d45dd10917
v0.5.0 Plan B — Extension UX Polish + Bug Fixes. 15 commits, 22 files, +853/-33 lines, all in extension/. Five features delivered: - P4: ERROR_COPY centralized map; popup humanizeError now a thin shell over lookupErrorCopy; fullscreen tab gets friendly title/body/CTA blocks (closes B2). Generated test enumerates every grep'd error code so the registry can't drift. - B1: applyGeneratedPassword dispatches a synthetic input event after the regenerate handler sets the password value, so the strength-meter listener re-rates the new value. - P1: end-to-end password coloring — pure colorizePassword utility, chrome.storage.sync round-trip via applyColorScheme, CSS rules with custom properties, four reveal surfaces (popup item-detail, vault item-detail, field-history, generator preview), boot wiring + storage listener, Display section in settings with color pickers + swatch + reset. - P3: .form-lower wrapper constrains lower form sections (notes, custom-fields, attachments, actions) to the same max-width: 960px envelope as .form-grid above, gated on surface === 'fullscreen' so the popup is unaffected. - P2: finishSetup() opens the fullscreen vault tab and best-effort closes the setup tab after successful device registration. Both create-new and attach-existing flows funnel through it. Implementation notes: - vault.ts uses event delegation on the stable #vault-app root for .error-cta clicks (better than the plan's per-render handler attach; survives re-renders without leaking listeners). - fields.ts gained a kind: 'password' | 'concealed' option on ConcealedRowOpts so wireFieldHandlers can apply colorizePassword selectively at the shared rendering layer. - New WASM stub at src/__stubs__/relicario_wasm.stub.ts + vitest config alias lets unit tests import setup.ts without exploding on the runtime-only WASM module. Tests: +28 (336/8 vs main's 308/8); 8 pre-existing device-auth scaffolding failures unchanged. Builds clean: cargo wasm + Chrome bundle + Firefox bundle. Manual acceptance items (P3 viewport sweep at 1920/1440/1024/768, P2 setup-flow smoke) deferred to user's pre-tag smoke walk. Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
Relicario
A git-backed, self-hostable password manager where decryption requires two independent factors: a passphrase you memorize and a reference JPEG that carries a hidden secret. Compromise of either factor alone is insufficient.
The server only ever sees opaque ciphertext. There is nothing else going on. This README is the security proof.
How it works
Your passphrase (something you know)
+
Your reference photo (something you have)
|
v
[ Argon2id KDF ] --> master_key --> [ XChaCha20-Poly1305 ] --> encrypted vault
^ |
| v
Never leaves Stored in git
your device (opaque ciphertext)
At vault creation, Relicario embeds a random 256-bit secret into a carrier JPEG using DCT steganography. This photo becomes your reference image — a second factor that lives on your devices (and optionally as a "dead drop" on social media, since it survives JPEG re-encoding and mild cropping).
To unlock the vault, you provide your passphrase and point the client at the reference image. The client extracts the hidden secret, concatenates it with your passphrase, and runs Argon2id to derive the master key. Everything else follows from there.
Security model
What the server sees
A git repository containing:
manifest.enc— opaque binary blobitems/*.enc— more opaque binary blobsattachments/<item-id>/*.enc— encrypted attachment blobssettings.enc— encrypted vault settings.relicario/salt— a random 32-byte value (not secret).relicario/params.json— Argon2id parameters (not secret).relicario/devices.json— authorized device public keys
That's it. No plaintext. No metadata about what's inside. No keys, no passphrases, no reference images.
What an attacker needs
| Scenario | Has | Needs | Result |
|---|---|---|---|
| Server breach | Encrypted vault + salt | Passphrase AND image secret | 256+ bits of entropy. Infeasible. |
| Server breach + stolen image | Vault + image secret | Passphrase | Passphrase entropy through Argon2id. 4 diceware words = ~7 million years. |
| Shoulder-surfed passphrase | Passphrase | Image secret | 256 bits. Infeasible. |
| Stolen device | Image + vault | Passphrase | Argon2id brute-force. Strong passphrase = safe. |
No single point of failure. The two-factor design means the passphrase alone can't decrypt the vault, and the image alone can't decrypt the vault.
Compared to
| Server breach entropy | KDF factors | |
|---|---|---|
| LastPass | ~40-60 bits (master password only) | 1 |
| Bitwarden | ~40-60 bits (master password only) | 1 |
| 1Password | password + 128-bit Secret Key | 2 |
| Relicario | password + 256-bit image secret | 2 |
What we don't protect against
- A compromised device with active malware. No software password manager can.
- Weak passphrases with a stolen reference image. Use 4+ diceware words.
- Rubber-hose cryptanalysis.
Quick start
# Build from source
cargo build --release
# Create a vault (pick any JPEG as the carrier)
relicario init --image vacation.jpg --output reference.jpg
# Add a credential
relicario add
# Retrieve it
relicario get github
# List everything
relicario list
# Sync with your git remote
relicario sync
# Generate a random password
relicario generate -l 32
Environment variable
Set RELICARIO_IMAGE=/path/to/reference.jpg to avoid being prompted for the image path on every command.
