Svault
The secret manager that knows an AI is asking.
Svault is an AI-aware secret access layer written in Rust. It sits between AI agents and your credentials — enforcing structured requests, detecting suspicious patterns, and making sure an agent has a real reason before it touches anything sensitive.
Why Svault? Every existing secret manager (1Password, Infisical, HashiCorp Vault) treats an AI agent the same as a human or a script. Svault doesn't. It knows the difference.
flowchart LR
H["Human"] -->|"svault secret get<br/>(passphrase)"| V["Svault"]
A["AI Agent"] -->|"svault get<br/>scope + reason"| P["Policy engine"]
P -->|"allow / deny + audit"| V
V --> E["vault.enc<br/>AES-256-GCM"]
Documentation
| Guide | What's inside |
|---|---|
| Installation | crates.io, from source, supported platforms |
| Interactive mode (TUI) | The full-screen dashboard and keybindings |
| Command reference | Every subcommand and flag |
| End-to-end walkthrough | Full flow: create → classify → judge → gated get, with real model output |
| Policy engine | The agent path — svault get, scopes, tiers, audit |
| Recovery & portability | Recovery code for a lost passphrase, export/import bundles |
| Daemon | Optional Unix daemon — keys in memory, auto-lock, daemon start/stop/status/doctor |
| Storage backends | Local today; cloud / self-hosted / S3 placeholders |
| Security model | Crypto, memory safety, what's safe to commit |
| Security review & audit | Independent review per release + the bulletproofing process |
| Architecture | How it works, on-disk layout, auth methods |
| Roadmap | Where Svault is headed |
| Changelog | What's shipped, version by version |
Quick start
# Install
# 1. Create an encrypted vault (interactive: storage, name, agents, auto-lock,
# default tier, AI judge). On first run you set one master passphrase — it
# unlocks every vault. Prints a one-time recovery code — save it.
# 2. Add secrets — also classifies each one (scope + sensitivity tier) for the gate
# 3. Unlock for your session — one master passphrase opens every vault
# 4. Use secrets without re-entering the passphrase
# 5. Lock when done
Or just run svault with no arguments for the interactive TUI.
Run svault with no subcommand to open the full-screen terminal UI:
Browse all vaults (with live lock state), c create, u unlock / l lock, s edit settings, shift-J manage the AI judges (create or unlock the keyring, toggle the global on/off switch, add/edit/view judges with their model/thresholds/criteria, set the default judge, set/clear a judge's API key, live test, remove a judge), and — once a vault is unlocked — a add, c classify (tier/scope/reason/description), view, and d delete secrets, with each secret's classification shown inline. The TUI reuses the cached session key, so an unlocked vault is never re-prompted. Every subcommand still works for scripting.
Full keybindings → docs/tui.md
svault secret get is the human path — passphrase, no questions asked. svault get is the agent path: a structured request that an AI must justify, enforced inside the daemon that holds the key — not advisory. There is no unguarded read path, and every decision is audited with the connecting process's peer UID.
flowchart TD
REQ["svault get"] --> ID["Identify caller"]
ID --> RSN{"Reason valid?"}
RSN -->|no| DENY["Deny + audit"]
RSN -->|yes| CAP{"Caller holds scope<br/>& matches secret?"}
CAP -->|no| DENY
CAP -->|yes| RATE{"Within rate limit<br/>& no burst?"}
RATE -->|no| DENY
RATE -->|yes| TIER{"Tier?"}
TIER -->|low| ALLOW["Return value + audit"]
TIER -->|medium / high| JUDGE{"AI judge"}
JUDGE -->|allow| ALLOW
JUDGE -->|deny| DENY
The AI judge. For medium/high-tier secrets, Svault asks a fast LLM — via your OpenRouter account — whether the stated reason plausibly justifies the request. This is the behavioural gate that makes Svault AI-aware. You can define multiple named judges, each with its own model, thresholds, and free-text criteria, pick a default, and assign one per vault.
Everything that gates access is AES-256-GCM encrypted at rest — per-secret classification (scope/tier + an optional description the judge weighs against the reason) and caller rules live inside vault.enc; the judge registry and its API keys live in a separate encrypted keyring (.svault/keyring.enc). There are no plaintext config or key files. Because the policy is unreadable at rest, an agent can't study it to craft a passing request — and a denied svault get returns only a generic message, with the real reason recorded in the audit log for you.
Full pipeline, tiers, judge setup → docs/policy-engine.md
svault create prints a one-time recovery code — a 160-bit second keyslot into the vault, used if you lose the master passphrase. It's shown once and never stored in plaintext; keep it in a password manager.
The bundle carries no machine-specific state and every byte is encrypted or signed — safe to move between machines (same major Svault version).
