# Sub-Agents Sub-agents are the user-facing vocabulary for nested worker assignments: a parent launches a focused role (`explore`, `review`, `implementer`, `verifier`, ...) through `agent` and gets back an `agent_id` plus transcript handle while the worker runs. Architecturally, sub-agents should not be a second execution substrate. The durable primitive is the fleet-backed worker run described in [`AGENT_RUNTIME.md`](AGENT_RUNTIME.md): retries, terminal status, receipts, artifact refs, inspection, and restart behavior belong there. The model-facing launcher is the single `agent` tool and detached work should converge on the same lifecycle as Agent Fleet. The current `agent` implementation delegates to the durable sub-agent runtime while that cutover completes. It can still be useful for short in-session delegation. Transient provider header/stream/time-out failures are retried with backoff inside the child runtime before the worker is marked interrupted; if the retry budget is exhausted, CodeWhale preserves a checkpoint and returns a continuation handle instead of leaving the parent to infer what happened. For work that must survive process restarts, sleep, or remote execution, prefer Fleet or a Workflow-backed fleet run. Sub-agents inherit the parent's tool registry by default, but child agents are leaf workers: they do not receive `agent` or nested lifecycle tools. `agent` launches detached background work: cancelling the parent turn stops the parent wait path, but it does not kill already-opened child runs. This doc covers the role taxonomy and current compatibility controls. The active orchestration surface is `agent`; see `crates/tui/src/prompts/constitution.md` "Sub-Agent Strategy" and the in-line tool description. ## Role taxonomy The `type` field on `agent` selects a system-prompt posture for the child (`agent_type` is accepted as a compatibility alias). Each role is a distinct stance toward the work — not just a different label. ## Maintainer posture Sub-agents help CodeWhale move faster, but the parent agent still owns the maintainer decision. Use children to gather evidence, review patches, and run verification while keeping the community posture in [`AGENT_ETHOS.md`](AGENT_ETHOS.md): issues are open intake, PR gates are review-load controls, and harvested work needs clear contributor credit. When a child reviews community work, the parent should still inspect the PR diff, linked issues, tests, and CI before merging, harvesting, closing, or deferring it. A sub-agent's result is a working set, not a substitute for stewardship. | Role | Stance | Writes? | Shell posture | Typical use | |---------------|----------------------------------------|---------|---------------|----------------------------------------------| | `general` | flexible; do whatever the parent says | yes | yes | the default; multi-step tasks | | `explore` | read-only; map the relevant code fast | no | read-only | "find every call site of `Foo`" | | `plan` | analyse and produce a strategy | minimal | minimal | "design the migration; don't execute" | | `review` | read-and-grade with severity scores | no | read-only | "audit this PR for bugs" | | `implementer` | land a specific change with min edit | yes | yes | "rewrite `bar.rs::Foo::bar` to do X" | | `verifier` | run tests / validation, report outcome | no | test-focused | "run cargo test --workspace, report" | | `custom` | explicit narrow tool allowlist | depends | depends | locked-down dispatch with hand-picked tools | Each role's full system prompt lives in `crates/tui/src/tools/subagent/mod.rs` (search for `*_AGENT_PROMPT`). The prompt prefix loads automatically when the child agent boots; the parent's assignment prompt becomes the first turn's user message. ## Context forking `agent` starts fresh by default: the child gets its role prompt plus the task you pass. Use `fork_context: true` when the child should continue from the parent's current request prefix instead. In fork mode the runtime keeps the parent prefill/prompt prefix byte-identical where available, appends a structured state snapshot, then adds the sub-agent role instructions and task at the tail. That preserves DeepSeek prefix-cache reuse while giving the child the context needed for continuation, review, summarization, or compaction work. Use fresh sessions for independent exploration. Use forked sessions when the task depends on decisions, files, todos, or plan state already in the parent