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compare: MarketTakers:b22be1627ac9b0517820beed6edd5d98cde7aea3
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MarketTakers:main MarketTakers:feat-shamir MarketTakers:enforcing-integrity MarketTakers:push-wxnlsulvnrpz MarketTakers:check-uac-cerf MarketTakers:impl-useragent_delete_grant MarketTakers:Client-key-replacement-attack MarketTakers:critical-fix-CI-check-all-features MarketTakers:win-service MarketTakers:fix-proto-build-script MarketTakers:terrors-refactor MarketTakers:PoC-terrors MarketTakers:push-lspnytwuyulm MarketTakers:key-alternative MarketTakers:push-yyxvkwvyspxv MarketTakers:security-breaktrougth

27 Commits
feat-shami ... b22be1627a

Author SHA1 Message Date
hdbg
b22be1627a refactor(transport): implemented Bi stream based abstraction for actor communication with next loop override
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2026-02-26 18:17:52 +01:00
hdbg
fe8c5e1bd2 housekeeping(useragent): rename
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2026-02-21 13:54:47 +01:00
hdbg
cbbe1f8881 feat(proto): add URL parsing and TLS certificate management 2026-02-18 14:09:58 +01:00
hdbg
7438d62695 misc: create license and readme 2026-02-17 22:20:30 +01:00
hdbg
4236f2c36d refactor(server): reogranized actors, context, and db modules into <dir>/mod.rs structure
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2026-02-16 22:29:48 +01:00
hdbg
76ff535619 refactor(server::tests): moved integration-like tests into tests/ 2026-02-16 22:27:59 +01:00
hdbg
b3566c8af6 refactor(server): separated global actors into their own handle 2026-02-16 21:58:14 +01:00
hdbg
bdb9f01757 refactor(server): actors reorganization & linter fixes 2026-02-16 21:43:59 +01:00
hdbg
0805e7a846 feat(keyholder): add seal method and unseal integration tests 2026-02-16 21:38:29 +01:00
hdbg
eb9cbc88e9 feat(server::user-agent): Unseal implemented 2026-02-16 21:17:06 +01:00
hdbg
dd716da4cd test(keyholder): remove unused imports from test modules 2026-02-16 21:15:13 +01:00
hdbg
1545db7428 fix(ci): add protoc installation for lints
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2026-02-16 21:14:55 +01:00
hdbg
20ac84b60c fix(ci): add clippy installation in mise.toml
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2026-02-16 21:04:13 +01:00
hdbg
8f6dda871b refactor(actors): rename BootstrapActor to Bootstrapper 2026-02-16 21:01:53 +01:00
hdbg
47108ed8ad chore(supply-chain): update cargo-vet audits and trusted publishers
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2026-02-16 20:52:31 +01:00
hdbg
359df73c2e feat(server::key_holder): unique index on (root_key_id, nonce) to avoid nonce reuse 2026-02-16 20:45:15 +01:00
hdbg
ce03b7e15d feat(server::key_holder): ability to remotely get current state 2026-02-16 20:40:36 +01:00
hdbg
e4038d9188 refactor(keyholder): rename KeyHolderActor to KeyHolder and optimize db connection lifetime 2026-02-16 20:36:47 +01:00
hdbg
c82339d764 security(server::key_holder): replaced nonce-caching with exclusive transaction fetching nonce from the database 2026-02-16 18:23:25 +01:00
hdbg
c5b51f4b70 feat(server): UserAgent seal/unseal
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2026-02-16 14:00:23 +01:00
hdbg
6b8f8c9ff7 feat(unseal): add unseal protocol support for user agents 2026-02-15 13:04:55 +01:00
hdbg
8263bc6b6f feat(server): boot mechanism 2026-02-15 01:44:12 +01:00
hdbg
a6c849f268 ci: add server linting pipeline for Rust code quality checks 2026-02-14 23:44:16 +01:00
hdbg
d8d65da0b4 test(user-agent): add challenge-response auth flow test 2026-02-14 23:43:36 +01:00
hdbg
abdf4e3893 tests(server): UserAgent invalid bootstrap token 2026-02-14 19:48:37 +01:00
hdbg
4bac70a6e9 security(server): cargo-vet proper init
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2026-02-14 19:16:09 +01:00
hdbg
54a41743be housekeeping(server): trimmed-down dependencies 2026-02-14 19:04:50 +01:00
427 changed files with 3507 additions and 69585 deletions
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11
.claude/memory/feedback_widget_decomposition.md
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---
name: Widget decomposition and provider subscriptions
description: Prefer splitting screens into multiple focused files/widgets; each widget subscribes to its own relevant providers
type: feedback
---
Split screens into multiple smaller widgets across multiple files. Each widget should subscribe only to the providers it needs (`ref.watch` at lowest possible level), rather than having one large screen widget that watches everything and passes data down as parameters.
**Why:** Reduces unnecessary rebuilds; improves readability; each file has one clear responsibility.
**How to apply:** When building a new screen, identify which sub-widgets need their own provider subscriptions and extract them into separate files (e.g., `widgets/grant_card.dart` watches enrichment providers itself, rather than the screen doing it and passing resolved strings down).

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.gitignore vendored
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target/
scripts/__pycache__/
.DS_Store
.cargo/config.toml
.vscode/
docs/superpowers
target/

3
.vscode/settings.json vendored Normal file
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@@ -0,0 +1,3 @@
{
"git.enabled": false
}

2
.woodpecker/server-lint.yaml
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@@ -22,4 +22,4 @@ steps:
- apt-get update && apt-get install -y pkg-config
- mise install rust
- mise install protoc
- mise exec rust -- cargo clippy --all -- -D warnings
- mise exec rust -- cargo clippy --all-targets --all-features -- -D warnings

2
.woodpecker/server-test.yaml
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@@ -24,4 +24,4 @@ steps:
- mise install rust
- mise install protoc
- mise install cargo:cargo-nextest
- mise exec cargo:cargo-nextest -- cargo nextest run --no-fail-fast --all-features
- mise exec cargo:cargo-nextest -- cargo nextest run --no-fail-fast

18
.woodpecker/useragent-analyze.yaml
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@@ -1,18 +0,0 @@
when:
- event: pull_request
path:
include: ['.woodpecker/useragent-*.yaml', 'useragent/**']
- event: push
branch: main
path:
include: ['.woodpecker/useragent-*.yaml', 'useragent/**']
steps:
- name: analyze
image: jdxcode/mise:latest
commands:
- mise install flutter
- mise install protoc
# Reruns codegen to catch protocol drift
- mise codegen
- cd useragent/ && flutter analyze

149
AGENTS.md
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# AGENTS.md
This file provides guidance to Codex (Codex.ai/code) when working with code in this repository.
## Project Overview
Arbiter is a **permissioned signing service** for cryptocurrency wallets. It consists of:
- **`server/`** — Rust gRPC daemon that holds encrypted keys and enforces policies
- **`operator/`** — Flutter desktop app (macOS/Windows) with a Rust backend via Rinf
- **`protobufs/`** — Protocol Buffer definitions shared between server and client
The vault never exposes key material; it only produces signatures when requests satisfy configured policies.
## Toolchain Setup
Tools are managed via [mise](https://mise.jdx.dev/). Install all required tools:
```sh
mise install
```
Key versions: Rust 1.93.0 (with clippy), Flutter 3.38.9-stable, protoc 29.6, diesel_cli 2.3.6 (sqlite).
## Server (Rust workspace at `server/`)
### Crates
| Crate | Purpose |
|---|---|
| `arbiter-proto` | Generated gRPC stubs + protobuf types; compiled from `protobufs/*.proto` via `tonic-prost-build` |
| `arbiter-server` | Main daemon — actors, DB, EVM policy engine, gRPC service implementation |
| `arbiter-operator` | Rust client library for the operator side of the gRPC protocol |
| `arbiter-client` | Rust client library for SDK clients |
### Common Commands
```sh
cd server
# Build
cargo build
# Run the server daemon
cargo run -p arbiter-server
# Run all tests (preferred over cargo test)
cargo nextest run
# Run a single test
cargo nextest run <test_name>
# Lint
cargo clippy
# Security audit
cargo audit
# Check unused dependencies
cargo shear
# Run snapshot tests and update snapshots
cargo insta review
```
### Architecture
The server is actor-based using the **kameo** crate. All long-lived state lives in `GlobalActors`:
- **`Bootstrapper`** — Manages the one-time bootstrap token written to `~/.arbiter/bootstrap_token` on first run.
- **`Vault`** — Holds the encrypted root key and manages the Sealed/Unsealed vault state machine. On unseal, decrypts the root key into a `memsafe` hardened memory cell.
- **`FlowCoordinator`** — Coordinates cross-connection flow between operators and SDK clients.
- **`EvmActor`** — Handles EVM transaction policy enforcement and signing.
Per-connection actors live under `actors/operator/` and `actors/client/`, each with `auth` (challenge-response authentication) and `session` (post-auth operations) sub-modules.
**Database:** SQLite via `diesel-async` + `bb8` connection pool. Schema managed by embedded Diesel migrations in `crates/arbiter-server/migrations/`. DB file lives at `~/.arbiter/arbiter.sqlite`. Tests use a temp-file DB via `db::create_test_pool()`.
**Cryptography:**
- Authentication: ed25519 (challenge-response, nonce-tracked per peer)
- Encryption at rest: XChaCha20-Poly1305 (versioned via `scheme` field for transparent migration on unseal)
- Password KDF: Argon2
- Unseal transport: X25519 ephemeral key exchange
- TLS: self-signed certificate (aws-lc-rs backend), fingerprint distributed via `ArbiterUrl`
**Protocol:** gRPC with Protocol Buffers. The `ArbiterUrl` type encodes host, port, CA cert, and bootstrap token into a single shareable string (printed to console on first run).
### Proto Regeneration
When `.proto` files in `protobufs/` change, rebuild to regenerate:
```sh
cd server && cargo build -p arbiter-proto
```
### Database Migrations
```sh
# Create a new migration
diesel migration generate <name> --migration-dir crates/arbiter-server/migrations
# Run migrations manually (server also runs them on startup)
diesel migration run --migration-dir crates/arbiter-server/migrations
```
### Code Conventions
**`#[must_use]` Attribute:**
Apply the `#[must_use]` attribute to return types of functions where the return value is critical and should not be accidentally ignored. This is commonly used for:
- Methods that return `bool` indicating success/failure or validation state
- Any function where ignoring the return value indicates a logic error
Do not apply `#[must_use]` redundantly to items (types or functions) that are already annotated with `#[must_use]`.
Example:
```rust
#[must_use]
pub fn verify(&self, nonce: i32, context: &[u8], signature: &Signature) -> bool {
// verification logic
}
```
This forces callers to either use the return value or explicitly ignore it with `let _ = ...;`, preventing silent failures.
## Operator (Flutter + Rinf at `operator/`)
The Flutter app uses [Rinf](https://rinf.cunarist.org) to call Rust code. The Rust logic lives in `operator/native/hub/` as a separate crate that uses `arbiter-operator` for the gRPC client.
Communication between Dart and Rust uses typed **signals** defined in `operator/native/hub/src/signals/`. After modifying signal structs, regenerate Dart bindings:
```sh
cd operator && rinf gen
```
### Common Commands
```sh
cd operator
# Run the app (macOS or Windows)
flutter run
# Regenerate Rust↔Dart signal bindings
rinf gen
# Analyze Dart code
flutter analyze
```
The Rinf Rust entry point is `operator/native/hub/src/lib.rs`. It spawns actors defined in `operator/native/hub/src/actors/` which handle Dart↔server communication via signals.

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ARCHITECTURE.md Normal file
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# Arbiter
Arbiter is a permissioned signing service for cryptocurrency wallets. It runs as a background service on the user's machine with an optional client application for vault management.
**Core principle:** The vault NEVER exposes key material. It only produces signatures when a request satisfies the configured policies.
---
## 1. Peer Types
Arbiter distinguishes two kinds of peers:
- **User Agent** — A client application used by the owner to manage the vault (create wallets, approve SDK clients, configure policies).
- **SDK Client** — A consumer of signing capabilities, typically an automation tool. In the future, this could include a browser-based wallet.
---
## 2. Authentication
### 2.1 Challenge-Response
All peers authenticate via public-key cryptography using a challenge-response protocol:
1. The peer sends its public key and requests a challenge.
2. The server looks up the key in its database. If found, it increments the nonce and returns a challenge (replay-attack protection).
3. The peer signs the challenge with its private key and sends the signature back.
4. The server verifies the signature:
- **Pass:** The connection is considered authenticated.
- **Fail:** The server closes the connection.
### 2.2 User Agent Bootstrap
On first run — when no User Agents are registered — the server generates a one-time bootstrap token. It is made available in two ways:
- **Local setup:** Written to `~/.arbiter/bootstrap_token` for automatic discovery by a co-located User Agent.
- **Remote setup:** Printed to the server's console output.
The first User Agent must present this token alongside the standard challenge-response to complete registration.
### 2.3 SDK Client Registration
There is no bootstrap mechanism for SDK clients. They must be explicitly approved by an already-registered User Agent.
---
## 3. Server Identity
The server proves its identity using TLS with a self-signed certificate. The TLS private key is generated on first run and is long-term; no rotation mechanism exists yet due to the complexity of multi-peer coordination.
Peers verify the server by its **public key fingerprint**:
- **User Agent (local):** Receives the fingerprint automatically through the bootstrap token.
- **User Agent (remote) / SDK Client:** Must receive the fingerprint out-of-band.
> A streamlined setup mechanism using a single connection string is planned but not yet implemented.
---
## 4. Key Management
### 4.1 Key Hierarchy
There are three layers of keys:
| Key | Encrypts | Encrypted by |
|---|---|---|
| **User key** (password) | Root key | — (derived from user input) |
| **Root key** | Wallet keys | User key |
| **Wallet keys** | — (used for signing) | Root key |
This layered design enables:
- **Password rotation** without re-encrypting every wallet key (only the root key is re-encrypted).
- **Root key rotation** without requiring the user to change their password.
### 4.2 Encryption at Rest
The database stores everything in encrypted form using symmetric AEAD. The encryption scheme is versioned to support transparent migration — when the vault unseals, Arbiter automatically re-encrypts any entries that are behind the current scheme version. See [IMPLEMENTATION.md](IMPLEMENTATION.md) for the specific scheme and versioning mechanism.
---
## 5. Vault Lifecycle
### 5.1 Sealed State
On boot, the root key is encrypted and the server cannot perform any signing operations. This state is called **Sealed**.
### 5.2 Unseal Flow
To transition to the **Unsealed** state, a User Agent must provide the password:
1. The User Agent initiates an unseal request.
2. The server generates a one-time key pair and returns the public key.
3. The User Agent encrypts the user's password with this one-time public key and sends the ciphertext to the server.
4. The server decrypts and verifies the password:
- **Success:** The root key is decrypted and placed into a hardened memory cell. The server transitions to `Unsealed`. Any entries pending encryption scheme migration are re-encrypted.
- **Failure:** The server returns an error indicating the password is incorrect.
### 5.3 Memory Protection
Once unsealed, the root key must be protected in memory against:
- Memory dumps
- Page swaps to disk
- Hibernation files
See [IMPLEMENTATION.md](IMPLEMENTATION.md) for the current and planned memory protection approaches.
---
## 6. Permission Engine
### 6.1 Fundamental Rules
- SDK clients have **no access by default**.
- Access is granted **explicitly** by a User Agent.
- Grants are scoped to **specific wallets** and governed by **policies**.
Each blockchain requires its own policy system due to differences in static transaction analysis. Currently, only EVM is supported; Solana support is planned.
Arbiter is also responsible for ensuring that **transaction nonces are never reused**.
### 6.2 EVM Policies
Every EVM grant is scoped to a specific **wallet** and **chain ID**.
#### 6.2.1 Transaction Sub-Grants
Arbiter maintains an ever-expanding database of known contracts and their ABIs. Based on contract knowledge, transaction requests fall into three categories:
**1. Known contract (ABI available)**
The transaction can be decoded and presented with semantic meaning. For example: *"Client X wants to transfer Y USDT to address Z."*
Available restrictions:
- Volume limits (e.g., "no more than 10,000 tokens ever")
- Rate limits (e.g., "no more than 100 tokens per hour")
**2. Unknown contract (no ABI)**
The transaction cannot be decoded, so its effects are opaque — it could do anything, including draining all tokens. The user is warned, and if approved, access is granted to all interactions with the contract (matched by the `to` field).
Available restrictions:
- Transaction count limits (e.g., "no more than 100 transactions ever")
- Rate limits (e.g., "no more than 5 transactions per hour")
**3. Plain ether transfer (no calldata)**
These transactions have no `calldata` and therefore cannot interact with contracts. They can be subject to the same volume and rate restrictions as above.
#### 6.2.2 Global Limits
In addition to sub-grant-specific restrictions, the following limits can be applied across all grant types:
- **Gas limit** — Maximum gas per transaction.
- **Time-window restrictions** — e.g., signing allowed only 08:0020:00 on Mondays and Thursdays.

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CLAUDE.md
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Refer to @AGENTS.md for instructions.

35
IMPLEMENTATION.md Normal file
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# Implementation Details
This document covers concrete technology choices and dependencies. For the architectural design, see [ARCHITECTURE.md](ARCHITECTURE.md).
---
## Cryptography
### Authentication
- **Signature scheme:** ed25519
### Encryption at Rest
- **Scheme:** Symmetric AEAD — currently **XChaCha20-Poly1305**
- **Version tracking:** Each `aead_encrypted` database entry carries a `scheme` field denoting the version, enabling transparent migration on unseal
### Server Identity
- **Transport:** TLS with a self-signed certificate
- **Key type:** Generated on first run; long-term (no rotation mechanism yet)
---
## Communication
- **Protocol:** gRPC with Protocol Buffers
- **Server identity distribution:** `ServerInfo` protobuf struct containing the TLS public key fingerprint
- **Future consideration:** grpc-web lacks bidirectional stream support, so a browser-based wallet may require protojson over WebSocket
---
## Memory Protection
The unsealed root key must be held in a hardened memory cell resistant to dumps, page swaps, and hibernation.
- **Current:** Using the `memsafe` crate as an interim solution
- **Planned:** Custom implementation based on `mlock` (Unix) and `VirtualProtect` (Windows)

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README.md
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## Security warning
Arbiter can't meaningfully protect against host compromise. Potential attack flow:
- Attacker steals TLS keys from database
- Pretends to be server; just accepts operator challenge solutions
- Pretends to be server; just accepts user agent challenge solutions
- Pretend to be in sealed state and performing DH with client
- Steals user password and derives seal key

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app/.dart_tool/extension_discovery/README.md
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Extension Discovery Cache
=========================
This folder is used by `package:extension_discovery` to cache lists of
packages that contains extensions for other packages.
DO NOT USE THIS FOLDER
----------------------
* Do not read (or rely) the contents of this folder.
* Do write to this folder.
If you're interested in the lists of extensions stored in this folder use the
API offered by package `extension_discovery` to get this information.
If this package doesn't work for your use-case, then don't try to read the
contents of this folder. It may change, and will not remain stable.
Use package `extension_discovery`
---------------------------------
If you want to access information from this folder.
Feel free to delete this folder
-------------------------------
Files in this folder act as a cache, and the cache is discarded if the files
are older than the modification time of `.dart_tool/package_config.json`.
Hence, it should never be necessary to clear this cache manually, if you find a
need to do please file a bug.

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{"version":2,"entries":[{"package":"app","rootUri":"../","packageUri":"lib/"}]}

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app/.dart_tool/package_config.json
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@@ -1,178 +0,0 @@
{
"configVersion": 2,
"packages": [
{
"name": "async",
"rootUri": "file:///Users/kaska/.pub-cache/hosted/pub.dev/async-2.13.0",
"packageUri": "lib/",
"languageVersion": "3.4"
},
{
"name": "boolean_selector",
"rootUri": "file:///Users/kaska/.pub-cache/hosted/pub.dev/boolean_selector-2.1.2",
"packageUri": "lib/",
"languageVersion": "3.1"
},
{
"name": "characters",
"rootUri": "file:///Users/kaska/.pub-cache/hosted/pub.dev/characters-1.4.0",
"packageUri": "lib/",
"languageVersion": "3.4"
},
{
"name": "clock",
"rootUri": "file:///Users/kaska/.pub-cache/hosted/pub.dev/clock-1.1.2",
"packageUri": "lib/",
"languageVersion": "3.4"
},
{
"name": "collection",
"rootUri": "file:///Users/kaska/.pub-cache/hosted/pub.dev/collection-1.19.1",
"packageUri": "lib/",
"languageVersion": "3.4"
},
{
"name": "cupertino_icons",
"rootUri": "file:///Users/kaska/.pub-cache/hosted/pub.dev/cupertino_icons-1.0.8",
"packageUri": "lib/",
"languageVersion": "3.1"
},
{
"name": "fake_async",
"rootUri": "file:///Users/kaska/.pub-cache/hosted/pub.dev/fake_async-1.3.3",
"packageUri": "lib/",
"languageVersion": "3.3"
},
{
"name": "flutter",
"rootUri": "file:///Users/kaska/.local/share/mise/installs/flutter/3.38.9-stable/packages/flutter",
"packageUri": "lib/",
"languageVersion": "3.8"
},
{
"name": "flutter_lints",
"rootUri": "file:///Users/kaska/.pub-cache/hosted/pub.dev/flutter_lints-6.0.0",
"packageUri": "lib/",
"languageVersion": "3.8"
},
{
"name": "flutter_test",
"rootUri": "file:///Users/kaska/.local/share/mise/installs/flutter/3.38.9-stable/packages/flutter_test",
"packageUri": "lib/",
"languageVersion": "3.8"
},
{
"name": "leak_tracker",
"rootUri": "file:///Users/kaska/.pub-cache/hosted/pub.dev/leak_tracker-11.0.2",
"packageUri": "lib/",
"languageVersion": "3.2"
},
{
"name": "leak_tracker_flutter_testing",
"rootUri": "file:///Users/kaska/.pub-cache/hosted/pub.dev/leak_tracker_flutter_testing-3.0.10",
"packageUri": "lib/",
"languageVersion": "3.2"
},
{
"name": "leak_tracker_testing",
"rootUri": "file:///Users/kaska/.pub-cache/hosted/pub.dev/leak_tracker_testing-3.0.2",
"packageUri": "lib/",
"languageVersion": "3.2"
},
{
"name": "lints",
"rootUri": "file:///Users/kaska/.pub-cache/hosted/pub.dev/lints-6.1.0",
"packageUri": "lib/",
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{
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{
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"packageUri": "lib/",
"languageVersion": "2.17"
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{
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"packageUri": "lib/",
"languageVersion": "3.5"
},
{
"name": "path",
"rootUri": "file:///Users/kaska/.pub-cache/hosted/pub.dev/path-1.9.1",
"packageUri": "lib/",
"languageVersion": "3.4"
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{
"name": "sky_engine",
"rootUri": "file:///Users/kaska/.local/share/mise/installs/flutter/3.38.9-stable/bin/cache/pkg/sky_engine",
"packageUri": "lib/",
"languageVersion": "3.8"
},
{
"name": "source_span",
"rootUri": "file:///Users/kaska/.pub-cache/hosted/pub.dev/source_span-1.10.2",
"packageUri": "lib/",
"languageVersion": "3.1"
},
{
"name": "stack_trace",
"rootUri": "file:///Users/kaska/.pub-cache/hosted/pub.dev/stack_trace-1.12.1",
"packageUri": "lib/",
"languageVersion": "3.4"
},
{
"name": "stream_channel",
"rootUri": "file:///Users/kaska/.pub-cache/hosted/pub.dev/stream_channel-2.1.4",
"packageUri": "lib/",
"languageVersion": "3.3"
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{
"name": "string_scanner",
"rootUri": "file:///Users/kaska/.pub-cache/hosted/pub.dev/string_scanner-1.4.1",
"packageUri": "lib/",
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{
"name": "term_glyph",
"rootUri": "file:///Users/kaska/.pub-cache/hosted/pub.dev/term_glyph-1.2.2",
"packageUri": "lib/",
"languageVersion": "3.1"
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{
"name": "test_api",
"rootUri": "file:///Users/kaska/.pub-cache/hosted/pub.dev/test_api-0.7.7",
"packageUri": "lib/",
"languageVersion": "3.5"
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{
"name": "vector_math",
"rootUri": "file:///Users/kaska/.pub-cache/hosted/pub.dev/vector_math-2.2.0",
"packageUri": "lib/",
"languageVersion": "3.1"
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{
"name": "vm_service",
"rootUri": "file:///Users/kaska/.pub-cache/hosted/pub.dev/vm_service-15.0.2",
"packageUri": "lib/",
"languageVersion": "3.5"
},
{
"name": "app",
"rootUri": "../",
"packageUri": "lib/",
"languageVersion": "3.10"
}
],
"generator": "pub",
"generatorVersion": "3.10.8",
"flutterRoot": "file:///Users/kaska/.local/share/mise/installs/flutter/3.38.9-stable",
"flutterVersion": "3.38.9",
"pubCache": "file:///Users/kaska/.pub-cache"
}

230
app/.dart_tool/package_graph.json
View File

@@ -1,230 +0,0 @@
{
"roots": [
"app"
],
"packages": [
{
"name": "app",
"version": "1.0.0+1",
"dependencies": [
"cupertino_icons",
"flutter"
],
"devDependencies": [
"flutter_lints",
"flutter_test"
]
},
{
"name": "flutter_lints",
"version": "6.0.0",
"dependencies": [
"lints"
]
},
{
"name": "flutter_test",
"version": "0.0.0",
"dependencies": [
"clock",
"collection",
"fake_async",
"flutter",
"leak_tracker_flutter_testing",
"matcher",
"meta",
"path",
"stack_trace",
"stream_channel",
"test_api",
"vector_math"
]
},
{
"name": "cupertino_icons",
"version": "1.0.8",
"dependencies": []
},
{
"name": "flutter",
"version": "0.0.0",
"dependencies": [
"characters",
"collection",
"material_color_utilities",
"meta",
"sky_engine",
"vector_math"
]
},
{
"name": "lints",
"version": "6.1.0",
"dependencies": []
},
{
"name": "stream_channel",
"version": "2.1.4",
"dependencies": [
"async"
]
},
{
"name": "meta",
"version": "1.17.0",
"dependencies": []
},
{
"name": "collection",
"version": "1.19.1",
"dependencies": []
},
{
"name": "leak_tracker_flutter_testing",
"version": "3.0.10",
"dependencies": [
"flutter",
"leak_tracker",
"leak_tracker_testing",
"matcher",
"meta"
]
},
{
"name": "vector_math",
"version": "2.2.0",
"dependencies": []
},
{
"name": "stack_trace",
"version": "1.12.1",
"dependencies": [
"path"
]
},
{
"name": "clock",
"version": "1.1.2",
"dependencies": []
},
{
"name": "fake_async",
"version": "1.3.3",
"dependencies": [
"clock",
"collection"
]
},
{
"name": "path",
"version": "1.9.1",
"dependencies": []
},
{
"name": "matcher",
"version": "0.12.17",
"dependencies": [
"async",
"meta",
"stack_trace",
"term_glyph",
"test_api"
]
},
{
"name": "test_api",
"version": "0.7.7",
"dependencies": [
"async",
"boolean_selector",
"collection",
"meta",
"source_span",
"stack_trace",
"stream_channel",
"string_scanner",
"term_glyph"
]
},
{
"name": "sky_engine",
"version": "0.0.0",
"dependencies": []
},
{
"name": "material_color_utilities",
"version": "0.11.1",
"dependencies": [
"collection"
]
},
{
"name": "characters",
"version": "1.4.0",
"dependencies": []
},
{
"name": "async",
"version": "2.13.0",
"dependencies": [
"collection",
"meta"
]
},
{
"name": "leak_tracker_testing",
"version": "3.0.2",
"dependencies": [
"leak_tracker",
"matcher",
"meta"
]
},
{
"name": "leak_tracker",
"version": "11.0.2",
"dependencies": [
"clock",
"collection",
"meta",
"path",
"vm_service"
]
},
{
"name": "term_glyph",
"version": "1.2.2",
"dependencies": []
},
{
"name": "string_scanner",
"version": "1.4.1",
"dependencies": [
"source_span"
]
},
{
"name": "source_span",
"version": "1.10.2",
"dependencies": [
"collection",
"path",
"term_glyph"
]
},
{
"name": "boolean_selector",
"version": "2.1.2",
"dependencies": [
"source_span",
"string_scanner"
]
},
{
"name": "vm_service",
"version": "15.0.2",
"dependencies": []
}
],
"configVersion": 1
}

1
app/.dart_tool/version
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@@ -1 +0,0 @@
3.38.9

11
app/macos/Flutter/ephemeral/Flutter-Generated.xcconfig
View File

@@ -1,11 +0,0 @@
// This is a generated file; do not edit or check into version control.
FLUTTER_ROOT=/Users/kaska/.local/share/mise/installs/flutter/3.38.9-stable
FLUTTER_APPLICATION_PATH=/Users/kaska/Documents/Projects/Major/arbiter/app
COCOAPODS_PARALLEL_CODE_SIGN=true
FLUTTER_BUILD_DIR=build
FLUTTER_BUILD_NAME=1.0.0
FLUTTER_BUILD_NUMBER=1
DART_OBFUSCATION=false
TRACK_WIDGET_CREATION=true
TREE_SHAKE_ICONS=false
PACKAGE_CONFIG=.dart_tool/package_config.json

12
app/macos/Flutter/ephemeral/flutter_export_environment.sh
View File

@@ -1,12 +0,0 @@
#!/bin/sh
# This is a generated file; do not edit or check into version control.
export "FLUTTER_ROOT=/Users/kaska/.local/share/mise/installs/flutter/3.38.9-stable"
export "FLUTTER_APPLICATION_PATH=/Users/kaska/Documents/Projects/Major/arbiter/app"
export "COCOAPODS_PARALLEL_CODE_SIGN=true"
export "FLUTTER_BUILD_DIR=build"
export "FLUTTER_BUILD_NAME=1.0.0"
export "FLUTTER_BUILD_NUMBER=1"
export "DART_OBFUSCATION=false"
export "TRACK_WIDGET_CREATION=true"
export "TREE_SHAKE_ICONS=false"
export "PACKAGE_CONFIG=.dart_tool/package_config.json"

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docs/ARCHITECTURE.md
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@@ -1,334 +0,0 @@
# Arbiter
Arbiter is a permissioned signing service for cryptocurrency wallets. It runs as a background service on the user's machine with an optional client application for vault management.
**Core principle:** The vault NEVER exposes key material. It only produces signatures when a request satisfies the configured policies.
---
## 1. Peer Types
Arbiter distinguishes two kinds of peers:
- **Operator** — A client application used by the owner to manage the vault (create wallets, approve SDK clients, configure policies).
- **SDK Client** — A consumer of signing capabilities, typically an automation tool. In the future, this could include a browser-based wallet.
- **Recovery Operator** — A dormant recovery participant with narrowly scoped authority used only for custody recovery and operator replacement.
---
## 2. Authentication
### 2.1 Challenge-Response
All peers authenticate via public-key cryptography using a challenge-response protocol:
1. The peer sends its public key and requests a challenge.
2. The server looks up the key in its database. If found, it generates a fresh challenge from random bytes plus the current timestamp.
3. The peer signs the canonical challenge payload with its private key and sends the signature back.
4. The server verifies the signature:
- **Pass:** The connection is considered authenticated.
- **Fail:** The server closes the connection.
Authentication challenges are per-connection, ephemeral values. They are not persisted in the peer tables, and peer records store no challenge state.
### 2.2 Operator Bootstrap
On first run — when no Operators are registered — the server generates a one-time bootstrap token. It is made available in two ways:
- **Local setup:** Written to `~/.arbiter/bootstrap_token` for automatic discovery by a co-located Operator.
- **Remote setup:** Printed to the server's console output.
The first Operator must present this token alongside the standard challenge-response to complete registration.
### 2.3 SDK Client Registration
There is no bootstrap mechanism for SDK clients. They must be explicitly approved by an already-registered Operator.
---
## 3. Multi-Operator Governance
When more than one Operator is registered, the vault is treated as having multiple operators. In that mode, sensitive actions are governed by voting rather than by a single operator decision.
### 3.1 Voting Rules
Voting is based on the total number of registered operators:
- **1 operator:** no vote is needed; the single operator decides directly.
- **2 operators:** full consensus is required; both operators must approve.
- **3 or more operators:** quorum is `floor(N / 2) + 1`.
For a decision to count, the operator's approval or rejection must be signed by that operator's associated key. Unsigned votes, or votes that fail signature verification, are ignored.
Examples:
- **3 operators:** 2 approvals required
- **4 operators:** 3 approvals required
### 3.2 Actions Requiring a Vote
In multi-operator mode, a successful vote is required for:
- approving new SDK clients
- granting an SDK client visibility to a wallet
- approving a one-off transaction
- approving creation of a persistent grant
- approving operator replacement
- approving server updates
- updating Shamir secret-sharing parameters
### 3.3 Special Rule for Key Rotation
Key rotation always requires full quorum, regardless of the normal voting threshold.
This is stricter than ordinary governance actions because rotating the root key requires every operator to participate in coordinated share refresh/update steps. The root key itself is not redistributed directly, but each operator's share material must be changed consistently.
### 3.4 Root Key Custody
When the vault has multiple operators, the vault root key is protected using Shamir secret sharing.
The vault root key is encrypted in a way that requires reconstruction from user-held shares rather than from a single shared password.
For ordinary operators, the Shamir threshold matches the ordinary governance quorum. For example:
- **2 operators:** `2-of-2`
- **3 operators:** `2-of-3`
- **4 operators:** `3-of-4`
In practice, the Shamir share set also includes Recovery Operator shares. This means the effective Shamir parameters are computed over the combined share pool while keeping the same threshold. For example:
- **3 ordinary operators + 2 recovery shares:** `2-of-5`
This ensures that the normal custody threshold follows the ordinary operator quorum, while still allowing dormant recovery shares to exist for break-glass recovery flows.
### 3.5 Recovery Operators
Recovery Operators are a separate peer type from ordinary vault operators.
Their role is intentionally narrow. They can only:
- participate in unsealing the vault
- vote for operator replacement
Recovery Operators do not participate in routine governance such as approving SDK clients, granting wallet visibility, approving transactions, creating grants, approving server updates, or changing Shamir parameters.
### 3.6 Sleeping and Waking Recovery Operators
By default, Recovery Operators are **sleeping** and do not participate in any active flow.
Any ordinary operator may request that Recovery Operators **wake up**.
Any ordinary operator may also cancel a pending wake-up request.
This creates a dispute window before recovery powers become active. The default wake-up delay is **14 days**.
Recovery Operators are therefore part of the break-glass recovery path rather than the normal operating quorum.
The high-level recovery flow is:
```mermaid
sequenceDiagram
autonumber
actor Op as Ordinary Operator
participant Server
actor Other as Other Operator
actor Rec as Recovery Operator
Op->>Server: Request recovery wake-up
Server-->>Op: Wake-up pending
Note over Server: Default dispute window: 14 days
alt Wake-up cancelled during dispute window
Other->>Server: Cancel wake-up
Server-->>Op: Recovery cancelled
Server-->>Rec: Stay sleeping
else No cancellation for 14 days
Server-->>Rec: Wake up
Rec->>Server: Join recovery flow
critical Recovery authority
Rec->>Server: Participate in unseal
Rec->>Server: Vote on operator replacement
end
Server-->>Op: Recovery mode active
end
```
### 3.7 Committee Formation
There are two ways to form a multi-operator committee:
- convert an existing single-operator vault by adding new operators
- bootstrap an unbootstrapped vault directly into multi-operator mode
In both cases, committee formation is a coordinated process. Arbiter does not allow multi-operator custody to emerge implicitly from unrelated registrations.
### 3.8 Bootstrapping an Unbootstrapped Vault into Multi-Operator Mode
When an unbootstrapped vault is initialized as a multi-operator vault, the setup proceeds as follows:
1. An operator connects to the unbootstrapped vault using an Operator and the bootstrap token.
2. During bootstrap setup, that operator declares:
- the total number of ordinary operators
- the total number of Recovery Operators
3. The vault enters **multi-bootstrap mode**.
4. While in multi-bootstrap mode:
- every ordinary operator must connect with an Operator using the bootstrap token
- every Recovery Operator must also connect using the bootstrap token
- each participant is registered individually
- each participant's share is created and protected with that participant's credentials
5. The vault is considered fully bootstrapped only after all declared operator and recovery-share registrations have completed successfully.
This means the operator and recovery set is fixed at bootstrap completion time, based on the counts declared when multi-bootstrap mode was entered.
### 3.9 Special Bootstrap Constraint for Two-Operator Vaults
If a vault is declared with exactly **2 ordinary operators**, Arbiter requires at least **1 Recovery Operator** to be configured during bootstrap.
This prevents the worst-case custody failure in which a `2-of-2` operator set becomes permanently unrecoverable after loss of a single operator.
---
## 4. Server Identity
The server proves its identity using TLS with a self-signed certificate. The TLS private key is generated on first run and is long-term; no rotation mechanism exists yet due to the complexity of multi-peer coordination.
Peers verify the server by its **public key fingerprint**:
- **Operator (local):** Receives the fingerprint automatically through the bootstrap token.
- **Operator (remote) / SDK Client:** Must receive the fingerprint out-of-band.
> A streamlined setup mechanism using a single connection string is planned but not yet implemented.
---
## 5. Key Management
### 5.1 Key Hierarchy
There are three layers of keys:
| Key | Encrypts | Encrypted by |
|---|---|---|
| **User key** (password) | Root key | — (derived from user input) |
| **Root key** | Wallet keys | User key |
| **Wallet keys** | — (used for signing) | Root key |
This layered design enables:
- **Password rotation** without re-encrypting every wallet key (only the root key is re-encrypted).
- **Root key rotation** without requiring the user to change their password.
### 5.2 Encryption at Rest
The database stores everything in encrypted form using symmetric AEAD. The encryption scheme is versioned to support transparent migration — when the vault unseals, Arbiter automatically re-encrypts any entries that are behind the current scheme version. See [IMPLEMENTATION.md](IMPLEMENTATION.md) for the specific scheme and versioning mechanism.
---
## 6. Vault Lifecycle
### 6.1 Sealed State
On boot, the root key is encrypted and the server cannot perform any signing operations. This state is called **Sealed**.
### 6.2 Unseal Flow
To transition to the **Unsealed** state, an Operator must provide the password:
1. The Operator initiates an unseal request.
2. The server generates a one-time key pair and returns the public key.
3. The Operator encrypts the user's password with this one-time public key and sends the ciphertext to the server.
4. The server decrypts and verifies the password:
- **Success:** The root key is decrypted and placed into a hardened memory cell. The server transitions to `Unsealed`. Any entries pending encryption scheme migration are re-encrypted.
- **Failure:** The server returns an error indicating the password is incorrect.
### 6.3 Memory Protection
Once unsealed, the root key must be protected in memory against:
- Memory dumps
- Page swaps to disk
- Hibernation files
See [IMPLEMENTATION.md](IMPLEMENTATION.md) for the current and planned memory protection approaches.
---
## 7. Permission Engine
### 7.1 Fundamental Rules
- SDK clients have **no access by default**.
- Access is granted **explicitly** by an Operator.
- Grants are scoped to **specific wallets** and governed by **policies**.
Each blockchain requires its own policy system due to differences in static transaction analysis. Currently, only EVM is supported; Solana support is planned.
Arbiter is also responsible for ensuring that **transaction nonces are never reused**.
### 7.2 EVM Policies
Every EVM grant is scoped to a specific **wallet** and **chain ID**.
#### 7.2.0 Transaction Signing Sequence
The high-level interaction order is:
```mermaid
sequenceDiagram
autonumber
actor SDK as SDK Client
participant Server
participant operator as Operator
SDK->>Server: SignTransactionRequest
Server->>Server: Resolve wallet and wallet visibility
alt Visibility approval required
Server->>operator: Ask for wallet visibility approval
operator-->>Server: Vote result
end
Server->>Server: Evaluate transaction
Server->>Server: Load grant and limits context
alt Grant approval required
Server->>operator: Ask for execution / grant approval
operator-->>Server: Vote result
opt Create persistent grant
Server->>Server: Create and store grant
end
Server->>Server: Retry evaluation
end
critical Final authorization path
Server->>Server: Check limits and record execution
Server-->>Server: Signature or evaluation error
end
Server-->>SDK: Signature or error
```
#### 7.2.1 Transaction Sub-Grants
Arbiter maintains an ever-expanding database of known contracts and their ABIs. Based on contract knowledge, transaction requests fall into three categories:
**1. Known contract (ABI available)**
The transaction can be decoded and presented with semantic meaning. For example: *"Client X wants to transfer Y USDT to address Z."*
Available restrictions:
- Volume limits (e.g., "no more than 10,000 tokens ever")
- Rate limits (e.g., "no more than 100 tokens per hour")
**2. Unknown contract (no ABI)**
The transaction cannot be decoded, so its effects are opaque — it could do anything, including draining all tokens. The user is warned, and if approved, access is granted to all interactions with the contract (matched by the `to` field).
Available restrictions:
- Transaction count limits (e.g., "no more than 100 transactions ever")
- Rate limits (e.g., "no more than 5 transactions per hour")
**3. Plain ether transfer (no calldata)**
These transactions have no `calldata` and therefore cannot interact with contracts. They can be subject to the same volume and rate restrictions as above.
#### 7.2.2 Global Limits
In addition to sub-grant-specific restrictions, the following limits can be applied across all grant types:
- **Gas limit** — Maximum gas per transaction.
- **Time-window restrictions** — e.g., signing allowed only 08:0020:00 on Mondays and Thursdays.

