--- summary: "OpenClaw code mode: an opt-in exec/wait tool surface backed by QuickJS-WASI and a hidden run-scoped tool catalog" title: "Code mode" sidebarTitle: "Code mode" read_when: - You want to enable OpenClaw code mode for an agent run - You need to explain why code mode is different from Codex Code mode - You are reviewing the exec/wait contract, QuickJS-WASI sandbox, TypeScript transform, or hidden tool-catalog bridge --- Code mode is an experimental OpenClaw agent-runtime feature. It is off by default. When you enable it, OpenClaw changes what the model sees for one run: instead of exposing every enabled tool schema directly, the model sees only `exec` and `wait`. This page documents OpenClaw code mode. It is not Codex Code mode. Codex Code mode is part of the Codex coding harness and has its own project workspace, runtime, tools, and execution semantics. Codex Code mode and Codex-native dynamic tool search are stable Codex harness surfaces. OpenClaw code mode is an OpenClaw-owned experimental tool-surface adapter for generic OpenClaw runs. It uses `quickjs-wasi`, a hidden OpenClaw tool catalog, and the normal OpenClaw tool executor. ## What is this? OpenClaw code mode lets the model write a small JavaScript or TypeScript program instead of choosing directly from a long list of tools. When code mode is active: - The model-visible tool list is exactly `exec` and `wait`. - `exec` evaluates model-generated JavaScript or TypeScript in a constrained QuickJS-WASI worker. - Normal OpenClaw tools are hidden from the model prompt and exposed inside the guest program through `ALL_TOOLS` and `tools`. - Guest code can search the hidden catalog, describe a tool, and call a tool through the same OpenClaw execution path used by normal agent turns. - `wait` resumes a suspended code-mode run when nested tool calls are still pending. The important distinction: code mode changes the model-facing orchestration surface. It does not replace OpenClaw tools, plugin tools, MCP tools, auth, approval policy, channel behavior, or model selection. ## Why is this good? Code mode makes large tool catalogs easier for models to use. - Smaller prompt surface: providers receive two control tools instead of dozens or hundreds of full tool schemas. - Better orchestration: the model can use loops, joins, small transforms, conditional logic, and parallel nested tool calls inside one code cell. - Provider neutral: it works for OpenClaw, plugin, MCP, and client tools without depending on provider-native code execution. - Existing policy stays in force: nested tool calls still go through OpenClaw policy, approvals, hooks, session context, and audit paths. - Clear failure mode: when code mode is explicitly enabled and the runtime is unavailable, OpenClaw fails closed instead of falling back to broad direct tool exposure. Code mode is especially useful for agents with a large enabled tool catalog or for workflows where the model repeatedly needs to search, combine, and call tools before producing an answer. ## How to enable it Add `tools.codeMode.enabled: true` to the agent or runtime config: ```json5 { tools: { codeMode: { enabled: true, }, }, } ``` The shorthand is also accepted: ```json5 { tools: { codeMode: true, }, } ``` Code mode remains off when `tools.codeMode` is omitted, `false`, or an object without `enabled: true`. Use explicit limits when you want tighter bounds: ```json5 { tools: { codeMode: { enabled: true, timeoutMs: 10000, memoryLimitBytes: 67108864, maxOutputBytes: 65536, maxSnapshotBytes: 10485760, maxPendingToolCalls: 16, snapshotTtlSeconds: 900, searchDefaultLimit: 8, maxSearchLimit: 50, }, }, } ``` To confirm the model payload shape while debugging, run the Gateway with targeted logging: ```bash OPENCLAW_DEBUG_CODE_MODE=1 \ OPENCLAW_DEBUG_MODEL_TRANSPORT=1 \ OPENCLAW_DEBUG_MODEL_PAYLOAD=tools \ openclaw gateway ``` With code mode active, the logged model-facing tool names should be `exec` and `wait`. If you need the redacted provider payload, add `OPENCLAW_DEBUG_MODEL_PAYLOAD=full-redacted` for a short debugging session. ## Technical tour The rest of this page describes the runtime contract and implementation details. It is intended for maintainers, plugin authors debugging tool exposure, and operators validating high-risk deployments. ## Runtime status - Runtime: [`quickjs-wasi`](https://github.com/vercel-labs/quickjs-wasi). - Default state: disabled. - Stability: experimental OpenClaw surface; Codex Code mode is a separate stable Codex harness surface. - Target surface: generic OpenClaw agent runs. - Security posture: model code is hostile. - User-facing promise: enabling code mode never silently falls back to broad direct tool exposure. ## Scope Code mode owns the model-facing orchestration shape for a prepared run. It does not own model selection, channel behavior, auth, tool policy, or tool implementations. In scope: - model-visible `exec` and `wait` tool definitions - hidden tool catalog construction - JavaScript and TypeScript guest execution - QuickJS-WASI worker runtime - host callbacks for catalog search, schema describe, and tool call - resumable state for suspended guest programs - output, timeout, memory, pending-call, and snapshot limits - telemetry and trajectory projection for nested tool calls Out of scope: - provider-native remote code execution - shell execution semantics - changing existing tool authorization - persistent user-authored scripts - package manager, file, network, or module access in guest code - direct reuse of Codex Code mode internals Provider-owned tools such as remote Python sandboxes remain separate tools. See [Code execution](/tools/code-execution). ## Terms **Code mode** is the OpenClaw runtime mode that hides normal model tools and exposes only `exec` and `wait`. **Guest runtime** is the QuickJS-WASI JavaScript VM that evaluates model code. **Host bridge** is the narrow JSON-compatible callback surface from guest code back into OpenClaw. **Catalog** is the run-scoped list of effective tools after normal tool policy, plugin, MCP, and client-tool resolution. **Nested tool call** is a tool call made from guest code through the host bridge. **Snapshot** is serialized QuickJS-WASI VM state saved so `wait` can continue a suspended code-mode run. ## Configuration `tools.codeMode.enabled` is the activation gate. Setting other code-mode fields does not enable the feature. Supported fields: - `enabled`: boolean. Default `false`. Enables code mode only when `true`. - `runtime`: `"quickjs-wasi"`. Only supported runtime. - `mode`: `"only"`. Exposes `exec` and `wait`, hides normal model tools. - `languages`: array of `"javascript"` and `"typescript"`. Default includes both. - `timeoutMs`: wall-clock cap for one `exec` or `wait`. Default `10000`. Runtime clamp: `100` to `60000`. - `memoryLimitBytes`: QuickJS heap cap. Default `67108864`. Runtime clamp: `1048576` to `1073741824`. - `maxOutputBytes`: cap for returned text, JSON, and logs. Default `65536`. Runtime clamp: `1024` to `10485760`. - `maxSnapshotBytes`: cap for serialized VM snapshots. Default `10485760`. Runtime clamp: `1024` to `268435456`. - `maxPendingToolCalls`: cap for concurrent nested tool calls. Default `16`. Runtime clamp: `1` to `128`. - `snapshotTtlSeconds`: how long a suspended VM can be resumed. Default `900`. Runtime clamp: `1` to `86400`. - `searchDefaultLimit`: default hidden-catalog search result count. Default `8`. Runtime clamps this to `maxSearchLimit`. - `maxSearchLimit`: maximum hidden-catalog search result count. Default `50`. Runtime clamp: `1` to `50`. If code mode is enabled but QuickJS-WASI cannot load, OpenClaw fails closed for that run. It does not silently expose normal tools as a fallback. ## Activation Code mode is evaluated after the effective tool policy is known and before the final model request is assembled. Activation order: 1. Resolve the agent, model, provider, sandbox, channel, sender, and run policy. 2. Build the effective OpenClaw tool list. 3. Add eligible plugin, MCP, and client tools. 4. Apply allow and deny policy. 5. If `tools.codeMode.enabled` is false, continue with normal tool exposure. 6. If enabled and tools are active for the run, register the effective tools in the code-mode catalog. 7. Remove all normal tools from the model-visible tool list. 8. Add code-mode `exec` and `wait`. Runs that intentionally have no tools, such as raw model calls, `disableTools`, or an empty allowlist, do not activate the code-mode surface even if the config contains `tools.codeMode.enabled: true`. The code-mode catalog is run-scoped. It must not leak tools from another agent, session, sender, or run. ## Model-visible tools When code mode is active, the model sees exactly these top-level tools: - `exec` - `wait` All other enabled tools are hidden from the model-facing tool list and registered in the code-mode catalog. The model should use `exec` for tool orchestration, data joining, loops, parallel nested calls, and structured transformations. The model should use `wait` only when `exec` returns a resumable `waiting` result. ## `exec` `exec` starts a code-mode cell and returns one result. The input code is model generated and must be treated as hostile. Input: ```typescript type CodeModeExecInput = { code: string; language?: "javascript" | "typescript"; }; ``` Input rules: - `code` is required and must be non-empty. - `language` defaults to `"javascript"`. - If `language` is `"typescript"`, OpenClaw transpiles before evaluation. - `exec` rejects `import`, `require`, dynamic import, and module-loader patterns in v1. - `exec` does not expose the normal shell `exec` implementation recursively. Result: ```typescript type CodeModeResult = CodeModeCompletedResult | CodeModeWaitingResult | CodeModeFailedResult; type CodeModeCompletedResult = { status: "completed"; value: unknown; output?: CodeModeOutput[]; telemetry: CodeModeTelemetry; }; type CodeModeWaitingResult = { status: "waiting"; runId: string; reason: "pending_tools" | "yield"; pendingToolCalls?: CodeModePendingToolCall[]; output?: CodeModeOutput[]; telemetry: CodeModeTelemetry; }; type CodeModeFailedResult = { status: "failed"; error: string; code?: CodeModeErrorCode; output?: CodeModeOutput[]; telemetry: CodeModeTelemetry; }; ``` `exec` returns `waiting` when the QuickJS VM suspends with resumable state. The result includes a `runId` for `wait`. `exec` returns `completed` only when the guest VM has no pending work and the final value is JSON-compatible after OpenClaw's output adapter runs. ## `wait` `wait` continues a suspended code-mode VM. Input: ```typescript type CodeModeWaitInput = { runId: string; }; ``` The output is the same `CodeModeResult` union returned by `exec`. `wait` exists because nested OpenClaw tools can be slow, interactive, approval gated, or stream partial updates. The model should not need to keep one long `exec` call open while the host waits for external work. QuickJS-WASI snapshot and restore is the v1 resume mechanism: 1. `exec` evaluates code until completion, failure, or suspension. 2. On suspension, OpenClaw snapshots the QuickJS VM and records pending host work. 3. When pending work settles, `wait` restores the VM snapshot. 4. OpenClaw re-registers host callbacks by stable names. 5. OpenClaw delivers nested tool results into the restored VM. 6. OpenClaw drains QuickJS pending jobs. 7. `wait` returns `completed`, `failed`, or another `waiting` result. Snapshots are runtime state, not user artifacts. They are size-limited, expired, and scoped to the run and session that created them. `wait` fails when: - `runId` is unknown. - the snapshot expired. - the parent run or session was aborted. - the caller is not in the same run/session scope. - QuickJS-WASI restore fails. - restoring would exceed configured limits. ## Guest runtime API The guest runtime exposes a small global API: ```typescript declare const ALL_TOOLS: ToolCatalogEntry[]; declare const tools: ToolCatalog; declare function text(value: unknown): void; declare function json(value: unknown): void; declare function yield_control(reason?: string): Promise; ``` `ALL_TOOLS` is compact metadata for the run-scoped catalog. It does not contain full schemas by default. ```typescript type ToolCatalogEntry = { id: string; name: string; label?: string; description: string; source: "openclaw" | "plugin" | "mcp" | "client"; sourceName?: string; }; ``` Full schema is loaded only on demand: ```typescript type ToolCatalogEntryWithSchema = ToolCatalogEntry & { parameters: unknown; }; ``` Catalog helpers: ```typescript type ToolCatalog = { search(query: string, options?: { limit?: number }): Promise; describe(id: string): Promise; call(id: string, input?: unknown): Promise; [safeToolName: string]: unknown; }; ``` Convenience tool functions are installed only for unambiguous safe names: ```typescript const files = await tools.search("read local file"); const fileRead = await tools.describe(files[0].id); const content = await tools.call(fileRead.id, { path: "README.md" }); // If the hidden catalog has an unambiguous `web_search` entry: const hits = await tools.web_search({ query: "OpenClaw code mode" }); ``` The guest runtime must not expose host objects directly. Inputs and outputs cross the bridge as JSON-compatible values with explicit size caps. ## Output API `text(value)` appends human-readable output to the `output` array. `json(value)` appends a structured output item after JSON-compatible serialization. The guest code's final returned value becomes `value` in a `completed` result. Output item: ```typescript type CodeModeOutput = { type: "text"; text: string } | { type: "json"; value: unknown }; ``` Output rules: - output order matches guest calls - output is capped by `maxOutputBytes` - non-serializable values are converted to plain strings or errors - binary values are not supported in v1 - images and files travel through ordinary OpenClaw tools, not through the code-mode bridge ## Tool catalog The hidden catalog includes tools after effective policy filtering: 1. OpenClaw core tools. 2. Bundled plugin tools. 3. External plugin tools. 4. MCP tools. 