--- summary: "Secrets management: SecretRef contract, runtime snapshot behavior, and safe one-way scrubbing" read_when: - Configuring SecretRefs for provider credentials and `auth-profiles.json` refs - Operating secrets reload, audit, configure, and apply safely in production - Understanding startup fail-fast, inactive-surface filtering, and last-known-good behavior title: "Secrets Management" --- # Secrets management OpenClaw supports additive SecretRefs so supported credentials do not need to be stored as plaintext in configuration. Plaintext still works. SecretRefs are opt-in per credential. ## Goals and runtime model Secrets are resolved into an in-memory runtime snapshot. - Resolution is eager during activation, not lazy on request paths. - Startup fails fast when an effectively active SecretRef cannot be resolved. - Reload uses atomic swap: full success, or keep the last-known-good snapshot. - Runtime requests read from the active in-memory snapshot only. This keeps secret-provider outages off hot request paths. ## Active-surface filtering SecretRefs are validated only on effectively active surfaces. - Enabled surfaces: unresolved refs block startup/reload. - Inactive surfaces: unresolved refs do not block startup/reload. - Inactive refs emit non-fatal diagnostics with code `SECRETS_REF_IGNORED_INACTIVE_SURFACE`. Examples of inactive surfaces: - Disabled channel/account entries. - Top-level channel credentials that no enabled account inherits. - Disabled tool/feature surfaces. - Web search provider-specific keys that are not selected by `tools.web.search.provider`. In auto mode (provider unset), provider-specific keys are also active for provider auto-detection. - `gateway.remote.token` / `gateway.remote.password` SecretRefs are active (when `gateway.remote.enabled` is not `false`) if one of these is true: - `gateway.mode=remote` - `gateway.remote.url` is configured - `gateway.tailscale.mode` is `serve` or `funnel` In local mode without those remote surfaces: - `gateway.remote.token` is active when token auth can win and no env/auth token is configured. - `gateway.remote.password` is active only when password auth can win and no env/auth password is configured. - `gateway.auth.token` SecretRef is inactive for startup auth resolution when `OPENCLAW_GATEWAY_TOKEN` (or `CLAWDBOT_GATEWAY_TOKEN`) is set, because env token input wins for that runtime. ## Gateway auth surface diagnostics When a SecretRef is configured on `gateway.auth.token`, `gateway.auth.password`, `gateway.remote.token`, or `gateway.remote.password`, gateway startup/reload logs the surface state explicitly: - `active`: the SecretRef is part of the effective auth surface and must resolve. - `inactive`: the SecretRef is ignored for this runtime because another auth surface wins, or because remote auth is disabled/not active. These entries are logged with `SECRETS_GATEWAY_AUTH_SURFACE` and include the reason used by the active-surface policy, so you can see why a credential was treated as active or inactive. ## Onboarding reference preflight When onboarding runs in interactive mode and you choose SecretRef storage, OpenClaw runs preflight validation before saving: - Env refs: validates env var name and confirms a non-empty value is visible during onboarding. - Provider refs (`file` or `exec`): validates provider selection, resolves `id`, and checks resolved value type. - Quickstart reuse path: when `gateway.auth.token` is already a SecretRef, onboarding resolves it before probe/dashboard bootstrap (for `env`, `file`, and `exec` refs) using the same fail-fast gate. If validation fails, onboarding shows the error and lets you retry. ## SecretRef contract Use one object shape everywhere: ```json5 { source: "env" | "file" | "exec", provider: "default", id: "..." } ``` ### `source: "env"` ```json5 { source: "env", provider: "default", id: "OPENAI_API_KEY" } ``` Validation: - `provider` must match `^[a-z][a-z0-9_-]{0,63}$` - `id` must match `^[A-Z][A-Z0-9_]{0,127}$` ### `source: "file"` ```json5 { source: "file", provider: "filemain", id: "/providers/openai/apiKey" } ``` Validation: - `provider` must match `^[a-z][a-z0-9_-]{0,63}$` - `id` must be an absolute JSON pointer (`/...