WIP: kameo::messages wiring for transport generalization

feat(user-agent): add VaultGate for sealed vault authentication
fix(server::integrity): vault now differentias between expected/unexpected states for commands more granularly
2026-04-14 15:31:20 +02:00 · 2026-04-12 11:53:05 +02:00 · 2026-04-08 18:21:48 +02:00 · 2026-04-08 17:43:51 +02:00 · 2026-04-08 17:40:45 +02:00 · 2026-04-08 12:34:16 +02:00
209 changed files with 18890 additions and 3063 deletions
--- a/.woodpecker/server-test.yaml
+++ b/.woodpecker/server-test.yaml
@@ -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
+      - mise exec cargo:cargo-nextest -- cargo nextest run --no-fail-fast --all-features
--- a/AGENTS.md
+++ b/AGENTS.md
@@ -66,7 +66,7 @@ cargo insta review
 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.
- **`KeyHolder`** — 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.
+- **`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 user agents and SDK clients.
 - **`EvmActor`** — Handles EVM transaction policy enforcement and signing.
--- a/ARCHITECTURE.md
+++ b/ARCHITECTURE.md
@@ -11,6 +11,7 @@ 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.
 - **Recovery Operator** — A dormant recovery participant with narrowly scoped authority used only for custody recovery and operator replacement.
 ---
@@ -42,7 +43,149 @@ There is no bootstrap mechanism for SDK clients. They must be explicitly approve
 ---
-## 3. Server Identity
+## 3. Multi-Operator Governance
 When more than one User Agent 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 a User Agent 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 a User Agent 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.
@@ -55,9 +198,9 @@ Peers verify the server by its **public key fingerprint**:
 ---
-## 4. Key Management
+## 5. Key Management
-### 4.1 Key Hierarchy
+### 5.1 Key Hierarchy
 There are three layers of keys:
@@ -72,19 +215,19 @@ 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
+### 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.
 ---
-## 5. Vault Lifecycle
+## 6. Vault Lifecycle
-### 5.1 Sealed State
+### 6.1 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
+### 6.2 Unseal Flow
 To transition to the **Unsealed** state, a User Agent must provide the password:
@@ -95,7 +238,7 @@ To transition to the **Unsealed** state, a User Agent must provide 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
+### 6.3 Memory Protection
 Once unsealed, the root key must be protected in memory against:
@@ -107,9 +250,9 @@ See [IMPLEMENTATION.md](IMPLEMENTATION.md) for the current and planned memory pr
 ---
-## 6. Permission Engine
+## 7. Permission Engine
-### 6.1 Fundamental Rules
+### 7.1 Fundamental Rules
 - SDK clients have **no access by default**.
 - Access is granted **explicitly** by a User Agent.
@@ -119,11 +262,45 @@ Each blockchain requires its own policy system due to differences in static tran
 Arbiter is also responsible for ensuring that **transaction nonces are never reused**.
-### 6.2 EVM Policies
+### 7.2 EVM Policies
 Every EVM grant is scoped to a specific **wallet** and **chain ID**.
-#### 6.2.1 Transaction Sub-Grants
+#### 7.2.0 Transaction Signing Sequence
 The high-level interaction order is:
 ```mermaid
 sequenceDiagram
    autonumber
    actor SDK as SDK Client
    participant Server
    participant UA as User Agent
    SDK->>Server: SignTransactionRequest
    Server->>Server: Resolve wallet and wallet visibility
    alt Visibility approval required
        Server->>UA: Ask for wallet visibility approval
        UA-->>Server: Vote result
    end
    Server->>Server: Evaluate transaction
    Server->>Server: Load grant and limits context
    alt Grant approval required
        Server->>UA: Ask for execution / grant approval
        UA-->>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:
@@ -147,7 +324,7 @@ Available restrictions:
 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
+#### 7.2.2 Global Limits
 In addition to sub-grant-specific restrictions, the following limits can be applied across all grant types:
--- a/CLAUDE.md
+++ b/CLAUDE.md
@@ -66,7 +66,7 @@ cargo insta review
 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.
- **`KeyHolder`** — 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.
+- **`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 user agents and SDK clients.
 - **`EvmActor`** — Handles EVM transaction policy enforcement and signing.
--- a/IMPLEMENTATION.md
+++ b/IMPLEMENTATION.md
@@ -67,18 +67,14 @@ The `program_client.nonce` column stores the **next usable nonce** — i.e. it i
 ## Cryptography
 ### Authentication
- **Client protocol:** ed25519
+- **Client protocol:** ML-DSA
 ### User-Agent Authentication
 User-agent authentication supports multiple signature schemes because platform-provided "hardware-bound" keys do not expose a uniform algorithm across operating systems and hardware.
- **Supported schemes:** RSA, Ed25519, ECDSA (secp256k1)
+- **Supported schemes:** ML-DSA
- **Why:** the user agent authenticates with keys backed by platform facilities, and those facilities differ by platform
+- **Why:** Secure Enclave (MacOS) support them natively, on other platforms we could emulate while they roll-out
 - **Apple Silicon Secure Enclave / Secure Element:** ECDSA-only in practice
 - **Windows Hello / TPM 2.0:** currently RSA-backed in our integration
 This is why the user-agent auth protocol carries an explicit `KeyType`, while the SDK client protocol remains fixed to ed25519.
 ### Encryption at Rest
 - **Scheme:** Symmetric AEAD — currently **XChaCha20-Poly1305**
@@ -128,6 +124,52 @@ The central abstraction is the `Policy` trait. Each implementation handles one s
 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{User-agent 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 |
--- a/docs/superpowers/plans/2026-03-28-grant-creation-refactor.md
+++ b/docs/superpowers/plans/2026-03-28-grant-creation-refactor.md
--- a/docs/superpowers/plans/2026-03-28-grant-grid-view.md
+++ b/docs/superpowers/plans/2026-03-28-grant-grid-view.md
@@ -0,0 +1,821 @@
 # 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 |
 |---|---|---|
 | `useragent/lib/theme/palette.dart` | Modify | Add `Palette.token` (indigo accent for token-transfer cards) |
 | `useragent/lib/features/connection/evm/wallet_access.dart` | Modify | Add `listAllWalletAccesses()` function |
 | `useragent/lib/providers/sdk_clients/wallet_access_list.dart` | Create | `WalletAccessListProvider` — fetches full wallet access list with IDs |
 | `useragent/lib/screens/dashboard/evm/grants/widgets/grant_card.dart` | Create | `GrantCard` widget — watches enrichment providers + revoke mutation; one card per grant |
 | `useragent/lib/screens/dashboard/evm/grants/grants.dart` | Create | `EvmGrantsScreen` — watches `evmGrantsProvider`; handles loading/error/empty/data states; renders `GrantCard` list |
 | `useragent/lib/router.dart` | Modify | Register `EvmGrantsRoute` in dashboard children |
 | `useragent/lib/screens/dashboard.dart` | Modify | Add Grants entry to `routes` list and `NavigationDestination` list |
 ---
 ## Task 1: Add `Palette.token`
 **Files:**
 - Modify: `useragent/lib/theme/palette.dart`
 - [ ] **Step 1: Add the color**
 Replace the contents of `useragent/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 useragent && 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: `useragent/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 `useragent/lib/features/connection/evm/wallet_access.dart`:
 ```dart
 Future<List<SdkClientWalletAccess>> listAllWalletAccesses(
  Connection connection,
 ) async {
  final response = await connection.ask(
    UserAgentRequest(listWalletAccess: Empty()),
  );
  if (!response.hasListWalletAccessResponse()) {
    throw Exception(
      'Expected list wallet access response, got ${response.whichPayload()}',
    );
  }
  return response.listWalletAccessResponse.accesses.toList(growable: false);
 }
 ```
 Each returned `SdkClientWalletAccess` has:
 - `.id` — the `evm_wallet_access` row ID (same value as `wallet_access_id` in a `GrantEntry`)
 - `.access.walletId` — the EVM wallet DB ID
 - `.access.sdkClientId` — the SDK client DB ID
 - [ ] **Step 2: Verify**
 ```sh
 cd useragent && flutter analyze lib/features/connection/evm/wallet_access.dart
 ```
 Expected: no issues.