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@@ -1,226 +0,0 @@
# Implementation Details
This document covers concrete technology choices and dependencies. For the architectural design, see [ARCHITECTURE.md](ARCHITECTURE.md).
---
## Client Connection Flow
### Authentication Result Semantics
Authentication no longer uses an implicit success-only response shape. Both `client` and `operator` return explicit auth status enums over the wire.
- **Client:** `AuthResult` may return `SUCCESS`, `INVALID_KEY`, `INVALID_SIGNATURE`, `APPROVAL_DENIED`, `NO_OPERATORS_ONLINE`, or `INTERNAL`
- **Operator:** `AuthResult` may return `SUCCESS`, `INVALID_KEY`, `INVALID_SIGNATURE`, `BOOTSTRAP_REQUIRED`, `TOKEN_INVALID`, or `INTERNAL`
This makes transport-level failures and actor/domain-level auth failures distinct:
- **Transport/protocol failures** are surfaced as stream/status errors
- **Authentication failures** are surfaced as successful protocol responses carrying an explicit auth status
Clients are expected to handle these status codes directly and present the concrete failure reason to the user.
### New Client Approval
When a client whose public key is not yet in the database connects, all connected operators are asked to approve the connection. The first operator to respond determines the outcome; remaining requests are cancelled via a watch channel.
```mermaid
flowchart TD
A([Client connects]) --> B[Receive AuthChallengeRequest]
B --> C{pubkey in DB?}
C -- yes --> G[Generate AuthChallenge]
C -- no --> E[Ask all Operators:\nClientConnectionRequest]
E --> F{First response}
F -- denied --> Z([Reject connection])
F -- approved --> F2[Cancel remaining\nOperator requests]
F2 --> F3[INSERT client]
F3 --> G
G --> H[Send AuthChallenge\ntimestamp + random bytes]
H --> I[Receive AuthChallengeSolution]
I --> K{Signature valid?}
K -- no --> Z
K -- yes --> J([Session started])
```
Auth challenges are generated from fresh random bytes plus a nanosecond timestamp. The server keeps the issued challenge only in the in-flight authentication state for that connection, then verifies the signature against the same canonical challenge payload.
The authentication schema stores peer identity, not replay counters:
- `program_client` stores the SDK client's public key, metadata binding, and timestamps.
- `operator_client` stores the Operator public key and timestamps.
- Neither table stores an authentication nonce, and challenge generation does not update either table.
---
## Cryptography
### Authentication
- **Client protocol:** ML-DSA
### User-Agent Authentication
Operator authentication supports multiple signature schemes because platform-provided "hardware-bound" keys do not expose a uniform algorithm across operating systems and hardware.
- **Supported schemes:** ML-DSA
- **Why:** Secure Enclave (MacOS) support them natively, on other platforms we could emulate while they roll-out
### Encryption at Rest
- **Scheme:** Symmetric AEAD — currently **XChaCha20-Poly1305**
- **Version tracking:** Each `aead_encrypted` database entry carries a `scheme` field denoting the version, enabling transparent migration on unseal
### Server Identity
- **Transport:** TLS with a self-signed certificate
- **Key type:** Generated on first run; long-term (no rotation mechanism yet)
---
## Communication
- **Protocol:** gRPC with Protocol Buffers
- **Request/response matching:** multiplexed over a single bidirectional stream using per-connection request IDs
- **Server identity distribution:** `ServerInfo` protobuf struct containing the TLS public key fingerprint
- **Future consideration:** grpc-web lacks bidirectional stream support, so a browser-based wallet may require protojson over WebSocket
### Request Multiplexing
Both `client` and `operator` connections support multiple in-flight requests over one gRPC bidi stream.
- Every request carries a monotonically increasing request ID
- Every normal response echoes the request ID it corresponds to
- Out-of-band server messages omit the response ID entirely
- The server rejects already-seen request IDs at the transport adapter boundary before business logic sees the message
This keeps request correlation entirely in transport/client connection code while leaving actor and domain handlers unaware of request IDs.
---
## EVM Policy Engine
### Overview
The EVM engine classifies incoming transactions, enforces grant constraints, and records executions. It is the sole path through which a wallet key is used for signing.
The central abstraction is the `Policy` trait. Each implementation handles one semantic transaction category and owns its own database tables for grant storage and transaction logging.
### Transaction Evaluation Flow
`Engine::evaluate_transaction` runs the following steps in order:
1. **Classify** — Each registered policy's `analyze(context)` inspects the transaction fields (`chain`, `to`, `value`, `calldata`). The first one returning `Some(meaning)` wins. If none match, the transaction is rejected as `UnsupportedTransactionType`.
2. **Find grant**`Policy::try_find_grant` queries for a non-revoked grant covering this wallet, client, chain, and target address.
3. **Check shared constraints**`check_shared_constraints` runs in the engine before any policy-specific logic. It enforces the validity window, gas fee caps, and transaction count rate limit (see below).
4. **Evaluate**`Policy::evaluate` checks the decoded meaning against the grant's policy-specific constraints and returns any violations.
5. **Record** — If `RunKind::Execution` and there are no violations, the engine writes to `evm_transaction_log` and calls `Policy::record_transaction` for any policy-specific logging (e.g., token transfer volume).
The detailed branch structure is shown below:
```mermaid
flowchart TD
A[SDK Client sends sign transaction request] --> B[Server resolves wallet]
B --> C{Wallet exists?}
C -- No --> Z1[Return wallet not found error]
C -- Yes --> D[Check SDK client wallet visibility]
D --> E{Wallet visible to SDK client?}
E -- No --> F[Start wallet visibility voting flow]
F --> G{Vote approved?}
G -- No --> Z2[Return wallet access denied error]
G -- Yes --> H[Persist wallet visibility]
E -- Yes --> I[Classify transaction meaning]
H --> I
I --> J{Meaning supported?}
J -- No --> Z3[Return unsupported transaction error]
J -- Yes --> K[Find matching grant]
K --> L{Grant exists?}
L -- Yes --> M[Check grant limits]
L -- No --> N[Start execution or grant voting flow]
N --> O{Operator decision}
O -- Reject --> Z4[Return no matching grant error]
O -- Allow once --> M
O -- Create grant --> P[Create grant with user-selected limits]
P --> Q[Persist grant]
Q --> M
M --> R{Limits exceeded?}
R -- Yes --> Z5[Return evaluation error]
R -- No --> S[Record transaction in logs]
S --> T[Produce signature]
T --> U[Return signature to SDK client]
note1[Limit checks include volume, count, and gas constraints.]
note2[Grant lookup depends on classified meaning, such as ether transfer or token transfer.]
K -. uses .-> note2
M -. checks .-> note1
```
### Policy Trait
| Method | Purpose |
|---|---|
| `analyze` | Pure — classifies a transaction into a typed `Meaning`, or `None` if this policy doesn't apply |
| `evaluate` | Checks the `Meaning` against a `Grant`; returns a list of `EvalViolation`s |
| `create_grant` | Inserts policy-specific rows; returns the specific grant ID |
| `try_find_grant` | Finds a matching non-revoked grant for the given `EvalContext` |
| `find_all_grants` | Returns all non-revoked grants (used for listing) |
| `record_transaction` | Persists policy-specific data after execution |
`analyze` and `evaluate` are intentionally separate: classification is pure and cheap, while evaluation may involve DB queries (e.g., fetching past transfer volume).
### Registered Policies
**EtherTransfer** — plain ETH transfers (empty calldata)
- Grant requires: allowlist of recipient addresses + one volumetric rate limit (max ETH over a time window)
- Violations: recipient not in allowlist, cumulative ETH volume exceeded
**TokenTransfer** — ERC-20 `transfer(address,uint256)` calls
- Recognised by ABI-decoding the `transfer(address,uint256)` selector against a static registry of known token contracts (`arbiter_tokens_registry`)
- Grant requires: token contract address, optional recipient restriction, zero or more volumetric rate limits
- Violations: recipient mismatch, any volumetric limit exceeded
### Grant Model
Every grant has two layers:
- **Shared (`evm_basic_grant`)** — wallet, chain, validity period, gas fee caps, transaction count rate limit. One row per grant regardless of type.
- **Specific** — policy-owned tables (`evm_ether_transfer_grant`, `evm_token_transfer_grant`) holding type-specific configuration.
`find_all_grants` uses a `#[diesel::auto_type]` base join between the specific and shared tables, then batch-loads related rows (targets, volume limits) in two additional queries to avoid N+1.
The engine exposes `list_all_grants` which collects across all policy types into `Vec<Grant<SpecificGrant>>` via a blanket `From<Grant<S>> for Grant<SpecificGrant>` conversion.
### Shared Constraints (enforced by the engine)
These are checked centrally in `check_shared_constraints` before policy evaluation:
| Constraint | Fields | Behaviour |
|---|---|---|
| Validity window | `valid_from`, `valid_until` | Emits `InvalidTime` if current time is outside the range |
| Gas fee cap | `max_gas_fee_per_gas`, `max_priority_fee_per_gas` | Emits `GasLimitExceeded` if either cap is breached |
| Tx count rate limit | `rate_limit` (`count` + `window`) | Counts rows in `evm_transaction_log` within the window; emits `RateLimitExceeded` if at or above the limit |
---
### Known Limitations
- **Only EIP-1559 transactions are supported.** Legacy and EIP-2930 types are rejected outright.
- **No opaque-calldata (unknown contract) grant type.** The architecture describes a category for unrecognised contracts, but no policy implements it yet. Any transaction that is not a plain ETH transfer or a known ERC-20 transfer is unconditionally rejected.
- **Token registry is static.** Tokens are recognised only if they appear in the hard-coded `arbiter_tokens_registry` crate. There is no mechanism to register additional contracts at runtime.
---
## Memory Protection
The unsealed root key must be held in a hardened memory cell resistant to dumps, page swaps, and hibernation.
- **Current:** A dedicated memory-protection abstraction is in place, with `memsafe` used behind that abstraction today
- **Planned:** Additional backends can be introduced behind the same abstraction, including a custom implementation based on `mlock` (Unix) and `VirtualProtect` (Windows)

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# Grant Grid View Implementation Plan
> **For agentic workers:** REQUIRED SUB-SKILL: Use superpowers:subagent-driven-development (recommended) or superpowers:executing-plans to implement this plan task-by-task. Steps use checkbox (`- [ ]`) syntax for tracking.
**Goal:** Add an "EVM Grants" dashboard tab that displays all grants as enriched cards (type, chain, wallet address, client name) with per-card revoke support.
**Architecture:** A new `walletAccessListProvider` fetches wallet accesses with their DB row IDs. The screen (`grants.dart`) watches only `evmGrantsProvider` for top-level state. Each `GrantCard` widget (its own file) watches enrichment providers (`walletAccessListProvider`, `evmProvider`, `sdkClientsProvider`) and the revoke mutation directly — keeping rebuilds scoped to the card. The screen is registered as a dashboard tab in `AdaptiveScaffold`.
**Tech Stack:** Flutter, Riverpod (`riverpod_annotation` + `build_runner` codegen), `sizer` (adaptive sizing), `auto_route`, Protocol Buffers (Dart), `Palette` design tokens.
---
## File Map
| File | Action | Responsibility |
|---|---|---|
| `operator/lib/theme/palette.dart` | Modify | Add `Palette.token` (indigo accent for token-transfer cards) |
| `operator/lib/features/connection/evm/wallet_access.dart` | Modify | Add `listAllWalletAccesses()` function |
| `operator/lib/providers/sdk_clients/wallet_access_list.dart` | Create | `WalletAccessListProvider` — fetches full wallet access list with IDs |
| `operator/lib/screens/dashboard/evm/grants/widgets/grant_card.dart` | Create | `GrantCard` widget — watches enrichment providers + revoke mutation; one card per grant |
| `operator/lib/screens/dashboard/evm/grants/grants.dart` | Create | `EvmGrantsScreen` — watches `evmGrantsProvider`; handles loading/error/empty/data states; renders `GrantCard` list |
| `operator/lib/router.dart` | Modify | Register `EvmGrantsRoute` in dashboard children |
| `operator/lib/screens/dashboard.dart` | Modify | Add Grants entry to `routes` list and `NavigationDestination` list |
---
## Task 1: Add `Palette.token`
**Files:**
- Modify: `operator/lib/theme/palette.dart`
- [ ] **Step 1: Add the color**
Replace the contents of `operator/lib/theme/palette.dart` with:
```dart
import 'package:flutter/material.dart';
class Palette {
static const ink = Color(0xFF15263C);
static const coral = Color(0xFFE26254);
static const cream = Color(0xFFFFFAF4);
static const line = Color(0x1A15263C);
static const token = Color(0xFF5C6BC0);
}
```
- [ ] **Step 2: Verify**
```sh
cd operator && flutter analyze lib/theme/palette.dart
```
Expected: no issues.
- [ ] **Step 3: Commit**
```sh
jj describe -m "feat(theme): add Palette.token for token-transfer grant cards"
jj new
```
---
## Task 2: Add `listAllWalletAccesses` feature function
**Files:**
- Modify: `operator/lib/features/connection/evm/wallet_access.dart`
`readClientWalletAccess` (existing) filters the list to one client's wallet IDs and returns `Set<int>`. This new function returns the complete unfiltered list with row IDs so the grant cards can resolve wallet_access_id → wallet + client.
- [ ] **Step 1: Append function**
Add at the bottom of `operator/lib/features/connection/evm/wallet_access.dart`:
```dart
Future<List<SdkClientWalletAccess>> listAllWalletAccesses(
Connection connection,
) async {
final response = await connection.ask(
OperatorRequest(listWalletAccess: Empty()),
);
if (!response.hasListWalletAccessResponse()) {
throw Exception(
'Expected list wallet access response, got ${response.whichPayload()}',
);
}
return response.listWalletAccessResponse.accesses.toList(growable: false);
}
```
Each returned `SdkClientWalletAccess` has:
- `.id` — the `evm_wallet_access` row ID (same value as `wallet_access_id` in a `GrantEntry`)
- `.access.walletId` — the EVM wallet DB ID
- `.access.sdkClientId` — the SDK client DB ID
- [ ] **Step 2: Verify**
```sh
cd operator && flutter analyze lib/features/connection/evm/wallet_access.dart
```
Expected: no issues.
- [ ] **Step 3: Commit**
```sh
jj describe -m "feat(evm): add listAllWalletAccesses feature function"
jj new
```
---
## Task 3: Create `WalletAccessListProvider`
**Files:**
- Create: `operator/lib/providers/sdk_clients/wallet_access_list.dart`
- Generated: `operator/lib/providers/sdk_clients/wallet_access_list.g.dart`
Mirrors the structure of `EvmGrants` in `providers/evm/evm_grants.dart` — class-based `@riverpod` with a `refresh()` method.
- [ ] **Step 1: Write the provider**
Create `operator/lib/providers/sdk_clients/wallet_access_list.dart`:
```dart
import 'package:arbiter/features/connection/evm/wallet_access.dart';
import 'package:arbiter/proto/operator.pb.dart';
import 'package:arbiter/providers/connection/connection_manager.dart';
import 'package:mtcore/markettakers.dart';
import 'package:riverpod_annotation/riverpod_annotation.dart';
part 'wallet_access_list.g.dart';
@riverpod
class WalletAccessList extends _$WalletAccessList {
@override
Future<List<SdkClientWalletAccess>?> build() async {
final connection = await ref.watch(connectionManagerProvider.future);
if (connection == null) {
return null;
}
try {
return await listAllWalletAccesses(connection);
} catch (e, st) {
talker.handle(e, st);
rethrow;
}
}
Future<void> refresh() async {
final connection = await ref.read(connectionManagerProvider.future);
if (connection == null) {
state = const AsyncData(null);
return;
}
state = const AsyncLoading();
state = await AsyncValue.guard(() => listAllWalletAccesses(connection));
}
}
```
- [ ] **Step 2: Run code generation**
```sh
cd operator && dart run build_runner build --delete-conflicting-outputs
```
Expected: `operator/lib/providers/sdk_clients/wallet_access_list.g.dart` created. No errors.
- [ ] **Step 3: Verify**
```sh
cd operator && flutter analyze lib/providers/sdk_clients/
```
Expected: no issues.
- [ ] **Step 4: Commit**
```sh
jj describe -m "feat(providers): add WalletAccessListProvider"
jj new
```
---
## Task 4: Create `GrantCard` widget
**Files:**
- Create: `operator/lib/screens/dashboard/evm/grants/widgets/grant_card.dart`
This widget owns all per-card logic: enrichment lookups, revoke action, and rebuild scope. The screen only passes it a `GrantEntry` — the card fetches everything else itself.
**Key types:**
- `GrantEntry` (from `proto/evm.pb.dart`): `.id`, `.shared.walletAccessId`, `.shared.chainId`, `.specific.whichGrant()`
- `SpecificGrant_Grant.etherTransfer` / `.tokenTransfer` — enum values for the oneof
- `SdkClientWalletAccess` (from `proto/operator.pb.dart`): `.id`, `.access.walletId`, `.access.sdkClientId`
- `WalletEntry` (from `proto/evm.pb.dart`): `.id`, `.address` (List<int>)
- `SdkClientEntry` (from `proto/operator.pb.dart`): `.id`, `.info.name`
- `revokeEvmGrantMutation``Mutation<void>` (global; all revoke buttons disable together while any revoke is in flight)
- `executeRevokeEvmGrant(ref, grantId: int)``Future<void>`
- [ ] **Step 1: Write the widget**
Create `operator/lib/screens/dashboard/evm/grants/widgets/grant_card.dart`:
```dart
import 'package:arbiter/proto/evm.pb.dart';
import 'package:arbiter/proto/operator.pb.dart';
import 'package:arbiter/providers/evm/evm.dart';
import 'package:arbiter/providers/evm/evm_grants.dart';
import 'package:arbiter/providers/sdk_clients/list.dart';
import 'package:arbiter/providers/sdk_clients/wallet_access_list.dart';
import 'package:arbiter/theme/palette.dart';
import 'package:flutter/material.dart';
import 'package:hooks_riverpod/experimental/mutation.dart';
import 'package:hooks_riverpod/hooks_riverpod.dart';
import 'package:sizer/sizer.dart';
String _shortAddress(List<int> bytes) {
final hex = bytes.map((b) => b.toRadixString(16).padLeft(2, '0')).join();
return '0x${hex.substring(0, 6)}...${hex.substring(hex.length - 4)}';
}
String _formatError(Object error) {
final message = error.toString();
if (message.startsWith('Exception: ')) {
return message.substring('Exception: '.length);
}
return message;
}
class GrantCard extends ConsumerWidget {
const GrantCard({super.key, required this.grant});
final GrantEntry grant;
@override
Widget build(BuildContext context, WidgetRef ref) {
// Enrichment lookups — each watch scopes rebuilds to this card only
final walletAccesses =
ref.watch(walletAccessListProvider).asData?.value ?? const [];
final wallets = ref.watch(evmProvider).asData?.value ?? const [];
final clients = ref.watch(sdkClientsProvider).asData?.value ?? const [];
final revoking = ref.watch(revokeEvmGrantMutation) is MutationPending;
final isEther =
grant.specific.whichGrant() == SpecificGrant_Grant.etherTransfer;
final accent = isEther ? Palette.coral : Palette.token;
final typeLabel = isEther ? 'Ether' : 'Token';
final theme = Theme.of(context);
final muted = Palette.ink.withValues(alpha: 0.62);
// Resolve wallet_access_id → wallet address + client name
final accessById = <int, SdkClientWalletAccess>{
for (final a in walletAccesses) a.id: a,
};
final walletById = <int, WalletEntry>{
for (final w in wallets) w.id: w,
};
final clientNameById = <int, String>{
for (final c in clients) c.id: c.info.name,
};
final accessId = grant.shared.walletAccessId;
final access = accessById[accessId];
final wallet = access != null ? walletById[access.access.walletId] : null;
final walletLabel = wallet != null
? _shortAddress(wallet.address)
: 'Access #$accessId';
final clientLabel = () {
if (access == null) return '';
final name = clientNameById[access.access.sdkClientId] ?? '';
return name.isEmpty ? 'Client #${access.access.sdkClientId}' : name;
}();
void showError(String message) {
if (!context.mounted) return;
ScaffoldMessenger.of(context).showSnackBar(
SnackBar(content: Text(message), behavior: SnackBarBehavior.floating),
);
}
Future<void> revoke() async {
try {
await executeRevokeEvmGrant(ref, grantId: grant.id);
} catch (e) {
showError(_formatError(e));
}
}
return Container(
decoration: BoxDecoration(
borderRadius: BorderRadius.circular(24),
color: Palette.cream.withValues(alpha: 0.92),
border: Border.all(color: Palette.line),
),
child: IntrinsicHeight(
child: Row(
crossAxisAlignment: CrossAxisAlignment.stretch,
children: [
// Accent strip
Container(
width: 0.8.w,
decoration: BoxDecoration(
color: accent,
borderRadius: const BorderRadius.horizontal(
left: Radius.circular(24),
),
),
),
// Card body
Expanded(
child: Padding(
padding: EdgeInsets.symmetric(
horizontal: 1.6.w,
vertical: 1.4.h,
),
child: Column(
crossAxisAlignment: CrossAxisAlignment.start,
children: [
// Row 1: type badge · chain · spacer · revoke button
Row(
children: [
Container(
padding: EdgeInsets.symmetric(
horizontal: 1.w,
vertical: 0.4.h,
),
decoration: BoxDecoration(
color: accent.withValues(alpha: 0.15),
borderRadius: BorderRadius.circular(8),
),
child: Text(
typeLabel,
style: theme.textTheme.labelSmall?.copyWith(
color: accent,
fontWeight: FontWeight.w800,
),
),
),
SizedBox(width: 1.w),
Container(
padding: EdgeInsets.symmetric(
horizontal: 1.w,
vertical: 0.4.h,
),
decoration: BoxDecoration(
color: Palette.ink.withValues(alpha: 0.06),
borderRadius: BorderRadius.circular(8),
),
child: Text(
'Chain ${grant.shared.chainId}',
style: theme.textTheme.labelSmall?.copyWith(
color: muted,
fontWeight: FontWeight.w700,
),
),
),
const Spacer(),
if (revoking)
SizedBox(
width: 1.8.h,
height: 1.8.h,
child: CircularProgressIndicator(
strokeWidth: 2,
color: Palette.coral,
),
)
else
OutlinedButton.icon(
onPressed: revoke,
style: OutlinedButton.styleFrom(
foregroundColor: Palette.coral,
side: BorderSide(
color: Palette.coral.withValues(alpha: 0.4),
),
padding: EdgeInsets.symmetric(
horizontal: 1.w,
vertical: 0.6.h,
),
shape: RoundedRectangleBorder(
borderRadius: BorderRadius.circular(10),
),
),
icon: const Icon(Icons.block_rounded, size: 16),
label: const Text('Revoke'),
),
],
),
SizedBox(height: 0.8.h),
// Row 2: wallet address · client name
Row(
children: [
Text(
walletLabel,
style: theme.textTheme.bodySmall?.copyWith(
color: Palette.ink,
fontFamily: 'monospace',
),
),
Padding(
padding: EdgeInsets.symmetric(horizontal: 0.8.w),
child: Text(
'·',
style: theme.textTheme.bodySmall
?.copyWith(color: muted),
),
),
Expanded(
child: Text(
clientLabel,
maxLines: 1,
overflow: TextOverflow.ellipsis,
style: theme.textTheme.bodySmall
?.copyWith(color: muted),
),
),
],
),
],
),
),
),
],
),
),
);
}
}
```
- [ ] **Step 2: Verify**
```sh
cd operator && flutter analyze lib/screens/dashboard/evm/grants/widgets/grant_card.dart
```
Expected: no issues.
- [ ] **Step 3: Commit**
```sh
jj describe -m "feat(grants): add GrantCard widget with self-contained enrichment"
jj new
```
---
## Task 5: Create `EvmGrantsScreen`
**Files:**
- Create: `operator/lib/screens/dashboard/evm/grants/grants.dart`
The screen watches only `evmGrantsProvider` for top-level state (loading / error / no connection / empty / data). When there is data it renders a list of `GrantCard` widgets — each card manages its own enrichment subscriptions.
- [ ] **Step 1: Write the screen**
Create `operator/lib/screens/dashboard/evm/grants/grants.dart`:
```dart
import 'package:arbiter/proto/evm.pb.dart';
import 'package:arbiter/providers/evm/evm_grants.dart';
import 'package:arbiter/providers/sdk_clients/wallet_access_list.dart';
import 'package:arbiter/router.gr.dart';
import 'package:arbiter/screens/dashboard/evm/grants/widgets/grant_card.dart';
import 'package:arbiter/theme/palette.dart';
import 'package:arbiter/widgets/page_header.dart';
import 'package:auto_route/auto_route.dart';
import 'package:flutter/material.dart';
import 'package:hooks_riverpod/hooks_riverpod.dart';
import 'package:sizer/sizer.dart';
String _formatError(Object error) {
final message = error.toString();
if (message.startsWith('Exception: ')) {
return message.substring('Exception: '.length);
}
return message;
}
// ─── State panel ──────────────────────────────────────────────────────────────
class _StatePanel extends StatelessWidget {
const _StatePanel({
required this.icon,
required this.title,
required this.body,
this.actionLabel,
this.onAction,
this.busy = false,
});
final IconData icon;
final String title;
final String body;
final String? actionLabel;
final Future<void> Function()? onAction;
final bool busy;
@override
Widget build(BuildContext context) {
final theme = Theme.of(context);
return Container(
decoration: BoxDecoration(
borderRadius: BorderRadius.circular(24),
color: Palette.cream.withValues(alpha: 0.92),
border: Border.all(color: Palette.line),
),
child: Padding(
padding: EdgeInsets.all(2.8.h),
child: Column(
crossAxisAlignment: CrossAxisAlignment.start,
children: [
if (busy)
SizedBox(
width: 2.8.h,
height: 2.8.h,
child: const CircularProgressIndicator(strokeWidth: 2.5),
)
else
Icon(icon, size: 34, color: Palette.coral),
SizedBox(height: 1.8.h),
Text(
title,
style: theme.textTheme.headlineSmall?.copyWith(
color: Palette.ink,
fontWeight: FontWeight.w800,
),
),
SizedBox(height: 1.h),
Text(
body,
style: theme.textTheme.bodyLarge?.copyWith(
color: Palette.ink.withValues(alpha: 0.72),
height: 1.5,
),
),
if (actionLabel != null && onAction != null) ...[
SizedBox(height: 2.h),
OutlinedButton.icon(
onPressed: () => onAction!(),
icon: const Icon(Icons.refresh),
label: Text(actionLabel!),
),
],
],
),
),
);
}
}
// ─── Grant list ───────────────────────────────────────────────────────────────
class _GrantList extends StatelessWidget {
const _GrantList({required this.grants});
final List<GrantEntry> grants;
@override
Widget build(BuildContext context) {
return Column(
children: [
for (var i = 0; i < grants.length; i++)
Padding(
padding: EdgeInsets.only(
bottom: i == grants.length - 1 ? 0 : 1.8.h,
),
child: GrantCard(grant: grants[i]),
),
],
);
}
}
// ─── Screen ───────────────────────────────────────────────────────────────────
@RoutePage()
class EvmGrantsScreen extends ConsumerWidget {
const EvmGrantsScreen({super.key});
@override
Widget build(BuildContext context, WidgetRef ref) {
// Screen watches only the grant list for top-level state decisions
final grantsAsync = ref.watch(evmGrantsProvider);
Future<void> refresh() async {
await Future.wait([
ref.read(evmGrantsProvider.notifier).refresh(),
ref.read(walletAccessListProvider.notifier).refresh(),
]);
}
void showMessage(String message) {
if (!context.mounted) return;
ScaffoldMessenger.of(context).showSnackBar(
SnackBar(content: Text(message), behavior: SnackBarBehavior.floating),
);
}
Future<void> safeRefresh() async {
try {
await refresh();
} catch (e) {
showMessage(_formatError(e));
}
}
final grantsState = grantsAsync.asData?.value;
final grants = grantsState?.grants;
final content = switch (grantsAsync) {
AsyncLoading() when grantsState == null => const _StatePanel(
icon: Icons.hourglass_top,
title: 'Loading grants',
body: 'Pulling grant registry from Arbiter.',
busy: true,
),
AsyncError(:final error) => _StatePanel(
icon: Icons.sync_problem,
title: 'Grant registry unavailable',
body: _formatError(error),
actionLabel: 'Retry',
onAction: safeRefresh,
),
AsyncData(:final value) when value == null => _StatePanel(
icon: Icons.portable_wifi_off,
title: 'No active server connection',
body: 'Reconnect to Arbiter to list EVM grants.',
actionLabel: 'Refresh',
onAction: safeRefresh,
),
_ when grants != null && grants.isEmpty => _StatePanel(
icon: Icons.policy_outlined,
title: 'No grants yet',
body: 'Create a grant to allow SDK clients to sign transactions.',
actionLabel: 'Create grant',
onAction: () => context.router.push(const CreateEvmGrantRoute()),
),
_ => _GrantList(grants: grants ?? const []),
};
return Scaffold(
body: SafeArea(
child: RefreshIndicator.adaptive(
color: Palette.ink,
backgroundColor: Colors.white,
onRefresh: safeRefresh,
child: ListView(
physics: const BouncingScrollPhysics(
parent: AlwaysScrollableScrollPhysics(),
),
padding: EdgeInsets.fromLTRB(2.4.w, 2.4.h, 2.4.w, 3.2.h),
children: [
PageHeader(
title: 'EVM Grants',
isBusy: grantsAsync.isLoading,
actions: [
FilledButton.icon(
onPressed: () =>
context.router.push(const CreateEvmGrantRoute()),
icon: const Icon(Icons.add_rounded),
label: const Text('Create grant'),
),
SizedBox(width: 1.w),
OutlinedButton.icon(
onPressed: safeRefresh,
style: OutlinedButton.styleFrom(
foregroundColor: Palette.ink,
side: BorderSide(color: Palette.line),
padding: EdgeInsets.symmetric(
horizontal: 1.4.w,
vertical: 1.2.h,
),
shape: RoundedRectangleBorder(
borderRadius: BorderRadius.circular(14),
),
),
icon: const Icon(Icons.refresh, size: 18),
label: const Text('Refresh'),
),
],
),
SizedBox(height: 1.8.h),
content,
],
),
),
),
);
}
}
```
- [ ] **Step 2: Verify**
```sh
cd operator && flutter analyze lib/screens/dashboard/evm/grants/
```
Expected: no issues.
- [ ] **Step 3: Commit**
```sh
jj describe -m "feat(grants): add EvmGrantsScreen"
jj new
```
---
## Task 6: Wire router and dashboard tab
**Files:**
- Modify: `operator/lib/router.dart`
- Modify: `operator/lib/screens/dashboard.dart`
- Regenerated: `operator/lib/router.gr.dart`
- [ ] **Step 1: Add route to `router.dart`**
Replace the contents of `operator/lib/router.dart` with:
```dart
import 'package:auto_route/auto_route.dart';
import 'router.gr.dart';
@AutoRouterConfig(generateForDir: ['lib/screens'])
class Router extends RootStackRouter {
@override
List<AutoRoute> get routes => [
AutoRoute(page: Bootstrap.page, path: '/bootstrap', initial: true),
AutoRoute(page: ServerInfoSetupRoute.page, path: '/server-info'),
AutoRoute(page: ServerConnectionRoute.page, path: '/server-connection'),
AutoRoute(page: VaultSetupRoute.page, path: '/vault'),
AutoRoute(page: ClientDetailsRoute.page, path: '/clients/:clientId'),
AutoRoute(page: CreateEvmGrantRoute.page, path: '/evm-grants/create'),
AutoRoute(
page: DashboardRouter.page,
path: '/dashboard',
children: [
AutoRoute(page: EvmRoute.page, path: 'evm'),
AutoRoute(page: ClientsRoute.page, path: 'clients'),
AutoRoute(page: EvmGrantsRoute.page, path: 'grants'),
AutoRoute(page: AboutRoute.page, path: 'about'),
],
),
];
}
```
- [ ] **Step 2: Update `dashboard.dart`**
In `operator/lib/screens/dashboard.dart`, replace the `routes` constant:
```dart
final routes = [
const EvmRoute(),
const ClientsRoute(),
const EvmGrantsRoute(),
const AboutRoute(),
];
```
And replace the `destinations` list inside `AdaptiveScaffold`:
```dart
destinations: const [
NavigationDestination(
icon: Icon(Icons.account_balance_wallet_outlined),
selectedIcon: Icon(Icons.account_balance_wallet),
label: 'Wallets',
),
NavigationDestination(
icon: Icon(Icons.devices_other_outlined),
selectedIcon: Icon(Icons.devices_other),
label: 'Clients',
),
NavigationDestination(
icon: Icon(Icons.policy_outlined),
selectedIcon: Icon(Icons.policy),
label: 'Grants',
),
NavigationDestination(
icon: Icon(Icons.info_outline),
selectedIcon: Icon(Icons.info),
label: 'About',
),
],
```
- [ ] **Step 3: Regenerate router**
```sh
cd operator && dart run build_runner build --delete-conflicting-outputs
```
Expected: `lib/router.gr.dart` updated, `EvmGrantsRoute` now available, no errors.
- [ ] **Step 4: Full project verify**
```sh
cd operator && flutter analyze
```
Expected: no issues.
- [ ] **Step 5: Commit**
```sh
jj describe -m "feat(nav): add Grants dashboard tab"
jj new
```