The reference image
The reference JPEG is generated once during relicario init. It looks like a normal photo — because it is one. The 256-bit secret is embedded in the DCT coefficients of the luminance channel using Quantization Index Modulation, with heavy redundancy and Reed-Solomon-style majority voting across multiple copies.
The embedding survives:
- JPEG recompression (tested down to quality 85)
- Up to ~10-15% cropping from any edge
- Social media re-encoding (Instagram, Discord, etc.)
This means your reference image can live on your Instagram, your personal website, or anywhere else. It's useless without your passphrase.
Architecture
relicario/
├── crates/
│ ├── relicario-core/ # Platform-agnostic library (no filesystem, no network)
│ │ ├── crypto.rs # Argon2id KDF + XChaCha20-Poly1305 AEAD
│ │ ├── imgsecret.rs # DCT steganography: embed/extract 256-bit secrets in JPEGs
│ │ ├── item.rs # Item, Field, Manifest data model (serde)
│ │ ├── item_types/ # Per-type cores (Login, SecureNote, Card, Identity, Key, Document, Totp)
│ │ ├── attachment.rs # Encrypted attachment helpers (content-addressed)
│ │ ├── settings.rs # VaultSettings (retention, generator defaults, caps)
│ │ ├── backup.rs # `.relbak` encrypted-backup envelope
│ │ ├── device.rs # ed25519 device keys + revocation entries
│ │ └── vault.rs # Encrypt/decrypt items, manifest, settings
│ ├── relicario-cli/ # CLI binary: filesystem, git, terminal I/O
│ ├── relicario-wasm/ # Thin wasm-bindgen wrapper for the browser extension
│ └── relicario-server/ # Pre-receive hook: device-signature verification
├── extension/ # Chrome MV3 / Firefox WebExtension (TypeScript)
└── docs/
├── ARCHITECTURE.md # System overview + flow diagrams
├── SECURITY.md # Manifest integrity model + threat notes
├── architecture/ # Cross-codebase + per-codebase architecture docs
└── superpowers/
└── specs/ # Design specifications with full threat model
relicario-core takes bytes and returns bytes. It has no knowledge of filesystems, git, or networks. This makes it portable to WASM (browser extension), Android (JNI), and iOS (Swift bridge).
Crypto primitives
| Primitive | Purpose | Why this one |
|---|---|---|
| Argon2id (64 MiB, 3 iter, 4 parallel) | Key derivation from passphrase + image secret | Memory-hard, GPU-resistant, OWASP recommended |
| XChaCha20-Poly1305 | Authenticated encryption of vault entries | 192-bit nonce (no collision risk), fast in WASM/ARM without AES-NI |
| ed25519 | Device key signing | Per-device commit authorization, revocable without KDF rotation |
Encrypted file format
version (1 byte) | nonce (24 bytes) | ciphertext (variable) | auth tag (16 bytes)
Every write generates a fresh random nonce. The version byte allows future format changes.
Vault layout
my-vault.git/
├── manifest.enc # Encrypted item index (names, URLs, timestamps)
├── settings.enc # Encrypted vault settings (retention, caps, generator defaults)
├── items/
│ ├── a1b2c3d4e5f6a7b8.enc # One encrypted item per file
│ └── …
├── attachments/
│ └── <item-id>/
│ └── <aid>.enc # Content-addressed encrypted attachment blob
└── .relicario/
├── salt # 32-byte random salt (not secret)
├── params.json # KDF parameters
├── devices.json # Authorized device public keys
└── revoked.json # Revoked device records (when device auth is enabled)
Item IDs are random 16-char hex strings (64 bits of entropy). Git history is preserved — every add/edit/delete is a commit. "When was this password last rotated?" is answered by git log and by the per-item field history.
Device management
Each device generates its own ed25519 keypair. The public key is stored in .relicario/devices.json (committed to the repo). Device keys are used for commit signing — they do NOT participate in vault decryption.
Revoking a device: remove its key from devices.json and commit. No passphrase or reference image rotation needed.
relicario device add --name laptop
relicario device list
relicario device revoke laptop
Building
Requires Rust stable (1.70+).
git clone ssh://git@git.adlee.work:2222/alee/relicario.git
cd relicario
cargo build --release
cargo test
The binary is at target/release/relicario.
Roadmap
- WASM build + Chrome MV3 browser extension (inline crypto, no native messaging)
- Firefox WebExtension build
- Typed items: Login, SecureNote, Identity, Card, Key, Document, TOTP
- Secure document storage (encrypted file attachments)
- Backup & restore (
.relbakencrypted envelope) - LastPass CSV import
- Device authentication (ed25519 commit signing + pre-receive hook)
- Import from Bitwarden / 1Password
relicario unlockdaemon (ssh-agent-style, holds master key for a TTL)- Android/iOS clients (Rust core compiles to ARM)
- Safari extension
License
MIT
Built by Aaron Lee. Design spec and threat model in docs/superpowers/specs/.