 - [ ] **Step 3: Commit**
 ```sh
 jj describe -m "feat(evm): add listAllWalletAccesses feature function"
 jj new
 ```
 ---
 ## Task 3: Create `WalletAccessListProvider`
 **Files:**
 - Create: `useragent/lib/providers/sdk_clients/wallet_access_list.dart`
 - Generated: `useragent/lib/providers/sdk_clients/wallet_access_list.g.dart`
 Mirrors the structure of `EvmGrants` in `providers/evm/evm_grants.dart` — class-based `@riverpod` with a `refresh()` method.
 - [ ] **Step 1: Write the provider**
 Create `useragent/lib/providers/sdk_clients/wallet_access_list.dart`:
 ```dart
 import 'package:arbiter/features/connection/evm/wallet_access.dart';
 import 'package:arbiter/proto/user_agent.pb.dart';
 import 'package:arbiter/providers/connection/connection_manager.dart';
 import 'package:mtcore/markettakers.dart';
 import 'package:riverpod_annotation/riverpod_annotation.dart';
 part 'wallet_access_list.g.dart';
@riverpod
 class WalletAccessList extends _$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 useragent && dart run build_runner build --delete-conflicting-outputs
 ```
 Expected: `useragent/lib/providers/sdk_clients/wallet_access_list.g.dart` created. No errors.
 - [ ] **Step 3: Verify**
 ```sh
 cd useragent && 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: `useragent/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/user_agent.pb.dart`): `.id`, `.access.walletId`, `.access.sdkClientId`
 - `WalletEntry` (from `proto/evm.pb.dart`): `.id`, `.address` (List<int>)
 - `SdkClientEntry` (from `proto/user_agent.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 `useragent/lib/screens/dashboard/evm/grants/widgets/grant_card.dart`:
 ```dart
 import 'package:arbiter/proto/evm.pb.dart';
 import 'package:arbiter/proto/user_agent.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 useragent && 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: `useragent/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 `useragent/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 useragent && 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: `useragent/lib/router.dart`
 - Modify: `useragent/lib/screens/dashboard.dart`
 - Regenerated: `useragent/lib/router.gr.dart`
 - [ ] **Step 1: Add route to `router.dart`**
 Replace the contents of `useragent/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 `useragent/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 useragent && 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 useragent && flutter analyze
 ```
 Expected: no issues.
 - [ ] **Step 5: Commit**
 ```sh
 jj describe -m "feat(nav): add Grants dashboard tab"
 jj new
 ```
--- a/docs/superpowers/specs/2026-03-28-grant-grid-view-design.md
+++ b/docs/superpowers/specs/2026-03-28-grant-grid-view-design.md
@@ -0,0 +1,170 @@
 # Grant Grid View — Design Spec
 **Date:** 2026-03-28
 ## Overview
 Add a "Grants" dashboard tab to the Flutter user-agent 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:** `useragent/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:** `useragent/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 |
--- a/mise.lock
+++ b/mise.lock
@@ -48,6 +48,10 @@ backend = "cargo:cargo-features-manager"
 version = "1.46.3"
 backend = "cargo:cargo-insta"
 [[tools."cargo:cargo-mutants"]]
 version = "27.0.0"
 backend = "cargo:cargo-mutants"
 [[tools."cargo:cargo-nextest"]]
 version = "0.9.126"
 backend = "cargo:cargo-nextest"
@@ -68,6 +72,10 @@ backend = "cargo:diesel_cli"
 default-features = "false"
 features = "sqlite,sqlite-bundled"
 [[tools."cargo:flutter_rust_bridge_codegen"]]
 version = "2.12.0"
 backend = "cargo:flutter_rust_bridge_codegen"
 [[tools.flutter]]
 version = "3.38.9-stable"
 backend = "asdf:flutter"
@@ -111,30 +119,37 @@ backend = "core:python"
 [tools.python."platforms.linux-arm64"]
 checksum = "sha256:53700338695e402a1a1fe22be4a41fbdacc70e22bb308a48eca8ed67cb7992be"
 url = "https://github.com/astral-sh/python-build-standalone/releases/download/20260324/cpython-3.14.3+20260324-aarch64-unknown-linux-gnu-install_only_stripped.tar.gz"
 provenance = "github-attestations"
 [tools.python."platforms.linux-arm64-musl"]
 checksum = "sha256:53700338695e402a1a1fe22be4a41fbdacc70e22bb308a48eca8ed67cb7992be"
 url = "https://github.com/astral-sh/python-build-standalone/releases/download/20260324/cpython-3.14.3+20260324-aarch64-unknown-linux-gnu-install_only_stripped.tar.gz"
 provenance = "github-attestations"
 [tools.python."platforms.linux-x64"]
 checksum = "sha256:d7a9f970914bb4c88756fe3bdcc186d4feb90e9500e54f1db47dae4dc9687e39"
 url = "https://github.com/astral-sh/python-build-standalone/releases/download/20260324/cpython-3.14.3+20260324-x86_64-unknown-linux-gnu-install_only_stripped.tar.gz"
 provenance = "github-attestations"
 [tools.python."platforms.linux-x64-musl"]
 checksum = "sha256:d7a9f970914bb4c88756fe3bdcc186d4feb90e9500e54f1db47dae4dc9687e39"
 url = "https://github.com/astral-sh/python-build-standalone/releases/download/20260324/cpython-3.14.3+20260324-x86_64-unknown-linux-gnu-install_only_stripped.tar.gz"
 provenance = "github-attestations"
 [tools.python."platforms.macos-arm64"]
 checksum = "sha256:c43aecde4a663aebff99b9b83da0efec506479f1c3f98331442f33d2c43501f9"
 url = "https://github.com/astral-sh/python-build-standalone/releases/download/20260324/cpython-3.14.3+20260324-aarch64-apple-darwin-install_only_stripped.tar.gz"
 provenance = "github-attestations"