170
docs/superpowers/specs/2026-03-28-grant-grid-view-design.md
View File

@@ -1,170 +0,0 @@
# Grant Grid View — Design Spec
**Date:** 2026-03-28
## Overview
Add a "Grants" dashboard tab to the Flutter operator app that displays all EVM grants as a card-based grid. Each card shows a compact summary (type, chain, wallet address, client name) with a revoke action. The tab integrates into the existing `AdaptiveScaffold` navigation alongside Wallets, Clients, and About.
## Scope
- New `walletAccessListProvider` for fetching wallet access entries with their DB row IDs
- New `EvmGrantsScreen` as a dashboard tab
- Grant card widget with enriched display (type, chain, wallet, client)
- Revoke action wired to existing `executeRevokeEvmGrant` mutation
- Dashboard tab bar and router updated
- New token-transfer accent color added to `Palette`
**Out of scope:** Fixing grant creation (separate task).
---
## Data Layer
### `walletAccessListProvider`
**File:** `operator/lib/providers/sdk_clients/wallet_access_list.dart`
- `@riverpod` class, watches `connectionManagerProvider.future`
- Returns `List<SdkClientWalletAccess>?` (null when not connected)
- Each entry: `.id` (wallet_access_id), `.access.walletId`, `.access.sdkClientId`
- Exposes a `refresh()` method following the same pattern as `EvmGrants.refresh()`
### Enrichment at render time (Approach A)
The `EvmGrantsScreen` watches four providers:
1. `evmGrantsProvider` — the grant list
2. `walletAccessListProvider` — to resolve wallet_access_id → (wallet_id, sdk_client_id)
3. `evmProvider` — to resolve wallet_id → wallet address
4. `sdkClientsProvider` — to resolve sdk_client_id → client name
All lookups are in-memory Maps built inside the build method; no extra model class needed.
Fallbacks:
- Wallet address not found → `"Access #N"` where N is the wallet_access_id
- Client name not found → `"Client #N"` where N is the sdk_client_id
---
## Route Structure
```
/dashboard
/evm ← existing (Wallets tab)
/clients ← existing (Clients tab)
/grants ← NEW (Grants tab)
/about ← existing
/evm-grants/create ← existing push route (unchanged)
```
### Changes to `router.dart`
Add inside dashboard children:
```dart
AutoRoute(page: EvmGrantsRoute.page, path: 'grants'),
```
### Changes to `dashboard.dart`
Add to `routes` list:
```dart
const EvmGrantsRoute()
```
Add `NavigationDestination`:
```dart
NavigationDestination(
icon: Icon(Icons.policy_outlined),
selectedIcon: Icon(Icons.policy),
label: 'Grants',
),
```
---
## Screen: `EvmGrantsScreen`
**File:** `operator/lib/screens/dashboard/evm/grants/grants.dart`
```
Scaffold
└─ SafeArea
└─ RefreshIndicator.adaptive (refreshes evmGrantsProvider + walletAccessListProvider)
└─ ListView (BouncingScrollPhysics + AlwaysScrollableScrollPhysics)
├─ PageHeader
│ title: 'EVM Grants'
│ isBusy: evmGrantsProvider.isLoading
│ actions: [CreateGrantButton, RefreshButton]
├─ SizedBox(height: 1.8.h)
└─ <content>
```
### State handling
Matches the pattern from `EvmScreen` and `ClientsScreen`:
| State | Display |
|---|---|
| Loading (no data yet) | `_StatePanel` with spinner, "Loading grants" |
| Error | `_StatePanel` with coral icon, error message, Retry button |
| No connection | `_StatePanel`, "No active server connection" |
| Empty list | `_StatePanel`, "No grants yet", with Create Grant shortcut |
| Data | Column of `_GrantCard` widgets |
### Header actions
**CreateGrantButton:** `FilledButton.icon` with `Icons.add_rounded`, pushes `CreateEvmGrantRoute()` via `context.router.push(...)`.
**RefreshButton:** `OutlinedButton.icon` with `Icons.refresh`, calls `ref.read(evmGrantsProvider.notifier).refresh()`.
---
## Grant Card: `_GrantCard`
**Layout:**
```
Container (rounded 24, Palette.cream bg, Palette.line border)
└─ IntrinsicHeight > Row
├─ Accent strip (0.8.w wide, full height, rounded left)
└─ Padding > Column
├─ Row 1: TypeBadge + ChainChip + Spacer + RevokeButton
└─ Row 2: WalletText + "·" + ClientText
```
**Accent color by grant type:**
- Ether transfer → `Palette.coral`
- Token transfer → `Palette.token` (new entry in `Palette` — indigo, e.g. `Color(0xFF5C6BC0)`)
**TypeBadge:** Small pill container with accent color background at 15% opacity, accent-colored text. Label: `'Ether'` or `'Token'`.
**ChainChip:** Small container: `'Chain ${grant.shared.chainId}'`, muted ink color.
**WalletText:** Short hex address (`0xabc...def`) from wallet lookup, `bodySmall`, monospace font family.
**ClientText:** Client name from `sdkClientsProvider` lookup, or fallback string. `bodySmall`, muted ink.
**RevokeButton:**
- `OutlinedButton` with `Icons.block_rounded` icon, label `'Revoke'`
- `foregroundColor: Palette.coral`, `side: BorderSide(color: Palette.coral.withValues(alpha: 0.4))`
- Disabled (replaced with `CircularProgressIndicator`) while `revokeEvmGrantMutation` is pending — note: this is a single global mutation, so all revoke buttons disable while any revoke is in flight
- On press: calls `executeRevokeEvmGrant(ref, grantId: grant.id)`; shows `SnackBar` on error
---
## Adaptive Sizing
All sizing uses `sizer` units (`1.h`, `1.w`, etc.). No hardcoded pixel values.
---
## Files to Create / Modify
| File | Action |
|---|---|
| `lib/theme/palette.dart` | Modify — add `Palette.token` color |
| `lib/providers/sdk_clients/wallet_access_list.dart` | Create |
| `lib/screens/dashboard/evm/grants/grants.dart` | Create |
| `lib/router.dart` | Modify — add grants route to dashboard children |
| `lib/screens/dashboard.dart` | Modify — add tab to routes list and NavigationDestinations |

142
mise.lock
View File

@@ -1,156 +1,60 @@
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27
mise.toml
View File

@@ -1,26 +1,11 @@
[tools]
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"cargo:cargo-audit" = "0.22.1"
"cargo:cargo-vet" = "0.10.2"
flutter = "3.41.7-stable"
flutter = "3.38.9-stable"
protoc = "29.6"
rust = { version = "1.95.0", components = "clippy,rust-analyzer" }
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"cargo:cargo-nextest" = "0.9.133"
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"cargo:cargo-nextest" = "0.9.126"
"cargo:cargo-shear" = "latest"
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"cargo:cargo-edit" = "0.13.10"
"cargo:cargo-mutants" = "27.0.0"
"cargo:flutter_rust_bridge_codegen" = "2.12.0"
[tasks.codegen]
sources = ['protobufs/*.proto', 'protobufs/**/*.proto']
outputs = ['useragent/lib/proto/**']
run = '''
dart pub global activate protoc_plugin && \
protoc --dart_out=grpc:useragent/lib/proto --proto_path=protobufs/ $(find protobufs -name '*.proto' | sort)
'''
[tasks.generate_schema]
"cargo:cargo-insta" = "1.46.3"

7
protobufs/arbiter.proto
View File

@@ -2,8 +2,9 @@ syntax = "proto3";
package arbiter;
import "auth.proto";
import "client.proto";
import "operator.proto";
import "user_agent.proto";
message ServerInfo {
string version = 1;
@@ -11,6 +12,6 @@ message ServerInfo {
}
service ArbiterService {
rpc Client(stream arbiter.client.ClientRequest) returns (stream arbiter.client.ClientResponse);
rpc Operator(stream arbiter.operator.OperatorRequest) returns (stream arbiter.operator.OperatorResponse);
rpc Client(stream ClientRequest) returns (stream ClientResponse);
rpc UserAgent(stream UserAgentRequest) returns (stream UserAgentResponse);
}

35
protobufs/auth.proto Normal file
View File

@@ -0,0 +1,35 @@
syntax = "proto3";
package arbiter.auth;
import "google/protobuf/timestamp.proto";
message AuthChallengeRequest {
bytes pubkey = 1;
optional string bootstrap_token = 2;
}
message AuthChallenge {
bytes pubkey = 1;
int32 nonce = 2;
}
message AuthChallengeSolution {
bytes signature = 1;
}
message AuthOk {}
message ClientMessage {
oneof payload {
AuthChallengeRequest auth_challenge_request = 1;
AuthChallengeSolution auth_challenge_solution = 2;
}
}
message ServerMessage {
oneof payload {
AuthChallenge auth_challenge = 1;
AuthOk auth_ok = 2;
}
}

16
protobufs/client.proto
View File

@@ -1,25 +1,17 @@
syntax = "proto3";
package arbiter.client;
package arbiter;
import "client/auth.proto";
import "client/evm.proto";
import "client/vault.proto";
import "auth.proto";
message ClientRequest {
int32 request_id = 4;
oneof payload {
auth.Request auth = 1;
vault.Request vault = 2;
evm.Request evm = 3;
arbiter.auth.ClientMessage auth_message = 1;
}
}
message ClientResponse {
optional int32 request_id = 7;
oneof payload {
auth.Response auth = 1;
vault.Response vault = 2;
evm.Response evm = 3;
arbiter.auth.ServerMessage auth_message = 1;
}
}

43
protobufs/client/auth.proto
View File

@@ -1,43 +0,0 @@
syntax = "proto3";
package arbiter.client.auth;
import "shared/client.proto";
message AuthChallengeRequest {
bytes pubkey = 1;
arbiter.shared.ClientInfo client_info = 2;
}
message AuthChallenge {
uint64 timestamp_nanos = 1;
bytes random = 2;
}
message AuthChallengeSolution {
bytes signature = 1;
}
enum AuthResult {
AUTH_RESULT_UNSPECIFIED = 0;
AUTH_RESULT_SUCCESS = 1;
AUTH_RESULT_INVALID_KEY = 2;
AUTH_RESULT_INVALID_SIGNATURE = 3;
AUTH_RESULT_APPROVAL_DENIED = 4;
AUTH_RESULT_NO_OPERATORS_ONLINE = 5;
AUTH_RESULT_INTERNAL = 6;
}
message Request {
oneof payload {
AuthChallengeRequest challenge_request = 1;
AuthChallengeSolution challenge_solution = 2;
}
}
message Response {
oneof payload {
AuthChallenge challenge = 1;
AuthResult result = 2;
}
}

19
protobufs/client/evm.proto
View File

@@ -1,19 +0,0 @@
syntax = "proto3";
package arbiter.client.evm;
import "evm.proto";
message Request {
oneof payload {
arbiter.evm.EvmSignTransactionRequest sign_transaction = 1;
arbiter.evm.EvmAnalyzeTransactionRequest analyze_transaction = 2;
}
}
message Response {
oneof payload {
arbiter.evm.EvmSignTransactionResponse sign_transaction = 1;
arbiter.evm.EvmAnalyzeTransactionResponse analyze_transaction = 2;
}
}

18
protobufs/client/vault.proto
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@@ -1,18 +0,0 @@
syntax = "proto3";
package arbiter.client.vault;
import "google/protobuf/empty.proto";
import "shared/vault.proto";
message Request {
oneof payload {
google.protobuf.Empty query_state = 1;
}
}
message Response {
oneof payload {
arbiter.shared.VaultState state = 1;
}
}

153
protobufs/evm.proto
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@@ -1,153 +0,0 @@
syntax = "proto3";
package arbiter.evm;
import "google/protobuf/empty.proto";
import "google/protobuf/timestamp.proto";
import "shared/evm.proto";
enum EvmError {
EVM_ERROR_UNSPECIFIED = 0;
EVM_ERROR_VAULT_SEALED = 1;
EVM_ERROR_INTERNAL = 2;
}
message WalletEntry {
int32 id = 1;
bytes address = 2; // 20-byte Ethereum address
}
message WalletList {
repeated WalletEntry wallets = 1;
}
message WalletCreateResponse {
oneof result {
WalletEntry wallet = 1;
EvmError error = 2;
}
}
message WalletListResponse {
oneof result {
WalletList wallets = 1;
EvmError error = 2;
}
}
// --- Grant types ---
message TransactionRateLimit {
uint32 count = 1;
int64 window_secs = 2;
}
message VolumeRateLimit {
bytes max_volume = 1; // U256 as big-endian bytes
int64 window_secs = 2;
}
message SharedSettings {
int32 wallet_access_id = 1;
uint64 chain_id = 2;
optional google.protobuf.Timestamp valid_from = 3;
optional google.protobuf.Timestamp valid_until = 4;
optional bytes max_gas_fee_per_gas = 5; // U256 as big-endian bytes
optional bytes max_priority_fee_per_gas = 6; // U256 as big-endian bytes
optional TransactionRateLimit rate_limit = 7;
}
message EtherTransferSettings {
repeated bytes targets = 1; // list of 20-byte Ethereum addresses
VolumeRateLimit limit = 2;
}
message TokenTransferSettings {
bytes token_contract = 1; // 20-byte Ethereum address
optional bytes target = 2; // 20-byte Ethereum address; absent means any recipient allowed
repeated VolumeRateLimit volume_limits = 3;
}
message SpecificGrant {
oneof grant {
EtherTransferSettings ether_transfer = 1;
TokenTransferSettings token_transfer = 2;
}
}
// --- Operator grant management ---
message EvmGrantCreateRequest {
SharedSettings shared = 1;
SpecificGrant specific = 2;
}
message EvmGrantCreateResponse {
oneof result {
int32 grant_id = 1;
EvmError error = 2;
}
}
message EvmGrantDeleteRequest {
int32 grant_id = 1;
}
message EvmGrantDeleteResponse {
oneof result {
google.protobuf.Empty ok = 1;
EvmError error = 2;
}
}
// Basic grant info returned in grant listings
message GrantEntry {
int32 id = 1;
int32 wallet_access_id = 2;
SharedSettings shared = 3;
SpecificGrant specific = 4;
}
message EvmGrantListRequest {
optional int32 wallet_access_id = 1;
}
message EvmGrantListResponse {
oneof result {
EvmGrantList grants = 1;
EvmError error = 2;
}
}
message EvmGrantList {
repeated GrantEntry grants = 1;
}
// --- Client transaction operations ---
message EvmSignTransactionRequest {
bytes wallet_address = 1; // 20-byte Ethereum address
bytes rlp_transaction = 2; // RLP-encoded EIP-1559 transaction (unsigned)
}
// oneof because signing and evaluation happen atomically — a signing failure
// is always either an eval error or an internal error, never a partial success
message EvmSignTransactionResponse {
oneof result {
bytes signature = 1; // 65-byte signature: r[32] || s[32] || v[1]
arbiter.shared.evm.TransactionEvalError eval_error = 2;
EvmError error = 3;
}
}
message EvmAnalyzeTransactionRequest {
bytes wallet_address = 1; // 20-byte Ethereum address
bytes rlp_transaction = 2; // RLP-encoded EIP-1559 transaction
}
message EvmAnalyzeTransactionResponse {
oneof result {
arbiter.shared.evm.SpecificMeaning meaning = 1;
arbiter.shared.evm.TransactionEvalError eval_error = 2;
EvmError error = 3;
}
}

28
protobufs/operator.proto
View File

@@ -1,28 +0,0 @@
syntax = "proto3";
package arbiter.operator;
import "operator/auth.proto";
import "operator/evm.proto";
import "operator/sdk_client.proto";
import "operator/vault/vault.proto";
message OperatorRequest {
int32 id = 16;
oneof payload {
auth.Request auth = 1;
vault.Request vault = 2;
evm.Request evm = 3;
sdk_client.Request sdk_client = 4;
}
}
message OperatorResponse {
optional int32 id = 16;
oneof payload {
auth.Response auth = 1;
vault.Response vault = 2;
evm.Response evm = 3;
sdk_client.Response sdk_client = 4;
}
}

41
protobufs/operator/auth.proto
View File

@@ -1,41 +0,0 @@
syntax = "proto3";
package arbiter.operator.auth;
message AuthChallengeRequest {
bytes pubkey = 1;
optional string bootstrap_token = 2;
}
message AuthChallenge {
uint64 timestamp_nanos = 1;
bytes random = 2;
}
message AuthChallengeSolution {
bytes signature = 1;
}
enum AuthResult {
AUTH_RESULT_UNSPECIFIED = 0;
AUTH_RESULT_SUCCESS = 1;
AUTH_RESULT_INVALID_KEY = 2;
AUTH_RESULT_INVALID_SIGNATURE = 3;
AUTH_RESULT_BOOTSTRAP_REQUIRED = 4;
AUTH_RESULT_TOKEN_INVALID = 5;
AUTH_RESULT_INTERNAL = 6;
}
message Request {
oneof payload {
AuthChallengeRequest challenge_request = 1;
AuthChallengeSolution challenge_solution = 2;
}
}
message Response {
oneof payload {
AuthChallenge challenge = 1;
AuthResult result = 2;
}
}

33
protobufs/operator/evm.proto
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@@ -1,33 +0,0 @@
syntax = "proto3";
package arbiter.operator.evm;
import "evm.proto";
import "google/protobuf/empty.proto";
message SignTransactionRequest {
int32 client_id = 1;
arbiter.evm.EvmSignTransactionRequest request = 2;
}
message Request {
oneof payload {
google.protobuf.Empty wallet_create = 1;
google.protobuf.Empty wallet_list = 2;
arbiter.evm.EvmGrantCreateRequest grant_create = 3;
arbiter.evm.EvmGrantDeleteRequest grant_delete = 4;
arbiter.evm.EvmGrantListRequest grant_list = 5;
SignTransactionRequest sign_transaction = 6;
}
}
message Response {
oneof payload {
arbiter.evm.WalletCreateResponse wallet_create = 1;
arbiter.evm.WalletListResponse wallet_list = 2;
arbiter.evm.EvmGrantCreateResponse grant_create = 3;
arbiter.evm.EvmGrantDeleteResponse grant_delete = 4;
arbiter.evm.EvmGrantListResponse grant_list = 5;
arbiter.evm.EvmSignTransactionResponse sign_transaction = 6;
}
}

100
protobufs/operator/sdk_client.proto
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@@ -1,100 +0,0 @@
syntax = "proto3";
package arbiter.operator.sdk_client;
import "shared/client.proto";
import "google/protobuf/empty.proto";
enum Error {
ERROR_UNSPECIFIED = 0;
ERROR_ALREADY_EXISTS = 1;
ERROR_NOT_FOUND = 2;
ERROR_HAS_RELATED_DATA = 3; // hard-delete blocked by FK (client has grants or transaction logs)
ERROR_INTERNAL = 4;
}
message RevokeRequest {
int32 client_id = 1;
}
message Entry {
int32 id = 1;
bytes pubkey = 2;
arbiter.shared.ClientInfo info = 3;
int32 created_at = 4;
}
message List {
repeated Entry clients = 1;
}
message RevokeResponse {
oneof result {
google.protobuf.Empty ok = 1;
Error error = 2;
}
}
message ListResponse {
oneof result {
List clients = 1;
Error error = 2;
}
}
message ConnectionRequest {
bytes pubkey = 1;
arbiter.shared.ClientInfo info = 2;
}
message ConnectionResponse {
bool approved = 1;
bytes pubkey = 2;
}
message ConnectionCancel {
bytes pubkey = 1;
}
message WalletAccess {
int32 wallet_id = 1;
int32 sdk_client_id = 2;
}
message WalletAccessEntry {
int32 id = 1;
WalletAccess access = 2;
}
message GrantWalletAccess {
repeated WalletAccess accesses = 1;
}
message RevokeWalletAccess {
repeated int32 accesses = 1;
}
message ListWalletAccessResponse {
repeated WalletAccessEntry accesses = 1;
}
message Request {
oneof payload {
ConnectionResponse connection_response = 1;
RevokeRequest revoke = 2;
google.protobuf.Empty list = 3;
GrantWalletAccess grant_wallet_access = 4;
RevokeWalletAccess revoke_wallet_access = 5;
google.protobuf.Empty list_wallet_access = 6;
}
}
message Response {
oneof payload {
ConnectionRequest connection_request = 1;
ConnectionCancel connection_cancel = 2;
RevokeResponse revoke = 3;
ListResponse list = 4;
ListWalletAccessResponse list_wallet_access = 5;
}
}

24
protobufs/operator/vault/bootstrap.proto
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@@ -1,24 +0,0 @@
syntax = "proto3";
package arbiter.operator.vault.bootstrap;
message BootstrapEncryptedKey {
bytes nonce = 1;
bytes ciphertext = 2;
bytes associated_data = 3;
}
enum BootstrapResult {
BOOTSTRAP_RESULT_UNSPECIFIED = 0;
BOOTSTRAP_RESULT_SUCCESS = 1;
BOOTSTRAP_RESULT_ALREADY_BOOTSTRAPPED = 2;
BOOTSTRAP_RESULT_INVALID_KEY = 3;
}
message Request {
BootstrapEncryptedKey encrypted_key = 2;
}
message Response {
BootstrapResult result = 1;
}

37
protobufs/operator/vault/unseal.proto
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@@ -1,37 +0,0 @@
syntax = "proto3";
package arbiter.operator.vault.unseal;
message UnsealStart {
bytes client_pubkey = 1;
}
message UnsealStartResponse {
bytes server_pubkey = 1;
}
message UnsealEncryptedKey {
bytes nonce = 1;
bytes ciphertext = 2;
bytes associated_data = 3;
}
enum UnsealResult {
UNSEAL_RESULT_UNSPECIFIED = 0;
UNSEAL_RESULT_SUCCESS = 1;
UNSEAL_RESULT_INVALID_KEY = 2;
UNSEAL_RESULT_UNBOOTSTRAPPED = 3;
}
message Request {
oneof payload {
UnsealStart start = 1;
UnsealEncryptedKey encrypted_key = 2;
}
}
message Response {
oneof payload {
UnsealStartResponse start = 1;
UnsealResult result = 2;
}
}

24
protobufs/operator/vault/vault.proto
View File

@@ -1,24 +0,0 @@
syntax = "proto3";
package arbiter.operator.vault;
import "google/protobuf/empty.proto";
import "shared/vault.proto";
import "operator/vault/bootstrap.proto";
import "operator/vault/unseal.proto";
message Request {
oneof payload {
google.protobuf.Empty query_state = 1;
unseal.Request unseal = 2;
bootstrap.Request bootstrap = 3;
}
}
message Response {
oneof payload {
arbiter.shared.VaultState state = 1;
unseal.Response unseal = 2;
bootstrap.Response bootstrap = 3;
}
}

9
protobufs/shared/client.proto
View File

@@ -1,9 +0,0 @@
syntax = "proto3";
package arbiter.shared;
message ClientInfo {
string name = 1;
optional string description = 2;
optional string version = 3;
}

74
protobufs/shared/evm.proto
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@@ -1,74 +0,0 @@
syntax = "proto3";
package arbiter.shared.evm;
import "google/protobuf/empty.proto";
message EtherTransferMeaning {
bytes to = 1; // 20-byte Ethereum address
bytes value = 2; // U256 as big-endian bytes
}
message TokenInfo {
string symbol = 1;
bytes address = 2; // 20-byte Ethereum address
uint64 chain_id = 3;
}
// Mirror of token_transfers::Meaning
message TokenTransferMeaning {
TokenInfo token = 1;
bytes to = 2; // 20-byte Ethereum address
bytes value = 3; // U256 as big-endian bytes
}
// Mirror of policies::SpecificMeaning
message SpecificMeaning {
oneof meaning {
EtherTransferMeaning ether_transfer = 1;
TokenTransferMeaning token_transfer = 2;
}
}
message GasLimitExceededViolation {
optional bytes max_gas_fee_per_gas = 1; // U256 as big-endian bytes
optional bytes max_priority_fee_per_gas = 2; // U256 as big-endian bytes
}
message EvalViolation {
message ChainIdMismatch {
uint64 expected = 1;
uint64 actual = 2;
}
oneof kind {
bytes invalid_target = 1; // 20-byte Ethereum address
GasLimitExceededViolation gas_limit_exceeded = 2;
google.protobuf.Empty rate_limit_exceeded = 3;
google.protobuf.Empty volumetric_limit_exceeded = 4;
google.protobuf.Empty invalid_time = 5;
google.protobuf.Empty invalid_transaction_type = 6;
ChainIdMismatch chain_id_mismatch = 7;
}
}
// Transaction was classified but no grant covers it
message NoMatchingGrantError {
SpecificMeaning meaning = 1;
}
// Transaction was classified and a grant was found, but constraints were violated
message PolicyViolationsError {
SpecificMeaning meaning = 1;
repeated EvalViolation violations = 2;
}
// top-level error returned when transaction evaluation fails
message TransactionEvalError {
oneof kind {
google.protobuf.Empty contract_creation_not_supported = 1;
google.protobuf.Empty unsupported_transaction_type = 2;
NoMatchingGrantError no_matching_grant = 3;
PolicyViolationsError policy_violations = 4;
}
}

12
protobufs/shared/vault.proto
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@@ -1,12 +0,0 @@
syntax = "proto3";
package arbiter.shared;
enum VaultState {
VAULT_STATE_UNSPECIFIED = 0;
VAULT_STATE_UNBOOTSTRAPPED = 1;
VAULT_STATE_BOOSTRAPPING = 2;
VAULT_STATE_SEALED = 3;
VAULT_STATE_UNSEALED = 4;
VAULT_STATE_ERROR = 5;
}

51
protobufs/user_agent.proto Normal file
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@@ -0,0 +1,51 @@
syntax = "proto3";
package arbiter;
import "auth.proto";
import "google/protobuf/empty.proto";
message UnsealStart {
bytes client_pubkey = 1;
}
message UnsealStartResponse {
bytes server_pubkey = 1;
}
message UnsealEncryptedKey {
bytes nonce = 1;
bytes ciphertext = 2;
bytes associated_data = 3;
}
enum UnsealResult {
UNSEAL_RESULT_UNSPECIFIED = 0;
UNSEAL_RESULT_SUCCESS = 1;
UNSEAL_RESULT_INVALID_KEY = 2;
UNSEAL_RESULT_UNBOOTSTRAPPED = 3;
}
enum VaultState {
VAULT_STATE_UNSPECIFIED = 0;
VAULT_STATE_UNBOOTSTRAPPED = 1;
VAULT_STATE_SEALED = 2;
VAULT_STATE_UNSEALED = 3;
VAULT_STATE_ERROR = 4;
}
message UserAgentRequest {
oneof payload {
arbiter.auth.ClientMessage auth_message = 1;
UnsealStart unseal_start = 2;
UnsealEncryptedKey unseal_encrypted_key = 3;
google.protobuf.Empty query_vault_state = 4;
}
}
message UserAgentResponse {
oneof payload {
arbiter.auth.ServerMessage auth_message = 1;
UnsealStartResponse unseal_start_response = 2;
UnsealResult unseal_result = 3;
VaultState vault_state = 4;
}
}

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scripts/__pycache__/gen_erc20_registry.cpython-314.pyc
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150
scripts/gen_erc20_registry.py
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@@ -1,150 +0,0 @@
#!/usr/bin/env python3
"""
Fetch the Uniswap default token list and emit Rust `TokenInfo` statics.
Usage:
python3 gen_erc20_registry.py # fetch from IPFS
python3 gen_erc20_registry.py tokens.json # local file
python3 gen_erc20_registry.py tokens.json out.rs # custom output file
"""
import json
import re
import sys
import unicodedata
import urllib.request
UNISWAP_URL = "https://ipfs.io/ipns/tokens.uniswap.org"
SOLANA_CHAIN_ID = 501000101
IDENTIFIER_RE = re.compile(r"[^A-Za-z0-9]+")
def load_tokens(source=None):
if source:
with open(source) as f:
return json.load(f)
req = urllib.request.Request(
UNISWAP_URL,
headers={"Accept": "application/json", "User-Agent": "gen_tokens/1.0"},
)
with urllib.request.urlopen(req, timeout=60) as resp:
return json.loads(resp.read())
def escape(s: str) -> str:
return s.replace("\\", "\\\\").replace('"', '\\"')
def to_screaming_case(name: str) -> str:
normalized = unicodedata.normalize("NFKD", name or "")
ascii_name = normalized.encode("ascii", "ignore").decode("ascii")
snake = IDENTIFIER_RE.sub("_", ascii_name).strip("_").upper()
if not snake:
snake = "TOKEN"
if snake[0].isdigit():
snake = f"TOKEN_{snake}"
return snake
def static_name_for_token(token: dict, used_names: set[str]) -> str:
base = to_screaming_case(token.get("name", ""))
if base not in used_names:
used_names.add(base)
return base
address = token["address"]
suffix = f"{token['chainId']}_{address[2:].upper()[-8:]}"
candidate = f"{base}_{suffix}"
i = 2
while candidate in used_names:
candidate = f"{base}_{suffix}_{i}"
i += 1
used_names.add(candidate)
return candidate
def main():
source = sys.argv[1] if len(sys.argv) > 1 else None
output = sys.argv[2] if len(sys.argv) > 2 else "generated_tokens.rs"
data = load_tokens(source)
tokens = data["tokens"]
# Deduplicate by (chainId, address)
seen = set()
unique = []
for t in tokens:
key = (t["chainId"], t["address"].lower())
if key not in seen:
seen.add(key)
unique.append(t)
unique.sort(key=lambda t: (t["chainId"], t.get("symbol", "").upper()))
evm_tokens = [t for t in unique if t["chainId"] != SOLANA_CHAIN_ID]
ver = data["version"]
lines = []
w = lines.append
w(
f"// Auto-generated from Uniswap token list v{ver['major']}.{ver['minor']}.{ver['patch']}"
)
w(f"// {len(evm_tokens)} tokens")
w("// DO NOT EDIT - regenerate with gen_erc20_registry.py")
w("")
used_static_names = set()
token_statics = []
for t in evm_tokens:
static_name = static_name_for_token(t, used_static_names)
token_statics.append((static_name, t))
for static_name, t in token_statics:
addr = t["address"]
name = escape(t.get("name", ""))
symbol = escape(t.get("symbol", ""))
decimals = t.get("decimals", 18)
logo = t.get("logoURI")
chain = t["chainId"]
logo_val = f'Some("{escape(logo)}")' if logo else "None"
w(f"pub static {static_name}: TokenInfo = TokenInfo {{")
w(f' name: "{name}",')
w(f' symbol: "{symbol}",')
w(f" decimals: {decimals},")
w(f' contract: address!("{addr}"),')
w(f" chain: {chain},")
w(f" logo_uri: {logo_val},")
w("};")
w("")
w("pub static TOKENS: &[&TokenInfo] = &[")
for static_name, _ in token_statics:
w(f" &{static_name},")
w("];")
w("")
w("pub fn get_token(")
w(" chain_id: alloy::primitives::ChainId,")
w(" address: alloy::primitives::Address,")
w(") -> Option<&'static TokenInfo> {")
w(" match (chain_id, address) {")
for static_name, t in token_statics:
w(
f' ({t["chainId"]}, addr) if addr == address!("{t["address"]}") => Some(&{static_name}),'
)
w(" _ => None,")
w(" }")
w("}")
w("")
with open(output, "w") as f:
f.write("\n".join(lines))
print(f"Wrote {len(token_statics)} tokens to {output}")
if __name__ == "__main__":
main()

13
server/.cargo/audit.toml
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@@ -1,13 +0,0 @@
[advisories]
# RUSTSEC-2023-0071: Marvin Attack timing side-channel in rsa crate.
# No fixed version is available upstream.
# RSA support is required for Windows Hello / KeyCredentialManager
# (https://learn.microsoft.com/en-us/uwp/api/windows.security.credentials.keycredentialmanager.requestcreateasync),
# which only issues RSA-2048 keys.
# Mitigations in place:
# - Signing uses BlindedSigningKey (PSS+SHA-256), which applies blinding to
# protect the private key from timing recovery during signing.
# - RSA decryption is never performed; we only verify public-key signatures.
# - The attack requires local, high-resolution timing access against the
# signing process, which is not exposed in our threat model.
ignore = ["RUSTSEC-2023-0071"]

2
server/.cargo/config.toml
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@@ -1,2 +0,0 @@
[env]
MACOSX_DEPLOYMENT_TARGET = "26.3"

1
server/.cargo/mutants.toml
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@@ -1 +0,0 @@
test_tool = "nextest"

2
server/.gitignore vendored
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@@ -1,2 +0,0 @@
mutants.out/
mutants.out.old/

