage context for composite tasks

Backlog poller:
- Respects project.decomposer.enabled for auto-decomposition
- Posts plan as issue comment when requireApproval=true
- Auto-spawns subtasks with lineage when requireApproval=false

Config example:
  projects:
    my-app:
      decomposer:
        enabled: true
        maxDepth: 3
        requireApproval: true

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>

* feat: add verification gate — issues stay open until human confirms fix

PR merge no longer auto-closes GitHub issues. Instead:

1. On PR merge: issue labeled `merged-unverified`, stays open
2. Human checks staging, then runs `ao verify <issue>` to close
3. Or `ao verify <issue> --fail` to flag verification failure

Changes:
- services.ts: labelIssuesForVerification() replaces closeIssuesForMergedSessions()
- New CLI command: `ao verify` (verify/fail/list modes)
- New API route: GET/POST /api/verify
- Dashboard: new Verify tab with one-click verify/fail buttons
- ao status: shows count of issues awaiting verification
- Idle session detection + auto-nudge reaction
- Use TERMINAL_STATUSES in batch-spawn dedup check

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>

* fix: rename decomposerConfig to avoid variable shadowing

Addresses Bugbot medium severity issue where inner  variable
shadowed outer  from getServices().

* fix: update pnpm-lock.yaml for new @anthropic-ai/sdk dependency

* fix: resolve remaining merge conflicts and syntax errors

- Remove leftover conflict markers in types.ts
- Remove orphaned code in services.ts
- Fix semicolon to comma in config.ts
- Remove unused import in verify.ts

* fix: address final Bugbot issues

- requireApproval path now exits early with continue to prevent
  fall-through to in-progress label and session spawned comment
- remove packages/core/package-lock.json (pnpm workspace should only
  use root pnpm-lock.yaml)

* fix: idle sessions now transition back to working

When agent resumes activity after being idle, the status correctly
transitions to 'working' instead of remaining stuck in 'idle' state.

* fix(backlog): remove agent:backlog label when claiming issues

When claiming issues from the backlog, the poller now removes the
agent:backlog label in addition to adding agent:in-progress. This
prevents duplicate work if all spawned sessions reach terminal status
and the poller rediscovers the issue.

* fix(test): use Set for TERMINAL_STATUSES mock

The mock for TERMINAL_STATUSES was an array, but the real export is a
ReadonlySet. Changed to use a Set so tests with non-empty sessions won't
crash when calling .has().

* fix(web): resolve backlog/dashboard regressions after branch sync

* fix(web): align dashboard events hook and SSE test mocks

* fix(notifier-openclaw): apply exponential delay from retry index

* fix(integration-tests): align openclaw retry delay expectation

* fix(web): keep dashboard header stats in sync

* fix(openclaw): keep first retry at base delay

---------

Co-authored-by: Agent <agent@example.com>
Co-authored-by: Claude Opus 4.6 <noreply@anthropic.com>
Co-authored-by: Harsh <harsh@Ubuntu-24-Forrest.lan>
Co-authored-by: Harsh <harsh@example.com>
2026-03-10 12:31:25 +05:30
..
__tests__ fix: dashboard config discovery + CLI service layer refactoring (#70) 2026-02-18 17:08:48 +05:30
src feat: lifecycle manager, backlog auto-claim, task decomposition, and verification gate (#365) 2026-03-10 12:31:25 +05:30
README.md docs: update port references to reflect configurability (#122) 2026-02-19 07:37:00 +05:30
package.json feat: lifecycle manager, backlog auto-claim, task decomposition, and verification gate (#365) 2026-03-10 12:31:25 +05:30
tsconfig.build.json feat: implement SCM and tracker plugins (github, linear) (#4) 2026-02-14 15:45:51 +05:30
tsconfig.json feat: implement SCM and tracker plugins (github, linear) (#4) 2026-02-14 15:45:51 +05:30
vitest.config.ts feat: seamless onboarding with enhanced documentation (#66) 2026-02-16 22:22:13 +05:30

README.md

@agent-orchestrator/core

Core services, types, and configuration for the Agent Orchestrator system.

What's Here

  • src/types.ts — All TypeScript interfaces (Runtime, Agent, Workspace, Tracker, SCM, Notifier, Terminal, Session, events)
  • src/services/ — Core services (SessionManager, LifecycleManager, PluginRegistry)
  • src/config.ts — Configuration loading + Zod schemas
  • src/utils/ — Shared utilities (shell escaping, metadata parsing, etc.)

Key Files

src/types.ts — The Source of Truth

Every interface the system uses is defined here. If you're working on any part of the orchestrator, start by reading this file.