 [tools.python."platforms.macos-x64"]
 checksum = "sha256:9ab41dbc2f100a2a45d1833b9c11165f51051c558b5213eda9a9731d5948a0c0"
 url = "https://github.com/astral-sh/python-build-standalone/releases/download/20260324/cpython-3.14.3+20260324-x86_64-apple-darwin-install_only_stripped.tar.gz"
 provenance = "github-attestations"
 [tools.python."platforms.windows-x64"]
 checksum = "sha256:bbe19034b35b0267176a7442575ae7dc6343480fd4d35598cb7700173d431e09"
 url = "https://github.com/astral-sh/python-build-standalone/releases/download/20260324/cpython-3.14.3+20260324-x86_64-pc-windows-msvc-install_only_stripped.tar.gz"
 provenance = "github-attestations"
 [[tools.rust]]
 version = "1.93.0"
--- a/mise.toml
+++ b/mise.toml
@@ -12,6 +12,8 @@ protoc = "29.6"
 python = "3.14.3"
 ast-grep = "0.42.0"
 "cargo:cargo-edit" = "0.13.9"
 "cargo:cargo-mutants" = "27.0.0"
 "cargo:flutter_rust_bridge_codegen" = "2.12.0"
 [tasks.codegen]
 sources = ['protobufs/*.proto', 'protobufs/**/*.proto']
--- a/protobufs/shared/evm.proto
+++ b/protobufs/shared/evm.proto
@@ -36,6 +36,10 @@ message GasLimitExceededViolation {
 }
 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;
@@ -43,6 +47,8 @@ message EvalViolation {
    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;
  }
 }
--- a/protobufs/user_agent/auth.proto
+++ b/protobufs/user_agent/auth.proto
@@ -2,17 +2,9 @@ syntax = "proto3";
 package arbiter.user_agent.auth;
 enum KeyType {
  KEY_TYPE_UNSPECIFIED = 0;
  KEY_TYPE_ED25519 = 1;
  KEY_TYPE_ECDSA_SECP256K1 = 2;
  KEY_TYPE_RSA = 3;
 }
 message AuthChallengeRequest {
  bytes pubkey = 1;
  optional string bootstrap_token = 2;
  KeyType key_type = 3;
 }
 message AuthChallenge {
--- a/server/.cargo/mutants.toml
+++ b/server/.cargo/mutants.toml
@@ -0,0 +1 @@
 test_tool = "nextest"
--- a/server/.gitignore
+++ b/server/.gitignore
@@ -0,0 +1,2 @@
 mutants.out/
 mutants.out.old/
--- a/server/Cargo.lock
+++ b/server/Cargo.lock
--- a/server/Cargo.toml
+++ b/server/Cargo.toml
@@ -20,14 +20,12 @@ tokio = { version = "1.50.0", features = ["full"] }
 ed25519-dalek = { version = "3.0.0-pre.6", features = ["rand_core"] }
 chrono = { version = "0.4.44", features = ["serde"] }
 rand = "0.10.0"
-rustls = { version = "0.23.37", features = ["aws-lc-rs"] }
+rustls = { version = "0.23.37", features = ["aws-lc-rs", "logging", "prefer-post-quantum", "std"], default-features = false }
 smlang = "0.8.0"
 miette = { version = "7.6.0", features = ["fancy", "serde"] }
 thiserror = "2.0.18"
 async-trait = "0.1.89"
 futures = "0.3.32"
 tokio-stream = { version = "0.1.18", features = ["full"] }
 kameo = "0.19.2"
 prost-types = { version = "0.14.3", features = ["chrono"] }
 x25519-dalek = { version = "2.0.1", features = ["getrandom"] }
 rstest = "0.26.1"
@@ -43,3 +41,11 @@ k256 = { version = "0.13.4", features = ["ecdsa", "pkcs8"] }
 rsa = { version = "0.9", features = ["sha2"] }
 sha2 = "0.10"
 spki = "0.7"
 prost = "0.14.3"
 miette = { version = "7.6.0", features = ["fancy", "serde"] }
 mutants = "0.0.4"
 ml-dsa = { version = "0.1.0-rc.8", features = ["zeroize"] }
 base64 = "0.22.1"
 kameo = {git = "https://github.com/hdbg/kameo.git", rev = "805b417"}
 kameo_actors = {git = "https://github.com/hdbg/kameo.git", rev = "805b417"}
--- a/server/crates/arbiter-client/Cargo.toml
+++ b/server/crates/arbiter-client/Cargo.toml
@@ -13,12 +13,12 @@ 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
 ed25519-dalek.workspace = true
 thiserror.workspace = true
 http = "1.4.0"
 rustls-webpki = { version = "0.103.10", features = ["aws-lc-rs"] }
--- a/server/crates/arbiter-client/src/auth.rs
+++ b/server/crates/arbiter-client/src/auth.rs
@@ -1,5 +1,6 @@
 use arbiter_crypto::authn::{CLIENT_CONTEXT, SigningKey, format_challenge};
 use arbiter_proto::{
-    ClientMetadata, format_challenge,
+    ClientMetadata,
    proto::{
        client::{
            ClientRequest,
@@ -14,7 +15,6 @@ use arbiter_proto::{
        shared::ClientInfo as ProtoClientInfo,
    },
 };
 use ed25519_dalek::Signer as _;
 use crate::{
    storage::StorageError,
@@ -54,14 +54,14 @@ fn map_auth_result(code: i32) -> AuthError {
 async fn send_auth_challenge_request(
    transport: &mut ClientTransport,
    metadata: ClientMetadata,
-    key: &ed25519_dalek::SigningKey,
+    key: &SigningKey,
 ) -> std::result::Result<(), AuthError> {
    transport
        .send(ClientRequest {
            request_id: next_request_id(),
            payload: Some(ClientRequestPayload::Auth(proto_auth::Request {
                payload: Some(AuthRequestPayload::ChallengeRequest(AuthChallengeRequest {
-                    pubkey: key.verifying_key().to_bytes().to_vec(),
+                    pubkey: key.public_key().to_bytes(),
                    client_info: Some(ProtoClientInfo {
                        name: metadata.name,
                        description: metadata.description,
@@ -95,11 +95,14 @@ async fn receive_auth_challenge(
 async fn send_auth_challenge_solution(
    transport: &mut ClientTransport,
-    key: &ed25519_dalek::SigningKey,
+    key: &SigningKey,
    challenge: AuthChallenge,
 ) -> std::result::Result<(), AuthError> {
    let challenge_payload = format_challenge(challenge.nonce, &challenge.pubkey);
-    let signature = key.sign(&challenge_payload).to_bytes().to_vec();
+    let signature = key
        .sign_message(&challenge_payload, CLIENT_CONTEXT)
        .map_err(|_| AuthError::UnexpectedAuthResponse)?