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server/Cargo.lock generated
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186
server/Cargo.toml
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@@ -1,170 +1,34 @@
[workspace]
members = [
"crates/*",
"crates/arbiter-client",
"crates/arbiter-proto",
"crates/arbiter-server",
"crates/arbiter-useragent",
]
resolver = "3"
[workspace.dependencies]
alloy = "2.0.4"
async-trait = "0.1.89"
base64 = "0.22.1"
chrono = { version = "0.4.44", features = ["serde"] }
futures = "0.3.32"
k256 = { version = "0.13.4", features = ["ecdsa", "pkcs8"] }
kameo = {git = "https://github.com/hdbg/kameo.git", rev = "805b417"}
kameo_actors = {git = "https://github.com/hdbg/kameo.git", rev = "805b417"}
hmac = "0.13.0"
miette = { version = "7.6.0", features = ["fancy", "serde"] }
ml-dsa = { version = "0.1.0-rc.9", features = ["zeroize"] }
mutants = "0.0.4"
prost = "0.14.3"
prost-types = { version = "0.14.3", features = ["chrono"] }
rand = "0.10.1"
rcgen = { version = "0.14.7", features = [ "aws_lc_rs", "pem", "x509-parser", "zeroize" ], default-features = false }
rstest = "0.26.1"
rustls = { version = "0.23.40", features = ["aws-lc-rs", "logging", "prefer-post-quantum", "std"], default-features = false }
rustls-pki-types = "1.14.1"
sha2 = "0.11"
smlang = "0.8.0"
thiserror = "2.0.18"
tokio = { version = "1.52.1", features = ["full"] }
tokio-stream = { version = "0.1.18", features = ["full"] }
tonic = { version = "0.14.5", features = [ "deflate", "gzip", "tls-connect-info", "zstd" ] }
tonic = { version = "0.14.3", features = ["deflate", "gzip", "tls-connect-info", "zstd"] }
tracing = "0.1.44"
tokio = { version = "1.49.0", features = ["full"] }
ed25519-dalek = { version = "3.0.0-pre.6", features = ["rand_core"] }
chrono = { version = "0.4.43", features = ["serde"] }
rand = "0.10.0"
rustls = "0.23.36"
smlang = "0.8.0"
miette = { version = "7.6.0", features = ["fancy", "serde"] }
thiserror = "2.0.18"
async-trait = "0.1.89"
futures = "0.3.31"
tokio-stream = { version = "0.1.18", features = ["full"] }
kameo = "0.19.2"
x25519-dalek = { version = "2.0.1", features = ["getrandom"] }
[workspace.lints.rust]
missing_unsafe_on_extern = "deny"
unsafe_attr_outside_unsafe = "deny"
unsafe_op_in_unsafe_fn = "deny"
unstable_features = "deny"
deprecated_safe_2024 = "warn"
ffi_unwind_calls = "warn"
linker_messages = "warn"
elided_lifetimes_in_paths = "warn"
explicit_outlives_requirements = "warn"
impl-trait-overcaptures = "warn"
impl-trait-redundant-captures = "warn"
redundant_lifetimes = "warn"
single_use_lifetimes = "warn"
unused_lifetimes = "warn"
macro_use_extern_crate = "warn"
redundant_imports = "warn"
unused_import_braces = "warn"
unused_macro_rules = "warn"
unused_qualifications = "warn"
unit_bindings = "warn"
# missing_docs = "warn" # ENABLE BY THE FIRST MAJOR VERSION!!
unnameable_types = "warn"
[workspace.lints.clippy]
derive_partial_eq_without_eq = "allow"
future_not_send = "allow"
inconsistent_struct_constructor = "allow"
inline_always = "allow"
missing_errors_doc = "allow"
missing_fields_in_debug = "allow"
missing_panics_doc = "allow"
must_use_candidate = "allow"
needless_pass_by_ref_mut = "allow"
pub_underscore_fields = "allow"
redundant_pub_crate = "allow"
uninhabited_references = "allow" # safe with unsafe_code = "forbid" and standard uninhabited pattern (match *self {})
# restriction lints
alloc_instead_of_core = "warn"
allow_attributes_without_reason = "warn"
as_conversions = "warn"
assertions_on_result_states = "warn"
cfg_not_test = "warn"
clone_on_ref_ptr = "warn"
cognitive_complexity = "warn"
create_dir = "warn"
dbg_macro = "warn"
decimal_literal_representation = "warn"
default_union_representation = "warn"
deref_by_slicing = "warn"
disallowed_script_idents = "warn"
doc_include_without_cfg = "warn"
empty_drop = "warn"
empty_enum_variants_with_brackets = "warn"
empty_structs_with_brackets = "warn"
exit = "warn"
filetype_is_file = "warn"
float_arithmetic = "warn"
float_cmp_const = "warn"
fn_to_numeric_cast_any = "warn"
get_unwrap = "warn"
if_then_some_else_none = "warn"
indexing_slicing = "warn"
infinite_loop = "warn"
inline_asm_x86_att_syntax = "warn"
inline_asm_x86_intel_syntax = "warn"
integer_division = "warn"
large_include_file = "warn"
lossy_float_literal = "warn"
map_with_unused_argument_over_ranges = "warn"
mem_forget = "warn"
missing_assert_message = "warn"
mixed_read_write_in_expression = "warn"
modulo_arithmetic = "warn"
multiple_unsafe_ops_per_block = "warn"
mutex_atomic = "warn"
mutex_integer = "warn"
needless_raw_strings = "warn"
non_ascii_literal = "warn"
non_zero_suggestions = "warn"
pathbuf_init_then_push = "warn"
pointer_format = "warn"
precedence_bits = "warn"
pub_without_shorthand = "warn"
rc_buffer = "warn"
rc_mutex = "warn"
redundant_test_prefix = "warn"
redundant_type_annotations = "warn"
ref_patterns = "warn"
renamed_function_params = "warn"
rest_pat_in_fully_bound_structs = "warn"
return_and_then = "warn"
semicolon_inside_block = "warn"
str_to_string = "warn"
string_add = "warn"
string_lit_chars_any = "warn"
string_slice = "warn"
suspicious_xor_used_as_pow = "warn"
try_err = "warn"
undocumented_unsafe_blocks = "warn"
uninlined_format_args = "warn"
unnecessary_safety_comment = "warn"
unnecessary_safety_doc = "warn"
unnecessary_self_imports = "warn"
unneeded_field_pattern = "warn"
unused_result_ok = "warn"
verbose_file_reads = "warn"
# cargo lints
negative_feature_names = "warn"
redundant_feature_names = "warn"
wildcard_dependencies = "warn"
# ENABLE BY THE FIRST MAJOR VERSION!!
# todo = "warn"
# unimplemented = "warn"
# panic = "warn"
# panic_in_result_fn = "warn"
#
# cargo_common_metadata = "warn"
# multiple_crate_versions = "warn" # a controversial option since it's really difficult to maintain
disallowed_methods = "deny"
nursery = { level = "warn", priority = -1 }
pedantic = { level = "warn", priority = -1 }
type_repetition_in_bounds = "allow" # sometimes, it's better for readability this way
rstest = "0.26.1"
rustls-pki-types = "1.14.0"
rcgen = { version = "0.14.7", features = [
"aws_lc_rs",
"pem",
"x509-parser",
"zeroize",
], default-features = false }

28
server/clippy.toml
View File

@@ -1,28 +0,0 @@
disallowed-methods = [
# RSA decryption is forbidden: the rsa crate has RUSTSEC-2023-0071 (Marvin Attack).
# We only use RSA for Windows Hello (KeyCredentialManager) public-key verification — decryption
# is never required and must not be introduced.
{ path = "rsa::RsaPrivateKey::decrypt", reason = "RSA decryption is forbidden (RUSTSEC-2023-0071 Marvin Attack). Only PSS signing/verification is permitted." },
{ path = "rsa::RsaPrivateKey::decrypt_blinded", reason = "RSA decryption is forbidden (RUSTSEC-2023-0071 Marvin Attack). Only PSS signing/verification is permitted." },
{ path = "rsa::traits::Decryptor::decrypt", reason = "RSA decryption is forbidden (RUSTSEC-2023-0071 Marvin Attack). This blocks decrypt() on rsa::{pkcs1v15,oaep}::DecryptingKey." },
{ path = "rsa::traits::RandomizedDecryptor::decrypt_with_rng", reason = "RSA decryption is forbidden (RUSTSEC-2023-0071 Marvin Attack). This blocks decrypt_with_rng() on rsa::{pkcs1v15,oaep}::DecryptingKey." },
]
allow-indexing-slicing-in-tests = true
allow-panic-in-tests = true
check-inconsistent-struct-field-initializers = true
suppress-restriction-lint-in-const = true
allow-renamed-params-for = [
"core::convert::From",
"core::convert::TryFrom",
"core::str::FromStr",
"kameo::actor::Actor",
]
module-items-ordered-within-groupings = ["UPPER_SNAKE_CASE"]
source-item-ordering = ["enum"]
trait-assoc-item-kinds-order = [
"const",
"type",
"fn",
] # community tested standard

21
server/crates/arbiter-client/Cargo.toml
View File

@@ -5,25 +5,4 @@ edition = "2024"
repository = "https://git.markettakers.org/MarketTakers/arbiter"
license = "Apache-2.0"
[lints]
workspace = true
[features]
evm = ["dep:alloy"]
[dependencies]
arbiter-proto.path = "../arbiter-proto"
arbiter-crypto.path = "../arbiter-crypto"
alloy = { workspace = true, optional = true }
tonic.workspace = true
tonic.features = ["tls-aws-lc"]
tokio.workspace = true
tokio-stream.workspace = true
thiserror.workspace = true
http = "1.4.0"
rustls-webpki = { version = "0.103.13", features = ["aws-lc-rs"] }
async-trait.workspace = true
chrono.workspace = true
[lib]
doctest = false

160
server/crates/arbiter-client/src/auth.rs
View File

@@ -1,160 +0,0 @@
use crate::{
storage::StorageError,
transport::{ClientTransport, next_request_id},
};
use arbiter_crypto::authn::{self, CLIENT_CONTEXT, SigningKey};
use arbiter_proto::{
ClientMetadata,
proto::{
client::{
ClientRequest,
auth::{
self as proto_auth, AuthChallenge, AuthChallengeRequest, AuthChallengeSolution,
AuthResult, request::Payload as AuthRequestPayload,
response::Payload as AuthResponsePayload,
},
client_request::Payload as ClientRequestPayload,
client_response::Payload as ClientResponsePayload,
},
shared::ClientInfo as ProtoClientInfo,
},
};
use chrono::DateTime;
#[derive(Debug, thiserror::Error)]
pub enum AuthError {
#[error("Server sent invalid auth challenge")]
InvalidChallenge,
#[error("Client approval denied by Operator")]
ApprovalDenied,
#[error("Auth challenge was not returned by server")]
MissingAuthChallenge,
#[error("No Operators online to approve client")]
NoOperatorsOnline,
#[error("Signing key storage error")]
Storage(#[from] StorageError),
#[error("Unexpected auth response payload")]
UnexpectedAuthResponse,
}
fn map_auth_result(code: i32) -> AuthError {
match AuthResult::try_from(code).unwrap_or(AuthResult::Unspecified) {
AuthResult::ApprovalDenied => AuthError::ApprovalDenied,
AuthResult::NoOperatorsOnline => AuthError::NoOperatorsOnline,
AuthResult::Unspecified
| AuthResult::Success
| AuthResult::InvalidKey
| AuthResult::InvalidSignature
| AuthResult::Internal => AuthError::UnexpectedAuthResponse,
}
}
async fn send_auth_challenge_request(
transport: &mut ClientTransport,
metadata: ClientMetadata,
key: &SigningKey,
) -> Result<(), AuthError> {
transport
.send(ClientRequest {
request_id: next_request_id(),
payload: Some(ClientRequestPayload::Auth(proto_auth::Request {
payload: Some(AuthRequestPayload::ChallengeRequest(AuthChallengeRequest {
pubkey: key.public_key().to_bytes(),
client_info: Some(ProtoClientInfo {
name: metadata.name,
description: metadata.description,
version: metadata.version,
}),
})),
})),
})
.await
.map_err(|_| AuthError::UnexpectedAuthResponse)
}
async fn receive_auth_challenge(
transport: &mut ClientTransport,
) -> Result<AuthChallenge, AuthError> {
let response = transport
.recv()
.await
.map_err(|_| AuthError::MissingAuthChallenge)?;
let payload = response.payload.ok_or(AuthError::MissingAuthChallenge)?;
match payload {
ClientResponsePayload::Auth(response) => match response.payload {
Some(AuthResponsePayload::Challenge(challenge)) => Ok(challenge),
Some(AuthResponsePayload::Result(result)) => Err(map_auth_result(result)),
None => Err(AuthError::MissingAuthChallenge),
},
_ => Err(AuthError::UnexpectedAuthResponse),
}
}
async fn send_auth_challenge_solution(
transport: &mut ClientTransport,
key: &SigningKey,
challenge: AuthChallenge,
) -> Result<(), AuthError> {
let timestamp = DateTime::from_timestamp_nanos(challenge.timestamp_nanos as i64);
let challenge = authn::AuthChallenge {
nonce: *challenge
.random
.as_array()
.ok_or(AuthError::InvalidChallenge)?,
timestamp,
};
let challenge_payload: Vec<u8> = challenge.format();
let signature = key
.sign_message(&challenge_payload, CLIENT_CONTEXT)
.map_err(|_| AuthError::UnexpectedAuthResponse)?
.to_bytes();
transport
.send(ClientRequest {
request_id: next_request_id(),
payload: Some(ClientRequestPayload::Auth(proto_auth::Request {
payload: Some(AuthRequestPayload::ChallengeSolution(
AuthChallengeSolution { signature },
)),
})),
})
.await
.map_err(|_| AuthError::UnexpectedAuthResponse)
}
async fn receive_auth_confirmation(transport: &mut ClientTransport) -> Result<(), AuthError> {
let response = transport
.recv()
.await
.map_err(|_| AuthError::UnexpectedAuthResponse)?;
let payload = response.payload.ok_or(AuthError::UnexpectedAuthResponse)?;
match payload {
ClientResponsePayload::Auth(response) => match response.payload {
Some(AuthResponsePayload::Result(result))
if AuthResult::try_from(result).ok() == Some(AuthResult::Success) =>
{
Ok(())
}
Some(AuthResponsePayload::Result(result)) => Err(map_auth_result(result)),
_ => Err(AuthError::UnexpectedAuthResponse),
},
_ => Err(AuthError::UnexpectedAuthResponse),
}
}
pub async fn authenticate(
transport: &mut ClientTransport,
metadata: ClientMetadata,
key: &SigningKey,
) -> Result<(), AuthError> {
send_auth_challenge_request(transport, metadata, key).await?;
let challenge = receive_auth_challenge(transport).await?;
send_auth_challenge_solution(transport, key, challenge).await?;
receive_auth_confirmation(transport).await
}

44
server/crates/arbiter-client/src/bin/test_connect.rs
View File

@@ -1,44 +0,0 @@
use arbiter_client::ArbiterClient;
use arbiter_proto::{ClientMetadata, url::ArbiterUrl};
use std::io::{self, Write};
#[tokio::main]
async fn main() {
println!("Testing connection to Arbiter server...");
print!("Enter ArbiterUrl: ");
let _ = io::stdout().flush();
let mut input = String::new();
if let Err(err) = io::stdin().read_line(&mut input) {
eprintln!("Failed to read input: {err}");
return;
}
let input = input.trim();
if input.is_empty() {
eprintln!("ArbiterUrl cannot be empty");
return;
}
let url = match ArbiterUrl::try_from(input) {
Ok(url) => url,
Err(err) => {
eprintln!("Invalid ArbiterUrl: {err}");
return;
}
};
println!("{url:#?}");
let metadata = ClientMetadata {
name: "arbiter-client test_connect".to_owned(),
description: Some("Manual connection smoke test".to_owned()),
version: Some(env!("CARGO_PKG_VERSION").to_owned()),
};
match ArbiterClient::connect(url, metadata).await {
Ok(_) => println!("Connected and authenticated successfully."),
Err(err) => eprintln!("Failed to connect: {err:#?}"),
}
}

101
server/crates/arbiter-client/src/client.rs
View File

@@ -1,101 +0,0 @@
#[cfg(feature = "evm")]
use crate::wallets::evm::ArbiterEvmWallet;
use crate::{
StorageError,
auth::{AuthError, authenticate},
storage::{FileSigningKeyStorage, SigningKeyStorage},
transport::{BUFFER_LENGTH, ClientTransport},
};
use arbiter_crypto::authn::SigningKey;
use arbiter_proto::{
ClientMetadata, proto::arbiter_service_client::ArbiterServiceClient, url::ArbiterUrl,
};
use std::sync::Arc;
use tokio::sync::{Mutex, mpsc};
use tokio_stream::wrappers::ReceiverStream;
use tonic::transport::ClientTlsConfig;
#[derive(Debug, thiserror::Error)]
pub enum ArbiterClientError {
#[error("Authentication error")]
Authentication(#[from] AuthError),
#[error("Could not establish connection")]
Connection(#[from] tonic::transport::Error),
#[error("gRPC error")]
Grpc(#[from] tonic::Status),
#[error("Invalid CA certificate")]
InvalidCaCert(#[from] webpki::Error),
#[error("Invalid server URI")]
InvalidUri(#[from] http::uri::InvalidUri),
#[error("Storage error")]
Storage(#[from] StorageError),
}
pub struct ArbiterClient {
#[expect(
dead_code,
reason = "transport will be used in future methods for sending requests and receiving responses"
)]
transport: Arc<Mutex<ClientTransport>>,
}
impl ArbiterClient {
pub async fn connect(
url: ArbiterUrl,
metadata: ClientMetadata,
) -> Result<Self, ArbiterClientError> {
let storage = FileSigningKeyStorage::from_default_location()?;
Self::connect_with_storage(url, metadata, &storage).await
}
pub async fn connect_with_storage<S: SigningKeyStorage>(
url: ArbiterUrl,
metadata: ClientMetadata,
storage: &S,
) -> Result<Self, ArbiterClientError> {
let key = storage.load_or_create()?;
Self::connect_with_key(url, metadata, key).await
}
pub async fn connect_with_key(
url: ArbiterUrl,
metadata: ClientMetadata,
key: SigningKey,
) -> Result<Self, ArbiterClientError> {
let anchor = webpki::anchor_from_trusted_cert(&url.ca_cert)?.to_owned();
let tls = ClientTlsConfig::new().trust_anchor(anchor);
let channel =
tonic::transport::Channel::from_shared(format!("https://{}:{}", url.host, url.port))?
.tls_config(tls)?
.connect()
.await?;
let mut client = ArbiterServiceClient::new(channel);
let (tx, rx) = mpsc::channel(BUFFER_LENGTH);
let response_stream = client.client(ReceiverStream::new(rx)).await?.into_inner();
let mut transport = ClientTransport {
sender: tx,
receiver: response_stream,
};
authenticate(&mut transport, metadata, &key).await?;
Ok(Self {
transport: Arc::new(Mutex::new(transport)),
})
}
#[cfg(feature = "evm")]
#[expect(clippy::unused_async, reason = "false positive")]
pub async fn evm_wallets(&self) -> Result<Vec<ArbiterEvmWallet>, ArbiterClientError> {
todo!("fetch EVM wallet list from server")
}
}

22
server/crates/arbiter-client/src/lib.rs
View File

@@ -1,12 +1,14 @@
mod auth;
mod client;
mod storage;
mod transport;
pub mod wallets;
pub fn add(left: u64, right: u64) -> u64 {
left + right
}
pub use auth::AuthError;
pub use client::{ArbiterClient, ArbiterClientError};
pub use storage::{FileSigningKeyStorage, SigningKeyStorage, StorageError};
#[cfg(test)]
mod tests {
use super::*;
#[cfg(feature = "evm")]
pub use wallets::evm::{ArbiterEvmSignTransactionError, ArbiterEvmWallet};
#[test]
fn it_works() {
let result = add(2, 2);
assert_eq!(result, 4);
}
}

134
server/crates/arbiter-client/src/storage.rs
View File

@@ -1,134 +0,0 @@
use arbiter_crypto::authn::SigningKey;
use arbiter_proto::home_path;
use std::path::{Path, PathBuf};
#[derive(Debug, thiserror::Error)]
pub enum StorageError {
#[error("Invalid signing key length in storage: expected {expected} bytes, got {actual} bytes")]
InvalidKeyLength { expected: usize, actual: usize },
#[error("I/O error")]
Io(#[from] std::io::Error),
}
pub trait SigningKeyStorage {
fn load_or_create(&self) -> Result<SigningKey, StorageError>;
}
#[derive(Debug, Clone)]
pub struct FileSigningKeyStorage {
path: PathBuf,
}
impl FileSigningKeyStorage {
pub const DEFAULT_FILE_NAME: &str = "sdk_client_ml_dsa.key";
pub fn new(path: impl Into<PathBuf>) -> Self {
Self { path: path.into() }
}
pub fn from_default_location() -> Result<Self, StorageError> {
Ok(Self::new(home_path()?.join(Self::DEFAULT_FILE_NAME)))
}
fn read_key(path: &Path) -> Result<SigningKey, StorageError> {
let bytes = std::fs::read(path)?;
let raw: [u8; 32] =
bytes
.try_into()
.map_err(|v: Vec<u8>| StorageError::InvalidKeyLength {
expected: 32,
actual: v.len(),
})?;
Ok(SigningKey::from_seed(raw))
}
}
impl SigningKeyStorage for FileSigningKeyStorage {
fn load_or_create(&self) -> Result<SigningKey, StorageError> {
if let Some(parent) = self.path.parent() {
std::fs::create_dir_all(parent)?;
}
if self.path.exists() {
return Self::read_key(&self.path);
}
let key = SigningKey::generate();
let raw_key = key.to_seed();
// Use create_new to prevent accidental overwrite if another process creates the key first.
match std::fs::OpenOptions::new()
.create_new(true)
.write(true)
.open(&self.path)
{
Ok(mut file) => {
use std::io::Write as _;
file.write_all(&raw_key)?;
Ok(key)
}
Err(err) if err.kind() == std::io::ErrorKind::AlreadyExists => {
Self::read_key(&self.path)
}
Err(err) => Err(StorageError::Io(err)),
}
}
}
#[cfg(test)]
mod tests {
use super::{FileSigningKeyStorage, SigningKeyStorage, StorageError};
fn unique_temp_key_path() -> std::path::PathBuf {
let nanos = std::time::SystemTime::now()
.duration_since(std::time::UNIX_EPOCH)
.expect("clock should be after unix epoch")
.as_nanos();
std::env::temp_dir().join(format!(
"arbiter-client-key-{}-{}.bin",
std::process::id(),
nanos
))
}
#[test]
fn file_storage_creates_and_reuses_key() {
let path = unique_temp_key_path();
let storage = FileSigningKeyStorage::new(path.clone());
let key_a = storage
.load_or_create()
.expect("first load_or_create should create key");
let key_b = storage
.load_or_create()
.expect("second load_or_create should read same key");
assert_eq!(key_a.to_seed(), key_b.to_seed());
assert!(path.exists());
std::fs::remove_file(path).expect("temp key file should be removable");
}
#[test]
fn file_storage_rejects_invalid_key_length() {
let path = unique_temp_key_path();
std::fs::write(&path, [42u8; 31]).expect("should write invalid key file");
let storage = FileSigningKeyStorage::new(path.clone());
let err = storage
.load_or_create()
.expect_err("storage should reject non-32-byte key file");
match err {
StorageError::InvalidKeyLength { expected, actual } => {
assert_eq!(expected, 32);
assert_eq!(actual, 31);
}
other @ StorageError::Io(_) => panic!("unexpected error: {other:?}"),
}
std::fs::remove_file(path).expect("temp key file should be removable");
}
}

41
server/crates/arbiter-client/src/transport.rs
View File

@@ -1,41 +0,0 @@
use arbiter_proto::proto::client::{ClientRequest, ClientResponse};
use std::sync::atomic::{AtomicI32, Ordering};
use tokio::sync::mpsc;
pub const BUFFER_LENGTH: usize = 16;
static NEXT_REQUEST_ID: AtomicI32 = AtomicI32::new(1);
pub fn next_request_id() -> i32 {
NEXT_REQUEST_ID.fetch_add(1, Ordering::Relaxed)
}
#[derive(Debug, thiserror::Error)]
pub enum ClientSignError {
#[error("Transport channel closed")]
ChannelClosed,
#[error("Connection closed by server")]
ConnectionClosed,
}
pub struct ClientTransport {
pub(crate) sender: mpsc::Sender<ClientRequest>,
pub(crate) receiver: tonic::Streaming<ClientResponse>,
}
impl ClientTransport {
pub(crate) async fn send(&mut self, request: ClientRequest) -> Result<(), ClientSignError> {
self.sender
.send(request)
.await
.map_err(|_| ClientSignError::ChannelClosed)
}
pub(crate) async fn recv(&mut self) -> Result<ClientResponse, ClientSignError> {
match self.receiver.message().await {
Ok(Some(resp)) => Ok(resp),
Ok(None) | Err(_) => Err(ClientSignError::ConnectionClosed),
}
}
}

197
server/crates/arbiter-client/src/wallets/evm.rs
View File

@@ -1,197 +0,0 @@
use crate::transport::{ClientTransport, next_request_id};
use arbiter_proto::proto::{
client::{
ClientRequest,
client_request::Payload as ClientRequestPayload,
client_response::Payload as ClientResponsePayload,
evm::{
self as proto_evm, request::Payload as EvmRequestPayload,
response::Payload as EvmResponsePayload,
},
},
evm::{
EvmSignTransactionRequest,
evm_sign_transaction_response::Result as EvmSignTransactionResult,
},
shared::evm::TransactionEvalError,
};
use alloy::{
consensus::SignableTransaction,
network::TxSigner,
primitives::{Address, B256, ChainId, Signature},
signers::{Error, Result, Signer},
};
use async_trait::async_trait;
use std::sync::Arc;
use tokio::sync::Mutex;
/// A typed error payload returned by [`ArbiterEvmWallet`] transaction signing.
///
/// This is wrapped into `alloy::signers::Error::Other`, so consumers can downcast by [`TryFrom`] and
/// interpret the concrete policy evaluation failure instead of parsing strings.
#[derive(Debug, thiserror::Error)]
#[non_exhaustive]
pub enum ArbiterEvmSignTransactionError {
#[error("transaction rejected by policy: {0:?}")]
PolicyEval(TransactionEvalError),
}
impl<'a> TryFrom<&'a Error> for &'a ArbiterEvmSignTransactionError {
type Error = ();
fn try_from(value: &'a Error) -> Result<Self, Self::Error> {
if let Error::Other(inner) = value
&& let Some(eval_error) = inner.downcast_ref()
{
Ok(eval_error)
} else {
Err(())
}
}
}
pub struct ArbiterEvmWallet {
transport: Arc<Mutex<ClientTransport>>,
address: Address,
chain_id: Option<ChainId>,
}
impl ArbiterEvmWallet {
#[expect(
dead_code,
reason = "new will be used in future methods for creating wallets with different parameters"
)]
pub(crate) const fn new(transport: Arc<Mutex<ClientTransport>>, address: Address) -> Self {
Self {
transport,
address,
chain_id: None,
}
}
pub const fn address(&self) -> Address {
self.address
}
#[must_use]
pub const fn with_chain_id(mut self, chain_id: ChainId) -> Self {
self.chain_id = Some(chain_id);
self
}
fn validate_chain_id(&self, tx: &mut dyn SignableTransaction<Signature>) -> Result<()> {
if let Some(chain_id) = self.chain_id
&& !tx.set_chain_id_checked(chain_id)
{
return Err(Error::TransactionChainIdMismatch {
signer: chain_id,
tx: tx.chain_id().unwrap(),
});
}
Ok(())
}
}
#[async_trait]
impl Signer for ArbiterEvmWallet {
async fn sign_hash(&self, _hash: &B256) -> Result<Signature> {
Err(Error::other(
"hash-only signing is not supported for ArbiterEvmWallet; use transaction signing",
))
}
fn address(&self) -> Address {
self.address
}
fn chain_id(&self) -> Option<ChainId> {
self.chain_id
}
fn set_chain_id(&mut self, chain_id: Option<ChainId>) {
self.chain_id = chain_id;
}
}
#[async_trait]
impl TxSigner<Signature> for ArbiterEvmWallet {
fn address(&self) -> Address {
self.address
}
async fn sign_transaction(
&self,
tx: &mut dyn SignableTransaction<Signature>,
) -> Result<Signature> {
self.validate_chain_id(tx)?;
let mut transport = self.transport.lock().await;
let request_id = next_request_id();
let rlp_transaction = tx.encoded_for_signing();
transport
.send(ClientRequest {
request_id,
payload: Some(ClientRequestPayload::Evm(proto_evm::Request {
payload: Some(EvmRequestPayload::SignTransaction(
EvmSignTransactionRequest {
wallet_address: self.address.to_vec(),
rlp_transaction,
},
)),
})),
})
.await
.map_err(|_| Error::other("failed to send evm sign transaction request"))?;
let response = transport
.recv()
.await
.map_err(|_| Error::other("failed to receive evm sign transaction response"))?;
drop(transport);
if response.request_id != Some(request_id) {
return Err(Error::other(
"received mismatched response id for evm sign transaction",
));
}
let payload = response
.payload
.ok_or_else(|| Error::other("missing evm sign transaction response payload"))?;
let ClientResponsePayload::Evm(proto_evm::Response {
payload: Some(payload),
}) = payload
else {
return Err(Error::other(
"unexpected response payload for evm sign transaction request",
));
};
let EvmResponsePayload::SignTransaction(response) = payload else {
return Err(Error::other(
"unexpected evm response payload for sign transaction request",
));
};
let result = response
.result
.ok_or_else(|| Error::other("missing evm sign transaction result"))?;
match result {
EvmSignTransactionResult::Signature(signature) => {
Signature::try_from(signature.as_slice())
.map_err(|_| Error::other("invalid signature returned by server"))
}
EvmSignTransactionResult::EvalError(eval_error) => Err(Error::other(
ArbiterEvmSignTransactionError::PolicyEval(eval_error),
)),
EvmSignTransactionResult::Error(code) => Err(Error::other(format!(
"server failed to sign transaction with error code {code}"
))),
}
}
}

2
server/crates/arbiter-client/src/wallets/mod.rs
View File

@@ -1,2 +0,0 @@
#[cfg(feature = "evm")]
pub mod evm;

1
server/crates/arbiter-crypto/.gitignore vendored
View File

@@ -1 +0,0 @@
/target

25
server/crates/arbiter-crypto/Cargo.toml
View File

@@ -1,25 +0,0 @@
[package]
name = "arbiter-crypto"
version = "0.1.0"
edition = "2024"
[dependencies]
ml-dsa = {workspace = true, optional = true }
rand = {workspace = true, optional = true}
memsafe = {version = "0.4.0", optional = true}
hmac.workspace = true
alloy.workspace = true
x-wing = { version = "0.1.0-rc.0", features = ["zeroize"] }
chrono.workspace = true
thiserror.workspace = true
[lints]
workspace = true
[features]
default = ["authn", "safecell"]
authn = ["dep:ml-dsa", "dep:rand"]
safecell = ["dep:memsafe"]
[lib]
doctest = false

2
server/crates/arbiter-crypto/src/authn/mod.rs
View File

@@ -1,2 +0,0 @@
pub mod v1;
pub use v1::*;

252
server/crates/arbiter-crypto/src/authn/v1.rs
View File

@@ -1,252 +0,0 @@
use chrono::{DateTime, Utc};
use hmac::digest::Digest;
use ml_dsa::{
EncodedVerifyingKey, Error, KeyGen, MlDsa87, Seed, Signature as MlDsaSignature,
SigningKey as MlDsaSigningKey, VerifyingKey as MlDsaVerifyingKey, signature::Keypair as _,
};
use rand::RngExt;
pub static CLIENT_CONTEXT: &[u8] = b"arbiter_client";
pub static OPERATOR_CONTEXT: &[u8] = b"arbiter_operator";
const NONCE_SIZE: usize = 32;
#[derive(Debug, Clone, Copy, PartialEq, Eq, thiserror::Error)]
#[error("invalid length: expected {expected} bytes, got {actual} bytes")]
pub struct InvalidLength {
pub expected: usize,
pub actual: usize,
}
#[derive(Debug, Clone)]
pub struct AuthChallenge {
pub nonce: [u8; NONCE_SIZE],
pub timestamp: DateTime<Utc>,
}
impl AuthChallenge {
pub fn generate(rng: &mut impl rand::CryptoRng) -> Self {
let timestamp = Utc::now();
let nonce = {
let mut array = [0; NONCE_SIZE];
rng.fill(&mut array);
array
};
Self { nonce, timestamp }
}
pub fn format(&self) -> Vec<u8> {
{
let mut buffer = Vec::from(self.nonce);
let stamp = self
.timestamp
.timestamp_nanos_opt()
.expect("We would be long dead by the time this triggers :)");
buffer.extend_from_slice(stamp.to_be_bytes().as_slice());
buffer
}
}
pub fn from_parts(nonce: &[u8], timestamp: i64) -> Result<Self, InvalidLength> {
let random_nonce = nonce.as_array().ok_or(InvalidLength {
expected: NONCE_SIZE,
actual: nonce.len(),
})?;
Ok(Self {
nonce: *random_nonce,
timestamp: DateTime::from_timestamp_nanos(timestamp),
})
}
}
pub type KeyParams = MlDsa87;
#[derive(Clone, Debug, PartialEq)]
pub struct PublicKey(Box<MlDsaVerifyingKey<KeyParams>>);
impl crate::hashing::Hashable for PublicKey {
fn hash<H: Digest>(&self, hasher: &mut H) {
hasher.update(self.to_bytes());
}
}
#[derive(Clone, Debug, PartialEq)]
pub struct Signature(Box<MlDsaSignature<KeyParams>>);
#[derive(Debug)]
pub struct SigningKey(Box<MlDsaSigningKey<KeyParams>>);
impl PublicKey {
pub fn to_bytes(&self) -> Vec<u8> {
self.0.encode().0.to_vec()
}
#[must_use]
pub fn verify(&self, challenge: &AuthChallenge, context: &[u8], signature: &Signature) -> bool {
let challenge = challenge.format();
self.0
.verify_with_context(&challenge, context, &signature.0)
}
}
impl Signature {
pub fn to_bytes(&self) -> Vec<u8> {
self.0.encode().0.to_vec()
}
}
impl SigningKey {
pub fn generate() -> Self {
Self(Box::new(KeyParams::key_gen(&mut rand::rng())))
}
pub fn from_seed(seed: [u8; 32]) -> Self {
Self(Box::new(KeyParams::from_seed(&Seed::from(seed))))
}
pub fn to_seed(&self) -> [u8; 32] {
self.0.to_seed().into()
}
pub fn public_key(&self) -> PublicKey {
self.0.verifying_key().into()
}
pub fn sign_message(&self, message: &[u8], context: &[u8]) -> Result<Signature, Error> {
self.0
.signing_key()
.sign_deterministic(message, context)
.map(Into::into)
}
pub fn sign_challenge(
&self,
challenge: &AuthChallenge,
context: &[u8],
) -> Result<Signature, Error> {
let challenge = challenge.format();
self.sign_message(&challenge, context)
}
}
impl From<MlDsaVerifyingKey<KeyParams>> for PublicKey {
fn from(value: MlDsaVerifyingKey<KeyParams>) -> Self {
Self(Box::new(value))
}
}
impl From<MlDsaSignature<KeyParams>> for Signature {
fn from(value: MlDsaSignature<KeyParams>) -> Self {
Self(Box::new(value))
}
}
impl From<MlDsaSigningKey<KeyParams>> for SigningKey {
fn from(value: MlDsaSigningKey<KeyParams>) -> Self {
Self(Box::new(value))
}
}
impl TryFrom<Vec<u8>> for PublicKey {
type Error = ();
fn try_from(value: Vec<u8>) -> Result<Self, Self::Error> {
Self::try_from(value.as_slice())
}
}
impl TryFrom<&'_ [u8]> for PublicKey {
type Error = ();
fn try_from(value: &[u8]) -> Result<Self, Self::Error> {
let encoded = EncodedVerifyingKey::<KeyParams>::try_from(value).map_err(|_| ())?;
Ok(Self(Box::new(MlDsaVerifyingKey::decode(&encoded))))
}
}
impl TryFrom<Vec<u8>> for Signature {
type Error = ();
fn try_from(value: Vec<u8>) -> Result<Self, Self::Error> {
Self::try_from(value.as_slice())
}
}
impl TryFrom<&'_ [u8]> for Signature {
type Error = ();
fn try_from(value: &[u8]) -> Result<Self, Self::Error> {
MlDsaSignature::try_from(value)
.map(|sig| Self(Box::new(sig)))
.map_err(|_| ())
}
}
#[cfg(test)]
mod tests {
use ml_dsa::{KeyGen, MlDsa87, signature::Keypair as _};
use crate::authn::AuthChallenge;
use super::{CLIENT_CONTEXT, PublicKey, Signature, SigningKey, OPERATOR_CONTEXT};
#[test]
fn public_key_round_trip_decodes() {
let key = MlDsa87::key_gen(&mut rand::rng());
let encoded = PublicKey::from(key.verifying_key()).to_bytes();
let decoded = PublicKey::try_from(encoded.as_slice()).expect("public key should decode");
assert_eq!(decoded, PublicKey::from(key.verifying_key()));
}
#[test]
fn signature_round_trip_decodes() {
let key = SigningKey::generate();
let signature = key
.sign_message(b"challenge", CLIENT_CONTEXT)
.expect("signature should be created");
let decoded =
Signature::try_from(signature.to_bytes().as_slice()).expect("signature should decode");
assert_eq!(decoded, signature);
}
#[test]
fn challenge_verification_uses_context_and_canonical_key_bytes() {
let key = SigningKey::generate();
let public_key = key.public_key();
let challenge = AuthChallenge::generate(&mut rand::rng());
let signature = key
.sign_challenge(&challenge, CLIENT_CONTEXT)
.expect("signature should be created");
assert!(public_key.verify(&challenge, CLIENT_CONTEXT, &signature));
assert!(!public_key.verify(&challenge, OPERATOR_CONTEXT, &signature));
}
#[test]
fn signing_key_round_trip_seed_preserves_public_key_and_signing() {
let original = SigningKey::generate();
let restored = SigningKey::from_seed(original.to_seed());
assert_eq!(restored.public_key(), original.public_key());
let challenge = AuthChallenge::generate(&mut rand::rng());
let signature = restored
.sign_challenge(&challenge, CLIENT_CONTEXT)
.expect("signature should be created");
assert!(
restored
.public_key()
.verify(&challenge, CLIENT_CONTEXT, &signature)
);
}
}