transcript. Forked state renders concrete Work progress through the canonical `checklist_*` surface. The durable task/Fleet ledger owns lifecycle state; checklist entries are the model-visible progress projection. Use `update_plan` only for strategy metadata that helps a parent or later worker understand the approach. ## Worktree isolation For parallel edit lanes, launch the child with `worktree: true`. CodeWhale creates a fresh git worktree and branch for that child, runs the child from the isolated checkout, and reports the resulting workspace/branch in the returned session projection and worker record. By default the branch is `codex/agent--` and the checkout lives beside the parent repo under `.codewhale-worktrees/`, so the parent checkout stays clean. Optional fields: - `worktree_branch`: exact branch to create. - `worktree_base`: git ref to branch from; defaults to `HEAD`. - `worktree_path`: exact checkout path. Relative paths stay under the default sibling `.codewhale-worktrees/` root. Do not combine `cwd` with `worktree`; `cwd` remains the manual escape hatch for an already-created directory inside the parent workspace. ## Delegation briefs The parent should pass a compact brief instead of a loose paragraph. The current model-facing `agent` tool still accepts a single `prompt` string, so put these fields in that string: ``` QUESTION: SCOPE: ALREADY_KNOWN: EFFORT: quick | medium | thorough STOP_CONDITION: OUTPUT: VERDICT, EVIDENCE, GAPS, NEXT ``` `explore` briefs default to quick, read-only investigation. About 3-5 tool calls is enough for quick exploration: orient, search, read the decisive lines, and return. Do not repeat `ALREADY_KNOWN` work unless evidence contradicts it. Review and verifier briefs can spend more calls, but should stop after decisive evidence. Implementer and repair-style briefs should use checkpoints before scope expansion or after repeated failures rather than a tiny call cap. Good delegation prompt examples: ```text QUESTION: Does PR #3124 introduce release-risk behavior around provider routing? SCOPE: PR #3124 diff, linked issue, provider routing tests, docs/PROVIDERS.md. ALREADY_KNOWN: Branch is hunter/0.8.62-glm-subagents; workspace version stays 0.8.61. EFFORT: medium STOP_CONDITION: Return once you have either one BLOCKER/MAJOR issue or enough evidence for no MAJOR+ issues. OUTPUT: VERDICT, EVIDENCE with file:line refs or PR refs, GAPS, NEXT. ``` ```text QUESTION: Where is the child-agent prompt assembled? SCOPE: crates/tui/src/prompts*, crates/tui/src/tools/subagent/*. ALREADY_KNOWN: The model-facing launcher is only `agent`; do not look for removed lifecycle tools. EFFORT: quick STOP_CONDITION: Stop after identifying the prompt source files and the function that wraps assignment text. OUTPUT: VERDICT, EVIDENCE, GAPS, NEXT. ``` ```text QUESTION: Is the focused prompt/subagent test filter valid, and what fails if not? SCOPE: cargo test -p codewhale-tui --bin codewhale-tui --locked prompt; subagent filter if needed. ALREADY_KNOWN: Do not fix failures; capture exact command, exit code, and first relevant assertion. EFFORT: medium STOP_CONDITION: Stop after one clean PASS or one reproducible failing assertion with command evidence. OUTPUT: VERDICT, EVIDENCE, GAPS, NEXT. ``` ### When to pick which role - **`general`** — when the task is "do this whole thing", not "go look", "design", or "verify". This is the right default; reach for a more specific role only when the posture matters. - **`explore`** — when the parent needs evidence before deciding what to do next. Explorers are cheap and fast; open 2–3 in parallel for independent regions. They should orient first: confirm the project root, read relevant `AGENTS.md`/`README.md` guidance in unfamiliar trees, search only the likely scope, and return `path:line-range` evidence instead of a narrative tour. The role name to use is `explore` or `explorer`. - **`plan`** — when the parent has an objective but no executable decomposition. Planners write artifacts (`update_plan` rows, `checklist_write` entries) but don't carry them out. - **`review`** — when there's already a change and the parent wants it graded. Reviewers don't patch — they describe the fix in the finding so the parent can dispatch an Implementer if the verdict is "fix it". - **`implementer`** — when the change is already specified and just needs to land. Implementers stay tightly scoped: minimum edit, no drive-by refactoring, run a quick