`) - RFC6901 escaping in segments: `~` => `~0`, `/` => `~1` ### `source: "exec"` ```json5 { source: "exec", provider: "vault", id: "providers/openai/apiKey" } ``` Validation: - `provider` must match `^[a-z][a-z0-9_-]{0,63}$` - `id` must match `^[A-Za-z0-9][A-Za-z0-9._:/-]{0,255}$` ## Provider config Define providers under `secrets.providers`: ```json5 { secrets: { providers: { default: { source: "env" }, filemain: { source: "file", path: "~/.openclaw/secrets.json", mode: "json", // or "singleValue" }, vault: { source: "exec", command: "/usr/local/bin/openclaw-vault-resolver", args: ["--profile", "prod"], passEnv: ["PATH", "VAULT_ADDR"], jsonOnly: true, }, }, defaults: { env: "default", file: "filemain", exec: "vault", }, resolution: { maxProviderConcurrency: 4, maxRefsPerProvider: 512, maxBatchBytes: 262144, }, }, } ``` ### Env provider - Optional allowlist via `allowlist`. - Missing/empty env values fail resolution. ### File provider - Reads local file from `path`. - `mode: "json"` expects JSON object payload and resolves `id` as pointer. - `mode: "singleValue"` expects ref id `"value"` and returns file contents. - Path must pass ownership/permission checks. - Windows fail-closed note: if ACL verification is unavailable for a path, resolution fails. For trusted paths only, set `allowInsecurePath: true` on that provider to bypass path security checks. ### Exec provider - Runs configured absolute binary path, no shell. - By default, `command` must point to a regular file (not a symlink). - Set `allowSymlinkCommand: true` to allow symlink command paths (for example Homebrew shims). OpenClaw validates the resolved target path. - Pair `allowSymlinkCommand` with `trustedDirs` for package-manager paths (for example `["/opt/homebrew"]`). - Supports timeout, no-output timeout, output byte limits, env allowlist, and trusted dirs. - Windows fail-closed note: if ACL verification is unavailable for the command path, resolution fails. For trusted paths only, set `allowInsecurePath: true` on that provider to bypass path security checks. Request payload (stdin): ```json { "protocolVersion": 1, "provider": "vault", "ids": ["providers/openai/apiKey"] } ``` Response payload (stdout): ```jsonc { "protocolVersion": 1, "values": { "providers/openai/apiKey": "" } } // pragma: allowlist secret ``` Optional per-id errors: ```json { "protocolVersion": 1, "values": {}, "errors": { "providers/openai/apiKey": { "message": "not found" } } } ``` ## Exec integration examples ### 1Password CLI ```json5 { secrets: { providers: { onepassword_openai: { source: "exec", command: "/opt/homebrew/bin/op", allowSymlinkCommand: true, // required for Homebrew symlinked binaries trustedDirs: ["/opt/homebrew"], args: ["read", "op://Personal/OpenClaw QA API Key/password"], passEnv: ["HOME"], jsonOnly: false, }, }, }, models: { providers: { openai: { baseUrl: "https://api.openai.com/v1", models: [{ id: "gpt-5", name: "gpt-5" }], apiKey: { source: "exec", provider: "onepassword_openai", id: "value" }, }, }, }, } ``` ### HashiCorp Vault CLI ```json5 { secrets: { providers: { vault_openai: { source: "exec", command: "/opt/homebrew/bin/vault", allowSymlinkCommand: true, // required for Homebrew symlinked binaries trustedDirs: ["/opt/homebrew"], args: ["kv", "get", "-field=OPENAI_API_KEY", "secret/openclaw"], passEnv: ["VAULT_ADDR", "VAULT_TOKEN"], jsonOnly: false, }, }, }, models: { providers: { openai: { baseUrl: "https://api.openai.com/v1", models: [{ id: "gpt-5", name: "gpt-5" }], apiKey: { source: "exec", provider: "vault_openai", id: "value" }, }, }, }, } ``` ### `sops` ```json5 { secrets: { providers: { sops_openai: { source: "exec", command: "/opt/homebrew/bin/sops", allowSymlinkCommand: true, // required for Homebrew symlinked binaries trustedDirs: ["/opt/homebrew"], args: ["-d", "--extract", '["providers"]["openai"]["apiKey"]', "/path/to/secrets.enc.json"], passEnv: ["SOPS_AGE_KEY_FILE"], jsonOnly: false, }, }, }, models: { providers: { openai: { baseUrl: "https://api.openai.com/v1", models: [{ id: "gpt-5", name: "gpt-5" }], apiKey: { source: "exec", provider: "sops_openai", id: "value" }, }, }, }, } ``` ## Supported credential surface Canonical supported and unsupported credentials are listed in: - [SecretRef Credential Surface](/reference/secretref-credential-surface) Runtime-minted or rotating credentials and OAuth refresh material are intentionally excluded from read-only SecretRef resolution. ## Required behavior and precedence - Field without a ref: unchanged. - Field with a ref: required on active surfaces during activation. - If both plaintext and ref are present, ref takes precedence on supported precedence paths. Warning and audit signals: - `SECRETS_REF_OVERRIDES_PLAINTEXT` (runtime warning) - `REF_SHADOWED` (audit finding when `auth-profiles.json` credentials take precedence over `openclaw.json` refs) Google Chat compatibility behavior: - `serviceAccountRef` takes precedence over plaintext `serviceAccount`. - Plaintext value is ignored when sibling ref is set. ## Activation triggers Secret activation runs on: - Startup (preflight plus final activation) - Config reload hot-apply path - Config reload restart-check path - Manual reload via `secrets.reload` Activation contract: - Success swaps the snapshot atomically. - Startup failure aborts gateway startup. - Runtime reload failure keeps the last-known-good snapshot. ## Degraded and recovered signals When reload-time activation fails after