112
server/crates/arbiter-crypto/src/hashing.rs
View File

@@ -1,112 +0,0 @@
use std::collections::HashSet;
pub use hmac::digest::Digest;
/// Deterministically hash a value by feeding its fields into the hasher in a consistent order.
#[diagnostic::on_unimplemented(
note = "for local types consider adding `#[derive(arbiter_macros::Hashable)]` to your `{Self}` type",
note = "for types from other crates check whether the crate offers a `Hashable` implementation"
)]
pub trait Hashable {
fn hash<H: Digest>(&self, hasher: &mut H);
}
macro_rules! impl_numeric {
($($t:ty),*) => {
$(
impl Hashable for $t {
fn hash<H: Digest>(&self, hasher: &mut H) {
hasher.update(&self.to_be_bytes());
}
}
)*
};
}
impl_numeric!(u8, u16, u32, u64, i8, i16, i32, i64);
impl Hashable for &[u8] {
fn hash<H: Digest>(&self, hasher: &mut H) {
hasher.update(self);
}
}
impl Hashable for String {
fn hash<H: Digest>(&self, hasher: &mut H) {
hasher.update(self.as_bytes());
}
}
impl<T: Hashable + PartialOrd> Hashable for Vec<T> {
fn hash<H: Digest>(&self, hasher: &mut H) {
let ref_sorted = {
let mut sorted = self.iter().collect::<Vec<_>>();
sorted.sort_by(|a, b| a.partial_cmp(b).unwrap());
sorted
};
for item in ref_sorted {
item.hash(hasher);
}
}
}
impl<T: Hashable + PartialOrd, S: std::hash::BuildHasher> Hashable for HashSet<T, S> {
fn hash<H: Digest>(&self, hasher: &mut H) {
let ref_sorted = {
let mut sorted = self.iter().collect::<Vec<_>>();
sorted.sort_by(|a, b| a.partial_cmp(b).unwrap());
sorted
};
for item in ref_sorted {
item.hash(hasher);
}
}
}
impl<T: Hashable> Hashable for Option<T> {
fn hash<H: Digest>(&self, hasher: &mut H) {
match self {
Some(value) => {
hasher.update([1]);
value.hash(hasher);
}
None => hasher.update([0]),
}
}
}
impl<T: Hashable> Hashable for Box<T> {
fn hash<H: Digest>(&self, hasher: &mut H) {
self.as_ref().hash(hasher);
}
}
impl<T: Hashable> Hashable for &T {
fn hash<H: Digest>(&self, hasher: &mut H) {
(*self).hash(hasher);
}
}
impl Hashable for alloy::primitives::Address {
fn hash<H: Digest>(&self, hasher: &mut H) {
hasher.update(self.as_slice());
}
}
impl Hashable for alloy::primitives::U256 {
fn hash<H: Digest>(&self, hasher: &mut H) {
hasher.update(self.to_be_bytes::<32>());
}
}
impl Hashable for chrono::Duration {
fn hash<H: Digest>(&self, hasher: &mut H) {
hasher.update(self.num_seconds().to_be_bytes());
}
}
impl Hashable for chrono::DateTime<chrono::Utc> {
fn hash<H: Digest>(&self, hasher: &mut H) {
hasher.update(self.timestamp_millis().to_be_bytes());
}
}

7
server/crates/arbiter-crypto/src/lib.rs
View File

@@ -1,7 +0,0 @@
#[cfg(feature = "authn")]
pub mod authn;
pub mod hashing;
#[cfg(feature = "safecell")]
pub mod safecell;
pub use x_wing;

126
server/crates/arbiter-crypto/src/safecell.rs
View File

@@ -1,126 +0,0 @@
use memsafe::MemSafe;
use std::{
any::type_name,
fmt,
ops::{Deref, DerefMut},
};
pub trait SafeCellHandle<T> {
type CellRead<'a>: Deref<Target = T>
where
Self: 'a,
T: 'a;
type CellWrite<'a>: Deref<Target = T> + DerefMut<Target = T>
where
Self: 'a,
T: 'a;
fn new(value: T) -> Self
where
Self: Sized;
fn read(&mut self) -> Self::CellRead<'_>;
fn write(&mut self) -> Self::CellWrite<'_>;
fn new_inline_default<F>(f: F) -> Self
where
Self: Sized,
T: Default,
F: for<'a> FnOnce(&'a mut T),
{
let mut cell = Self::new(T::default());
{
let mut handle = cell.write();
f(&mut *handle);
}
cell
}
fn new_inline<F>(f: Box<F>) -> Self
where
Self: Sized,
F: for<'a> FnOnce() -> T,
{
Self::new(f())
}
#[inline(always)]
fn read_inline<F, R>(&mut self, f: F) -> R
where
F: FnOnce(&T) -> R,
{
f(&*self.read())
}
#[inline(always)]
fn write_inline<F, R>(&mut self, f: F) -> R
where
F: FnOnce(&mut T) -> R,
{
f(&mut *self.write())
}
}
pub struct MemSafeCell<T>(MemSafe<T>);
impl<T> fmt::Debug for MemSafeCell<T> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_struct("MemSafeCell")
.field("inner", &format_args!("<protected {}>", type_name::<T>()))
.finish()
}
}
impl<T> SafeCellHandle<T> for MemSafeCell<T> {
type CellRead<'a>
= memsafe::MemSafeRead<'a, T>
where
Self: 'a,
T: 'a;
type CellWrite<'a>
= memsafe::MemSafeWrite<'a, T>
where
Self: 'a,
T: 'a;
fn new(value: T) -> Self {
match MemSafe::new(value) {
Ok(inner) => Self(inner),
Err(err) => {
// If protected memory cannot be allocated, process integrity is compromised.
abort_memory_breach("safe cell allocation", &err)
}
}
}
#[inline(always)]
fn read(&mut self) -> Self::CellRead<'_> {
match self.0.read() {
Ok(inner) => inner,
Err(err) => abort_memory_breach("safe cell read", &err),
}
}
#[inline(always)]
fn write(&mut self) -> Self::CellWrite<'_> {
match self.0.write() {
Ok(inner) => inner,
Err(err) => {
// If protected memory becomes unwritable here, treat it as a fatal memory breach.
abort_memory_breach("safe cell write", &err)
}
}
}
}
fn abort_memory_breach(action: &str, err: &memsafe::error::MemoryError) -> ! {
eprintln!("fatal {action}: {err}");
// SAFETY: Intentionally cause a segmentation fault to prevent further execution in a compromised state.
unsafe {
let unsafe_pointer = std::ptr::null_mut::<u8>();
std::ptr::write_volatile(unsafe_pointer, 0);
}
std::process::abort();
}
pub type SafeCell<T> = MemSafeCell<T>;

19
server/crates/arbiter-macros/Cargo.toml
View File

@@ -1,19 +0,0 @@
[package]
name = "arbiter-macros"
version = "0.1.0"
edition = "2024"
[lib]
proc-macro = true
doctest = false
[dependencies]
proc-macro2 = "1.0"
quote = "1.0"
syn = { version = "2.0", features = ["derive", "fold", "full", "visit-mut"] }
[dev-dependencies]
arbiter-crypto = { path = "../arbiter-crypto" }
[lints]
workspace = true

131
server/crates/arbiter-macros/src/hashable.rs
View File

@@ -1,131 +0,0 @@
use crate::utils::{HASHABLE_TRAIT_PATH, HMAC_DIGEST_PATH};
use proc_macro2::{Span, TokenStream, TokenTree};
use quote::quote;
use syn::{DataStruct, DeriveInput, Fields, Generics, Index, parse_quote, spanned::Spanned};
pub(crate) fn derive(input: &DeriveInput) -> TokenStream {
match &input.data {
syn::Data::Struct(struct_data) => hashable_struct(input, struct_data),
syn::Data::Enum(_) => {
syn::Error::new_spanned(input, "Hashable can currently be derived only for structs")
.to_compile_error()
}
syn::Data::Union(_) => {
syn::Error::new_spanned(input, "Hashable cannot be derived for unions")
.to_compile_error()
}
}
}
fn hashable_struct(input: &DeriveInput, struct_data: &DataStruct) -> TokenStream {
let ident = &input.ident;
let hashable_trait = HASHABLE_TRAIT_PATH.to_path();
let hmac_digest = HMAC_DIGEST_PATH.to_path();
let generics = add_hashable_bounds(input.generics.clone(), &hashable_trait);
let field_accesses = collect_field_accesses(struct_data);
let hash_calls = build_hash_calls(&field_accesses, &hashable_trait);
let (impl_generics, ty_generics, where_clause) = generics.split_for_impl();
quote! {
#[automatically_derived]
impl #impl_generics #hashable_trait for #ident #ty_generics #where_clause {
fn hash<H: #hmac_digest>(&self, hasher: &mut H) {
#(#hash_calls)*
}
}
}
}
fn add_hashable_bounds(mut generics: Generics, hashable_trait: &syn::Path) -> Generics {
for type_param in generics.type_params_mut() {
type_param.bounds.push(parse_quote!(#hashable_trait));
}
generics
}
struct FieldAccess {
access: TokenStream,
span: Span,
}
fn collect_field_accesses(struct_data: &DataStruct) -> Vec<FieldAccess> {
match &struct_data.fields {
Fields::Named(fields) => {
// Keep deterministic alphabetical order for named fields.
// Do not remove this sort, because it keeps hash output stable regardless of source order.
let mut named_fields = fields
.named
.iter()
.map(|field| {
let name = field
.ident
.as_ref()
.expect("Fields::Named(fields) must have names")
.clone();
(name.to_string(), name)
})
.collect::<Vec<_>>();
named_fields.sort_by(|a, b| a.0.cmp(&b.0));
named_fields
.into_iter()
.map(|(_, name)| FieldAccess {
access: quote! { #name },
span: name.span(),
})
.collect()
}
Fields::Unnamed(fields) => fields
.unnamed
.iter()
.enumerate()
.map(|(i, field)| FieldAccess {
access: {
let index = Index::from(i);
quote! { #index }
},
span: field.ty.span(),
})
.collect(),
Fields::Unit => Vec::new(),
}
}
fn build_hash_calls(
field_accesses: &[FieldAccess],
hashable_trait: &syn::Path,
) -> Vec<TokenStream> {
field_accesses
.iter()
.map(|field| {
let access = &field.access;
let call = quote! {
#hashable_trait::hash(&self.#access, hasher);
};
respan(call, field.span)
})
.collect()
}
/// Recursively set span on all tokens, including interpolated ones.
fn respan(tokens: TokenStream, span: Span) -> TokenStream {
tokens
.into_iter()
.map(|tt| match tt {
TokenTree::Group(g) => {
let mut new = proc_macro2::Group::new(g.delimiter(), respan(g.stream(), span));
new.set_span(span);
TokenTree::Group(new)
}
mut other => {
other.set_span(span);
other
}
})
.collect()
}

10
server/crates/arbiter-macros/src/lib.rs
View File

@@ -1,10 +0,0 @@
use syn::{DeriveInput, parse_macro_input};
mod hashable;
mod utils;
#[proc_macro_derive(Hashable)]
pub fn derive_hashable(input: proc_macro::TokenStream) -> proc_macro::TokenStream {
let input = parse_macro_input!(input as DeriveInput);
hashable::derive(&input).into()
}

24
server/crates/arbiter-macros/src/utils.rs
View File

@@ -1,24 +0,0 @@
pub(crate) struct ToPath(pub &'static str);
impl ToPath {
pub(crate) fn to_path(&self) -> syn::Path {
syn::parse_str(self.0).expect("Invalid path")
}
}
macro_rules! ensure_path {
($path:path as $name:ident) => {
const _: () = {
#[cfg(test)]
#[expect(
unused_imports,
reason = "Ensures the path is valid and will cause a compile error if not"
)]
use $path as _;
};
pub(crate) const $name: ToPath = ToPath(stringify!($path));
};
}
ensure_path!(::arbiter_crypto::hashing::Hashable as HASHABLE_TRAIT_PATH);
ensure_path!(::arbiter_crypto::hashing::Digest as HMAC_DIGEST_PATH);

20
server/crates/arbiter-proto/Cargo.toml
View File

@@ -9,27 +9,25 @@ license = "Apache-2.0"
tonic.workspace = true
tokio.workspace = true
futures.workspace = true
tonic-prost = "0.14.5"
prost.workspace = true
tonic-prost = "0.14.3"
prost = "0.14.3"
kameo.workspace = true
url = "2.5.8"
miette.workspace = true
thiserror.workspace = true
rustls-pki-types.workspace = true
base64.workspace = true
prost-types.workspace = true
async-trait.workspace = true
tokio-stream.workspace = true
base64 = "0.22.1"
tracing.workspace = true
[build-dependencies]
tonic-prost-build = "0.14.5"
tonic-prost-build = "0.14.3"
[dev-dependencies]
rstest.workspace = true
rand.workspace = true
rcgen.workspace = true
[lib]
doctest = false
[package.metadata.cargo-shear]
ignored = ["tonic-prost", "prost"]
ignored = ["tonic-prost", "prost", "kameo"]

6
server/crates/arbiter-proto/build.rs
View File

@@ -3,6 +3,7 @@ use tonic_prost_build::configure;
static PROTOBUF_DIR: &str = "../../../protobufs";
fn main() -> Result<(), Box<dyn std::error::Error>> {
println!("cargo::rerun-if-changed={PROTOBUF_DIR}");
configure()
@@ -10,12 +11,11 @@ fn main() -> Result<(), Box<dyn std::error::Error>> {
.compile_protos(
&[
format!("{}/arbiter.proto", PROTOBUF_DIR),
format!("{}/operator.proto", PROTOBUF_DIR),
format!("{}/client.proto", PROTOBUF_DIR),
format!("{}/evm.proto", PROTOBUF_DIR),
format!("{}/auth.proto", PROTOBUF_DIR),
],
&[PROTOBUF_DIR.to_string()],
)
.unwrap();
Ok(())
}

72
server/crates/arbiter-proto/src/lib.rs
View File

@@ -1,71 +1,16 @@
pub mod transport;
pub mod url;
use base64::{Engine, prelude::BASE64_STANDARD};
use crate::proto::auth::AuthChallenge;
pub mod proto {
tonic::include_proto!("arbiter");
pub mod shared {
tonic::include_proto!("arbiter.shared");
pub mod evm {
tonic::include_proto!("arbiter.shared.evm");
}
pub mod auth {
tonic::include_proto!("arbiter.auth");
}
pub mod operator {
tonic::include_proto!("arbiter.operator");
pub mod auth {
tonic::include_proto!("arbiter.operator.auth");
}
pub mod evm {
tonic::include_proto!("arbiter.operator.evm");
}
pub mod sdk_client {
tonic::include_proto!("arbiter.operator.sdk_client");
}
pub mod vault {
tonic::include_proto!("arbiter.operator.vault");
pub mod bootstrap {
tonic::include_proto!("arbiter.operator.vault.bootstrap");
}
pub mod unseal {
tonic::include_proto!("arbiter.operator.vault.unseal");
}
}
}
pub mod client {
tonic::include_proto!("arbiter.client");
pub mod auth {
tonic::include_proto!("arbiter.client.auth");
}
pub mod evm {
tonic::include_proto!("arbiter.client.evm");
}
pub mod vault {
tonic::include_proto!("arbiter.client.vault");
}
}
pub mod evm {
tonic::include_proto!("arbiter.evm");
}
}
#[derive(Debug, Clone, PartialEq, Eq)]
pub struct ClientMetadata {
pub name: String,
pub description: Option<String>,
pub version: Option<String>,
}
pub static BOOTSTRAP_PATH: &str = "bootstrap_token";
@@ -82,3 +27,8 @@ pub fn home_path() -> Result<std::path::PathBuf, std::io::Error> {
Ok(arbiter_home)
}
pub fn format_challenge(challenge: &AuthChallenge) -> Vec<u8> {
let concat_form = format!("{}:{}", challenge.nonce, BASE64_STANDARD.encode(&challenge.pubkey));
concat_form.into_bytes().to_vec()
}

261
server/crates/arbiter-proto/src/transport.rs
View File

@@ -1,218 +1,125 @@
//! Transport-facing abstractions shared by protocol/session code.
//!
//! This module defines a small set of transport traits that actors and other
//! protocol code can depend on without knowing anything about the concrete
//! transport underneath.
//!
//! The abstraction is split into:
//! - [`Sender`] for outbound delivery
//! - [`Receiver`] for inbound delivery
//! - [`Bi`] as the combined duplex form (`Sender + Receiver`)
//!
//! This split lets code depend only on the half it actually needs. For
//! example, some actor/session code only sends out-of-band messages, while
//! auth/state-machine code may need full duplex access.
//!
//! [`Bi`] remains intentionally minimal and transport-agnostic:
//! - [`Receiver::recv`] yields inbound messages
//! - [`Sender::send`] accepts outbound messages
//!
//! Transport-specific adapters, including protobuf or gRPC bridges, live in the
//! crates that own those boundaries rather than in `arbiter-proto`.
//!
//! [`Bi`] deliberately does not model request/response correlation. Some
//! transports may carry multiplexed request/response traffic, some may emit
//! out-of-band messages, and some may be one-message-at-a-time state machines.
//! Correlation concerns such as request IDs, pending response maps, and
//! out-of-band routing belong in the adapter or connection layer built on top
//! of [`Bi`], not in this abstraction itself.
//!
//! # Generic Ordering Rule
//!
//! This module consistently uses `Inbound` first and `Outbound` second in
//! generic parameter lists.
//!
//! For [`Receiver`], [`Sender`], and [`Bi`], this means:
//! - `Receiver<Inbound>`
//! - `Sender<Outbound>`
//! - `Bi<Inbound, Outbound>`
//!
//! Concretely, for [`Bi`]:
//! - `recv() -> Option<Inbound>`
//! - `send(Outbound)`
//!
//! [`expect_message`] is a small helper for linear protocol steps: it reads one
//! inbound message from a transport and extracts a typed value from it, failing
//! if the channel closes or the message shape is not what the caller expected.
//!
//! [`DummyTransport`] is a no-op implementation useful for tests and local
//! actor execution where no real stream exists.
//!
//! # Design Notes
//!
//! - [`Bi::send`] returns [`Error`] only for transport delivery failures, such
//! as a closed outbound channel.
//! - [`Bi::recv`] returns `None` when the underlying transport closes.
//! - Message translation is intentionally out of scope for this module.
use async_trait::async_trait;
use kameo::{error::Infallible, prelude::*};
use std::marker::PhantomData;
use futures::StreamExt;
use tokio::sync::mpsc;
use tonic::{Status, Streaming};
/// Errors returned by transport adapters implementing [`Bi`].
#[derive(thiserror::Error, Debug)]
pub enum Error {
#[error("Transport channel is closed")]
/// The outbound side of the transport is no longer accepting messages.
ChannelClosed,
#[error("Unexpected message received")]
UnexpectedMessage,
}
/// Receives one message from `transport` and extracts a value from it using
/// `extractor`. Returns [`Error::ChannelClosed`] if the transport closes and
/// [`Error::UnexpectedMessage`] if `extractor` returns `None`.
pub async fn expect_message<T, Inbound, Outbound, Target, F>(
transport: &mut T,
extractor: F,
) -> Result<Target, Error>
where
T: Bi<Inbound, Outbound> + ?Sized,
F: FnOnce(Inbound) -> Option<Target>,
{
let msg = transport.recv().await.ok_or(Error::ChannelClosed)?;
extractor(msg).ok_or(Error::UnexpectedMessage)
}
#[async_trait]
pub trait Sender<Outbound>: Send + Sync {
async fn send(&mut self, item: Outbound) -> Result<(), Error>;
}
#[async_trait]
pub trait Receiver<Inbound>: Send + Sync {
async fn recv(&mut self) -> Option<Inbound>;
}
/// Minimal bidirectional transport abstraction used by protocol code.
///
/// `Bi<Inbound, Outbound>` is the combined duplex form of [`Sender`] and
/// [`Receiver`].
/// `Bi<T, U, E>` models a duplex channel with:
/// - inbound items of type `T` read via [`Bi::recv`]
/// - outbound success items of type `U` or domain errors of type `E` written via [`Bi::send`]
///
/// It models a channel with:
/// - inbound items of type `Inbound` read via [`Bi::recv`]
/// - outbound items of type `Outbound` written via [`Bi::send`]
/// The trait intentionally exposes only the operations the protocol layer needs,
/// allowing it to work with gRPC streams and other transport implementations.
///
/// It does not imply request/response sequencing, one-at-a-time exchange, or
/// any built-in correlation mechanism between inbound and outbound items.
pub trait Bi<Inbound, Outbound>: Sender<Outbound> + Receiver<Inbound> + Send + Sync {}
/// # Stream termination and errors
///
/// [`Bi::recv`] returns:
/// - `Some(item)` when a new inbound message is available
/// - `None` when the inbound stream ends or the underlying transport reports an error
///
/// Implementations may collapse transport-specific receive errors into `None`
/// when the protocol does not need to distinguish them from normal stream
/// termination.
pub trait Bi<T, U, E>: Send + Sync + 'static {
/// Sends one outbound result to the peer.
fn send(
&mut self,
item: Result<U, E>,
) -> impl std::future::Future<Output = Result<(), Error>> + Send;
#[async_trait]
impl<T, Outbound> Sender<Outbound> for &mut T
where
T: Sender<Outbound> + ?Sized,
Outbound: Send + 'static,
{
async fn send(&mut self, item: Outbound) -> Result<(), Error> {
(**self).send(item).await
/// Receives the next inbound item.
///
/// Returns `None` when the inbound stream is finished or can no longer
/// produce items.
fn recv(&mut self) -> impl std::future::Future<Output = Option<T>> + Send;
}
/// [`Bi`] adapter backed by a tonic gRPC bidirectional stream.
///
/// Outbound items are sent through a Tokio MPSC sender, while inbound items are
/// read from tonic [`Streaming`].
pub struct GrpcAdapter<Inbound, Outbound, E> {
sender: mpsc::Sender<Result<Outbound, Status>>,
receiver: Streaming<Inbound>,
_error: PhantomData<E>,
}
impl<Inbound, Outbound, E> GrpcAdapter<Inbound, Outbound, E> {
/// Creates a new gRPC-backed [`Bi`] adapter.
pub fn new(sender: mpsc::Sender<Result<Outbound, Status>>, receiver: Streaming<Inbound>) -> Self {
Self {
sender,
receiver,
_error: PhantomData,
}
}
}
#[async_trait]
impl<T, Inbound> Receiver<Inbound> for &mut T
impl<Inbound, Outbound, E> Bi<Inbound, Outbound, E> for GrpcAdapter<Inbound, Outbound, E>
where
T: Receiver<Inbound> + ?Sized,
Inbound: Send + 'static,
Outbound: Send + 'static,
E: Into<Status> + Send + Sync + 'static,
{
#[tracing::instrument(level = "trace", skip(self, item))]
async fn send(&mut self, item: Result<Outbound, E>) -> Result<(), Error> {
self.sender
.send(item.map_err(Into::into))
.await
.map_err(|_| Error::ChannelClosed)
}
#[tracing::instrument(level = "trace", skip(self))]
async fn recv(&mut self) -> Option<Inbound> {
(**self).recv().await
self.receiver.next().await.transpose().ok().flatten()
}
}
impl<T, Inbound, Outbound> Bi<Inbound, Outbound> for &mut T
where
T: Bi<Inbound, Outbound> + ?Sized,
Inbound: Send + 'static,
Outbound: Send + 'static,
{
}
pub trait SplittableBi<Inbound, Outbound>: Bi<Inbound, Outbound> {
type Sender: Sender<Outbound>;
type Receiver: Receiver<Inbound>;
fn split(self) -> (Self::Sender, Self::Receiver);
fn from_parts(sender: Self::Sender, receiver: Self::Receiver) -> Self;
}
/// No-op [`Bi`] transport for tests and manual actor usage.
///
/// `send` drops all items and succeeds. [`Bi::recv`] never resolves and therefore
/// does not busy-wait or spuriously close the stream.
pub struct DummyTransport<Inbound, Outbound> {
_marker: PhantomData<(Inbound, Outbound)>,
pub struct DummyTransport<T, U, E> {
_marker: PhantomData<(T, U, E)>,
}
impl<Inbound, Outbound> Default for DummyTransport<Inbound, Outbound> {
fn default() -> Self {
impl<T, U, E> DummyTransport<T, U, E> {
pub fn new() -> Self {
Self {
_marker: PhantomData,
}
}
}
#[async_trait]
impl<Inbound, Outbound> Sender<Outbound> for DummyTransport<Inbound, Outbound>
impl<T, U, E> Default for DummyTransport<T, U, E> {
fn default() -> Self {
Self::new()
}
}
impl<T, U, E> Bi<T, U, E> for DummyTransport<T, U, E>
where
Inbound: Send + Sync + 'static,
Outbound: Send + Sync + 'static,
T: Send + Sync + 'static,
U: Send + Sync + 'static,
E: Send + Sync + 'static,
{
async fn send(&mut self, _item: Outbound) -> Result<(), Error> {
async fn send(&mut self, _item: Result<U, E>) -> Result<(), Error> {
Ok(())
}
}
#[async_trait]
impl<Inbound, Outbound> Receiver<Inbound> for DummyTransport<Inbound, Outbound>
where
Inbound: Send + Sync + 'static,
Outbound: Send + Sync + 'static,
{
async fn recv(&mut self) -> Option<Inbound> {
std::future::pending::<()>().await;
None
fn recv(&mut self) -> impl std::future::Future<Output = Option<T>> + Send {
async {
std::future::pending::<()>().await;
None
}
}
}
impl<Inbound, Outbound> Bi<Inbound, Outbound> for DummyTransport<Inbound, Outbound>
where
Inbound: Send + Sync + 'static,
Outbound: Send + Sync + 'static,
{
}
pub mod grpc;
#[derive(thiserror::Error, Debug)]
pub enum ForwardError<I> {
#[error("Transport error: {0}")]
Transport(#[from] Error),
#[error("Actor delivery error: {0}")]
Actor(SendError<I>),
}
pub async fn forward_to_actor<Transport, Inbound, Outbound, Handler>(
transport: &mut Transport,
actor: &ActorRef<Handler>,
) -> Result<(), ForwardError<Inbound>>
where
Transport: Bi<Inbound, <Outbound as Reply>::Ok>,
Handler: Actor + Message<Inbound, Reply = Outbound>,
Inbound: Send + 'static,
Outbound: Send + 'static + Reply<Error = Infallible>, // `Infallible` to enforce contract that `Outbound` carries handler-level error
{
while let Some(request) = transport.recv().await {
let resp = actor.ask(request).await.map_err(ForwardError::Actor)?;
transport.send(resp).await?
}
Err(Error::ChannelClosed.into())
}

106
server/crates/arbiter-proto/src/transport/grpc.rs
View File

@@ -1,106 +0,0 @@
use super::{Bi, Receiver, Sender};
use async_trait::async_trait;
use futures::StreamExt;
use tokio::sync::mpsc;
use tokio_stream::wrappers::ReceiverStream;
pub struct GrpcSender<Outbound> {
tx: mpsc::Sender<Result<Outbound, tonic::Status>>,
}
#[async_trait]
impl<Outbound> Sender<Result<Outbound, tonic::Status>> for GrpcSender<Outbound>
where
Outbound: Send + Sync + 'static,
{
async fn send(&mut self, item: Result<Outbound, tonic::Status>) -> Result<(), super::Error> {
self.tx
.send(item)
.await
.map_err(|_| super::Error::ChannelClosed)
}
}
pub struct GrpcReceiver<Inbound> {
rx: tonic::Streaming<Inbound>,
}
#[async_trait]
impl<Inbound> Receiver<Result<Inbound, tonic::Status>> for GrpcReceiver<Inbound>
where
Inbound: Send + Sync + 'static,
{
async fn recv(&mut self) -> Option<Result<Inbound, tonic::Status>> {
self.rx.next().await
}
}
pub struct GrpcBi<Inbound, Outbound> {
sender: GrpcSender<Outbound>,
receiver: GrpcReceiver<Inbound>,
}
impl<Inbound, Outbound> GrpcBi<Inbound, Outbound>
where
Inbound: Send + Sync + 'static,
Outbound: Send + Sync + 'static,
{
pub fn from_bi_stream(
receiver: tonic::Streaming<Inbound>,
) -> (Self, ReceiverStream<Result<Outbound, tonic::Status>>) {
let (tx, rx) = mpsc::channel(10);
let sender = GrpcSender { tx };
let receiver = GrpcReceiver { rx: receiver };
let bi = GrpcBi { sender, receiver };
(bi, ReceiverStream::new(rx))
}
}
#[async_trait]
impl<Inbound, Outbound> Sender<Result<Outbound, tonic::Status>> for GrpcBi<Inbound, Outbound>
where
Inbound: Send + Sync + 'static,
Outbound: Send + Sync + 'static,
{
async fn send(&mut self, item: Result<Outbound, tonic::Status>) -> Result<(), super::Error> {
self.sender.send(item).await
}
}
#[async_trait]
impl<Inbound, Outbound> Receiver<Result<Inbound, tonic::Status>> for GrpcBi<Inbound, Outbound>
where
Inbound: Send + Sync + 'static,
Outbound: Send + Sync + 'static,
{
async fn recv(&mut self) -> Option<Result<Inbound, tonic::Status>> {
self.receiver.recv().await
}
}
impl<Inbound, Outbound> Bi<Result<Inbound, tonic::Status>, Result<Outbound, tonic::Status>>
for GrpcBi<Inbound, Outbound>
where
Inbound: Send + Sync + 'static,
Outbound: Send + Sync + 'static,
{
}
impl<Inbound, Outbound>
super::SplittableBi<Result<Inbound, tonic::Status>, Result<Outbound, tonic::Status>>
for GrpcBi<Inbound, Outbound>
where
Inbound: Send + Sync + 'static,
Outbound: Send + Sync + 'static,
{
type Sender = GrpcSender<Outbound>;
type Receiver = GrpcReceiver<Inbound>;
fn split(self) -> (Self::Sender, Self::Receiver) {
(self.sender, self.receiver)
}
fn from_parts(sender: Self::Sender, receiver: Self::Receiver) -> Self {
GrpcBi { sender, receiver }
}
}

8
server/crates/arbiter-proto/src/url.rs
View File

@@ -1,12 +1,12 @@
use std::fmt::Display;
use base64::{Engine as _, prelude::BASE64_URL_SAFE};
use rustls_pki_types::CertificateDer;
use std::fmt::Display;
const ARBITER_URL_SCHEME: &str = "arbiter";
const CERT_QUERY_KEY: &str = "cert";
const BOOTSTRAP_TOKEN_QUERY_KEY: &str = "bootstrap_token";
#[derive(Debug, Clone)]
pub struct ArbiterUrl {
pub host: String,
pub port: u16,
@@ -20,7 +20,7 @@ impl Display for ArbiterUrl {
"{ARBITER_URL_SCHEME}://{}:{}?{CERT_QUERY_KEY}={}",
self.host,
self.port,
BASE64_URL_SAFE.encode(&self.ca_cert)
BASE64_URL_SAFE.encode(self.ca_cert.to_vec())
);
if let Some(token) = &self.bootstrap_token {
base.push_str(&format!("&{BOOTSTRAP_TOKEN_QUERY_KEY}={}", token));
@@ -104,7 +104,7 @@ mod tests {
#[rstest]
fn parsing_correctness(
fn test_parsing_correctness(
#[values("127.0.0.1", "localhost", "192.168.1.1", "some.domain.com")] host: &str,
#[values(None, Some("token123".to_string()))] bootstrap_token: Option<String>,

40
server/crates/arbiter-server/Cargo.toml
View File

@@ -5,20 +5,16 @@ edition = "2024"
repository = "https://git.markettakers.org/MarketTakers/arbiter"
license = "Apache-2.0"
[lints]
workspace = true
[dependencies]
diesel = { version = "2.3.9", features = ["chrono", "returning_clauses_for_sqlite_3_35", "serde_json", "time", "uuid"] }
diesel-async = { version = "0.9.0", features = [
diesel = { version = "2.3.6", features = ["chrono", "returning_clauses_for_sqlite_3_35", "serde_json", "time", "uuid"] }
diesel-async = { version = "0.7.4", features = [
"bb8",
"migrations",
"sqlite",
"tokio",
] }
ed25519-dalek.workspace = true
arbiter-proto.path = "../arbiter-proto"
arbiter-crypto.path = "../arbiter-crypto"
arbiter-macros.path = "../arbiter-macros"
tracing.workspace = true
tracing-subscriber = { version = "0.3", features = ["env-filter"] }
tonic.workspace = true
@@ -26,37 +22,27 @@ tonic.features = ["tls-aws-lc"]
tokio.workspace = true
rustls.workspace = true
smlang.workspace = true
miette.workspace = true
thiserror.workspace = true
diesel_migrations = { version = "2.3.2", features = ["sqlite"] }
diesel_migrations = { version = "2.3.1", features = ["sqlite"] }
async-trait.workspace = true
secrecy = "0.10.3"
futures.workspace = true
tokio-stream.workspace = true
dashmap = "6.1.0"
rand.workspace = true
rcgen.workspace = true
chrono.workspace = true
memsafe = "0.4.0"
zeroize = { version = "1.8.2", features = ["std", "simd"] }
kameo.workspace = true
x25519-dalek.workspace = true
chacha20poly1305 = { version = "0.10.1", features = ["std"] }
argon2 = { version = "0.5.3", features = ["zeroize"] }
restructed = "0.2.2"
strum = { version = "0.28.0", features = ["derive"] }
strum = { version = "0.27.2", features = ["derive"] }
pem = "3.0.6"
sha2.workspace = true
hmac.workspace = true
alloy.workspace = true
prost-types.workspace = true
arbiter-tokens-registry.path = "../arbiter-tokens-registry"
anyhow = "1.0.102"
mutants.workspace = true
subtle = "2.6.1"
x25519-dalek.workspace = true
k256.workspace = true
kameo_actors.workspace = true
vsss-rs = "5.4.0"
[dev-dependencies]
proptest = "1.11.0"
rstest.workspace = true
insta = "1.46.3"
test-log = { version = "0.2", default-features = false, features = ["trace"] }
ml-dsa.workspace = true
[lib]
doctest = false

170
server/crates/arbiter-server/migrations/2026-02-14-171124-0000_init/up.sql
View File