        .to_bytes();
    transport
        .send(ClientRequest {
@@ -122,9 +125,7 @@ async fn receive_auth_confirmation(
        .await
        .map_err(|_| AuthError::UnexpectedAuthResponse)?;
-    let payload = response
+    let payload = response.payload.ok_or(AuthError::UnexpectedAuthResponse)?;
        .payload
        .ok_or(AuthError::UnexpectedAuthResponse)?;
    match payload {
        ClientResponsePayload::Auth(response) => match response.payload {
            Some(AuthResponsePayload::Result(result))
@@ -142,7 +143,7 @@ async fn receive_auth_confirmation(
 pub(crate) async fn authenticate(
    transport: &mut ClientTransport,
    metadata: ClientMetadata,
-    key: &ed25519_dalek::SigningKey,
+    key: &SigningKey,
 ) -> std::result::Result<(), AuthError> {
    send_auth_challenge_request(transport, metadata, key).await?;
    let challenge = receive_auth_challenge(transport).await?;
--- a/server/crates/arbiter-client/src/bin/test_connect.rs
+++ b/server/crates/arbiter-client/src/bin/test_connect.rs
@@ -1,4 +1,3 @@
 use std::io::{self, Write};
 use arbiter_client::ArbiterClient;
@@ -22,8 +21,6 @@ async fn main() {
        return;
    }
    let url = match ArbiterUrl::try_from(input) {
        Ok(url) => url,
        Err(err) => {
--- a/server/crates/arbiter-client/src/client.rs
+++ b/server/crates/arbiter-client/src/client.rs
@@ -1,11 +1,17 @@
-use arbiter_proto::{ClientMetadata, proto::arbiter_service_client::ArbiterServiceClient, url::ArbiterUrl};
+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;
 use crate::{
-    StorageError, auth::{AuthError, authenticate}, storage::{FileSigningKeyStorage, SigningKeyStorage}, transport::{BUFFER_LENGTH, ClientTransport}
+    StorageError,
    auth::{AuthError, authenticate},
    storage::{FileSigningKeyStorage, SigningKeyStorage},
    transport::{BUFFER_LENGTH, ClientTransport},
 };
 #[cfg(feature = "evm")]
@@ -30,7 +36,6 @@ pub enum Error {
    #[error("Storage error")]
    Storage(#[from] StorageError),
 }
 pub struct ArbiterClient {
@@ -56,12 +61,13 @@ impl ArbiterClient {
    pub async fn connect_with_key(
        url: ArbiterUrl,
        metadata: ClientMetadata,
-        key: ed25519_dalek::SigningKey,
+        key: SigningKey,
    ) -> Result<Self, Error> {
        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))?
+        let channel =
            tonic::transport::Channel::from_shared(format!("https://{}:{}", url.host, url.port))?
                .tls_config(tls)?
                .connect()
                .await?;
--- a/server/crates/arbiter-client/src/lib.rs
+++ b/server/crates/arbiter-client/src/lib.rs
@@ -9,4 +9,4 @@ pub use client::{ArbiterClient, Error};
 pub use storage::{FileSigningKeyStorage, SigningKeyStorage, StorageError};
 #[cfg(feature = "evm")]
-pub use wallets::evm::ArbiterEvmWallet;
+pub use wallets::evm::{ArbiterEvmSignTransactionError, ArbiterEvmWallet};
--- a/server/crates/arbiter-client/src/storage.rs
+++ b/server/crates/arbiter-client/src/storage.rs
@@ -1,3 +1,4 @@
 use arbiter_crypto::authn::SigningKey;
 use arbiter_proto::home_path;
 use std::path::{Path, PathBuf};
@@ -11,7 +12,7 @@ pub enum StorageError {
 }
 pub trait SigningKeyStorage {
-    fn load_or_create(&self) -> std::result::Result<ed25519_dalek::SigningKey, StorageError>;
+    fn load_or_create(&self) -> std::result::Result<SigningKey, StorageError>;
 }
 #[derive(Debug, Clone)]
@@ -20,7 +21,7 @@ pub struct FileSigningKeyStorage {
 }
 impl FileSigningKeyStorage {
-    pub const DEFAULT_FILE_NAME: &str = "sdk_client_ed25519.key";
+    pub const DEFAULT_FILE_NAME: &str = "sdk_client_ml_dsa.key";
    pub fn new(path: impl Into<PathBuf>) -> Self {
        Self { path: path.into() }
@@ -30,7 +31,7 @@ impl FileSigningKeyStorage {
        Ok(Self::new(home_path()?.join(Self::DEFAULT_FILE_NAME)))
    }
-    fn read_key(path: &Path) -> std::result::Result<ed25519_dalek::SigningKey, StorageError> {
+    fn read_key(path: &Path) -> std::result::Result<SigningKey, StorageError> {
        let bytes = std::fs::read(path)?;
        let raw: [u8; 32] =
            bytes
@@ -39,12 +40,12 @@ impl FileSigningKeyStorage {
                    expected: 32,
                    actual: v.len(),
                })?;
-        Ok(ed25519_dalek::SigningKey::from_bytes(&raw))
+        Ok(SigningKey::from_seed(raw))
    }
 }
 impl SigningKeyStorage for FileSigningKeyStorage {
-    fn load_or_create(&self) -> std::result::Result<ed25519_dalek::SigningKey, StorageError> {
+    fn load_or_create(&self) -> std::result::Result<SigningKey, StorageError> {
        if let Some(parent) = self.path.parent() {
            std::fs::create_dir_all(parent)?;
        }
@@ -53,8 +54,8 @@ impl SigningKeyStorage for FileSigningKeyStorage {
            return Self::read_key(&self.path);
        }
-        let key = ed25519_dalek::SigningKey::generate(&mut rand::rng());
+        let key = SigningKey::generate();
-        let raw_key = key.to_bytes();
+        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()
@@ -103,7 +104,7 @@ mod tests {
            .load_or_create()
            .expect("second load_or_create should read same key");
-        assert_eq!(key_a.to_bytes(), key_b.to_bytes());
+        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");
--- a/server/crates/arbiter-client/src/wallets/evm.rs
+++ b/server/crates/arbiter-client/src/wallets/evm.rs
@@ -10,14 +10,48 @@ use tokio::sync::Mutex;
 use arbiter_proto::proto::{
    client::{
-        ClientRequest, client_request::Payload as ClientRequestPayload,
+        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::evm_sign_transaction_response::Result as EvmSignTransactionResult,
+    },
    evm::{
        EvmSignTransactionRequest,
        evm_sign_transaction_response::Result as EvmSignTransactionResult,
    },
    shared::evm::TransactionEvalError,
 };
 use crate::transport::{ClientTransport, next_request_id};
 /// 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,
@@ -96,12 +130,14 @@ impl TxSigner<Signature> for ArbiterEvmWallet {
        transport
            .send(ClientRequest {
                request_id,
-                payload: Some(ClientRequestPayload::EvmSignTransaction(