a healthy state, OpenClaw enters degraded secrets state. One-shot system event and log codes: - `SECRETS_RELOADER_DEGRADED` - `SECRETS_RELOADER_RECOVERED` Behavior: - Degraded: runtime keeps last-known-good snapshot. - Recovered: emitted once after the next successful activation. - Repeated failures while already degraded log warnings but do not spam events. - Startup fail-fast does not emit degraded events because runtime never became active. ## Command-path resolution Command paths can opt into supported SecretRef resolution via gateway snapshot RPC. There are two broad behaviors: - Strict command paths (for example `openclaw memory` remote-memory paths and `openclaw qr --remote`) read from the active snapshot and fail fast when a required SecretRef is unavailable. - Read-only command paths (for example `openclaw status`, `openclaw status --all`, `openclaw channels status`, `openclaw channels resolve`, and read-only doctor/config repair flows) also prefer the active snapshot, but degrade instead of aborting when a targeted SecretRef is unavailable in that command path. Read-only behavior: - When the gateway is running, these commands read from the active snapshot first. - If gateway resolution is incomplete or the gateway is unavailable, they attempt targeted local fallback for the specific command surface. - If a targeted SecretRef is still unavailable, the command continues with degraded read-only output and explicit diagnostics such as “configured but unavailable in this command path”. - This degraded behavior is command-local only. It does not weaken runtime startup, reload, or send/auth paths. Other notes: - Snapshot refresh after backend secret rotation is handled by `openclaw secrets reload`. - Gateway RPC method used by these command paths: `secrets.resolve`. ## Audit and configure workflow Default operator flow: ```bash openclaw secrets audit --check openclaw secrets configure openclaw secrets audit --check ``` ### `secrets audit` Findings include: - plaintext values at rest (`openclaw.json`, `auth-profiles.json`, `.env`, and generated `agents/*/agent/models.json`) - plaintext sensitive provider header residues in generated `models.json` entries - unresolved refs - precedence shadowing (`auth-profiles.json` taking priority over `openclaw.json` refs) - legacy residues (`auth.json`, OAuth reminders) Header residue note: - Sensitive provider header detection is name-heuristic based (common auth/credential header names and fragments such as `authorization`, `x-api-key`, `token`, `secret`, `password`, and `credential`). ### `secrets configure` Interactive helper that: - configures `secrets.providers` first (`env`/`file`/`exec`, add/edit/remove) - lets you select supported secret-bearing fields in `openclaw.json` plus `auth-profiles.json` for one agent scope - can create a new `auth-profiles.json` mapping directly in the target picker - captures SecretRef details (`source`, `provider`, `id`) - runs preflight resolution - can apply immediately Helpful modes: - `openclaw secrets configure --providers-only` - `openclaw secrets configure --skip-provider-setup` - `openclaw secrets configure --agent ` `configure` apply defaults: - scrub matching static credentials from `auth-profiles.json` for targeted providers - scrub legacy static `api_key` entries from `auth.json` - scrub matching known secret lines from `/.env` ### `secrets apply` Apply a saved plan: ```bash openclaw secrets apply --from /tmp/openclaw-secrets-plan.json openclaw secrets apply --from /tmp/openclaw-secrets-plan.json --dry-run ``` For strict target/path contract details and exact rejection rules, see: - [Secrets Apply Plan Contract](/gateway/secrets-plan-contract) ## One-way safety policy OpenClaw intentionally does not write rollback backups containing historical plaintext secret values. Safety model: - preflight must succeed before write mode - runtime activation is validated before commit - apply updates files using atomic file replacement and best-effort restore on failure ## Legacy auth compatibility notes For static credentials, runtime no longer depends on plaintext legacy auth storage. - Runtime credential source is the resolved in-memory snapshot. - Legacy static `api_key` entries are scrubbed when discovered. - OAuth-related compatibility behavior remains separate. ## Web UI note Some SecretInput unions are easier to configure in raw editor mode than in form mode. ## Related docs - CLI commands: [secrets](/cli/secrets) - Plan contract details: [Secrets Apply Plan Contract](/gateway/secrets-plan-contract) - Credential surface: [SecretRef Credential Surface](/reference/secretref-credential-surface) - Auth setup: [Authentication](/gateway/authentication) - Security posture: [Security](/gateway/security) - Environment precedence: [Environment Variables](/help/environment)