@@ -28,7 +28,7 @@ create table if not exists tls_history (
id INTEGER not null PRIMARY KEY,
cert text not null,
cert_key text not null, -- PEM Encoded private key
ca_cert text not null,
ca_cert text not null,
ca_key text not null, -- PEM Encoded private key
created_at integer not null default(unixepoch ('now'))
) STRICT;
@@ -40,178 +40,20 @@ create table if not exists arbiter_settings (
tls_id integer references tls_history (id) on delete RESTRICT
) STRICT;
insert into arbiter_settings (id) values (1) on conflict do nothing;
-- ensure singleton row exists
insert into arbiter_settings (id) values (1) on conflict do nothing; -- ensure singleton row exists
create table if not exists operator_identity (
create table if not exists useragent_client (
id integer not null primary key,
nonce integer not null default(1), -- used for auth challenge
public_key blob not null,
created_at integer not null default(unixepoch ('now')),
updated_at integer not null default(unixepoch ('now'))
) STRICT;
create unique index if not exists uniq_operator_identity_public_key on operator_identity (public_key);
create table if not exists operator (
id integer primary key references operator_identity(id) on delete restrict, -- same id as operator_identity
share blob not null,
share_nonce blob not null,
created_at integer not null default(unixepoch ('now')),
updated_at integer not null default(unixepoch ('now'))
) STRICT;
create table if not exists client_metadata (
id integer not null primary key,
name text not null, -- human-readable name for the client
description text, -- optional description for the client
version text, -- client version for tracking and debugging
created_at integer not null default(unixepoch ('now'))
) STRICT;
-- created to track history of changes
create table if not exists client_metadata_history (
id integer not null primary key,
metadata_id integer not null references client_metadata (id) on delete cascade,
client_id integer not null references program_client (id) on delete cascade,
created_at integer not null default(unixepoch ('now'))
) STRICT;
create unique index if not exists uniq_metadata_binding_client on client_metadata_history (client_id);
create table if not exists program_client (
id integer not null primary key,
nonce integer not null default(1), -- used for auth challenge
public_key blob not null,
metadata_id integer not null references client_metadata (id) on delete cascade,
created_at integer not null default(unixepoch ('now')),
updated_at integer not null default(unixepoch ('now'))
) STRICT;
create unique index if not exists program_client_public_key_unique
on program_client (public_key);
create unique index if not exists uniq_program_client_public_key on program_client (public_key);
create table if not exists evm_wallet (
id integer not null primary key,
address blob not null, -- 20-byte Ethereum address
aead_encrypted_id integer not null references aead_encrypted (id) on delete RESTRICT,
created_at integer not null default(unixepoch ('now'))
) STRICT;
create unique index if not exists uniq_evm_wallet_address on evm_wallet (address);
create unique index if not exists uniq_evm_wallet_aead on evm_wallet (aead_encrypted_id);
create table if not exists evm_wallet_access (
id integer not null primary key,
wallet_id integer not null references evm_wallet (id) on delete cascade,
client_id integer not null references program_client (id) on delete cascade,
created_at integer not null default(unixepoch ('now'))
) STRICT;
create unique index if not exists uniq_wallet_access on evm_wallet_access (wallet_id, client_id);
create table if not exists evm_ether_transfer_limit (
id integer not null primary key,
window_secs integer not null, -- window duration in seconds
max_volume blob not null -- big-endian 32-byte U256
) STRICT;
-- Shared grant properties: client scope, timeframe, fee caps, and rate limit
create table if not exists evm_basic_grant (
id integer not null primary key,
wallet_access_id integer not null references evm_wallet_access (id) on delete restrict,
chain_id integer not null, -- EIP-155 chain ID
valid_from integer, -- unix timestamp (seconds), null = no lower bound
valid_until integer, -- unix timestamp (seconds), null = no upper bound
max_gas_fee_per_gas blob, -- big-endian 32-byte U256, null = unlimited
max_priority_fee_per_gas blob, -- big-endian 32-byte U256, null = unlimited
rate_limit_count integer, -- max transactions in window, null = unlimited
rate_limit_window_secs integer, -- window duration in seconds, null = unlimited
revoked_at integer, -- unix timestamp when revoked, null = still active
created_at integer not null default(unixepoch ('now'))
) STRICT;
-- Shared transaction log for all EVM grants, used for rate limit tracking and auditing
create table if not exists evm_transaction_log (
id integer not null primary key,
wallet_access_id integer not null references evm_wallet_access (id) on delete restrict,
grant_id integer not null references evm_basic_grant (id) on delete restrict,
chain_id integer not null,
eth_value blob not null, -- always present on any EVM tx
signed_at integer not null default(unixepoch ('now'))
) STRICT;
create index if not exists idx_evm_basic_grant_access_chain on evm_basic_grant (wallet_access_id, chain_id);
-- ===============================
-- ERC20 token transfer grant
-- ===============================
create table if not exists evm_token_transfer_grant (
id integer not null primary key,
basic_grant_id integer not null unique references evm_basic_grant (id) on delete cascade,
token_contract blob not null, -- 20-byte ERC20 contract address
receiver blob -- 20-byte recipient address or null if every recipient allowed
) STRICT;
-- Per-window volume limits for token transfer grants
create table if not exists evm_token_transfer_volume_limit (
id integer not null primary key,
grant_id integer not null references evm_token_transfer_grant (id) on delete cascade,
window_secs integer not null, -- window duration in seconds
max_volume blob not null -- big-endian 32-byte U256
) STRICT;
-- Log table for token transfer grant usage
create table if not exists evm_token_transfer_log (
id integer not null primary key,
grant_id integer not null references evm_token_transfer_grant (id) on delete restrict,
log_id integer not null references evm_transaction_log (id) on delete restrict,
chain_id integer not null, -- EIP-155 chain ID
token_contract blob not null, -- 20-byte ERC20 contract address
recipient_address blob not null, -- 20-byte recipient address
value blob not null, -- big-endian 32-byte U256
created_at integer not null default(unixepoch ('now'))
) STRICT;
create index if not exists idx_token_transfer_log_grant on evm_token_transfer_log (grant_id);
create index if not exists idx_token_transfer_log_log_id on evm_token_transfer_log (log_id);
create index if not exists idx_token_transfer_log_chain on evm_token_transfer_log (chain_id);
-- ===============================
-- Ether transfer grant (uses base log)
-- ===============================
create table if not exists evm_ether_transfer_grant (
id integer not null primary key,
basic_grant_id integer not null unique references evm_basic_grant (id) on delete cascade,
limit_id integer not null references evm_ether_transfer_limit (id) on delete restrict
) STRICT;
-- Specific recipient addresses for an ether transfer grant
create table if not exists evm_ether_transfer_grant_target (
id integer not null primary key,
grant_id integer not null references evm_ether_transfer_grant (id) on delete cascade,
address blob not null -- 20-byte recipient address
) STRICT;
create unique index if not exists uniq_ether_transfer_target on evm_ether_transfer_grant_target (grant_id, address);
-- ===============================
-- Integrity Envelopes
-- ===============================
create table if not exists integrity_envelope (
id integer not null primary key,
entity_kind text not null,
entity_id blob not null,
payload_version integer not null,
key_version integer not null,
mac blob not null, -- 20-byte recipient address
signed_at integer not null default(unixepoch ('now')),
created_at integer not null default(unixepoch ('now'))
) STRICT;
create unique index if not exists uniq_integrity_envelope_entity on integrity_envelope (entity_kind, entity_id);
) STRICT;

BIN
server/crates/arbiter-server/src/.DS_Store vendored Normal file
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53
server/crates/arbiter-server/src/actors/bootstrap.rs
View File

@@ -1,20 +1,24 @@
use crate::db::{self, DatabasePool, schema};
use arbiter_proto::{BOOTSTRAP_PATH, home_path};
use diesel::QueryDsl;
use diesel_async::RunQueryDsl;
use kameo::{Actor, messages};
use rand::{RngExt, distr::Alphanumeric, make_rng, rngs::StdRng};
use subtle::ConstantTimeEq as _;
use miette::Diagnostic;
use rand::{
RngExt,
distr::{Alphanumeric},
make_rng,
rngs::StdRng,
};
use thiserror::Error;
use crate::db::{self, DatabasePool, schema};
const TOKEN_LENGTH: usize = 64;
pub async fn generate_token() -> Result<String, std::io::Error> {
let rng: StdRng = make_rng();
let token = rng.sample_iter(Alphanumeric).take(TOKEN_LENGTH).fold(
String::default(),
let token: String = rng.sample_iter(Alphanumeric).take(TOKEN_LENGTH).fold(
Default::default(),
|mut accum, char| {
accum += char.to_string().as_str();
accum
@@ -26,16 +30,19 @@ pub async fn generate_token() -> Result<String, std::io::Error> {
Ok(token)
}
#[derive(Error, Debug)]
#[derive(Error, Debug, Diagnostic)]
pub enum Error {
#[error("Database error: {0}")]
#[diagnostic(code(arbiter_server::bootstrap::database))]
Database(#[from] db::PoolError),
#[error("I/O error: {0}")]
Io(#[from] std::io::Error),
#[error("Database query error: {0}")]
#[diagnostic(code(arbiter_server::bootstrap::database_query))]
Query(#[from] diesel::result::Error),
#[error("I/O error: {0}")]
#[diagnostic(code(arbiter_server::bootstrap::io))]
Io(#[from] std::io::Error),
}
#[derive(Actor)]
@@ -45,14 +52,15 @@ pub struct Bootstrapper {
impl Bootstrapper {
pub async fn new(db: &DatabasePool) -> Result<Self, Error> {
let row_count: i64 = {
let mut conn = db.get().await?;
let mut conn = db.get().await?;
let row_count: i64 = schema::useragent_client::table
.count()
.get_result(&mut conn)
.await?;
drop(conn);
schema::operator::table
.count()
.get_result(&mut conn)
.await?
};
let token = if row_count == 0 {
let token = generate_token().await?;
@@ -69,13 +77,10 @@ impl Bootstrapper {
impl Bootstrapper {
#[message]
pub fn is_correct_token(&self, token: String) -> bool {
self.token.as_ref().is_some_and(|expected| {
let expected_bytes = expected.as_bytes();
let token_bytes = token.as_bytes();
let choice = expected_bytes.ct_eq(token_bytes);
bool::from(choice)
})
match &self.token {
Some(expected) => *expected == token,
None => false,
}
}
#[message]

12
server/crates/arbiter-server/src/actors/client.rs Normal file
View File

@@ -0,0 +1,12 @@
use arbiter_proto::{
proto::{ClientRequest, ClientResponse},
transport::Bi,
};
use crate::ServerContext;
pub(crate) async fn handle_client(
_context: ServerContext,
_bistream: impl Bi<ClientRequest, ClientResponse, tonic::Status>,
) {
}

275
server/crates/arbiter-server/src/actors/evm/mod.rs
View File

@@ -1,275 +0,0 @@
use crate::{
actors::vault::{CreateNew, Decrypt, Vault},
crypto::integrity,
db::{
DatabaseError, DatabasePool,
models::{self, EvmWalletId},
schema,
},
evm::{
self, ListError, RunKind,
policies::{
CombinedSettings, Grant, SharedGrantSettings, SpecificGrant, SpecificMeaning,
ether_transfer::EtherTransfer, token_transfers::TokenTransfer,
},
},
};
use arbiter_crypto::safecell::{SafeCell, SafeCellHandle as _};
use alloy::{
consensus::TxEip1559, network::TxSignerSync as _, primitives::Address, signers::Signature,
};
use diesel::{
ExpressionMethods, OptionalExtension as _, QueryDsl, SelectableHelper as _, dsl::insert_into,
};
use diesel_async::RunQueryDsl;
use kameo::{Actor, actor::ActorRef, messages};
use rand::{SeedableRng, rng, rngs::StdRng};
pub use crate::evm::safe_signer;
#[derive(Debug, thiserror::Error)]
pub enum SignTransactionError {
#[error("Wallet not found")]
WalletNotFound,
#[error("Database error: {0}")]
Database(#[from] DatabaseError),
#[error("Vault error: {0}")]
Vault(#[from] crate::actors::vault::Error),
#[error("Vault mailbox error")]
VaultSend,
#[error("Signing error: {0}")]
Signing(#[from] alloy::signers::Error),
#[error("Policy error: {0}")]
Vet(#[from] evm::VetError),
}
#[derive(Debug, thiserror::Error)]
pub enum Error {
#[error("Vault error: {0}")]
Vault(#[from] crate::actors::vault::Error),
#[error("Vault mailbox error")]
VaultSend,
#[error("Database error: {0}")]
Database(#[from] DatabaseError),
#[error("Integrity violation: {0}")]
Integrity(#[from] integrity::Error),
}
#[derive(Actor)]
pub struct EvmActor {
pub vault: ActorRef<Vault>,
pub db: DatabasePool,
pub rng: StdRng,
pub engine: evm::Engine,
}
impl EvmActor {
pub fn new(vault: ActorRef<Vault>, db: DatabasePool) -> Self {
// is it safe to seed rng from system once?
// todo: audit
let rng = StdRng::from_rng(&mut rng());
let engine = evm::Engine::new(db.clone(), vault.clone());
Self {
vault,
db,
rng,
engine,
}
}
}
#[messages]
impl EvmActor {
#[message]
pub async fn generate(&mut self) -> Result<(i32, Address), Error> {
let (mut key_cell, address) = safe_signer::generate(&mut self.rng);
let plaintext = key_cell.read_inline(|reader| SafeCell::new(reader.to_vec()));
let aead_id: i32 = self
.vault
.ask(CreateNew { plaintext })
.await
.map_err(|_| Error::VaultSend)?;
let mut conn = self.db.get().await.map_err(DatabaseError::from)?;
let wallet_id = insert_into(schema::evm_wallet::table)
.values(&models::NewEvmWallet {
address: address.as_slice().to_vec(),
aead_encrypted_id: aead_id,
})
.returning(schema::evm_wallet::id)
.get_result(&mut conn)
.await
.map_err(DatabaseError::from)?;
Ok((wallet_id, address))
}
#[message]
pub async fn list_wallets(&self) -> Result<Vec<(EvmWalletId, Address)>, Error> {
let mut conn = self.db.get().await.map_err(DatabaseError::from)?;
let rows: Vec<models::EvmWallet> = schema::evm_wallet::table
.select(models::EvmWallet::as_select())
.load(&mut conn)
.await
.map_err(DatabaseError::from)?;
Ok(rows
.into_iter()
.map(|w| (w.id, Address::from_slice(&w.address)))
.collect())
}
}
#[messages]
impl EvmActor {
#[message]
pub async fn operator_create_grant(
&mut self,
basic: SharedGrantSettings,
grant: SpecificGrant,
) -> Result<i32, Error> {
match grant {
SpecificGrant::EtherTransfer(settings) => self
.engine
.create_grant::<EtherTransfer>(CombinedSettings {
shared: basic,
specific: settings,
})
.await
.map_err(Error::from),
SpecificGrant::TokenTransfer(settings) => self
.engine
.create_grant::<TokenTransfer>(CombinedSettings {
shared: basic,
specific: settings,
})
.await
.map_err(Error::from),
}
}
#[message]
#[expect(clippy::unused_async, reason = "reserved for impl")]
pub async fn operator_delete_grant(&mut self, _grant_id: i32) -> Result<(), Error> {
// let mut conn = self.db.get().await.map_err(DatabaseError::from)?;
// let vault = self.vault.clone();
// diesel_async::AsyncConnection::transaction(&mut conn, |conn| {
// Box::pin(async move {
// diesel::update(schema::evm_basic_grant::table)
// .filter(schema::evm_basic_grant::id.eq(grant_id))
// .set(schema::evm_basic_grant::revoked_at.eq(SqliteTimestamp::now()))
// .execute(conn)
// .await?;
// let signed = integrity::evm::load_signed_grant_by_basic_id(conn, grant_id).await?;
// diesel::result::QueryResult::Ok(())
// })
// })
// .await
// .map_err(DatabaseError::from)?;
// Ok(())
todo!()
}
#[message]
pub async fn operator_list_grants(&mut self) -> Result<Vec<Grant<SpecificGrant>>, Error> {
match self.engine.list_all_grants().await {
Ok(grants) => Ok(grants),
Err(ListError::Database(db_err)) => Err(Error::Database(db_err)),
Err(ListError::Integrity(integrity_err)) => Err(Error::Integrity(integrity_err)),
}
}
#[message]
pub async fn shared_analyze_transaction(
&mut self,
client_id: i32,
wallet_address: Address,
transaction: TxEip1559,
) -> Result<SpecificMeaning, SignTransactionError> {
let mut conn = self.db.get().await.map_err(DatabaseError::from)?;
let wallet = schema::evm_wallet::table
.select(models::EvmWallet::as_select())
.filter(schema::evm_wallet::address.eq(wallet_address.as_slice()))
.first(&mut conn)
.await
.optional()
.map_err(DatabaseError::from)?
.ok_or(SignTransactionError::WalletNotFound)?;
let wallet_access = schema::evm_wallet_access::table
.select(models::EvmWalletAccess::as_select())
.filter(schema::evm_wallet_access::wallet_id.eq(wallet.id))
.filter(schema::evm_wallet_access::client_id.eq(client_id))
.first(&mut conn)
.await
.optional()
.map_err(DatabaseError::from)?
.ok_or(SignTransactionError::WalletNotFound)?;
drop(conn);
let meaning = self
.engine
.evaluate_transaction(wallet_access, transaction.clone(), RunKind::Execution)
.await?;
Ok(meaning)
}
#[message]
pub async fn client_sign_transaction(
&mut self,
client_id: i32,
wallet_address: Address,
mut transaction: TxEip1559,
) -> Result<Signature, SignTransactionError> {
let mut conn = self.db.get().await.map_err(DatabaseError::from)?;
let wallet = schema::evm_wallet::table
.select(models::EvmWallet::as_select())
.filter(schema::evm_wallet::address.eq(wallet_address.as_slice()))
.first(&mut conn)
.await
.optional()
.map_err(DatabaseError::from)?
.ok_or(SignTransactionError::WalletNotFound)?;
let wallet_access = schema::evm_wallet_access::table
.select(models::EvmWalletAccess::as_select())
.filter(schema::evm_wallet_access::wallet_id.eq(wallet.id))
.filter(schema::evm_wallet_access::client_id.eq(client_id))
.first(&mut conn)
.await
.optional()
.map_err(DatabaseError::from)?
.ok_or(SignTransactionError::WalletNotFound)?;
drop(conn);
let raw_key: SafeCell<Vec<u8>> = self
.vault
.ask(Decrypt {
aead_id: wallet.aead_encrypted_id,
})
.await
.map_err(|_| SignTransactionError::VaultSend)?;
let signer = safe_signer::SafeSigner::from_cell(raw_key)?;
self.engine
.evaluate_transaction(wallet_access, transaction.clone(), RunKind::Execution)
.await?;
Ok(signer.sign_transaction_sync(&mut transaction)?)
}
}

107
server/crates/arbiter-server/src/actors/flow_coordinator/client_connect_approval.rs
View File

@@ -1,107 +0,0 @@
use crate::{
actors::flow_coordinator::ApprovalError,
peers::{
client::ClientProfile,
operator::{OperatorSession, session::BeginNewClientApproval},
},
};
use kameo::{
Actor, messages,
prelude::{ActorId, ActorRef, ActorStopReason, Context, WeakActorRef},
reply::ReplySender,
};
use std::ops::ControlFlow;
pub struct Args {
pub client: ClientProfile,
pub operators: Vec<ActorRef<OperatorSession>>,
pub reply: ReplySender<Result<bool, ApprovalError>>,
}
pub struct ClientApprovalController {
/// Number of operators that have not yet responded (approval or denial) or died.
pending: usize,
/// Number of approvals received so far.
approved: usize,
reply: Option<ReplySender<Result<bool, ApprovalError>>>,
}
impl ClientApprovalController {
fn send_reply(&mut self, result: Result<bool, ApprovalError>) {
if let Some(reply) = self.reply.take() {
reply.send(result);
}
}
}
impl Actor for ClientApprovalController {
type Args = Args;
type Error = ();
async fn on_start(
Args {
client,
operators,
reply,
}: Self::Args,
actor_ref: ActorRef<Self>,
) -> Result<Self, Self::Error> {
let this = Self {
pending: operators.len(),
approved: 0,
reply: Some(reply),
};
for operator in operators {
actor_ref.link(&operator).await;
let _ = operator
.tell(BeginNewClientApproval {
client: client.clone(),
controller: actor_ref.clone(),
})
.await;
}
Ok(this)
}
async fn on_link_died(
&mut self,
_: WeakActorRef<Self>,
_: ActorId,
_: ActorStopReason,
) -> Result<ControlFlow<ActorStopReason>, Self::Error> {
// A linked operator died before responding — counts as a non-approval.
self.pending = self.pending.saturating_sub(1);
if self.pending == 0 {
// At least one operator didn't approve: deny.
self.send_reply(Ok(false));
return Ok(ControlFlow::Break(ActorStopReason::Normal));
}
Ok(ControlFlow::Continue(()))
}
}
#[messages]
impl ClientApprovalController {
#[message(ctx)]
pub fn client_approval_answer(&mut self, approved: bool, ctx: &mut Context<Self, ()>) {
if !approved {
// Denial wins immediately regardless of other pending responses.
self.send_reply(Ok(false));
ctx.stop();
return;
}
self.approved += 1;
self.pending = self.pending.saturating_sub(1);
if self.pending == 0 {
// Every connected operator approved.
self.send_reply(Ok(true));
ctx.stop();
}
}
}

114
server/crates/arbiter-server/src/actors/flow_coordinator/mod.rs
View File

@@ -1,114 +0,0 @@
use crate::{
actors::{
flow_coordinator::client_connect_approval::ClientApprovalController,
operator_registry::{GetConnected, OperatorRegistry},
},
peers::client::{ClientProfile, session::ClientSession},
};
use kameo::{
Actor,
actor::{ActorId, ActorRef, Spawn},
messages,
prelude::{ActorStopReason, Context, WeakActorRef},
reply::DelegatedReply,
};
use std::{collections::HashMap, ops::ControlFlow};
use tracing::info;
pub mod client_connect_approval;
pub struct FlowCoordinator {
pub clients: HashMap<ActorId, ActorRef<ClientSession>>,
operator_registry: ActorRef<OperatorRegistry>,
}
impl FlowCoordinator {
pub fn new(operator_registry: ActorRef<OperatorRegistry>) -> Self {
Self {
clients: HashMap::default(),
operator_registry,
}
}
}
impl Actor for FlowCoordinator {
type Args = Self;
type Error = ();
async fn on_start(args: Self::Args, _: ActorRef<Self>) -> Result<Self, Self::Error> {
Ok(args)
}
async fn on_link_died(
&mut self,
_: WeakActorRef<Self>,
id: ActorId,
_: ActorStopReason,
) -> Result<ControlFlow<ActorStopReason>, Self::Error> {
if self.clients.remove(&id).is_some() {
info!(
?id,
actor = "FlowCoordinator",
event = "client.disconnected"
);
} else {
info!(
?id,
actor = "FlowCoordinator",
event = "unknown.actor.disconnected"
);
}
Ok(ControlFlow::Continue(()))
}
}
#[derive(Debug, thiserror::Error, Clone, PartialEq, Eq, Hash)]
pub enum ApprovalError {
#[error("No operators connected")]
NoOperatorsConnected,
}
#[messages]
impl FlowCoordinator {
#[message(ctx)]
pub async fn register_client(
&mut self,
actor: ActorRef<ClientSession>,
ctx: &mut Context<Self, ()>,
) {
info!(id = %actor.id(), actor = "FlowCoordinator", event = "client.connected");
ctx.actor_ref().link(&actor).await;
self.clients.insert(actor.id(), actor);
}
#[message(ctx)]
pub async fn request_client_approval(
&mut self,
client: ClientProfile,
ctx: &mut Context<Self, DelegatedReply<Result<bool, ApprovalError>>>,
) -> DelegatedReply<Result<bool, ApprovalError>> {
let (reply, Some(reply_sender)) = ctx.reply_sender() else {
unreachable!("Expected `request_client_approval` to have callback channel");
};
let Ok(refs) = self.operator_registry.ask(GetConnected).await else {
reply_sender.send(Err(ApprovalError::NoOperatorsConnected));
return reply;
};
if refs.is_empty() {
reply_sender.send(Err(ApprovalError::NoOperatorsConnected));
return reply;
}
ClientApprovalController::spawn(client_connect_approval::Args {
client,
operators: refs,
reply: reply_sender,
});
reply
}
}

1
server/crates/arbiter-server/src/actors/keyholder/encryption.rs Normal file
View File

@@ -0,0 +1 @@
pub mod v1;

237
server/crates/arbiter-server/src/actors/keyholder/encryption/v1.rs Normal file
View File

@@ -0,0 +1,237 @@
use std::ops::Deref as _;
use argon2::{Algorithm, Argon2, password_hash::Salt as ArgonSalt};
use chacha20poly1305::{
AeadInPlace, Key, KeyInit as _, XChaCha20Poly1305, XNonce,
aead::{AeadMut, Error, Payload},
};
use memsafe::MemSafe;
use rand::{
Rng as _, SeedableRng,
rngs::{StdRng, SysRng},
};
pub const ROOT_KEY_TAG: &[u8] = "arbiter/seal/v1".as_bytes();
pub const TAG: &[u8] = "arbiter/private-key/v1".as_bytes();
pub const NONCE_LENGTH: usize = 24;
#[derive(Default)]
pub struct Nonce([u8; NONCE_LENGTH]);
impl Nonce {
pub fn increment(&mut self) {
for i in (0..self.0.len()).rev() {
if self.0[i] == 0xFF {
self.0[i] = 0;
} else {
self.0[i] += 1;
break;
}
}
}
pub fn to_vec(&self) -> Vec<u8> {
self.0.to_vec()
}
}
impl<'a> TryFrom<&'a [u8]> for Nonce {
type Error = ();
fn try_from(value: &'a [u8]) -> Result<Self, Self::Error> {
if value.len() != NONCE_LENGTH {
return Err(());
}
let mut nonce = [0u8; NONCE_LENGTH];
nonce.copy_from_slice(value);
Ok(Self(nonce))
}
}
pub struct KeyCell(pub MemSafe<Key>);
impl From<MemSafe<Key>> for KeyCell {
fn from(value: MemSafe<Key>) -> Self {
Self(value)
}
}
impl TryFrom<MemSafe<Vec<u8>>> for KeyCell {
type Error = ();
fn try_from(mut value: MemSafe<Vec<u8>>) -> Result<Self, Self::Error> {
let value = value.read().unwrap();
if value.len() != size_of::<Key>() {
return Err(());
}
let mut cell = MemSafe::new(Key::default()).unwrap();
{
let mut cell_write = cell.write().unwrap();
let cell_slice: &mut [u8] = cell_write.as_mut();
cell_slice.copy_from_slice(&value);
}
Ok(Self(cell))
}
}
impl KeyCell {
pub fn new_secure_random() -> Self {
let mut key = MemSafe::new(Key::default()).unwrap();
{
let mut key_buffer = key.write().unwrap();
let key_buffer: &mut [u8] = key_buffer.as_mut();
let mut rng = StdRng::try_from_rng(&mut SysRng).unwrap();
rng.fill_bytes(key_buffer);
}
key.into()
}
pub fn encrypt_in_place(
&mut self,
nonce: &Nonce,
associated_data: &[u8],
mut buffer: impl AsMut<Vec<u8>>,
) -> Result<(), Error> {
let key_reader = self.0.read().unwrap();
let key_ref = key_reader.deref();
let cipher = XChaCha20Poly1305::new(key_ref);
let nonce = XNonce::from_slice(nonce.0.as_ref());
let buffer = buffer.as_mut();
cipher.encrypt_in_place(nonce, associated_data, buffer)
}
pub fn decrypt_in_place(
&mut self,
nonce: &Nonce,
associated_data: &[u8],
buffer: &mut MemSafe<Vec<u8>>,
) -> Result<(), Error> {
let key_reader = self.0.read().unwrap();
let key_ref = key_reader.deref();
let cipher = XChaCha20Poly1305::new(key_ref);
let nonce = XNonce::from_slice(nonce.0.as_ref());
let mut buffer = buffer.write().unwrap();
let buffer: &mut Vec<u8> = buffer.as_mut();
cipher.decrypt_in_place(nonce, associated_data, buffer)
}
pub fn encrypt(
&mut self,
nonce: &Nonce,
associated_data: &[u8],
plaintext: impl AsRef<[u8]>,
) -> Result<Vec<u8>, Error> {
let key_reader = self.0.read().unwrap();
let key_ref = key_reader.deref();
let mut cipher = XChaCha20Poly1305::new(key_ref);
let nonce = XNonce::from_slice(nonce.0.as_ref());
let ciphertext = cipher.encrypt(
nonce,
Payload {
msg: plaintext.as_ref(),
aad: associated_data,
},
)?;
Ok(ciphertext)
}
}
pub type Salt = [u8; ArgonSalt::RECOMMENDED_LENGTH];
pub fn generate_salt() -> Salt {
let mut salt = Salt::default();
let mut rng = StdRng::try_from_rng(&mut SysRng).unwrap();
rng.fill_bytes(&mut salt);
salt
}
/// User password might be of different length, have not enough entropy, etc...
/// Derive a fixed-length key from the password using Argon2id, which is designed for password hashing and key derivation.
pub fn derive_seal_key(mut password: MemSafe<Vec<u8>>, salt: &Salt) -> KeyCell {
let params = argon2::Params::new(262_144, 3, 4, None).unwrap();
let hasher = Argon2::new(Algorithm::Argon2id, argon2::Version::V0x13, params);
let mut key = MemSafe::new(Key::default()).unwrap();
{
let password_source = password.read().unwrap();
let mut key_buffer = key.write().unwrap();
let key_buffer: &mut [u8] = key_buffer.as_mut();
hasher
.hash_password_into(password_source.deref(), salt, key_buffer)
.unwrap();
}
key.into()
}
#[cfg(test)]
mod tests {
use super::*;
use memsafe::MemSafe;
#[test]
pub fn derive_seal_key_deterministic() {
static PASSWORD: &[u8] = b"password";
let password = MemSafe::new(PASSWORD.to_vec()).unwrap();
let password2 = MemSafe::new(PASSWORD.to_vec()).unwrap();
let salt = generate_salt();
let mut key1 = derive_seal_key(password, &salt);
let mut key2 = derive_seal_key(password2, &salt);
let key1_reader = key1.0.read().unwrap();
let key2_reader = key2.0.read().unwrap();
assert_eq!(key1_reader.deref(), key2_reader.deref());
}
#[test]
pub fn successful_derive() {
static PASSWORD: &[u8] = b"password";
let password = MemSafe::new(PASSWORD.to_vec()).unwrap();
let salt = generate_salt();
let mut key = derive_seal_key(password, &salt);
let key_reader = key.0.read().unwrap();
let key_ref = key_reader.deref();
assert_ne!(key_ref.as_slice(), &[0u8; 32][..]);
}
#[test]
pub fn encrypt_decrypt() {
static PASSWORD: &[u8] = b"password";
let password = MemSafe::new(PASSWORD.to_vec()).unwrap();
let salt = generate_salt();
let mut key = derive_seal_key(password, &salt);
let nonce = Nonce(*b"unique nonce 123 1231233"); // 24 bytes for XChaCha20Poly1305
let associated_data = b"associated data";
let mut buffer = b"secret data".to_vec();
key.encrypt_in_place(&nonce, associated_data, &mut buffer)
.unwrap();
assert_ne!(buffer, b"secret data");
let mut buffer = MemSafe::new(buffer).unwrap();
key.decrypt_in_place(&nonce, associated_data, &mut buffer)
.unwrap();
let buffer = buffer.read().unwrap();
assert_eq!(*buffer, b"secret data");
}
#[test]
// We should fuzz this
pub fn test_nonce_increment() {
let mut nonce = Nonce([0u8; NONCE_LENGTH]);
nonce.increment();
assert_eq!(
nonce.0,
[
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1
]
);
}
}

407
server/crates/arbiter-server/src/actors/keyholder/mod.rs Normal file
View File