+                payload: Some(ClientRequestPayload::Evm(proto_evm::Request {
-                    arbiter_proto::proto::evm::EvmSignTransactionRequest {
+                    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"))?;
@@ -121,12 +157,21 @@ impl TxSigner<Signature> for ArbiterEvmWallet {
            .payload
            .ok_or_else(|| Error::other("missing evm sign transaction response payload"))?;
-        let ClientResponsePayload::EvmSignTransaction(response) = payload else {
+        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"))?;
@@ -136,9 +181,9 @@ impl TxSigner<Signature> for ArbiterEvmWallet {
                Signature::try_from(signature.as_slice())
                    .map_err(|_| Error::other("invalid signature returned by server"))
            }
-            EvmSignTransactionResult::EvalError(eval_error) => Err(Error::other(format!(
+            EvmSignTransactionResult::EvalError(eval_error) => Err(Error::other(
-                "transaction rejected by policy: {eval_error:?}"
+                ArbiterEvmSignTransactionError::PolicyEval(eval_error),
-            ))),
+            )),
            EvmSignTransactionResult::Error(code) => Err(Error::other(format!(
                "server failed to sign transaction with error code {code}"
            ))),
--- a/server/crates/arbiter-crypto/.gitignore
+++ b/server/crates/arbiter-crypto/.gitignore
@@ -0,0 +1 @@
 /target
--- a/server/crates/arbiter-crypto/Cargo.toml
+++ b/server/crates/arbiter-crypto/Cargo.toml
@@ -0,0 +1,19 @@
 [package]
 name = "arbiter-crypto"
 version = "0.1.0"
 edition = "2024"
 [dependencies]
 ml-dsa = {workspace = true, optional = true }
 rand = {workspace = true, optional = true}
 base64 = {workspace = true, optional = true }
 memsafe = {version = "0.4.0", optional = true}
 x-wing = { version = "0.1.0-rc.0", features = ["zeroize"] }
 [lints]
 workspace = true
 [features]
 default = ["authn", "safecell"]
 authn = ["dep:ml-dsa", "dep:rand", "dep:base64"]
 safecell = ["dep:memsafe"]
--- a/server/crates/arbiter-crypto/src/authn/mod.rs
+++ b/server/crates/arbiter-crypto/src/authn/mod.rs
@@ -0,0 +1,2 @@
 pub mod v1;
 pub use v1::*;
--- a/server/crates/arbiter-crypto/src/authn/v1.rs
+++ b/server/crates/arbiter-crypto/src/authn/v1.rs
@@ -0,0 +1,194 @@
 use std::hash::Hash;
 use base64::{Engine as _, prelude::BASE64_STANDARD};
 use ml_dsa::{
    EncodedVerifyingKey, Error, KeyGen, MlDsa87, Seed, Signature as MlDsaSignature,
    SigningKey as MlDsaSigningKey, VerifyingKey as MlDsaVerifyingKey, signature::Keypair as _,
 };
 pub static CLIENT_CONTEXT: &[u8] = b"arbiter_client";
 pub static USERAGENT_CONTEXT: &[u8] = b"arbiter_user_agent";
 pub fn format_challenge(nonce: i32, pubkey: &[u8]) -> Vec<u8> {
    let concat_form = format!("{}:{}", nonce, BASE64_STANDARD.encode(pubkey));
    concat_form.into_bytes()
 }
 pub type KeyParams = MlDsa87;
 #[derive(Clone, Debug, PartialEq)]
 pub struct PublicKey(Box<MlDsaVerifyingKey<KeyParams>>);
 impl Hash for PublicKey {
    fn hash<H: std::hash::Hasher>(&self, state: &mut H) {
        self.to_bytes().hash(state);
    }
 }
 #[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().to_vec()
    }
    pub fn verify(&self, nonce: i32, context: &[u8], signature: &Signature) -> bool {
        self.0.verify_with_context(
            &format_challenge(nonce, &self.to_bytes()),
            context,
            &signature.0,
        )
    }
 }
 impl Signature {
    pub fn to_bytes(&self) -> Vec<u8> {
        self.0.encode().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, nonce: i32, context: &[u8]) -> Result<Signature, Error> {
        self.sign_message(
            &format_challenge(nonce, &self.public_key().to_bytes()),
            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 super::{CLIENT_CONTEXT, PublicKey, Signature, SigningKey, USERAGENT_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 nonce = 17;
        let signature = key
            .sign_challenge(nonce, CLIENT_CONTEXT)
            .expect("signature should be created");
        assert!(public_key.verify(nonce, CLIENT_CONTEXT, &signature));
        assert!(!public_key.verify(nonce, USERAGENT_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 signature = restored
            .sign_challenge(9, CLIENT_CONTEXT)
            .expect("signature should be created");
        assert!(restored.public_key().verify(9, CLIENT_CONTEXT, &signature));
    }
 }
--- a/server/crates/arbiter-crypto/src/lib.rs
+++ b/server/crates/arbiter-crypto/src/lib.rs
@@ -0,0 +1,7 @@
 #[cfg(feature = "authn")]
 pub mod authn;
 #[cfg(feature = "safecell")]
 pub mod safecell;
 pub use x_wing;
--- a/server/crates/arbiter-server/src/safe_cell.rs
+++ b/server/crates/arbiter-server/src/safe_cell.rs
@@ -105,6 +105,11 @@ impl<T> SafeCellHandle<T> for MemSafeCell<T> {
 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();
 }
--- a/server/crates/arbiter-proto/Cargo.toml
+++ b/server/crates/arbiter-proto/Cargo.toml
@@ -11,13 +11,13 @@ tokio.workspace = true
 futures.workspace = true
 hex = "0.4.3"
 tonic-prost = "0.14.5"
-prost = "0.14.3"
+prost.workspace = true
 kameo.workspace = true
 url = "2.5.8"
 miette.workspace = true
 thiserror.workspace = true
 rustls-pki-types.workspace = true
-base64 = "0.22.1"
+base64.workspace = true
 prost-types.workspace = true
 tracing.workspace = true
 async-trait.workspace = true
--- a/server/crates/arbiter-proto/src/lib.rs
+++ b/server/crates/arbiter-proto/src/lib.rs
@@ -1,8 +1,6 @@
 pub mod transport;
 pub mod url;
 use base64::{Engine, prelude::BASE64_STANDARD};
 pub mod proto {
    tonic::include_proto!("arbiter");
@@ -84,8 +82,3 @@ pub fn home_path() -> Result<std::path::PathBuf, std::io::Error> {
    Ok(arbiter_home)
 }
 pub fn format_challenge(nonce: i32, pubkey: &[u8]) -> Vec<u8> {
    let concat_form = format!("{}:{}", nonce, BASE64_STANDARD.encode(pubkey));
    concat_form.into_bytes()
 }
--- a/server/crates/arbiter-proto/src/transport.rs
+++ b/server/crates/arbiter-proto/src/transport.rs
@@ -106,6 +106,36 @@ pub trait Receiver<Inbound>: Send + Sync {
 /// any built-in correlation mechanism between inbound and outbound items.