Recovery code + export/import → docs/recovery.md
| Backend | Status |
|---|---|
local |
Available (default) |
cloud |
Coming soon — Soluzy SaaS |
self-hosted |
Coming soon — your own server |
s3 |
Coming soon — S3 / MinIO |
The chosen backend is recorded in meta.yaml and shown as a storage:name prefix everywhere a vault is listed. Vault names must be unique.
Details → docs/storage-backends.md
| Property | Implementation |
|---|---|
| Encryption | AES-256-GCM (authenticated) |
| Key derivation | Argon2id (64 MB, 3 iterations) — GPU-resistant |
| Unlock | One master passphrase wraps a random per-vault data key (keyslot model) — unlock once, every vault opens |
| Policy & judge config | Encrypted at rest — the policy in vault.enc, the judge registry + API keys in keyring.enc. No plaintext config or key files |
| Metadata integrity | HMAC-SHA256 — tampering with the public meta.yaml is detected |
| Memory safety | VaultKey + secrets derive ZeroizeOnDrop — wiped on drop |
| Session / on-disk files | Owner-only (0600), written atomically |
| Vault file | Safe to commit — encrypted at rest, useless without the master passphrase |
One master passphrase is the only key you type — it wraps each vault's random data key, so unlocking once opens everything. The recovery code is a second keyslot into a vault if you lose the master.
Threat model + on-disk layout → docs/security.md
Every 0.x.0 release goes through an independent security review + bulletproofing pass — see docs/security-review/.
flowchart TD
U["AI Agent"] -->|"svault get (scope + reason)"| D["Svault daemon<br/>(enforced gate)"]
D --> POL["Policy checks<br/>reason → capability → rate limit · burst"]
POL --> TIER{"Sensitivity tier"}
TIER -->|low| OUT["audit (peer UID) → value"]
TIER -->|medium / high| JUDGE["AI judge (OpenRouter)"]
JUDGE --> OUT
OUT --> ENC["(.svault/<vault>/vault.enc<br/>AES-256-GCM encrypted)"]
Enforced-engine details, full layout → docs/architecture.md
Roadmap
| Milestone | Status | What |
|---|---|---|
| Foundation | Shipped | Local AES-256-GCM vaults (Argon2id), the interactive Ratatui TUI, recovery code + encrypted export/import, and the Unix daemon (keys in memory, auto-lock) |
| Enforced policy + AI judge | Shipped | Daemon-enforced policy engine (peer-UID-audited) — reason, scopes, tiers, rate limit, burst — plus the AI judge (OpenRouter) gating medium/high-tier secrets |
| Everything encrypted at rest | Shipped | The whole policy surface in vault.enc and all global config + the judge registry (multiple named judges, with API keys) in keyring.enc — nothing abusable in plaintext; per-vault judge assignment; generic caller-facing denials |
| Unified unlock | Shipped (0.9.4) | One master passphrase wraps a random per-vault data key (keyslot model); per-vault passphrases removed; svault master init / rekey / status; foundation for a YubiKey-touch keyslot |
| Conditional access + escalation | Next | Time-window / caller conditions in the encrypted policy; brute-force / anomaly seals a secret and escalates to a human (agents never self-clear) |
| Local MCP | Planned | svault mcp over the daemon socket (auth = same-UID + daemon-unlocked), svault install, and an agent capability descriptor that advertises the request interface, not the decision criteria |
| 1.0.0 | Target | A final independent review of the full agent-ready surface and install channels (script, Homebrew, Docker), then the first stable release |
| 2.0.0 | Planned | Desktop GUI (Tauri) + system tray |
| 3.0.0+ / Cloud | Planned | Remote MCP with OAuth, more platforms, optional anomaly scoring via Claude Haiku |
Svault is currently on the 0.9.x line, working through the agent-ready path; 1.0.0 is reserved for the reviewed, stable release. Per-release detail lives in the changelog.
Full roadmap → docs/roadmap.md
Tests
115 tests (plus an #[ignore]d concurrency stress benchmark) cover the crypto core and tamper detection, vault operations, the master keyslot model (wrap/unwrap a data key under the master, rekey, wrong-master rejection), the policy engine and the enforced daemon gate (including peer-UID-stamped audit and high-tier fail-closed behaviour), the AI judge — run against a fake transport, so the suite never touches the network — and the encrypted-at-rest guarantees for both the policy (vault.enc) and the keyring (keyring.enc).
CI runs the full suite on Ubuntu, Fedora, macOS, and Windows on every push and pull request. A heavier concurrency simulation runs on demand:
Methodology and a recorded run are in docs/security-review/stress/0.6.0.md.
License
Apache 2.0 — see LICENSE.
Built by Soluzy.