@@ -0,0 +1,407 @@
use diesel::{
ExpressionMethods as _, OptionalExtension, QueryDsl, SelectableHelper,
dsl::{insert_into, update},
};
use diesel_async::{AsyncConnection, RunQueryDsl};
use kameo::{Actor, Reply, messages};
use memsafe::MemSafe;
use strum::{EnumDiscriminants, IntoDiscriminant};
use tracing::{error, info};
use crate::db::{
self,
models::{self, RootKeyHistory},
schema::{self},
};
use encryption::v1::{self, KeyCell, Nonce};
pub mod encryption;
#[derive(Default, EnumDiscriminants)]
#[strum_discriminants(derive(Reply), vis(pub))]
enum State {
#[default]
Unbootstrapped,
Sealed {
root_key_history_id: i32,
},
Unsealed {
root_key_history_id: i32,
root_key: KeyCell,
},
}
#[derive(Debug, thiserror::Error, miette::Diagnostic)]
pub enum Error {
#[error("Keyholder is already bootstrapped")]
#[diagnostic(code(arbiter::keyholder::already_bootstrapped))]
AlreadyBootstrapped,
#[error("Keyholder is not bootstrapped")]
#[diagnostic(code(arbiter::keyholder::not_bootstrapped))]
NotBootstrapped,
#[error("Invalid key provided")]
#[diagnostic(code(arbiter::keyholder::invalid_key))]
InvalidKey,
#[error("Requested aead entry not found")]
#[diagnostic(code(arbiter::keyholder::aead_not_found))]
NotFound,
#[error("Encryption error: {0}")]
#[diagnostic(code(arbiter::keyholder::encryption_error))]
Encryption(#[from] chacha20poly1305::aead::Error),
#[error("Database error: {0}")]
#[diagnostic(code(arbiter::keyholder::database_error))]
DatabaseConnection(#[from] db::PoolError),
#[error("Database transaction error: {0}")]
#[diagnostic(code(arbiter::keyholder::database_transaction_error))]
DatabaseTransaction(#[from] diesel::result::Error),
#[error("Broken database")]
#[diagnostic(code(arbiter::keyholder::broken_database))]
BrokenDatabase,
}
/// Manages vault root key and tracks current state of the vault (bootstrapped/unbootstrapped, sealed/unsealed).
/// Provides API for encrypting and decrypting data using the vault root key.
/// Abstraction over database to make sure nonces are never reused and encryption keys are never exposed in plaintext outside of this actor.
#[derive(Actor)]
pub struct KeyHolder {
db: db::DatabasePool,
state: State,
}
#[messages]
impl KeyHolder {
pub async fn new(db: db::DatabasePool) -> Result<Self, Error> {
let state = {
let mut conn = db.get().await?;
let (root_key_history,) = schema::arbiter_settings::table
.left_join(schema::root_key_history::table)
.select((Option::<RootKeyHistory>::as_select(),))
.get_result::<(Option<RootKeyHistory>,)>(&mut conn)
.await?;
match root_key_history {
Some(root_key_history) => State::Sealed {
root_key_history_id: root_key_history.id,
},
None => State::Unbootstrapped,
}
};
Ok(Self { db, state })
}
// Exclusive transaction to avoid race condtions if multiple keyholders write
// additional layer of protection against nonce-reuse
async fn get_new_nonce(pool: &db::DatabasePool, root_key_id: i32) -> Result<Nonce, Error> {
let mut conn = pool.get().await?;
let nonce = conn
.exclusive_transaction(|conn| {
Box::pin(async move {
let current_nonce: Vec<u8> = schema::root_key_history::table
.filter(schema::root_key_history::id.eq(root_key_id))
.select(schema::root_key_history::data_encryption_nonce)
.first(conn)
.await?;
let mut nonce =
v1::Nonce::try_from(current_nonce.as_slice()).map_err(|_| {
error!(
"Broken database: invalid nonce for root key history id={}",
root_key_id
);
Error::BrokenDatabase
})?;
nonce.increment();
update(schema::root_key_history::table)
.filter(schema::root_key_history::id.eq(root_key_id))
.set(schema::root_key_history::data_encryption_nonce.eq(nonce.to_vec()))
.execute(conn)
.await?;
Result::<_, Error>::Ok(nonce)
})
})
.await?;
Ok(nonce)
}
#[message]
pub async fn bootstrap(&mut self, seal_key_raw: MemSafe<Vec<u8>>) -> Result<(), Error> {
if !matches!(self.state, State::Unbootstrapped) {
return Err(Error::AlreadyBootstrapped);
}
let salt = v1::generate_salt();
let mut seal_key = v1::derive_seal_key(seal_key_raw, &salt);
let mut root_key = KeyCell::new_secure_random();
// Zero nonces are fine because they are one-time
let root_key_nonce = v1::Nonce::default();
let data_encryption_nonce = v1::Nonce::default();
let root_key_ciphertext: Vec<u8> = {
let root_key_reader = root_key.0.read().unwrap();
let root_key_reader = root_key_reader.as_slice();
seal_key
.encrypt(&root_key_nonce, v1::ROOT_KEY_TAG, root_key_reader)
.map_err(|err| {
error!(?err, "Fatal bootstrap error");
Error::Encryption(err)
})?
};
let mut conn = self.db.get().await?;
let data_encryption_nonce_bytes = data_encryption_nonce.to_vec();
let root_key_history_id = conn
.transaction(|conn| {
Box::pin(async move {
let root_key_history_id: i32 = insert_into(schema::root_key_history::table)
.values(&models::NewRootKeyHistory {
ciphertext: root_key_ciphertext,
tag: v1::ROOT_KEY_TAG.to_vec(),
root_key_encryption_nonce: root_key_nonce.to_vec(),
data_encryption_nonce: data_encryption_nonce_bytes,
schema_version: 1,
salt: salt.to_vec(),
})
.returning(schema::root_key_history::id)
.get_result(conn)
.await?;
update(schema::arbiter_settings::table)
.set(schema::arbiter_settings::root_key_id.eq(root_key_history_id))
.execute(conn)
.await?;
Result::<_, diesel::result::Error>::Ok(root_key_history_id)
})
})
.await?;
self.state = State::Unsealed {
root_key,
root_key_history_id,
};
info!("Keyholder bootstrapped successfully");
Ok(())
}
#[message]
pub async fn try_unseal(&mut self, seal_key_raw: MemSafe<Vec<u8>>) -> Result<(), Error> {
let State::Sealed {
root_key_history_id,
} = &self.state
else {
return Err(Error::NotBootstrapped);
};
// We don't want to hold connection while doing expensive KDF work
let current_key = {
let mut conn = self.db.get().await?;
schema::root_key_history::table
.filter(schema::root_key_history::id.eq(*root_key_history_id))
.select(schema::root_key_history::data_encryption_nonce)
.select(RootKeyHistory::as_select())
.first(&mut conn)
.await?
};
let salt = &current_key.salt;
let salt = v1::Salt::try_from(salt.as_slice()).map_err(|_| {
error!("Broken database: invalid salt for root key");
Error::BrokenDatabase
})?;
let mut seal_key = v1::derive_seal_key(seal_key_raw, &salt);
let mut root_key = MemSafe::new(current_key.ciphertext.clone()).unwrap();
let nonce = v1::Nonce::try_from(current_key.root_key_encryption_nonce.as_slice()).map_err(
|_| {
error!("Broken database: invalid nonce for root key");
Error::BrokenDatabase
},
)?;
seal_key
.decrypt_in_place(&nonce, v1::ROOT_KEY_TAG, &mut root_key)
.map_err(|err| {
error!(?err, "Failed to unseal root key: invalid seal key");
Error::InvalidKey
})?;
self.state = State::Unsealed {
root_key_history_id: current_key.id,
root_key: v1::KeyCell::try_from(root_key).map_err(|err| {
error!(?err, "Broken database: invalid encryption key size");
Error::BrokenDatabase
})?,
};
info!("Keyholder unsealed successfully");
Ok(())
}
// Decrypts the `aead_encrypted` entry with the given ID and returns the plaintext
#[message]
pub async fn decrypt(&mut self, aead_id: i32) -> Result<MemSafe<Vec<u8>>, Error> {
let State::Unsealed { root_key, .. } = &mut self.state else {
return Err(Error::NotBootstrapped);
};
let row: models::AeadEncrypted = {
let mut conn = self.db.get().await?;
schema::aead_encrypted::table
.select(models::AeadEncrypted::as_select())
.filter(schema::aead_encrypted::id.eq(aead_id))
.first(&mut conn)
.await
.optional()?
.ok_or(Error::NotFound)?
};
let nonce = v1::Nonce::try_from(row.current_nonce.as_slice()).map_err(|_| {
error!(
"Broken database: invalid nonce for aead_encrypted id={}",
aead_id
);
Error::BrokenDatabase
})?;
let mut output = MemSafe::new(row.ciphertext).unwrap();
root_key.decrypt_in_place(&nonce, v1::TAG, &mut output)?;
Ok(output)
}
// Creates new `aead_encrypted` entry in the database and returns it's ID
#[message]
pub async fn create_new(&mut self, mut plaintext: MemSafe<Vec<u8>>) -> Result<i32, Error> {
let State::Unsealed {
root_key,
root_key_history_id,
} = &mut self.state
else {
return Err(Error::NotBootstrapped);
};
// Order matters here - `get_new_nonce` acquires connection, so we need to call it before next acquire
// Borrow checker note: &mut borrow a few lines above is disjoint from this field
let nonce = Self::get_new_nonce(&self.db, *root_key_history_id).await?;
let mut ciphertext_buffer = plaintext.write().unwrap();
let ciphertext_buffer: &mut Vec<u8> = ciphertext_buffer.as_mut();
root_key.encrypt_in_place(&nonce, v1::TAG, &mut *ciphertext_buffer)?;
let ciphertext = std::mem::take(ciphertext_buffer);
let mut conn = self.db.get().await?;
let aead_id: i32 = insert_into(schema::aead_encrypted::table)
.values(&models::NewAeadEncrypted {
ciphertext,
tag: v1::TAG.to_vec(),
current_nonce: nonce.to_vec(),
schema_version: 1,
associated_root_key_id: *root_key_history_id,
created_at: chrono::Utc::now().timestamp() as i32,
})
.returning(schema::aead_encrypted::id)
.get_result(&mut conn)
.await?;
Ok(aead_id)
}
#[message]
pub fn get_state(&self) -> StateDiscriminants {
self.state.discriminant()
}
#[message]
pub fn seal(&mut self) -> Result<(), Error> {
let State::Unsealed {
root_key_history_id,
..
} = &self.state
else {
return Err(Error::NotBootstrapped);
};
self.state = State::Sealed {
root_key_history_id: *root_key_history_id,
};
Ok(())
}
}
#[cfg(test)]
mod tests {
use diesel::SelectableHelper;
use diesel_async::RunQueryDsl;
use memsafe::MemSafe;
use crate::db::{self};
use super::*;
async fn bootstrapped_actor(db: &db::DatabasePool) -> KeyHolder {
let mut actor = KeyHolder::new(db.clone()).await.unwrap();
let seal_key = MemSafe::new(b"test-seal-key".to_vec()).unwrap();
actor.bootstrap(seal_key).await.unwrap();
actor
}
#[tokio::test]
#[test_log::test]
async fn nonce_monotonic_even_when_nonce_allocation_interleaves() {
let db = db::create_test_pool().await;
let mut actor = bootstrapped_actor(&db).await;
let root_key_history_id = match actor.state {
State::Unsealed {
root_key_history_id,
..
} => root_key_history_id,
_ => panic!("expected unsealed state"),
};
let n1 = KeyHolder::get_new_nonce(&db, root_key_history_id)
.await
.unwrap();
let n2 = KeyHolder::get_new_nonce(&db, root_key_history_id)
.await
.unwrap();
assert!(n2.to_vec() > n1.to_vec(), "nonce must increase");
let mut conn = db.get().await.unwrap();
let root_row: models::RootKeyHistory = schema::root_key_history::table
.select(models::RootKeyHistory::as_select())
.first(&mut conn)
.await
.unwrap();
assert_eq!(root_row.data_encryption_nonce, n2.to_vec());
let id = actor
.create_new(MemSafe::new(b"post-interleave".to_vec()).unwrap())
.await
.unwrap();
let row: models::AeadEncrypted = schema::aead_encrypted::table
.filter(schema::aead_encrypted::id.eq(id))
.select(models::AeadEncrypted::as_select())
.first(&mut conn)
.await
.unwrap();
assert!(
row.current_nonce > n2.to_vec(),
"next write must advance nonce"
);
}
}

49
server/crates/arbiter-server/src/actors/mod.rs
View File

@@ -1,59 +1,40 @@
use kameo::actor::{ActorRef, Spawn};
use miette::Diagnostic;
use thiserror::Error;
use crate::{
actors::{
bootstrap::Bootstrapper, evm::EvmActor, flow_coordinator::FlowCoordinator,
operator_registry::OperatorRegistry, vault::Vault,
},
actors::{bootstrap::Bootstrapper, keyholder::KeyHolder},
db,
};
use kameo::actor::{ActorRef, Spawn};
use kameo_actors::{DeliveryStrategy, message_bus::MessageBus};
use thiserror::Error;
pub mod bootstrap;
pub mod evm;
pub mod flow_coordinator;
pub mod operator_registry;
pub mod vault;
pub mod client;
pub mod keyholder;
pub mod user_agent;
#[derive(Error, Debug)]
#[derive(Error, Debug, Diagnostic)]
pub enum SpawnError {
#[error("Failed to spawn Bootstrapper actor")]
#[diagnostic(code(SpawnError::Bootstrapper))]
Bootstrapper(#[from] bootstrap::Error),
#[error("Failed to spawn Vault actor")]
Vault(#[from] vault::Error),
#[error("Failed to spawn KeyHolder actor")]
#[diagnostic(code(SpawnError::KeyHolder))]
KeyHolder(#[from] keyholder::Error),
}
/// Long-lived actors that are shared across all connections and handle global state and operations
#[derive(Clone)]
pub struct GlobalActors {
pub vault: ActorRef<Vault>,
pub key_holder: ActorRef<KeyHolder>,
pub bootstrapper: ActorRef<Bootstrapper>,
pub flow_coordinator: ActorRef<FlowCoordinator>,
pub operator_registry: ActorRef<OperatorRegistry>,
pub evm: ActorRef<EvmActor>,
pub events: ActorRef<MessageBus>,
}
impl GlobalActors {
pub fn spawn_message_bus() -> ActorRef<MessageBus> {
MessageBus::spawn(MessageBus::new(DeliveryStrategy::Guaranteed))
}
pub async fn spawn(db: db::DatabasePool) -> Result<Self, SpawnError> {
let message_bus = Self::spawn_message_bus();
let key_holder = Vault::spawn(Vault::new(db.clone(), message_bus.clone()).await?);
let operator_registry = OperatorRegistry::spawn(OperatorRegistry::default());
Ok(Self {
bootstrapper: Bootstrapper::spawn(Bootstrapper::new(&db).await?),
evm: EvmActor::spawn(EvmActor::new(key_holder.clone(), db)),
vault: key_holder,
flow_coordinator: FlowCoordinator::spawn(FlowCoordinator::new(
operator_registry.clone(),
)),
operator_registry,
events: message_bus,
key_holder: KeyHolder::spawn(KeyHolder::new(db.clone()).await?),
})
}
}

61
server/crates/arbiter-server/src/actors/operator_registry.rs
View File

@@ -1,61 +0,0 @@
use crate::peers::operator::OperatorSession;
use kameo::{
Actor,
actor::{ActorId, ActorRef},
error::Infallible,
messages,
prelude::{ActorStopReason, Context, WeakActorRef},
};
use std::{collections::HashMap, ops::ControlFlow};
use tracing::info;
#[derive(Default)]
pub struct OperatorRegistry {
connected: HashMap<ActorId, ActorRef<OperatorSession>>,
}
impl Actor for OperatorRegistry {
type Args = Self;
type Error = Infallible;
async fn on_start(args: Self::Args, _: ActorRef<Self>) -> Result<Self, Self::Error> {
Ok(args)
}
async fn on_link_died(
&mut self,
_: WeakActorRef<Self>,
id: ActorId,
_: ActorStopReason,
) -> Result<ControlFlow<ActorStopReason>, Self::Error> {
if self.connected.remove(&id).is_some() {
info!(
?id,
actor = "OperatorRegistry",
event = "operator.disconnected"
);
}
Ok(ControlFlow::Continue(()))
}
}
#[messages]
impl OperatorRegistry {
#[message(ctx)]
pub async fn connect_operator(
&mut self,
actor: ActorRef<OperatorSession>,
ctx: &mut Context<Self, ()>,
) {
info!(id = %actor.id(), actor = "OperatorRegistry", event = "operator.connected");
ctx.actor_ref().link(&actor).await;
self.connected.insert(actor.id(), actor);
}
#[message]
pub fn get_connected(&self) -> Vec<ActorRef<OperatorSession>> {
self.connected.values().cloned().collect()
}
}

533
server/crates/arbiter-server/src/actors/user_agent/mod.rs Normal file
View File

@@ -0,0 +1,533 @@
use std::{ops::DerefMut, sync::Mutex};
use arbiter_proto::{
proto::{
UnsealEncryptedKey, UnsealResult, UnsealStart, UnsealStartResponse, UserAgentRequest,
UserAgentResponse,
auth::{
self, AuthChallengeRequest, AuthOk, ClientMessage as ClientAuthMessage,
ServerMessage as AuthServerMessage, client_message::Payload as ClientAuthPayload,
server_message::Payload as ServerAuthPayload,
},
user_agent_request::Payload as UserAgentRequestPayload,
user_agent_response::Payload as UserAgentResponsePayload,
},
transport::{Bi, DummyTransport},
};
use chacha20poly1305::{AeadInPlace, XChaCha20Poly1305, XNonce, aead::KeyInit};
use diesel::{ExpressionMethods as _, OptionalExtension as _, QueryDsl, dsl::update};
use diesel_async::RunQueryDsl;
use ed25519_dalek::VerifyingKey;
use kameo::{Actor, error::SendError};
use memsafe::MemSafe;
use tokio::select;
use tonic::Status;
use tracing::{error, info};
use x25519_dalek::{EphemeralSecret, PublicKey};
use crate::{
ServerContext,
actors::{
GlobalActors,
bootstrap::ConsumeToken,
keyholder::{self, TryUnseal},
user_agent::state::{
ChallengeContext, DummyContext, UnsealContext, UserAgentEvents, UserAgentStateMachine,
UserAgentStates,
},
},
db::{self, schema},
};
mod state;
#[derive(Debug, Clone, PartialEq, Eq, thiserror::Error)]
pub enum UserAgentError {
#[error("Expected message with payload")]
MissingRequestPayload,
#[error("Expected message with payload")]
UnexpectedRequestPayload,
#[error("Invalid state for challenge solution")]
InvalidStateForChallengeSolution,
#[error("Invalid state for unseal encrypted key")]
InvalidStateForUnsealEncryptedKey,
#[error("client_pubkey must be 32 bytes")]
InvalidClientPubkeyLength,
#[error("Expected pubkey to have specific length")]
InvalidAuthPubkeyLength,
#[error("Failed to convert pubkey to VerifyingKey")]
InvalidAuthPubkeyEncoding,
#[error("Invalid signature length")]
InvalidSignatureLength,
#[error("Invalid bootstrap token")]
InvalidBootstrapToken,
#[error("Public key not registered")]
PublicKeyNotRegistered,
#[error("Invalid challenge solution")]
InvalidChallengeSolution,
#[error("State machine error")]
StateTransitionFailed,
#[error("Bootstrap token consumption failed")]
BootstrapperActorUnreachable,
#[error("Vault is not available")]
KeyHolderActorUnreachable,
#[error("Database pool error")]
DatabasePoolUnavailable,
#[error("Database error")]
DatabaseOperationFailed,
}
impl From<UserAgentError> for Status {
fn from(value: UserAgentError) -> Self {
match value {
UserAgentError::MissingRequestPayload | UserAgentError::UnexpectedRequestPayload => {
Status::invalid_argument("Expected message with payload")
}
UserAgentError::InvalidStateForChallengeSolution => {
Status::invalid_argument("Invalid state for challenge solution")
}
UserAgentError::InvalidStateForUnsealEncryptedKey => {
Status::failed_precondition("Invalid state for unseal encrypted key")
}
UserAgentError::InvalidClientPubkeyLength => {
Status::invalid_argument("client_pubkey must be 32 bytes")
}
UserAgentError::InvalidAuthPubkeyLength => {
Status::invalid_argument("Expected pubkey to have specific length")
}
UserAgentError::InvalidAuthPubkeyEncoding => {
Status::invalid_argument("Failed to convert pubkey to VerifyingKey")
}
UserAgentError::InvalidSignatureLength => {
Status::invalid_argument("Invalid signature length")
}
UserAgentError::InvalidBootstrapToken => {
Status::invalid_argument("Invalid bootstrap token")
}
UserAgentError::PublicKeyNotRegistered => {
Status::unauthenticated("Public key not registered")
}
UserAgentError::InvalidChallengeSolution => {
Status::unauthenticated("Invalid challenge solution")
}
UserAgentError::StateTransitionFailed => Status::internal("State machine error"),
UserAgentError::BootstrapperActorUnreachable => {
Status::internal("Bootstrap token consumption failed")
}
UserAgentError::KeyHolderActorUnreachable => Status::internal("Vault is not available"),
UserAgentError::DatabasePoolUnavailable => Status::internal("Database pool error"),
UserAgentError::DatabaseOperationFailed => Status::internal("Database error"),
}
}
}
pub struct UserAgentActor<Transport>
where
Transport: Bi<UserAgentRequest, UserAgentResponse, UserAgentError>,
{
db: db::DatabasePool,
actors: GlobalActors,
state: UserAgentStateMachine<DummyContext>,
transport: Transport,
}
impl<Transport> UserAgentActor<Transport>
where
Transport: Bi<UserAgentRequest, UserAgentResponse, UserAgentError>,
{
pub(crate) fn new(context: ServerContext, transport: Transport) -> Self {
Self {
db: context.db.clone(),
actors: context.actors.clone(),
state: UserAgentStateMachine::new(DummyContext),
transport,
}
}
fn transition(&mut self, event: UserAgentEvents) -> Result<(), UserAgentError> {
self.state.process_event(event).map_err(|e| {
error!(?e, "State transition failed");
UserAgentError::StateTransitionFailed
})?;
Ok(())
}
pub async fn process_transport_inbound(&mut self, req: UserAgentRequest) -> Output {
let msg = req.payload.ok_or_else(|| {
error!(actor = "useragent", "Received message with no payload");
UserAgentError::MissingRequestPayload
})?;
match msg {
UserAgentRequestPayload::AuthMessage(ClientAuthMessage {
payload: Some(ClientAuthPayload::AuthChallengeRequest(req)),
}) => self.handle_auth_challenge_request(req).await,
UserAgentRequestPayload::AuthMessage(ClientAuthMessage {
payload: Some(ClientAuthPayload::AuthChallengeSolution(solution)),
}) => self.handle_auth_challenge_solution(solution).await,
UserAgentRequestPayload::UnsealStart(unseal_start) => {
self.handle_unseal_request(unseal_start).await
}
UserAgentRequestPayload::UnsealEncryptedKey(unseal_encrypted_key) => {
self.handle_unseal_encrypted_key(unseal_encrypted_key).await
}
_ => Err(UserAgentError::UnexpectedRequestPayload),
}
}
async fn auth_with_bootstrap_token(
&mut self,
pubkey: ed25519_dalek::VerifyingKey,
token: String,
) -> Result<UserAgentResponse, UserAgentError> {
let token_ok: bool = self
.actors
.bootstrapper
.ask(ConsumeToken { token })
.await
.map_err(|e| {
error!(?pubkey, "Failed to consume bootstrap token: {e}");
UserAgentError::BootstrapperActorUnreachable
})?;
if !token_ok {
error!(?pubkey, "Invalid bootstrap token provided");
return Err(UserAgentError::InvalidBootstrapToken);
}
{
let mut conn = self.db.get().await.map_err(|e| {
error!(error = ?e, "Database pool error");
UserAgentError::DatabasePoolUnavailable
})?;
diesel::insert_into(schema::useragent_client::table)
.values((
schema::useragent_client::public_key.eq(pubkey.as_bytes().to_vec()),
schema::useragent_client::nonce.eq(1),
))
.execute(&mut conn)
.await
.map_err(|e| {
error!(error = ?e, "Database error");
UserAgentError::DatabaseOperationFailed
})?;
}
self.transition(UserAgentEvents::ReceivedBootstrapToken)?;
Ok(auth_response(ServerAuthPayload::AuthOk(AuthOk {})))
}
async fn auth_with_challenge(&mut self, pubkey: VerifyingKey, pubkey_bytes: Vec<u8>) -> Output {
let nonce: Option<i32> = {
let mut db_conn = self.db.get().await.map_err(|e| {
error!(error = ?e, "Database pool error");
UserAgentError::DatabasePoolUnavailable
})?;
db_conn
.exclusive_transaction(|conn| {
Box::pin(async move {
let current_nonce = schema::useragent_client::table
.filter(
schema::useragent_client::public_key.eq(pubkey.as_bytes().to_vec()),
)
.select(schema::useragent_client::nonce)
.first::<i32>(conn)
.await?;
update(schema::useragent_client::table)
.filter(
schema::useragent_client::public_key.eq(pubkey.as_bytes().to_vec()),
)
.set(schema::useragent_client::nonce.eq(current_nonce + 1))
.execute(conn)
.await?;
Result::<_, diesel::result::Error>::Ok(current_nonce)
})
})
.await
.optional()
.map_err(|e| {
error!(error = ?e, "Database error");
UserAgentError::DatabaseOperationFailed
})?
};
let Some(nonce) = nonce else {
error!(?pubkey, "Public key not found in database");
return Err(UserAgentError::PublicKeyNotRegistered);
};
let challenge = auth::AuthChallenge {
pubkey: pubkey_bytes,
nonce,
};
self.transition(UserAgentEvents::SentChallenge(ChallengeContext {
challenge: challenge.clone(),
key: pubkey,
}))?;
info!(
?pubkey,
?challenge,
"Sent authentication challenge to client"
);
Ok(auth_response(ServerAuthPayload::AuthChallenge(challenge)))
}
fn verify_challenge_solution(
&self,
solution: &auth::AuthChallengeSolution,
) -> Result<(bool, &ChallengeContext), UserAgentError> {
let UserAgentStates::WaitingForChallengeSolution(challenge_context) = self.state.state()
else {
error!("Received challenge solution in invalid state");
return Err(UserAgentError::InvalidStateForChallengeSolution);
};
let formatted_challenge = arbiter_proto::format_challenge(&challenge_context.challenge);
let signature = solution.signature.as_slice().try_into().map_err(|_| {
error!(?solution, "Invalid signature length");
UserAgentError::InvalidSignatureLength
})?;
let valid = challenge_context
.key
.verify_strict(&formatted_challenge, &signature)
.is_ok();
Ok((valid, challenge_context))
}
}
type Output = Result<UserAgentResponse, UserAgentError>;
fn auth_response(payload: ServerAuthPayload) -> UserAgentResponse {
UserAgentResponse {
payload: Some(UserAgentResponsePayload::AuthMessage(AuthServerMessage {
payload: Some(payload),
})),
}
}
fn unseal_response(payload: UserAgentResponsePayload) -> UserAgentResponse {
UserAgentResponse {
payload: Some(payload),
}
}
impl<Transport> UserAgentActor<Transport>
where
Transport: Bi<UserAgentRequest, UserAgentResponse, UserAgentError>,
{
async fn handle_unseal_request(&mut self, req: UnsealStart) -> Output {
let secret = EphemeralSecret::random();
let public_key = PublicKey::from(&secret);
let client_pubkey_bytes: [u8; 32] = req
.client_pubkey
.try_into()
.map_err(|_| UserAgentError::InvalidClientPubkeyLength)?;
let client_public_key = PublicKey::from(client_pubkey_bytes);
self.transition(UserAgentEvents::UnsealRequest(UnsealContext {
secret: Mutex::new(Some(secret)),
client_public_key,
}))?;
Ok(unseal_response(
UserAgentResponsePayload::UnsealStartResponse(UnsealStartResponse {
server_pubkey: public_key.as_bytes().to_vec(),
}),
))
}
async fn handle_unseal_encrypted_key(&mut self, req: UnsealEncryptedKey) -> Output {
let UserAgentStates::WaitingForUnsealKey(unseal_context) = self.state.state() else {
error!("Received unseal encrypted key in invalid state");
return Err(UserAgentError::InvalidStateForUnsealEncryptedKey);
};
let ephemeral_secret = {
let mut secret_lock = unseal_context.secret.lock().unwrap();
let secret = secret_lock.take();
match secret {
Some(secret) => secret,
None => {
drop(secret_lock);
error!("Ephemeral secret already taken");
self.transition(UserAgentEvents::ReceivedInvalidKey)?;
return Ok(unseal_response(UserAgentResponsePayload::UnsealResult(
UnsealResult::InvalidKey.into(),
)));
}
}
};
let nonce = XNonce::from_slice(&req.nonce);
let shared_secret = ephemeral_secret.diffie_hellman(&unseal_context.client_public_key);
let cipher = XChaCha20Poly1305::new(shared_secret.as_bytes().into());
let mut seal_key_buffer = MemSafe::new(req.ciphertext.clone()).unwrap();
let decryption_result = {
let mut write_handle = seal_key_buffer.write().unwrap();
let write_handle = write_handle.deref_mut();
cipher.decrypt_in_place(nonce, &req.associated_data, write_handle)
};
match decryption_result {
Ok(_) => {
match self
.actors
.key_holder
.ask(TryUnseal {
seal_key_raw: seal_key_buffer,
})
.await
{
Ok(_) => {
info!("Successfully unsealed key with client-provided key");
self.transition(UserAgentEvents::ReceivedValidKey)?;
Ok(unseal_response(UserAgentResponsePayload::UnsealResult(
UnsealResult::Success.into(),
)))
}
Err(SendError::HandlerError(keyholder::Error::InvalidKey)) => {
self.transition(UserAgentEvents::ReceivedInvalidKey)?;
Ok(unseal_response(UserAgentResponsePayload::UnsealResult(
UnsealResult::InvalidKey.into(),
)))
}
Err(SendError::HandlerError(err)) => {
error!(?err, "Keyholder failed to unseal key");
self.transition(UserAgentEvents::ReceivedInvalidKey)?;
Ok(unseal_response(UserAgentResponsePayload::UnsealResult(
UnsealResult::InvalidKey.into(),
)))
}
Err(err) => {
error!(?err, "Failed to send unseal request to keyholder");
self.transition(UserAgentEvents::ReceivedInvalidKey)?;
Err(UserAgentError::KeyHolderActorUnreachable)
}
}
}
Err(err) => {
error!(?err, "Failed to decrypt unseal key");
self.transition(UserAgentEvents::ReceivedInvalidKey)?;
Ok(unseal_response(UserAgentResponsePayload::UnsealResult(
UnsealResult::InvalidKey.into(),
)))
}
}
}
async fn handle_auth_challenge_request(&mut self, req: AuthChallengeRequest) -> Output {
let pubkey = req
.pubkey
.as_array()
.ok_or(UserAgentError::InvalidAuthPubkeyLength)?;
let pubkey = VerifyingKey::from_bytes(pubkey).map_err(|_err| {
error!(?pubkey, "Failed to convert to VerifyingKey");
UserAgentError::InvalidAuthPubkeyEncoding
})?;
self.transition(UserAgentEvents::AuthRequest)?;
match req.bootstrap_token {
Some(token) => self.auth_with_bootstrap_token(pubkey, token).await,
None => self.auth_with_challenge(pubkey, req.pubkey).await,
}
}
async fn handle_auth_challenge_solution(
&mut self,
solution: auth::AuthChallengeSolution,
) -> Output {
let (valid, challenge_context) = self.verify_challenge_solution(&solution)?;
if valid {
info!(
?challenge_context,
"Client provided valid solution to authentication challenge"
);
self.transition(UserAgentEvents::ReceivedGoodSolution)?;
Ok(auth_response(ServerAuthPayload::AuthOk(AuthOk {})))
} else {
error!("Client provided invalid solution to authentication challenge");
self.transition(UserAgentEvents::ReceivedBadSolution)?;
Err(UserAgentError::InvalidChallengeSolution)
}
}
}
impl<Transport> Actor for UserAgentActor<Transport>
where
Transport: Bi<UserAgentRequest, UserAgentResponse, UserAgentError>,
{
type Args = Self;
type Error = ();
async fn on_start(
args: Self::Args,
_: kameo::prelude::ActorRef<Self>,
) -> Result<Self, Self::Error> {
Ok(args)
}
async fn next(
&mut self,
_actor_ref: kameo::prelude::WeakActorRef<Self>,
mailbox_rx: &mut kameo::prelude::MailboxReceiver<Self>,
) -> Option<kameo::mailbox::Signal<Self>> {
loop {
select! {
signal = mailbox_rx.recv() => {
return signal;
}
msg = self.transport.recv() => {
match msg {
Some(request) => {
match self.process_transport_inbound(request).await {
Ok(response) => {
if self.transport.send(Ok(response)).await.is_err() {
error!(actor = "useragent", reason = "channel closed", "send.failed");
return Some(kameo::mailbox::Signal::Stop);
}
}
Err(err) => {
let _ = self.transport.send(Err(err)).await;
return Some(kameo::mailbox::Signal::Stop);
}
}
}
None => {
info!(actor = "useragent", "transport.closed");
return Some(kameo::mailbox::Signal::Stop);
}
}
}
}
}
}
}
impl UserAgentActor<DummyTransport<UserAgentRequest, UserAgentResponse, UserAgentError>> {
pub fn new_manual(db: db::DatabasePool, actors: GlobalActors) -> Self {
Self {
db,
actors,
state: UserAgentStateMachine::new(DummyContext),
transport: DummyTransport::new(),
}
}
}

51
server/crates/arbiter-server/src/actors/user_agent/state.rs Normal file
View File

@@ -0,0 +1,51 @@
use std::sync::Mutex;
use arbiter_proto::proto::auth::AuthChallenge;
use ed25519_dalek::VerifyingKey;
use x25519_dalek::{EphemeralSecret, PublicKey};
/// Context for state machine with validated key and sent challenge
/// Challenge is then transformed to bytes using shared function and verified
#[derive(Clone, Debug)]
pub struct ChallengeContext {
pub challenge: AuthChallenge,
pub key: VerifyingKey,
}
pub struct UnsealContext {
pub client_public_key: PublicKey,
pub secret: Mutex<Option<EphemeralSecret>>,
}
smlang::statemachine!(
name: UserAgent,
custom_error: false,
transitions: {
*Init + AuthRequest = ReceivedAuthRequest,
ReceivedAuthRequest + ReceivedBootstrapToken = Idle,
ReceivedAuthRequest + SentChallenge(ChallengeContext) / move_challenge = WaitingForChallengeSolution(ChallengeContext),
WaitingForChallengeSolution(ChallengeContext) + ReceivedGoodSolution = Idle,
WaitingForChallengeSolution(ChallengeContext) + ReceivedBadSolution = AuthError, // block further transitions, but connection should close anyway
Idle + UnsealRequest(UnsealContext) / generate_temp_keypair = WaitingForUnsealKey(UnsealContext),
WaitingForUnsealKey(UnsealContext) + ReceivedValidKey = Unsealed,
WaitingForUnsealKey(UnsealContext) + ReceivedInvalidKey = Idle,
}
);
pub struct DummyContext;
impl UserAgentStateMachineContext for DummyContext {
#[allow(missing_docs)]
#[allow(clippy::unused_unit)]
fn generate_temp_keypair(&mut self, event_data: UnsealContext) -> Result<UnsealContext, ()> {
Ok(event_data)
}
#[allow(missing_docs)]
#[allow(clippy::unused_unit)]
fn move_challenge(&mut self, event_data: ChallengeContext) -> Result<ChallengeContext, ()> {
Ok(event_data)
}
}