 pub trait Bi<Inbound, Outbound>: Sender<Outbound> + Receiver<Inbound> + Send + Sync {}
 #[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
    }
 }
 #[async_trait]
 impl<T, Inbound> Receiver<Inbound> for &mut T
 where
    T: Receiver<Inbound> + ?Sized,
    Inbound: Send + 'static,
 {
    async fn recv(&mut self) -> Option<Inbound> {
        (**self).recv().await
    }
 }
 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>;
--- a/server/crates/arbiter-proto/src/url.rs
+++ b/server/crates/arbiter-proto/src/url.rs
@@ -7,7 +7,6 @@ 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,
--- a/server/crates/arbiter-server/Cargo.toml
+++ b/server/crates/arbiter-server/Cargo.toml
@@ -16,8 +16,8 @@ diesel-async = { version = "0.8.0", features = [
    "sqlite",
    "tokio",
 ] }
 ed25519-dalek.workspace = true
 arbiter-proto.path = "../arbiter-proto"
 arbiter-crypto.path = "../arbiter-crypto"
 tracing.workspace = true
 tracing-subscriber = { version = "0.3", features = ["env-filter"] }
 tonic.workspace = true
@@ -25,7 +25,6 @@ tonic.features = ["tls-aws-lc"]
 tokio.workspace = true
 rustls.workspace = true
 smlang.workspace = true
 miette.workspace = true
 thiserror.workspace = true
 fatality = "0.1.1"
 diesel_migrations = { version = "2.3.1", features = ["sqlite"] }
@@ -37,23 +36,32 @@ 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"] }
 pem = "3.0.6"
 k256.workspace = true
 rsa.workspace = true
 sha2.workspace = true
 hmac = "0.12"
 spki.workspace = true
 alloy.workspace = true
 prost-types.workspace = true
 prost.workspace = true
 arbiter-tokens-registry.path = "../arbiter-tokens-registry"
 anyhow = "1.0.102"
 serde_with = "3.18.0"
 mutants.workspace = true
 subtle = "2.6.1"
 ml-dsa.workspace = true
 ed25519-dalek.workspace = true
 x25519-dalek.workspace = true
 k256.workspace = true
 kameo_actors.workspace = true
 [dev-dependencies]
 insta = "1.46.3"
 proptest = "1.11.0"
 rstest.workspace = true
 test-log = { version = "0.2", default-features = false, features = ["trace"] }
--- a/server/crates/arbiter-server/migrations/2026-02-14-171124-0000_init/up.sql
+++ b/server/crates/arbiter-server/migrations/2026-02-14-171124-0000_init/up.sql
@@ -47,7 +47,7 @@ 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,
-    key_type integer not null default(1), -- 1=Ed25519, 2=ECDSA(secp256k1)
+    key_type integer not null default(1),
    created_at integer not null default(unixepoch ('now')),
    updated_at integer not null default(unixepoch ('now'))
 ) STRICT;
@@ -191,3 +191,19 @@ create table if not exists evm_ether_transfer_grant_target (
 ) 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);
--- a/server/crates/arbiter-server/src/actors/bootstrap.rs
+++ b/server/crates/arbiter-server/src/actors/bootstrap.rs
@@ -2,8 +2,9 @@ use arbiter_proto::{BOOTSTRAP_PATH, home_path};
 use diesel::QueryDsl;
 use diesel_async::RunQueryDsl;
 use kameo::{Actor, messages};
-use miette::Diagnostic;
+
 use rand::{RngExt, distr::Alphanumeric, make_rng, rngs::StdRng};
 use subtle::ConstantTimeEq as _;
 use thiserror::Error;
 use crate::db::{self, DatabasePool, schema};
@@ -25,18 +26,15 @@ pub async fn generate_token() -> Result<String, std::io::Error> {
    Ok(token)
 }
-#[derive(Error, Debug, Diagnostic)]
+#[derive(Error, Debug)]
 pub enum Error {
    #[error("Database error: {0}")]
    #[diagnostic(code(arbiter_server::bootstrap::database))]
    Database(#[from] db::PoolError),
    #[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),
 }
@@ -47,14 +45,14 @@ 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 row_count: i64 = schema::useragent_client::table
+            schema::useragent_client::table
                .count()
                .get_result(&mut conn)
-            .await?;
+                .await?
-
+        };
        drop(conn);
        let token = if row_count == 0 {
            let token = generate_token().await?;
@@ -72,7 +70,13 @@ impl Bootstrapper {
    #[message]
    pub fn is_correct_token(&self, token: String) -> bool {
        match &self.token {
-            Some(expected) => *expected == token,
+            Some(expected) => {
                let expected_bytes = expected.as_bytes();
                let token_bytes = token.as_bytes();
                let choice = expected_bytes.ct_eq(token_bytes);
                bool::from(choice)
            }
            None => false,
        }
    }
--- a/server/crates/arbiter-server/src/actors/evm/mod.rs
+++ b/server/crates/arbiter-server/src/actors/evm/mod.rs
@@ -7,82 +7,77 @@ use kameo::{Actor, actor::ActorRef, messages};
 use rand::{SeedableRng, rng, rngs::StdRng};
 use crate::{
-    actors::keyholder::{CreateNew, Decrypt, KeyHolder},
+    actors::vault::{CreateNew, Decrypt, Vault},
    crypto::integrity,
    db::{
        DatabaseError, DatabasePool,
-        models::{self, SqliteTimestamp},
+        models::{self},
        schema,
    },
    evm::{
-        self, RunKind,
+        self, ListError, RunKind,
        policies::{
-            FullGrant, Grant, SharedGrantSettings, SpecificGrant, SpecificMeaning,
+            CombinedSettings, Grant, SharedGrantSettings, SpecificGrant, SpecificMeaning,
            ether_transfer::EtherTransfer, token_transfers::TokenTransfer,
        },
    },
    safe_cell::{SafeCell, SafeCellHandle as _},
 };
 use arbiter_crypto::safecell::{SafeCell, SafeCellHandle as _};
 pub use crate::evm::safe_signer;
-#[derive(Debug, thiserror::Error, miette::Diagnostic)]