5. Client-provided tools for the current run. Catalog ids are stable within one run and deterministic across equivalent tool sets when possible. Recommended id shape: ```text :: ``` Examples: ```text openclaw:core:message plugin:browser:browser_request mcp:github:create_issue client:app:select_file ``` The catalog omits code-mode control tools: - `exec` - `wait` - `tool_search_code` - `tool_search` - `tool_describe` - `tool_call` This prevents recursion and keeps the model-facing contract narrow. ## Tool Search interaction Code mode supersedes the PI Tool Search model surface for runs where it is active. When `tools.codeMode.enabled` is true and code mode activates: - OpenClaw does not expose `tool_search_code`, `tool_search`, `tool_describe`, or `tool_call` as model-visible tools. - The same cataloging idea moves inside the guest runtime. - The guest runtime receives compact `ALL_TOOLS` metadata and search, describe, and call helpers. - Nested calls dispatch through the same OpenClaw executor path that Tool Search uses. The existing [Tool Search](/tools/tool-search) page describes the PI compact catalog bridge. Code mode is the generic OpenClaw alternative for runs that can use `exec` and `wait`. ## Tool names and collisions The model-visible `exec` tool is the code-mode tool. If the normal OpenClaw shell `exec` tool is enabled, it is hidden from the model and cataloged like any other tool. Inside the guest runtime: - `tools.call("openclaw:core:exec", input)` can call the shell exec tool if policy allows it. - `tools.exec(...)` is installed only if the shell exec catalog entry has an unambiguous safe name. - the code-mode `exec` tool is never recursively available through `tools`. If two tools normalize to the same safe convenience name, OpenClaw omits the convenience function and requires `tools.call(id, input)`. ## Nested tool execution Every nested tool call crosses the host bridge and re-enters OpenClaw. Nested execution preserves: - active agent id - session id and session key - sender and channel context - sandbox policy - approval policy - plugin `before_tool_call` hooks - abort signal - streaming updates where available - trajectory and audit events Nested calls project into the transcript as real tool calls so support bundles can show what happened. The projection identifies the parent code-mode tool call and the nested tool id. Parallel nested calls are allowed up to `maxPendingToolCalls`. ## Runtime state Each code-mode run has a state machine: - `running`: VM is executing or nested calls are in flight. - `waiting`: VM snapshot exists and can be resumed with `wait`. - `completed`: final value returned; snapshot deleted. - `failed`: error returned; snapshot deleted. - `expired`: snapshot or pending state exceeded retention; cannot resume. - `aborted`: parent run/session cancelled; snapshot deleted. State is scoped by agent run, session, and tool call id. A `wait` call from a different run or session fails. Snapshot storage is bounded: - maximum snapshot bytes per run - maximum live snapshots per process - snapshot TTL - cleanup on run end - cleanup on Gateway shutdown where persistence is not supported ## QuickJS-WASI runtime OpenClaw loads `quickjs-wasi` as a direct dependency in the owning package. The runtime does not rely on a transitive copy installed for proxy, PAC, or other unrelated dependencies. Runtime responsibilities: - compile or load the QuickJS-WASI WebAssembly module - create one isolated VM per code-mode run or resume - register host callbacks by stable names - set memory and interrupt limits - evaluate JavaScript - drain pending jobs - snapshot suspended VM state - restore snapshots for `wait` - dispose VM handles and snapshots after terminal states The runtime executes outside OpenClaw's main event loop in a worker. A guest infinite loop must not block the Gateway process indefinitely. ## TypeScript TypeScript support is a source transform only: - accepted input: one TypeScript code string - output: JavaScript string evaluated by QuickJS-WASI - no typechecking - no module resolution - no `import` or `require` in v1 - diagnostics are returned as `failed` results The TypeScript compiler is loaded lazily only for TypeScript cells. Plain JavaScript cells and disabled code mode do not load the compiler. The transform should preserve useful line numbers where feasible. ## Security boundary Model code is hostile. The runtime uses defense in depth: - run QuickJS-WASI outside the main event loop - load `quickjs-wasi` as a direct dependency, not through Codex or a transitive package - no filesystem, network, subprocess, module import, environment variables, or host global objects in the guest - use QuickJS memory and interrupt limits - enforce parent-process wall-clock timeout - enforce output, snapshot, log, and pending-call caps - serialize host bridge values through a narrow JSON adapter - convert host errors into plain guest errors, never host realm objects - drop snapshots on timeout, abort, session end, or expiry - reject recursive access to `exec`, `wait`, and Tool Search control tools - prevent convenience-name collisions from shadowing catalog helpers The sandbox is one security layer. Operators can still need OS-level hardening for high-risk deployments. ## Error codes ```typescript type CodeModeErrorCode = | "runtime_unavailable" | "invalid_config" | "invalid_input" | "unsupported_language" | "typescript_transform_failed" | "module_access_denied" | "timeout" | "memory_limit_exceeded" | "output_limit_exceeded" | "snapshot_limit_exceeded" | "snapshot_expired" | "snapshot_restore_failed" | "too_many_pending_tool_calls" | "nested_tool_failed" | "aborted" | "internal_error"; ``` Errors returned to the guest are plain data. Host `Error` instances, stack objects, prototypes, and host functions do not cross into QuickJS. ## Telemetry Code mode reports: - visible tool names sent to the model - hidden catalog size and source breakdown - `exec` and `wait` counts - nested search, describe, and call counts - nested tool ids called - timeout, memory, snapshot, and output cap failures - snapshot lifecycle events Telemetry must not include secrets, raw environment values, or unredacted tool inputs beyond existing OpenClaw trajectory policy. ## Debugging Use targeted model transport logging when code mode behaves differently from a normal tool run: ```bash OPENCLAW_DEBUG_CODE_MODE=1 \ OPENCLAW_DEBUG_MODEL_TRANSPORT=1 \ OPENCLAW_DEBUG_MODEL_PAYLOAD=tools \ OPENCLAW_DEBUG_SSE=events \ openclaw gateway ``` For payload-shape debugging, use `OPENCLAW_DEBUG_MODEL_PAYLOAD=full-redacted`. This logs a capped, redacted JSON snapshot of the model request; it should only be used while debugging because prompts and message text can still appear. For stream debugging, use `OPENCLAW_DEBUG_SSE=peek` to log the first five redacted SSE events. Code mode also fails closed if the final provider payload does not contain exactly `exec` and `wait` after the code-mode surface has activated. ## Implementation layout Implementation units: - config contract: `tools.codeMode` - catalog builder: effective tools to compact entries and id map - model-surface adapter: replace visible tools with `exec` and `wait` - QuickJS-WASI runtime adapter: load, eval, snapshot, restore, dispose - worker supervisor: timeout, abort, crash isolation - bridge adapter: JSON-safe host callbacks and result delivery - TypeScript transform adapter - snapshot store: TTL, size caps, run/session scoping - trajectory projection for nested tool calls - telemetry counters and diagnostics The implementation reuses catalog and executor concepts from Tool Search, but does not use the `node:vm` child as the sandbox. ## Validation checklist Code mode coverage should prove: - disabled config leaves existing tool exposure unchanged - object config without `enabled: true` leaves code mode disabled - enabled config exposes only `exec` and `wait` to the model when tools are active for the run - raw no-tool runs, `disableTools`, and empty allowlists do not trigger code-mode payload enforcement - all effective tools appear in `ALL_TOOLS` - denied tools do not appear in `ALL_TOOLS` - `tools.search`, `tools.describe`, and `tools.call` work for OpenClaw tools - Tool Search control tools are hidden from both the model surface and the hidden catalog - nested calls preserve approval and hook behavior - shell `exec` is hidden from the model but callable by catalog id when allowed - recursive code-mode `exec` and `wait` are not callable from guest code - TypeScript input is transformed and evaluated without loading TypeScript on disabled or JavaScript-only paths - `import`, `require`, filesystem, network, and environment access fail - infinite loops time out and cannot block the Gateway - memory cap failures terminate the guest VM - output and snapshot caps are enforced for completed and suspended calls - `wait` resumes a suspended snapshot and returns the final value - expired, aborted, wrong-session, and unknown `runId` values fail - transcript replay and persistence preserve code-mode control calls - transcript and telemetry show nested tool calls clearly ## E2E test plan Run these as integration or end-to-end tests when changing the runtime: 1. Start a Gateway with `tools.codeMode.enabled: false`. 2. Send an agent turn with a small direct tool set. 3. Assert the model-visible tools are unchanged. 4. Restart with `tools.codeMode.enabled: true`. 5. Send an agent turn with OpenClaw, plugin, MCP, and client test tools. 6. Assert the model-visible tool list is exactly `exec`, `wait`. 7. In `exec`, read `ALL_TOOLS` and assert the effective test tools are present. 8. In `exec`, call `tools.search`, `tools.describe`, and `tools.call`. 9. Assert denied tools are absent and cannot be called by guessed id. 10. Start a nested tool call that resolves after `exec` returns `waiting`. 11. Call `wait` and assert the restored VM receives the tool result. 12. Assert the final answer contains output produced after restore. 13. Assert timeout, abort, and snapshot expiry clean up runtime state. 14. Export trajectory and assert nested calls are visible under the parent code-mode call. Docs-only changes to this page should still run `pnpm check:docs`. ## Related - [Tool Search](/tools/tool-search) - [Agent runtimes](/concepts/agent-runtimes) - [Exec tool](/tools/exec) - [Code execution](/tools/code-execution)