verification before handing back. - **`verifier`** — when the parent needs an authoritative pass/fail on the test suite or other validation. Verifiers don't fix failures; they capture the failing assertion + stack and put fix candidates under RISKS. - **`custom`** — only when the parent needs to constrain the tool set explicitly. Pass the allowlist via the `allowed_tools` field on legacy/internal sub-agent records; the model-facing `agent` tool keeps the public schema intentionally small. ### Aliases The model can spell each role multiple ways: | Canonical | Aliases | |---------------|------------------------------------------------------------------| | `general` | `worker`, `default`, `general-purpose` | | `explore` | `explorer`, `exploration` | | `plan` | `planning`, `planner`, `awaiter` | | `review` | `reviewer`, `code-review`, `code_review` | | `implementer` | `implement`, `implementation`, `builder` | | `verifier` | `verify`, `verification`, `validator`, `tester` | | `custom` | (none; explicit `allowed_tools` array required) | All matching is case-insensitive. Unknown values produce a typed error listing the accepted set, so the model can self-correct on the next turn. ## Concurrency cap Up to **64** sub-agents run concurrently by default (`DEFAULT_MAX_SUBAGENTS`), configurable via `[subagents].max_concurrent` in `~/.codewhale/config.toml` up to the hard ceiling of **128** (`MAX_SUBAGENTS`). The session admits a bounded queue of up to **200** running plus queued sub-agents by default, so a turn can request broad fan-out and let the manager drain it without creating an unbounded population. By default every admitted child may start immediately — there is no artificial throttle. If you want gentler fan-out, lower `[subagents].launch_concurrency` (how many direct children start at once); children beyond that limit **queue** for a launch slot rather than bursting. `launch_concurrency` defaults to the resolved `max_subagents` cap. (The pre-v0.8.61 `interactive_max_launch` key is still accepted as a deprecated alias; the new key wins when both are set.) High-fanout Workflows can tune that bounded population with `[subagents] max_admitted` (aliases: `max_total`, `admission_limit`). That total ceiling counts both **running** and **queued** agents, while `launch_concurrency` keeps instantaneous execution bounded. Completed / failed / cancelled records persist for inspection but don't occupy an admission slot. Agents that lost their `task_handle` (e.g. across a process restart) also don't count against the cap. Provider profiles let one config stay aggressive for direct API routes while keeping subscription or aggregator routes gentle. Every key under `[subagents.providers.]` inherits from `[subagents]` when omitted. Provider keys accept canonical names such as `deepseek`, `zai`, `openrouter`, and aliases such as `glm` for Z.ai: ```toml [subagents] # Global fallback for providers without a profile. max_concurrent = 20 launch_concurrency = 20 max_admitted = 200 max_depth = 6 token_budget = 100000 [subagents.providers.deepseek] # Direct API key with room to fan out. max_concurrent = 20 launch_concurrency = 20 max_admitted = 200 [subagents.providers.glm] # Z.ai / GLM subscription-style route: keep pressure tight. max_concurrent = 4 launch_concurrency = 3 max_admitted = 12 max_depth = 2 api_timeout_secs = 180 heartbeat_timeout_secs = 240 [subagents.providers.openrouter] max_concurrent = 5 launch_concurrency = 3 max_admitted = 20 [subagents.providers.anthropic] max_concurrent = 3 launch_concurrency = 2 max_admitted = 12 ``` Use `/config subagents status` to see both the global values and the active provider's resolved fanout, depth, and timeout profile. ## Token budget governor Set `[subagents].token_budget` to give each root `agent` run an aggregate token ceiling shared by that child and all of its descendants. A child can also start a new scoped budget with the model-facing `agent` tool's `token_budget` field (the `max_tokens` alias is accepted for Workflow-shaped callers). When no budget is configured or supplied, behavior is unchanged. Provider-reported input and output tokens are folded into the worker record as each child model call completes. The persisted `usage` object shows the worker's own totals plus aggregate `budget_spent_tokens` and `budget_remaining_tokens` for the shared scope. Once the shared scope is exhausted, further descendant spawns are rejected with an actionable message