+#[derive(Debug, thiserror::Error)]
 pub enum SignTransactionError {
    #[error("Wallet not found")]
    #[diagnostic(code(arbiter::evm::sign::wallet_not_found))]
    WalletNotFound,
    #[error("Database error: {0}")]
    #[diagnostic(code(arbiter::evm::sign::database))]
    Database(#[from] DatabaseError),
-    #[error("Keyholder error: {0}")]
+    #[error("Vault error: {0}")]
-    #[diagnostic(code(arbiter::evm::sign::keyholder))]
+    Vault(#[from] crate::actors::vault::Error),
    Keyholder(#[from] crate::actors::keyholder::Error),
-    #[error("Keyholder mailbox error")]
+    #[error("Vault mailbox error")]
-    #[diagnostic(code(arbiter::evm::sign::keyholder_send))]
+    VaultSend,
    KeyholderSend,
    #[error("Signing error: {0}")]
    #[diagnostic(code(arbiter::evm::sign::signing))]
    Signing(#[from] alloy::signers::Error),
    #[error("Policy error: {0}")]
    #[diagnostic(code(arbiter::evm::sign::vet))]
    Vet(#[from] evm::VetError),
 }
-#[derive(Debug, thiserror::Error, miette::Diagnostic)]
+#[derive(Debug, thiserror::Error)]
 pub enum Error {
-    #[error("Keyholder error: {0}")]
+    #[error("Vault error: {0}")]
-    #[diagnostic(code(arbiter::evm::keyholder))]
+    Vault(#[from] crate::actors::vault::Error),
    Keyholder(#[from] crate::actors::keyholder::Error),
-    #[error("Keyholder mailbox error")]
+    #[error("Vault mailbox error")]
-    #[diagnostic(code(arbiter::evm::keyholder_send))]
+    VaultSend,
    KeyholderSend,
    #[error("Database error: {0}")]
    #[diagnostic(code(arbiter::evm::database))]
    Database(#[from] DatabaseError),
    #[error("Integrity violation: {0}")]
    Integrity(#[from] integrity::Error),
 }
 #[derive(Actor)]
 pub struct EvmActor {
-    pub keyholder: ActorRef<KeyHolder>,
+    pub vault: ActorRef<Vault>,
    pub db: DatabasePool,
    pub rng: StdRng,
    pub engine: evm::Engine,
 }
 impl EvmActor {
-    pub fn new(keyholder: ActorRef<KeyHolder>, db: DatabasePool) -> Self {
+    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());
+        let engine = evm::Engine::new(db.clone(), vault.clone());
        Self {
-            keyholder,
+            vault,
            db,
            rng,
            engine,
@@ -99,10 +94,10 @@ impl EvmActor {
        let plaintext = key_cell.read_inline(|reader| SafeCell::new(reader.to_vec()));
        let aead_id: i32 = self
-            .keyholder
+            .vault
            .ask(CreateNew { plaintext })
            .await
-            .map_err(|_| Error::KeyholderSend)?;
+            .map_err(|_| Error::VaultSend)?;
        let mut conn = self.db.get().await.map_err(DatabaseError::from)?;
        let wallet_id = insert_into(schema::evm_wallet::table)
@@ -141,46 +136,59 @@ impl EvmActor {
        &mut self,
        basic: SharedGrantSettings,
        grant: SpecificGrant,
-    ) -> Result<i32, DatabaseError> {
+    ) -> Result<i32, Error> {
        match grant {
-            SpecificGrant::EtherTransfer(settings) => {
+            SpecificGrant::EtherTransfer(settings) => self
-                self.engine
+                .engine
-                    .create_grant::<EtherTransfer>(FullGrant {
+                .create_grant::<EtherTransfer>(CombinedSettings {
-                        basic,
+                    shared: basic,
                    specific: settings,
                })
                .await
-            }
+                .map_err(Error::from),
-            SpecificGrant::TokenTransfer(settings) => {
+            SpecificGrant::TokenTransfer(settings) => self
-                self.engine
+                .engine
-                    .create_grant::<TokenTransfer>(FullGrant {
+                .create_grant::<TokenTransfer>(CombinedSettings {
-                        basic,
+                    shared: basic,
                    specific: settings,
                })
                .await
-            }
+                .map_err(Error::from),
        }
    }
    #[message]
-    pub async fn useragent_delete_grant(&mut self, grant_id: i32) -> Result<(), Error> {
+    pub async fn useragent_delete_grant(&mut self, _grant_id: i32) -> Result<(), Error> {
-        let mut conn = self.db.get().await.map_err(DatabaseError::from)?;
+        // let mut conn = self.db.get().await.map_err(DatabaseError::from)?;
-        diesel::update(schema::evm_basic_grant::table)
+        // let vault = self.vault.clone();
-            .filter(schema::evm_basic_grant::id.eq(grant_id))
+
-            .set(schema::evm_basic_grant::revoked_at.eq(SqliteTimestamp::now()))
+        // diesel_async::AsyncConnection::transaction(&mut conn, |conn| {
-            .execute(&mut conn)
+        //     Box::pin(async move {
-            .await
+        //         diesel::update(schema::evm_basic_grant::table)
-            .map_err(DatabaseError::from)?;
+        //             .filter(schema::evm_basic_grant::id.eq(grant_id))
-        Ok(())
+        //             .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 useragent_list_grants(&mut self) -> Result<Vec<Grant<SpecificGrant>>, Error> {
-        Ok(self
+        match self.engine.list_all_grants().await {
-            .engine
+            Ok(grants) => Ok(grants),
-            .list_all_grants()
+            Err(ListError::Database(db_err)) => Err(Error::Database(db_err)),
-            .await
+            Err(ListError::Integrity(integrity_err)) => Err(Error::Integrity(integrity_err)),
-            .map_err(DatabaseError::from)?)