607
server/crates/arbiter-server/src/actors/vault/mod.rs
View File

@@ -1,607 +0,0 @@
use std::collections::HashMap;
use crate::{
crypto::{
KeyCell, derive_key,
encryption::v1::{self, Nonce},
integrity::v1::HmacSha256,
},
db::{
self,
models::{self, OperatorId, OperatorIdentityId, RootKeyHistory, RootKeyHistoryId},
schema::{self},
},
};
use arbiter_crypto::safecell::{SafeCell, SafeCellHandle as _};
use chrono::Utc;
use diesel::{
ExpressionMethods as _, OptionalExtension, QueryDsl, SelectableHelper,
dsl::{count, insert_into, update},
select,
};
use diesel_async::{AsyncConnection, RunQueryDsl};
use hmac::{KeyInit as _, Mac as _, digest::common};
use kameo::{Actor, Reply, actor::ActorRef, messages};
use kameo_actors::message_bus::{MessageBus, Publish};
use strum::{EnumDiscriminants, IntoDiscriminant};
use tracing::{error, info};
pub mod events {
#[derive(Clone, Copy)]
pub struct Bootstrapped;
#[derive(Clone, Copy)]
pub struct Unsealed;
#[derive(Clone, Copy)]
pub struct VaultResealed;
}
#[derive(Debug, thiserror::Error)]
pub enum Error {
#[error("Vault is already bootstrapped")]
AlreadyBootstrapped,
#[error("Vault is not bootstrapped")]
NotBootstrapped,
#[error("Vault is sealed")]
Sealed,
#[error("Invalid key provided")]
InvalidKey,
#[error("Requested aead entry not found")]
NotFound,
#[error("Encryption error: {0}")]
Encryption(#[from] chacha20poly1305::aead::Error),
#[error("Database error: {0}")]
DatabaseConnection(#[from] db::PoolError),
#[error("Database transaction error: {0}")]
DatabaseTransaction(#[from] diesel::result::Error),
#[error("Broken database")]
BrokenDatabase,
}
#[derive(Debug, thiserror::Error)]
pub enum UnsealError {}
#[derive(Debug, thiserror::Error)]
pub enum BootstrapError {
#[error("That operator already contributed his share")]
AlreadyContributed,
}
struct Unsealed {
root_key_history_id: RootKeyHistoryId,
root_key: KeyCell,
}
#[derive(Default, EnumDiscriminants)]
#[strum_discriminants(derive(Reply), vis(pub), name(VaultState))]
enum State {
#[default]
Unbootstrapped,
Bootstrapping {
declared_operators: u64,
current_passphrases: HashMap<OperatorIdentityId, SafeCell<Vec<u8>>>,
},
Sealed {
threshold: u64, // basically, quorum size
root_key_history_id: RootKeyHistoryId,
current_shares: HashMap<OperatorId, SafeCell<Vec<u8>>>,
},
Unsealed(Unsealed),
}
/// Manages vault root key and tracks current state of the vault (bootstrapped/unbootstrapped, sealed/unsealed).
///
/// Provides API for encrypting and decrypting data using the vault root key.
/// Abstraction over database to make sure nonces are never reused and encryption keys are never exposed in plaintext outside of this actor.
#[derive(Actor)]
pub struct Vault {
db: db::DatabasePool,
state: State,
events: ActorRef<MessageBus>,
}
impl Vault {
pub async fn new(db: db::DatabasePool, events: ActorRef<MessageBus>) -> Result<Self, Error> {
let state = {
let mut conn = db.get().await?;
let (root_key_history,) = schema::arbiter_settings::table
.left_join(schema::root_key_history::table)
.select((Option::<RootKeyHistory>::as_select(),))
.get_result::<(Option<RootKeyHistory>,)>(&mut conn)
.await?;
match root_key_history {
Some(root_key_history) => {
let operator_count: i64 = schema::operator::table
.count()
.get_result(&mut conn)
.await?;
State::Sealed {
root_key_history_id: root_key_history.id,
current_shares: HashMap::default(),
threshold: shamir_threshold(operator_count.cast_unsigned()), // invariant: db couldn't return negative number of rows
}
}
None => State::Unbootstrapped,
}
};
Ok(Self { db, state, events })
}
// Exclusive transaction to avoid race condtions if multiple vaults write
// additional layer of protection against nonce-reuse
async fn get_new_nonce(
pool: &db::DatabasePool,
root_key_id: RootKeyHistoryId,
) -> Result<Nonce, Error> {
let mut conn = pool.get().await?;
let nonce = conn
.exclusive_transaction(async |conn| {
let current_nonce: Vec<u8> = schema::root_key_history::table
.filter(schema::root_key_history::id.eq(root_key_id))
.select(schema::root_key_history::data_encryption_nonce)
.first(&mut *conn)
.await?;
let mut nonce = Nonce::try_from(current_nonce.as_slice()).map_err(|()| {
error!(
"Broken database: invalid nonce for root key history id={:#?}",
root_key_id
);
Error::BrokenDatabase
})?;
nonce.increment();
update(schema::root_key_history::table)
.filter(schema::root_key_history::id.eq(root_key_id))
.set(schema::root_key_history::data_encryption_nonce.eq(nonce.to_vec()))
.execute(&mut *conn)
.await?;
Result::<_, Error>::Ok(nonce)
})
.await?;
Ok(nonce)
}
const fn expect_unsealed(state: &mut State) -> Result<&mut Unsealed, Error> {
match state {
State::Unsealed(unsealed) => Ok(unsealed),
State::Bootstrapping { .. } => Err(Error::NotBootstrapped),
State::Unbootstrapped => Err(Error::NotBootstrapped),
State::Sealed { .. } => Err(Error::Sealed),
}
}
pub async fn finalize_bootstrap(&mut self) -> Result<(), Error> {
let State::Bootstrapping {
declared_operators,
current_passphrases,
} = &mut self.state
else {
return Err(Error::AlreadyBootstrapped);
};
let mut root_key = KeyCell::new_secure_random();
let root_key_salt = v1::generate_salt();
let mut seal_key = KeyCell::new_secure_random();
let shares = seal_key.0.read_inline(|seal_key| {
generate_shamir_shares(current_passphrases.len() as u64, seal_key.as_slice())
});
// Zero nonces are fine because they are one-time
let root_key_nonce = Nonce::default();
let data_encryption_nonce = Nonce::default();
let root_key_ciphertext: Vec<u8> = root_key.0.read_inline(|reader| {
let root_key_reader = reader.as_slice();
seal_key
.encrypt(&root_key_nonce, v1::ROOT_KEY_TAG, root_key_reader)
.map_err(|err| {
error!(?err, "Fatal bootstrap error");
Error::Encryption(err)
})
})?;
let data_encryption_nonce_bytes = data_encryption_nonce.to_vec();
let mut conn = self.db.get().await?;
let root_key_history_id = conn
.transaction(async |conn| {
for ((operator_id, raw_passphrase), raw_share) in
current_passphrases.iter_mut().zip(shares.iter())
{
let salt = v1::generate_salt();
let mut share_seal_key = derive_key(&mut raw_passphrase, &salt);
let share_encryption_nonce = Nonce::default();
let share_key = derive_key(&mut raw_passphrase, &salt);
}
let root_key_history_id = insert_into(schema::root_key_history::table)
.values(&models::NewRootKeyHistory {
ciphertext: root_key_ciphertext.clone(),
tag: v1::ROOT_KEY_TAG.to_vec(),
root_key_encryption_nonce: root_key_nonce.to_vec(),
data_encryption_nonce: data_encryption_nonce_bytes.clone(),
schema_version: 1,
salt: root_key_salt.to_vec(),
})
.returning(schema::root_key_history::id)
.get_result(&mut *conn)
.await?;
update(schema::arbiter_settings::table)
.set(schema::arbiter_settings::root_key_id.eq(root_key_history_id))
.execute(&mut *conn)
.await?;
Result::<_, diesel::result::Error>::Ok(RootKeyHistoryId::from_raw(
root_key_history_id,
))
})
.await?;
self.state = State::Unsealed(Unsealed {
root_key,
root_key_history_id,
});
info!("Vault bootstrapped successfully");
let _ = self.events.tell(Publish(events::Bootstrapped)).await;
Ok(())
}
}
// Seal / unseal / bootstrap stuff. Will be separated into another actor, eventually
#[messages]
impl Vault {
#[message]
pub async fn start_bootstrap(&mut self, declared_operators: u64) -> Result<(), Error> {
if !matches!(&self.state, State::Unbootstrapped) {
return Err(Error::AlreadyBootstrapped);
}
self.state = State::Bootstrapping {
declared_operators,
current_passphrases: HashMap::default(),
};
Ok(())
}
#[message]
pub async fn contribute_bootstrap(
&mut self,
operator: OperatorIdentityId,
key_raw: SafeCell<Vec<u8>>,
) -> Result<(), Error> {
let State::Bootstrapping {
current_passphrases,
declared_operators,
} = &mut self.state
else {
return Err(Error::AlreadyBootstrapped);
};
if current_passphrases.contains_key(&operator) {
return Err(Error::AlreadyBootstrapped);
}
current_passphrases.insert(operator, key_raw);
if current_passphrases.len() == declared_operators {
return self.finalize_bootstrap(seal_key_raw);
}
Ok(())
}
#[message]
pub async fn contribute_unseal(
&mut self,
operator: OperatorId,
key_raw: SafeCell<Vec<u8>>,
) -> Result<(), Error> {
let State::Sealed {
root_key_history_id,
current_shares,
} = &self.state
else {
return Err(Error::NotBootstrapped);
};
// We don't want to hold connection while doing expensive KDF work
let current_key = {
let mut conn = self.db.get().await?;
schema::root_key_history::table
.filter(schema::root_key_history::id.eq(*root_key_history_id))
.select(RootKeyHistory::as_select())
.first(&mut conn)
.await?
};
let salt = &current_key.salt;
let salt = v1::Salt::try_from(salt.as_slice()).map_err(|_| {
error!("Broken database: invalid salt for root key");
Error::BrokenDatabase
})?;
let mut seal_key = derive_key(key_raw, &salt);
let mut root_key = SafeCell::new(current_key.ciphertext.clone());
let nonce =
Nonce::try_from(current_key.root_key_encryption_nonce.as_slice()).map_err(|()| {
error!("Broken database: invalid nonce for root key");
Error::BrokenDatabase
})?;
seal_key
.decrypt_in_place(&nonce, v1::ROOT_KEY_TAG, &mut root_key)
.map_err(|err| {
error!(?err, "Failed to unseal root key: invalid seal key");
Error::InvalidKey
})?;
self.state = State::Unsealed(Unsealed {
root_key_history_id: current_key.id,
root_key: KeyCell::try_from(root_key).map_err(|err| {
error!(?err, "Broken database: invalid encryption key size");
Error::BrokenDatabase
})?,
});
info!("Vault unsealed successfully");
let _ = self.events.tell(Publish(events::Unsealed)).await;
Ok(())
}
#[message]
pub async fn seal(&mut self) -> Result<(), Error> {
let Unsealed {
root_key_history_id,
..
} = Self::expect_unsealed(&mut self.state)?;
self.state = State::Sealed {
root_key_history_id: *root_key_history_id,
current_shares: HashMap::new(),
};
let _ = self.events.tell(Publish(events::VaultResealed)).await;
Ok(())
}
}
// Server-side cryptographic operations
#[messages]
impl Vault {
#[message]
pub async fn decrypt(&mut self, aead_id: i32) -> Result<SafeCell<Vec<u8>>, Error> {
let Unsealed { root_key, .. } = Self::expect_unsealed(&mut self.state)?;
let row: models::AeadEncrypted = {
let mut conn = self.db.get().await?;
schema::aead_encrypted::table
.select(models::AeadEncrypted::as_select())
.filter(schema::aead_encrypted::id.eq(aead_id))
.first(&mut conn)
.await
.optional()?
.ok_or(Error::NotFound)?
};
let nonce = Nonce::try_from(row.current_nonce.as_slice()).map_err(|()| {
error!(
"Broken database: invalid nonce for aead_encrypted id={}",
aead_id
);
Error::BrokenDatabase
})?;
let mut output = SafeCell::new(row.ciphertext);
root_key.decrypt_in_place(&nonce, v1::TAG, &mut output)?;
Ok(output)
}
// Creates new `aead_encrypted` entry in the database and returns it's ID
#[message]
pub async fn create_new(&mut self, mut plaintext: SafeCell<Vec<u8>>) -> Result<i32, Error> {
let Unsealed {
root_key,
root_key_history_id,
} = Self::expect_unsealed(&mut self.state)?;
// Order matters here - `get_new_nonce` acquires connection, so we need to call it before next acquire
// Borrow checker note: &mut borrow a few lines above is disjoint from this field
let nonce = Self::get_new_nonce(&self.db, *root_key_history_id).await?;
let mut ciphertext_buffer = plaintext.write();
let ciphertext_buffer: &mut Vec<u8> = ciphertext_buffer.as_mut();
root_key.encrypt_in_place(&nonce, v1::TAG, &mut *ciphertext_buffer)?;
let ciphertext = std::mem::take(ciphertext_buffer);
let mut conn = self.db.get().await?;
let aead_id: i32 = insert_into(schema::aead_encrypted::table)
.values(&models::NewAeadEncrypted {
ciphertext,
tag: v1::TAG.to_vec(),
current_nonce: nonce.to_vec(),
schema_version: 1,
associated_root_key_id: *root_key_history_id,
created_at: Utc::now().into(),
})
.returning(schema::aead_encrypted::id)
.get_result(&mut conn)
.await?;
Ok(aead_id)
}
#[message]
pub fn get_state(&self) -> VaultState {
self.state.discriminant()
}
#[message]
pub fn sign_integrity(
&mut self,
mac_input: Vec<u8>,
) -> Result<(RootKeyHistoryId, Vec<u8>), Error> {
let Unsealed {
root_key,
root_key_history_id,
} = Self::expect_unsealed(&mut self.state)?;
let mut hmac = root_key
.0
.read_inline(|k| match HmacSha256::new_from_slice(k) {
Ok(v) => v,
Err(_) => unreachable!("HMAC accepts keys of any size"),
});
hmac.update(&root_key_history_id.to_raw().to_be_bytes());
hmac.update(&mac_input);
let mac = hmac.finalize().into_bytes().to_vec();
Ok((*root_key_history_id, mac))
}
#[message]
pub fn verify_integrity(
&mut self,
mac_input: Vec<u8>,
expected_mac: Vec<u8>,
key_version: RootKeyHistoryId,
) -> Result<bool, Error> {
let Unsealed {
root_key,
root_key_history_id,
} = Self::expect_unsealed(&mut self.state)?;
if *root_key_history_id != key_version {
return Ok(false);
}
let mut hmac = root_key
.0
.read_inline(|k| match HmacSha256::new_from_slice(k) {
Ok(v) => v,
Err(_) => unreachable!("HMAC accepts keys of any size"),
});
hmac.update(&key_version.to_raw().to_be_bytes());
hmac.update(&mac_input);
Ok(hmac.verify_slice(&expected_mac).is_ok())
}
}
/// According to the spec, the quorum is 50% + 1
/// with exception for 1 and 2 operators, those require exactly the number of operators registered
fn shamir_threshold(comittee_size: u64) -> u64 {
if comittee_size == 2 || comittee_size == 1 {
return comittee_size;
}
let half_comittee = match comittee_size % 2 != 0 {
true => (comittee_size - 1) / 2,
false => comittee_size / 2,
};
half_comittee + 1
}
/// Beware: this function accepts raw key references (without memory protection)
fn generate_shamir_shares(threshold: u64, key: &[u8]) -> Vec<SafeCell<Vec<u8>>> {
use vsss_rs::{shamir, *};
type P256Share = DefaultShare<IdentifierPrimeField<Scalar>, IdentifierPrimeField<Scalar>>;
let mut osrng = rand_core::OsRng::default();
let sk = SecretKey::random(&mut osrng);
let nzs = sk.to_nonzero_scalar();
let shared_secret = IdentifierPrimeField(*nzs.as_ref());
let res = shamir::split_secret::<P256Share>(2, 3, &shared_secret, &mut osrng);
assert!(res.is_ok());
let shares = res.unwrap();
let res = shares.combine();
assert!(res.is_ok());
let scalar = res.unwrap();
let nzs_dup = NonZeroScalar::from_repr(scalar.0.to_repr()).unwrap();
let sk_dup = SecretKey::from(nzs_dup);
assert_eq!(sk_dup.to_bytes(), sk.to_bytes());
}
#[cfg(test)]
mod tests {
use crate::actors::GlobalActors;
use arbiter_crypto::safecell::SafeCellHandle as _;
use super::*;
async fn bootstrapped_actor(db: &db::DatabasePool) -> Vault {
let mut actor = Vault::new(db.clone(), GlobalActors::spawn_message_bus())
.await
.unwrap();
let seal_key = SafeCell::new(b"test-seal-key".to_vec());
actor.finalize_bootstrap(seal_key).await.unwrap();
actor
}
#[tokio::test]
#[test_log::test]
async fn nonce_monotonic_even_when_nonce_allocation_interleaves() {
let db = db::create_test_pool().await;
let mut actor = bootstrapped_actor(&db).await;
let root_key_history_id = match actor.state {
State::Unsealed(Unsealed {
root_key_history_id,
..
}) => root_key_history_id,
_ => panic!("expected unsealed state"),
};
let n1 = Vault::get_new_nonce(&db, root_key_history_id)
.await
.unwrap();
let n2 = Vault::get_new_nonce(&db, root_key_history_id)
.await
.unwrap();
assert!(n2.to_vec() > n1.to_vec(), "nonce must increase");
let mut conn = db.get().await.unwrap();
let root_row: RootKeyHistory = schema::root_key_history::table
.select(RootKeyHistory::as_select())
.first(&mut conn)
.await
.unwrap();
assert_eq!(root_row.data_encryption_nonce, n2.to_vec());
let id = actor
.create_new(SafeCell::new(b"post-interleave".to_vec()))
.await
.unwrap();
let row: models::AeadEncrypted = schema::aead_encrypted::table
.filter(schema::aead_encrypted::id.eq(id))
.select(models::AeadEncrypted::as_select())
.first(&mut conn)
.await
.unwrap();
assert!(
row.current_nonce > n2.to_vec(),
"next write must advance nonce"
);
}
}

24
server/crates/arbiter-server/src/context/mod.rs
View File

@@ -1,45 +1,53 @@
use std::sync::Arc;
use miette::Diagnostic;
use thiserror::Error;
use crate::{
actors::GlobalActors,
context::tls::TlsManager,
db::{self},
};
use std::sync::Arc;
use thiserror::Error;
pub mod tls;
#[derive(Error, Debug)]
#[derive(Error, Debug, Diagnostic)]
pub enum InitError {
#[error("Database setup failed: {0}")]
#[diagnostic(code(arbiter_server::init::database_setup))]
DatabaseSetup(#[from] db::DatabaseSetupError),
#[error("Connection acquire failed: {0}")]
#[diagnostic(code(arbiter_server::init::database_pool))]
DatabasePool(#[from] db::PoolError),
#[error("Database query error: {0}")]
#[diagnostic(code(arbiter_server::init::database_query))]
DatabaseQuery(#[from] diesel::result::Error),
#[error("TLS initialization failed: {0}")]
#[diagnostic(code(arbiter_server::init::tls_init))]
Tls(#[from] tls::InitError),
#[error("Actor spawn failed: {0}")]
#[diagnostic(code(arbiter_server::init::actor_spawn))]
ActorSpawn(#[from] crate::actors::SpawnError),
#[error("I/O Error: {0}")]
#[diagnostic(code(arbiter_server::init::io))]
Io(#[from] std::io::Error),
}
pub struct __ServerContextInner {
pub struct _ServerContextInner {
pub db: db::DatabasePool,
pub tls: TlsManager,
pub actors: GlobalActors,
}
#[derive(Clone)]
pub struct ServerContext(Arc<__ServerContextInner>);
pub struct ServerContext(Arc<_ServerContextInner>);
impl std::ops::Deref for ServerContext {
type Target = __ServerContextInner;
type Target = _ServerContextInner;
fn deref(&self) -> &Self::Target {
&self.0
@@ -48,7 +56,7 @@ impl std::ops::Deref for ServerContext {
impl ServerContext {
pub async fn new(db: db::DatabasePool) -> Result<Self, InitError> {
Ok(Self(Arc::new(__ServerContextInner {
Ok(Self(Arc::new(_ServerContextInner {
actors: GlobalActors::spawn(db.clone()).await?,
tls: TlsManager::new(db.clone()).await?,
db,

111
server/crates/arbiter-server/src/context/tls.rs
View File

@@ -1,3 +1,17 @@
use std::string::FromUtf8Error;
use diesel::{ExpressionMethods as _, QueryDsl, SelectableHelper as _};
use diesel_async::{AsyncConnection, RunQueryDsl};
use miette::Diagnostic;
use pem::Pem;
use rcgen::{
BasicConstraints, Certificate, CertificateParams, CertifiedIssuer, DistinguishedName, DnType,
IsCa, Issuer, KeyPair, KeyUsagePurpose,
};
use rustls::pki_types::{pem::PemObject};
use thiserror::Error;
use tonic::transport::CertificateDer;
use crate::db::{
self,
models::{NewTlsHistory, TlsHistory},
@@ -7,58 +21,51 @@ use crate::db::{
},
};
use diesel::{ExpressionMethods as _, QueryDsl, SelectableHelper as _};
use diesel_async::{AsyncConnection, RunQueryDsl};
use pem::Pem;
use rcgen::{
BasicConstraints, Certificate, CertificateParams, CertifiedIssuer, DistinguishedName, DnType,
IsCa, Issuer, KeyPair, KeyUsagePurpose, SanType,
};
use rustls::pki_types::pem::PemObject;
use std::{net::Ipv4Addr, string::FromUtf8Error};
use thiserror::Error;
use tonic::transport::CertificateDer;
const ENCODE_CONFIG: pem::EncodeConfig = {
let line_ending = if cfg!(target_family = "windows") {
pem::LineEnding::CRLF
} else {
pem::LineEnding::LF
let line_ending = match cfg!(target_family = "windows") {
true => pem::LineEnding::CRLF,
false => pem::LineEnding::LF,
};
pem::EncodeConfig::new().set_line_ending(line_ending)
};
#[derive(Error, Debug)]
#[derive(Error, Debug, Diagnostic)]
pub enum InitError {
#[error("Key generation error during TLS initialization: {0}")]
#[diagnostic(code(arbiter_server::tls_init::key_generation))]
KeyGeneration(#[from] rcgen::Error),
#[error("Key invalid format: {0}")]
#[diagnostic(code(arbiter_server::tls_init::key_invalid_format))]
KeyInvalidFormat(#[from] FromUtf8Error),
#[error("Key deserialization error: {0}")]
#[diagnostic(code(arbiter_server::tls_init::key_deserialization))]
KeyDeserializationError(rcgen::Error),
#[error("Database error during TLS initialization: {0}")]
#[diagnostic(code(arbiter_server::tls_init::database_error))]
DatabaseError(#[from] diesel::result::Error),
#[error("Pem deserialization error during TLS initialization: {0}")]
#[diagnostic(code(arbiter_server::tls_init::pem_deserialization))]
PemDeserializationError(#[from] rustls::pki_types::pem::Error),
#[error("Database pool acquire error during TLS initialization: {0}")]
#[diagnostic(code(arbiter_server::tls_init::database_pool_acquire))]
DatabasePoolAcquire(#[from] db::PoolError),
}
pub type PemCert = String;
pub fn encode_cert_to_pem(cert: &CertificateDer<'_>) -> PemCert {
pem::encode_config(&Pem::new("CERTIFICATE", cert.to_vec()), ENCODE_CONFIG)
pub fn encode_cert_to_pem(cert: &CertificateDer) -> PemCert {
pem::encode_config(
&Pem::new("CERTIFICATE", cert.to_vec()),
ENCODE_CONFIG,
)
}
#[expect(
unused,
reason = "may be needed for future cert rotation implementation"
)]
#[allow(unused)]
struct SerializedTls {
cert_pem: PemCert,
cert_key_pem: String,
@@ -87,10 +94,6 @@ impl TlsCa {
let cert_key_pem = certified_issuer.key().serialize_pem();
#[expect(
clippy::unwrap_used,
reason = "Broken cert couldn't bootstrap server anyway"
)]
let issuer = Issuer::from_ca_cert_pem(
&certified_issuer.pem(),
KeyPair::from_pem(cert_key_pem.as_ref()).unwrap(),
@@ -110,9 +113,6 @@ impl TlsCa {
KeyUsagePurpose::DigitalSignature,
KeyUsagePurpose::KeyEncipherment,
];
params
.subject_alt_names
.push(SanType::IpAddress(Ipv4Addr::LOCALHOST.into()));
let mut dn = DistinguishedName::new();
dn.push(DnType::CommonName, "Arbiter Instance Leaf");
@@ -126,11 +126,7 @@ impl TlsCa {
})
}
#[expect(
unused,
clippy::unnecessary_wraps,
reason = "may be needed for future cert rotation implementation"
)]
#[allow(unused)]
fn serialize(&self) -> Result<SerializedTls, InitError> {
let cert_key_pem = self.issuer.key().serialize_pem();
Ok(SerializedTls {
@@ -139,10 +135,7 @@ impl TlsCa {
})
}
#[expect(
unused,
reason = "may be needed for future cert rotation implementation"
)]
#[allow(unused)]
fn try_deserialize(cert_pem: &str, cert_key_pem: &str) -> Result<Self, InitError> {
let keypair =
KeyPair::from_pem(cert_key_pem).map_err(InitError::KeyDeserializationError)?;
@@ -174,26 +167,28 @@ impl TlsManager {
{
let mut conn = db.get().await?;
conn.transaction(async |conn| {
let new_tls_history = NewTlsHistory {
cert: new_cert.cert.pem(),
cert_key: new_cert.cert_key.serialize_pem(),
ca_cert: encode_cert_to_pem(&ca.cert),
ca_key: ca.issuer.key().serialize_pem(),
};
conn.transaction(|conn| {
Box::pin(async {
let new_tls_history = NewTlsHistory {
cert: new_cert.cert.pem(),
cert_key: new_cert.cert_key.serialize_pem(),
ca_cert: encode_cert_to_pem(&ca.cert),
ca_key: ca.issuer.key().serialize_pem(),
};
let inserted_tls_history: i32 = diesel::insert_into(tls_history::table)
.values(&new_tls_history)
.returning(tls_history::id)
.get_result(&mut *conn)
.await?;
let inserted_tls_history: i32 = diesel::insert_into(tls_history::table)
.values(&new_tls_history)
.returning(tls_history::id)
.get_result(conn)
.await?;
diesel::update(arbiter_settings::table)
.set(arbiter_settings::tls_id.eq(inserted_tls_history))
.execute(&mut *conn)
.await?;
diesel::update(arbiter_settings::table)
.set(arbiter_settings::tls_id.eq(inserted_tls_history))
.execute(conn)
.await?;
Result::<_, diesel::result::Error>::Ok(())
Result::<_, diesel::result::Error>::Ok(())
})
})
.await?;
}
@@ -241,10 +236,10 @@ impl TlsManager {
}
}
pub const fn cert(&self) -> &CertificateDer<'static> {
pub fn cert(&self) -> &CertificateDer<'static> {
&self.cert
}
pub const fn ca_cert(&self) -> &CertificateDer<'static> {
pub fn ca_cert(&self) -> &CertificateDer<'static> {
&self.ca_cert
}

3
server/crates/arbiter-server/src/crypto/encryption/mod.rs
View File

@@ -1,3 +0,0 @@
pub mod v1;
pub use v1::*;

102
server/crates/arbiter-server/src/crypto/encryption/v1.rs
View File

@@ -1,102 +0,0 @@
use argon2::password_hash::Salt as ArgonSalt;
use rand::{
Rng as _, SeedableRng,
rngs::{StdRng, SysRng},
};
pub const ROOT_KEY_TAG: &[u8] = b"arbiter/seal/v1";
pub const TAG: &[u8] = b"arbiter/private-key/v1";
pub const NONCE_LENGTH: usize = 24;
#[derive(Default)]
pub struct Nonce(pub [u8; NONCE_LENGTH]);
impl Nonce {
pub fn increment(&mut self) {
for i in (0..self.0.len()).rev() {
if let Some(byte) = self.0.get_mut(i) {
if *byte == 0xFF {
*byte = 0;
} else {
*byte += 1;
break;
}
}
}
}
pub fn to_vec(&self) -> Vec<u8> {
self.0.to_vec()
}
}
impl<'a> TryFrom<&'a [u8]> for Nonce {
type Error = ();
fn try_from(value: &'a [u8]) -> Result<Self, Self::Error> {
if value.len() != NONCE_LENGTH {
return Err(());
}
let mut nonce = [0u8; NONCE_LENGTH];
nonce.copy_from_slice(value);
Ok(Self(nonce))
}
}
pub type Salt = [u8; ArgonSalt::RECOMMENDED_LENGTH];
pub fn generate_salt() -> Salt {
let mut salt = Salt::default();
let mut rng =
StdRng::try_from_rng(&mut SysRng).expect("Rng failure is unrecoverable and should panic");
rng.fill_bytes(&mut salt);
salt
}
#[cfg(test)]
mod tests {
use super::*;
use crate::crypto::derive_key;
use arbiter_crypto::safecell::{SafeCell, SafeCellHandle as _};
#[test]
fn derive_seal_key_deterministic() {
static PASSWORD: &[u8] = b"password";
let password = SafeCell::new(PASSWORD.to_vec());
let password2 = SafeCell::new(PASSWORD.to_vec());
let salt = generate_salt();
let mut key1 = derive_key(password, &salt);
let mut key2 = derive_key(password2, &salt);
let key1_reader = key1.0.read();
let key2_reader = key2.0.read();
assert_eq!(&*key1_reader, &*key2_reader);
}
#[test]
fn successful_derive() {
static PASSWORD: &[u8] = b"password";
let password = SafeCell::new(PASSWORD.to_vec());
let salt = generate_salt();
let mut key = derive_key(password, &salt);
let key_reader = key.0.read();
assert_ne!(key_reader.as_slice(), &[0u8; 32][..]);
}
#[test]
// We should fuzz this
pub fn nonce_increment() {
let mut nonce = Nonce([0u8; NONCE_LENGTH]);
nonce.increment();
assert_eq!(
nonce.0,
[
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1
]
);
}
}

3
server/crates/arbiter-server/src/crypto/integrity/mod.rs
View File

@@ -1,3 +0,0 @@
pub mod v1;
pub use v1::*;

334
server/crates/arbiter-server/src/crypto/integrity/v1.rs
View File

@@ -1,334 +0,0 @@
use crate::{
actors::vault::{self, GetState, SignIntegrity, Vault, VerifyIntegrity},
db::{
self,
models::{IntegrityEnvelope, NewIntegrityEnvelope},
schema::integrity_envelope,
},
};
use arbiter_crypto::hashing::Hashable;
use diesel::{ExpressionMethods as _, QueryDsl, dsl::insert_into, sqlite::Sqlite};
use diesel_async::{AsyncConnection, RunQueryDsl};
use hmac::Hmac;
use kameo::{actor::ActorRef, error::SendError};
use sha2::{Digest as _, Sha256};
#[derive(Debug, thiserror::Error)]
pub enum Error {
#[error("Database error: {0}")]
Database(#[from] db::DatabaseError),
#[error("Vault error: {0}")]
Vault(#[from] vault::Error),
#[error("Vault mailbox error")]
VaultSend,
#[error("Integrity envelope is missing for entity {entity_kind}")]
MissingEnvelope { entity_kind: &'static str },
#[error(
"Integrity payload version mismatch for entity {entity_kind}: expected {expected}, found {found}"
)]
PayloadVersionMismatch {
entity_kind: &'static str,
expected: i32,
found: i32,
},
#[error("Integrity MAC mismatch for entity {entity_kind}")]
MacMismatch { entity_kind: &'static str },
}
#[derive(Debug, Clone, Copy, PartialEq, Eq)]
pub enum AttestationStatus {
Attested,
Unavailable,
}
pub const CURRENT_PAYLOAD_VERSION: i32 = 1;
pub const INTEGRITY_SUBKEY_TAG: &[u8] = b"arbiter/db-integrity-key/v1";
pub type HmacSha256 = Hmac<Sha256>;
pub trait Integrable: Hashable {
const KIND: &'static str;
const VERSION: i32 = 1;
}
fn payload_hash(payload: &impl Hashable) -> [u8; 32] {
let mut hasher = Sha256::new();
payload.hash(&mut hasher);
hasher.finalize().into()
}
fn push_len_prefixed(out: &mut Vec<u8>, bytes: &[u8]) {
#[expect(
clippy::cast_possible_truncation,
clippy::as_conversions,
reason = "fixme! #85"
)]
out.extend_from_slice(&(bytes.len() as u32).to_be_bytes());
out.extend_from_slice(bytes);
}
fn build_mac_input(
entity_kind: &str,
entity_id: &[u8],
payload_version: i32,
payload_hash: &[u8; 32],
) -> Vec<u8> {
let mut out = Vec::with_capacity(8 + entity_kind.len() + entity_id.len() + 32);
push_len_prefixed(&mut out, entity_kind.as_bytes());
push_len_prefixed(&mut out, entity_id);
out.extend_from_slice(&payload_version.to_be_bytes());
out.extend_from_slice(payload_hash);
out
}
pub trait IntoId {
fn into_id(self) -> Vec<u8>;
}
impl IntoId for i32 {
fn into_id(self) -> Vec<u8> {
self.to_be_bytes().to_vec()
}
}
impl IntoId for &'_ [u8] {
fn into_id(self) -> Vec<u8> {
self.to_vec()
}
}
pub async fn sign_entity<E: Integrable>(
conn: &mut impl AsyncConnection<Backend = Sqlite>,
vault: &ActorRef<Vault>,
entity: &E,
entity_id: impl IntoId,
) -> Result<(), Error> {
let payload_hash = payload_hash(&entity);
let entity_id = entity_id.into_id();
let mac_input = build_mac_input(E::KIND, &entity_id, E::VERSION, &payload_hash);
let (key_version, mac) =
vault
.ask(SignIntegrity { mac_input })
.await
.map_err(|err| match err {
SendError::HandlerError(inner) => Error::Vault(inner),
_ => Error::VaultSend,
})?;
insert_into(integrity_envelope::table)
.values(NewIntegrityEnvelope {
entity_kind: E::KIND.to_owned(),
entity_id,
payload_version: E::VERSION,
key_version,
mac: mac.clone(),
})
.on_conflict((
integrity_envelope::entity_id,
integrity_envelope::entity_kind,
))
.do_update()
.set((
integrity_envelope::payload_version.eq(E::VERSION),
integrity_envelope::key_version.eq(key_version),
integrity_envelope::mac.eq(mac),
))
.execute(conn)
.await
.map_err(db::DatabaseError::from)?;
Ok(())
}
pub async fn verify_entity<E: Integrable>(
conn: &mut impl AsyncConnection<Backend = Sqlite>,
vault: &ActorRef<Vault>,
entity: &E,
entity_id: impl IntoId,
) -> Result<AttestationStatus, Error> {
let entity_id = entity_id.into_id();
let envelope: IntegrityEnvelope = integrity_envelope::table
.filter(integrity_envelope::entity_kind.eq(E::KIND))
.filter(integrity_envelope::entity_id.eq(&entity_id))
.first(conn)
.await
.map_err(|err| match err {
diesel::result::Error::NotFound => Error::MissingEnvelope {
entity_kind: E::KIND,
},
other => Error::Database(db::DatabaseError::from(other)),
})?;
if envelope.payload_version != E::VERSION {
return Err(Error::PayloadVersionMismatch {
entity_kind: E::KIND,
expected: E::VERSION,
found: envelope.payload_version,
});
}
let payload_hash = payload_hash(&entity);
let mac_input = build_mac_input(E::KIND, &entity_id, envelope.payload_version, &payload_hash);
let result = vault
.ask(VerifyIntegrity {
mac_input,
expected_mac: envelope.mac,
key_version: envelope.key_version,
})
.await;
match result {
Ok(true) => Ok(AttestationStatus::Attested),
Ok(false) => Err(Error::MacMismatch {
entity_kind: E::KIND,
}),
Err(SendError::HandlerError(vault::Error::Sealed)) => Ok(AttestationStatus::Unavailable),
Err(_) => Err(Error::VaultSend),
}
}
pub async fn is_signing_available(vault: &ActorRef<Vault>) -> Result<bool, Error> {
let state = vault.ask(GetState).await.map_err(|_| Error::VaultSend)?;
Ok(matches!(state, vault::VaultState::Unsealed))
}
#[cfg(test)]
mod tests {
use diesel::{ExpressionMethods as _, QueryDsl};
use diesel_async::RunQueryDsl;
use kameo::{actor::ActorRef, prelude::Spawn};
use crate::{
actors::{
GlobalActors,
vault::{Bootstrap, Vault},
},
db::{self, schema},
};
use arbiter_crypto::safecell::{SafeCell, SafeCellHandle as _};
use super::{Error, Integrable, sign_entity, verify_entity};
#[derive(Clone, arbiter_macros::Hashable)]
struct DummyEntity {
payload_version: i32,
payload: Vec<u8>,
}
impl Integrable for DummyEntity {
const KIND: &'static str = "dummy_entity";
}
async fn bootstrapped_vault(db: &db::DatabasePool) -> ActorRef<Vault> {
let actor = Vault::spawn(
Vault::new(db.clone(), GlobalActors::spawn_message_bus())
.await
.unwrap(),
);
actor
.ask(Bootstrap {
seal_key_raw: SafeCell::new(b"integrity-test-seal-key".to_vec()),
})
.await
.unwrap();
actor
}
#[tokio::test]
async fn sign_writes_envelope_and_verify_passes() {
const ENTITY_ID: &[u8] = b"entity-id-7";
let db = db::create_test_pool().await;
let vault = bootstrapped_vault(&db).await;
let mut conn = db.get().await.unwrap();
let entity = DummyEntity {
payload_version: 1,
payload: b"payload-v1".to_vec(),
};
sign_entity(&mut conn, &vault, &entity, ENTITY_ID)
.await
.unwrap();
let count: i64 = schema::integrity_envelope::table
.filter(schema::integrity_envelope::entity_kind.eq("dummy_entity"))
.filter(schema::integrity_envelope::entity_id.eq(ENTITY_ID))
.count()
.get_result(&mut conn)
.await
.unwrap();
assert_eq!(count, 1, "envelope row must be created exactly once");
verify_entity(&mut conn, &vault, &entity, ENTITY_ID)
.await
.unwrap();
}
#[tokio::test]
async fn tampered_mac_fails_verification() {
const ENTITY_ID: &[u8] = b"entity-id-11";
let db = db::create_test_pool().await;
let vault = bootstrapped_vault(&db).await;
let mut conn = db.get().await.unwrap();
let entity = DummyEntity {
payload_version: 1,
payload: b"payload-v1".to_vec(),
};
sign_entity(&mut conn, &vault, &entity, ENTITY_ID)
.await
.unwrap();
diesel::update(schema::integrity_envelope::table)
.filter(schema::integrity_envelope::entity_kind.eq("dummy_entity"))
.filter(schema::integrity_envelope::entity_id.eq(ENTITY_ID))
.set(schema::integrity_envelope::mac.eq(vec![0u8; 32]))
.execute(&mut conn)
.await
.unwrap();
let err = verify_entity(&mut conn, &vault, &entity, ENTITY_ID)
.await
.unwrap_err();
assert!(matches!(err, Error::MacMismatch { .. }));
}
#[tokio::test]
async fn changed_payload_fails_verification() {
const ENTITY_ID: &[u8] = b"entity-id-21";
let db = db::create_test_pool().await;
let vault = bootstrapped_vault(&db).await;
let mut conn = db.get().await.unwrap();
let entity = DummyEntity {
payload_version: 1,
payload: b"payload-v1".to_vec(),
};
sign_entity(&mut conn, &vault, &entity, ENTITY_ID)
.await
.unwrap();
let tampered = DummyEntity {
payload: b"payload-v1-but-tampered".to_vec(),
..entity
};
let err = verify_entity(&mut conn, &vault, &tampered, ENTITY_ID)
.await
.unwrap_err();
assert!(matches!(err, Error::MacMismatch { .. }));
}
}

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