Main interfaces:

  • Runtime — where sessions execute (tmux, docker, k8s)
  • Agent — AI coding tool adapter (claude-code, codex, aider)
  • Workspace — code isolation (worktree, clone)
  • Tracker — issue tracking (GitHub Issues, Linear)
  • SCM — PR/CI/reviews (GitHub, GitLab)
  • Notifier — push notifications (desktop, Slack, webhook)
  • Terminal — human interaction UI (iTerm2, web)
  • Session — running agent instance (state, metadata, handles)
  • OrchestratorEvent — events emitted by lifecycle manager
  • PluginModule — what every plugin exports

src/services/session-manager.ts — Session CRUD

Handles session lifecycle:

  • spawn(config) — create new session (workspace + runtime + agent)
  • list(projectId?) — list all sessions
  • get(sessionId) — get session details
  • kill(sessionId) — terminate session
  • cleanup(projectId?) — kill completed/merged sessions
  • send(sessionId, message) — send message to agent

Data flow in spawn():

  1. Load project config
  2. Validate issue exists via Tracker.getIssue() (if issueId provided, fails-fast if not found)
  3. Reserve session ID
  4. Determine branch name
  5. Create workspace via Workspace.create()
  6. Generate prompt via Tracker.generatePrompt()
  7. Build launch command via Agent.getLaunchCommand()
  8. Create runtime session via Runtime.create()
  9. Run Agent.postLaunchSetup() (optional)
  10. Write metadata file
  11. Return Session object

Note: If issue validation fails (not found, auth error), spawn fails before creating any resources (no workspace, no runtime, no session ID). This prevents spawning sessions with broken issue references.

src/services/lifecycle-manager.ts — State Machine + Reactions

Polls sessions, detects state changes, triggers reactions:

State machine:

spawning → working → pr_open → ci_failed/review_pending/approved → mergeable → merged

Reactions:

  • ci-failed → send fix prompt to agent
  • changes-requested → send review comments to agent
  • approved-and-green → notify human (or auto-merge)
  • agent-stuck → notify human

Polling loop:

  1. For each session: check agent activity state (Agent.getActivityState())
  2. If PR exists: check CI status (SCM.getCISummary()), review state (SCM.getReviewDecision())
  3. Update session status based on state
  4. Trigger reactions if state changed
  5. Emit events

src/services/plugin-registry.ts — Plugin Discovery + Loading

Loads plugins and provides access to them:

  • register(plugin, config?) — register a plugin instance
  • get<T>(slot, name) — get plugin by slot + name
  • list(slot) — list all plugins for a slot
  • loadBuiltins(config?) — load built-in plugins (runtime-tmux, agent-claude-code, etc.)
  • loadFromConfig(config) — load plugins from config (npm packages, local paths)

Built-in plugins (loaded by default):

  • runtime-tmux, runtime-process
  • agent-claude-code, agent-codex, agent-aider, agent-opencode
  • workspace-worktree, workspace-clone
  • tracker-github, tracker-linear
  • scm-github
  • notifier-desktop, notifier-slack, notifier-composio, notifier-webhook
  • terminal-iterm2, terminal-web

src/config.ts — Configuration Loading

Loads and validates agent-orchestrator.yaml:

Main config sections:

  • dataDir — where session metadata lives (~/.agent-orchestrator)
  • worktreeDir — where workspaces are created (~/.worktrees)
  • port — web dashboard port (default 3000, set different values for multiple projects)
  • terminalPort — terminal WebSocket port (auto-detected if not set)
  • directTerminalPort — direct terminal WebSocket port (auto-detected if not set)
  • defaults — default plugins (runtime, agent, workspace, notifiers)
  • projects — per-project config (repo, path, branch, symlinks, reactions, agentRules)
  • notifiers — notification channel config (Slack webhooks, etc.)
  • notificationRouting — which notifiers get which priority events
  • reactions — auto-response config (ci-failed, changes-requested, approved-and-green, etc.)

Zod schemas validate all config at load time.

Common Tasks

Adding a Field to Session

  1. Edit src/types.tsSession interface
  2. Edit src/services/session-manager.ts → initialize field in spawn()
  3. Rebuild: pnpm --filter @agent-orchestrator/core build

Adding an Event Type

  1. Edit src/types.tsEventType union
  2. Emit the event: eventEmitter.emit() in relevant service
  3. Add reaction handler (optional): src/services/lifecycle-manager.ts

Adding a Reaction

  1. Edit src/services/lifecycle-manager.ts → add handler function
  2. Wire it up in the polling loop
  3. Add config schema in src/config.ts if new reaction type

Testing

# Run all core tests
pnpm --filter @agent-orchestrator/core test

# Run in watch mode
pnpm --filter @agent-orchestrator/core test -- --watch

# Run specific test
pnpm --filter @agent-orchestrator/core test -- session-manager.test.ts

Tests are in src/__tests__/:

  • session-manager.test.ts — session CRUD, spawn, cleanup
  • lifecycle-manager.test.ts — state machine, reactions
  • plugin-registry.test.ts — plugin loading, resolution
  • tmux.test.ts — tmux utility functions (not a plugin test)
  • prompt-builder.test.ts — prompt generation utilities

Building

# Build core
pnpm --filter @agent-orchestrator/core build

# Typecheck
pnpm --filter @agent-orchestrator/core typecheck

This package is a dependency of all other packages. Build it first if working on the codebase.

Architecture Notes

Why flat metadata files?

  • Debuggability: cat ~/.agent-orchestrator/my-app-3 shows full state
  • No database dependency (survives crashes, easy to inspect)
  • Backwards-compatible with bash script orchestrator

Why polling instead of webhooks?

  • Simpler (no webhook setup, no ngrok for local dev)
  • Works offline (CI/review state is fetched, not pushed)
  • Survives orchestrator restarts (no missed events)

Why plugin slots?

  • Swappability: use tmux locally, docker in CI, k8s in prod
  • Testability: mock plugins for tests
  • Extensibility: users can add custom plugins (e.g., company-specific notifier)