instead of opening more agents into a spent pool. ## Per-role models (#3018) Children can run on a different model than the parent. Two config surfaces feed the same override map (`[subagents.models]` keys win on conflict, keys are case-insensitive): ```toml [subagents] default_model = "deepseek-v4-flash" # fallback for every role worker_model = "deepseek-v4-pro" # worker / general explorer_model = "deepseek-v4-flash" # explorer / explore awaiter_model = "deepseek-v4-flash" # awaiter / plan review_model = "deepseek-v4-pro" # review custom_model = "deepseek-v4-pro" # custom [subagents.models] # Free-form role → model map; any role alias accepted by agent works. implementation = "deepseek-v4-pro" ``` Model ids may be **any model the active provider accepts** — validation is provider-aware and happens at spawn time, not load time. On the official DeepSeek API only DeepSeek ids are accepted; every other provider passes the id through to the provider API, which is the authority. A non-DeepSeek example: ```toml provider = "moonshot" model = "kimi-k2.7-code" [subagents] worker_model = "kimi-k2.6" ``` Model ids are validated the same way when applied to a child route; an invalid id on the official DeepSeek API fails the spawn with the accepted-id list instead of an opaque provider 400. With `/model auto`, sub-agent routing is provider-aware too: providers with a known big/cheap pair (DeepSeek, and the hosted DeepSeek routes on NVIDIA NIM, OpenRouter, Novita, SiliconFlow, SGLang, vLLM) route between that pair; providers without a known cheap tier (e.g. Ollama, Moonshot) skip the network router and keep children on the session model. ## Per-profile provider routes (#3965) `[subagents.models]` changes the child model within the active provider. To pin a child to a different provider, use a Fleet/AgentProfile and pass it to the model-facing `agent` tool with `profile`. The profile's explicit `provider` + `model` fields win over the parent session route; omitting `provider` preserves the existing inherit behavior. Example: keep the parent session on DeepSeek, but run a formatter child on a local LM Studio OpenAI-compatible endpoint: ```toml # ~/.codewhale/config.toml or workspace config provider = "deepseek" [providers.deepseek] api_key = "YOUR_DEEPSEEK_KEY" [providers.lm-studio] kind = "openai-compatible" base_url = "http://127.0.0.1:1234/v1" api_key = "lm-studio" model = "qwen-2.5-7b" ``` ```toml # .codewhale/agents/local-formatter.toml id = "local-formatter" role_hint = "formatter" provider = "lm-studio" model = "qwen-2.5-7b" reasoning_effort = "off" [instructions] text = "Use small, local edits. Keep formatting changes mechanical." ``` Then call `agent(profile: "local-formatter", prompt: "...")`. In-process children build a client for `lm-studio`; Fleet workers forward `--provider lm-studio` to `codewhale exec`, which resolves the same `[providers.lm-studio]` table. Unknown or unconfigured provider ids fail the spawn rather than silently falling back to the parent provider. ## Per-step API timeout (#1806, #1808) Each sub-agent step wraps its DeepSeek `create_message` call in a per-step timeout so a single stuck request can't pin the parent's completion wakeup channel indefinitely. The default is `120` seconds, which matches the legacy hardcoded value. Long-thinking children that legitimately exceed that, for example heavy plan or review work behind `agent`, can extend the timeout in `~/.codewhale/config.toml`: ```toml [subagents] api_timeout_secs = 900 # 15 minutes; clamped to 1..=1800 ``` Values are clamped to `1..=1800`. `0` and `unset` keep the legacy `120` second default, so existing installs see no behavior change. ## Stale-agent heartbeat (#2614) Running agents also track manager-visible progress. If a child stops emitting progress for the heartbeat window, the manager auto-cancels it, releases its sub-agent slot, and keeps the cancelled record inspectable through the returned transcript handle and persisted worker record. The default is 5 minutes: ```toml [subagents] heartbeat_timeout_secs = 300 # clamped to 30..=3600 ``` The effective heartbeat is kept at least 30 seconds above `api_timeout_secs`, so a configured long model request is not cancelled before its own request timeout can fire. ## Lifecycle Each opened session produces a record that progresses through: ``` Pending → Running → (Completed | Failed(reason) | Cancelled | Interrupted(reason)) ``` `Interrupted` fires when the manager detects a `Running` agent whose task handle is gone — typically after a process restart that loaded the workspace's persisted state from `.codewhale/state/subagents.v1.json`. The parent can open a replacement session with the same assignment or treat it as a terminal state. ### Session boundaries (#405) Each `SubAgentManager` instance assigns itself a fresh `session_boot_id` on construction. Every new session stamps the agent with that id; the workspace state file records it for restart recovery. Sidebar/status projections focus on current-session agents by default. Prior-session agents that are not still running are treated as archived records so the model does not mistake stale work for live work. Records that loaded from a pre-#405 persisted state file (no `session_boot_id` field) classify as prior-session because the manager can't match them to the current boot. ## Run receipts, follow-up, and takeover Each compatibility sub-agent has a persisted worker record in `.codewhale/state/subagents.v1.json`. The record is the current run-ledger slice for sub-agent lanes until those lanes are backed directly by the fleet ledger: it stores `run_id`, objective, role/model, workspace/branch, lifecycle events, artifact refs, follow-up target, takeover target, usage provenance, and verification provenance. `agent` returns a session projection with these fields at the top level and inside `worker_record`. The normal parent contract is not polling: keep working and consume the completion event when the child finishes. If audit detail is needed, inspect the returned `transcript_handle` with `handle_read`. Legacy follow-up delivery is retained only for old transcripts and internal recovery. If a message was delivered, the worker record stores a bounded preview and timestamp. New model-facing flows should open a replacement `agent` when a child's assignment no longer fits. Artifacts are symbolic refs. Use `handle_read` on the returned `transcript_handle` for transcript details, and treat `result_summary` as a child self-report unless `verification.status` points to a separate gate or receipt. `usage.status` is `unknown` until provider usage is reported; then it switches to `reported`, or `budget_exhausted` when a configured shared token budget has no remaining tokens. ## Output contract Every sub-agent produces a final result string with five sections, in order: ``` SUMMARY: one paragraph; what you did and what happened CHANGES: files modified, with one-line descriptions; "None." if read-only EVIDENCE: path:line-range citations and key findings; one bullet each RISKS: what could go wrong / what the parent should double-check BLOCKERS: what stopped you; "None." if you finished cleanly ``` The exact format lives in `crates/tui/src/prompts/subagent_output_format.md`. The parent reads `EVIDENCE` as a working set for the next turn, so explorers and reviewers should be precise here. ## Memory and the `remember` tool (#489) Sub-agents inherit the parent's memory file when memory is enabled (`[memory] enabled = true` or `DEEPSEEK_MEMORY=on`). They can append durable notes via the `remember` tool — handy for an explorer that discovers a project convention worth carrying across sessions, or a verifier that learns "this test is flaky". Memory writes are scoped to the user's own `memory.md` file; they don't go through the standard write-approval flow. ## Implementation notes - Source: `crates/tui/src/tools/subagent/mod.rs`. - Persisted state: `/.codewhale/state/subagents.v1.json`. Schema version `1` (forward-compatible — new optional fields use `#[serde(default)]`). - Worker records are pruned by time: completed / failed / cancelled / interrupted records are evicted after the same retention window used for finished agents (default 1h, `COMPLETED_AGENT_RETENTION`). Running / starting / waiting records are preserved. The hard cap of 256 records remains as a safety bound (#4217). - `SubAgentRuntime::background_runtime()` starts from `child_runtime()` but replaces the turn-scoped child token with a fresh cancellation token, so parent turn cancellation does not stop detached background sessions. - The `is_running` check ignores agents whose `task_handle` is `None`; this avoids counting persisted-but-detached records toward the concurrency cap (#509). - `SharedSubAgentManager` is `Arc>` — read paths use read locks so `/agents` and the sidebar projection don't block the main loop during multi-agent fan-out (#510).