+        }
    }
    #[message]
@@ -246,12 +254,12 @@ impl EvmActor {
        drop(conn);
        let raw_key: SafeCell<Vec<u8>> = self
-            .keyholder
+            .vault
            .ask(Decrypt {
                aead_id: wallet.aead_encrypted_id,
            })
            .await
-            .map_err(|_| SignTransactionError::KeyholderSend)?;
+            .map_err(|_| SignTransactionError::VaultSend)?;
        let signer = safe_signer::SafeSigner::from_cell(raw_key)?;
--- a/server/crates/arbiter-server/src/actors/flow_coordinator/client_connect_approval.rs
+++ b/server/crates/arbiter-server/src/actors/flow_coordinator/client_connect_approval.rs
@@ -6,16 +6,18 @@ use kameo::{
    reply::ReplySender,
 };
-use crate::actors::{
+use crate::{
    actors::flow_coordinator::ApprovalError,
    peers::{
        client::ClientProfile,
    flow_coordinator::ApprovalError,
        user_agent::{UserAgentSession, session::BeginNewClientApproval},
    },
 };
 pub struct Args {
    pub client: ClientProfile,
    pub user_agents: Vec<ActorRef<UserAgentSession>>,
-    pub reply: ReplySender<Result<bool, ApprovalError>>
+    pub reply: ReplySender<Result<bool, ApprovalError>>,
 }
 pub struct ClientApprovalController {
@@ -39,7 +41,11 @@ impl Actor for ClientApprovalController {
    type Error = ();
    async fn on_start(
-        Args { client, mut user_agents, reply }: Self::Args,
+        Args {
            client,
            mut user_agents,
            reply,
        }: Self::Args,
        actor_ref: ActorRef<Self>,
    ) -> Result<Self, Self::Error> {
        let this = Self {
--- a/server/crates/arbiter-server/src/actors/flow_coordinator/mod.rs
+++ b/server/crates/arbiter-server/src/actors/flow_coordinator/mod.rs
@@ -9,10 +9,12 @@ use kameo::{
 };
 use tracing::info;
-use crate::actors::{
+use crate::{
    actors::flow_coordinator::client_connect_approval::ClientApprovalController,
    peers::{
        client::{ClientProfile, session::ClientSession},
-    flow_coordinator::client_connect_approval::ClientApprovalController,
+        user_agent::UserAgentSession,
-    user_agent::session::UserAgentSession,
+    },
 };
 pub mod client_connect_approval;
--- a/server/crates/arbiter-server/src/actors/keyholder/encryption.rs
+++ b/server/crates/arbiter-server/src/actors/keyholder/encryption.rs
@@ -1 +0,0 @@
 pub mod v1;
--- a/server/crates/arbiter-server/src/actors/mod.rs
+++ b/server/crates/arbiter-server/src/actors/mod.rs
@@ -1,50 +1,53 @@
 use kameo::actor::{ActorRef, Spawn};
-use miette::Diagnostic;
+use kameo_actors::{DeliveryStrategy, message_bus::MessageBus};
 use thiserror::Error;
 use crate::{
    actors::{
-        bootstrap::Bootstrapper, evm::EvmActor, flow_coordinator::FlowCoordinator,
+        bootstrap::Bootstrapper, evm::EvmActor, flow_coordinator::FlowCoordinator, vault::Vault,
        keyholder::KeyHolder,
    },
    db,
 };
 pub mod bootstrap;
-pub mod client;
+pub mod evm;
 mod evm;
 pub mod flow_coordinator;
-pub mod keyholder;
+pub mod vault;
-pub mod user_agent;
+pub mod useragent_registry;
-#[derive(Error, Debug, Diagnostic)]
+#[derive(Error, Debug)]
 pub enum SpawnError {
    #[error("Failed to spawn Bootstrapper actor")]
    #[diagnostic(code(SpawnError::Bootstrapper))]
    Bootstrapper(#[from] bootstrap::Error),
-    #[error("Failed to spawn KeyHolder actor")]
+    #[error("Failed to spawn Vault actor")]
-    #[diagnostic(code(SpawnError::KeyHolder))]
+    Vault(#[from] vault::Error),
    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 key_holder: ActorRef<KeyHolder>,
+    pub vault: ActorRef<Vault>,
    pub bootstrapper: ActorRef<Bootstrapper>,
    pub flow_coordinator: ActorRef<FlowCoordinator>,
    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 key_holder = KeyHolder::spawn(KeyHolder::new(db.clone()).await?);
+        let message_bus = Self::spawn_message_bus();
        let key_holder = Vault::spawn(Vault::new(db.clone(), message_bus.clone()).await?);
        Ok(Self {
            bootstrapper: Bootstrapper::spawn(Bootstrapper::new(&db).await?),
            evm: EvmActor::spawn(EvmActor::new(key_holder.clone(), db)),
-            key_holder,
+            vault: key_holder,
            flow_coordinator: FlowCoordinator::spawn(FlowCoordinator::default()),
            events: message_bus,
        })
    }
 }
--- a/server/crates/arbiter-server/src/actors/user_agent/auth/state.rs
+++ b/server/crates/arbiter-server/src/actors/user_agent/auth/state.rs
@@ -1,225 +0,0 @@
 use arbiter_proto::transport::Bi;
 use diesel::{ExpressionMethods as _, OptionalExtension as _, QueryDsl, update};
 use diesel_async::RunQueryDsl;
 use tracing::error;
 use super::Error;
 use crate::{
    actors::{
        bootstrap::ConsumeToken,
        user_agent::{AuthPublicKey, UserAgentConnection, auth::Outbound},
    },
    db::schema,
 };
 pub struct ChallengeRequest {
    pub pubkey: AuthPublicKey,
 }
 pub struct BootstrapAuthRequest {
    pub pubkey: AuthPublicKey,
    pub token: String,
 }
 pub struct ChallengeContext {
    pub challenge_nonce: i32,
    pub key: AuthPublicKey,
 }
 pub struct ChallengeSolution {
    pub solution: Vec<u8>,
 }
 smlang::statemachine!(
    name: Auth,
    custom_error: true,
    transitions: {
        *Init + AuthRequest(ChallengeRequest) / async prepare_challenge = SentChallenge(ChallengeContext),
        Init + BootstrapAuthRequest(BootstrapAuthRequest) / async verify_bootstrap_token = AuthOk(AuthPublicKey),
        SentChallenge(ChallengeContext) + ReceivedSolution(ChallengeSolution) / async verify_solution = AuthOk(AuthPublicKey),
    }
 );
 async fn create_nonce(db: &crate::db::DatabasePool, pubkey_bytes: &[u8]) -> Result<i32, Error> {
    let mut db_conn = db.get().await.map_err(|e| {
        error!(error = ?e, "Database pool error");
        Error::internal("Database unavailable")
    })?;
    db_conn
        .exclusive_transaction(|conn| {
            Box::pin(async move {
                let current_nonce = schema::useragent_client::table
                    .filter(schema::useragent_client::public_key.eq(pubkey_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_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");
            Error::internal("Database operation failed")
        })?
        .ok_or_else(|| {
            error!(?pubkey_bytes, "Public key not found in database");
            Error::UnregisteredPublicKey
        })
 }
 async fn register_key(db: &crate::db::DatabasePool, pubkey: &AuthPublicKey) -> Result<(), Error> {
    let pubkey_bytes = pubkey.to_stored_bytes();
    let key_type = pubkey.key_type();
    let mut conn = db.get().await.map_err(|e| {
        error!(error = ?e, "Database pool error");
        Error::internal("Database unavailable")
    })?;
    diesel::insert_into(schema::useragent_client::table)
        .values((
            schema::useragent_client::public_key.eq(pubkey_bytes),
            schema::useragent_client::nonce.eq(1),
            schema::useragent_client::key_type.eq(key_type),
        ))
        .execute(&mut conn)
        .await
        .map_err(|e| {
            error!(error = ?e, "Database error");
            Error::internal("Database operation failed")
        })?;
    Ok(())
 }
 pub struct AuthContext<'a, T> {
    pub(super) conn: &'a mut UserAgentConnection,
    pub(super) transport: T,
 }
 impl<'a, T> AuthContext<'a, T> {
    pub fn new(conn: &'a mut UserAgentConnection, transport: T) -> Self {
        Self { conn, transport }
    }
 }
 impl<T> AuthStateMachineContext for AuthContext<'_, T>
 where
    T: Bi<super::Inbound, Result<super::Outbound, Error>> + Send,
 {
    type Error = Error;
    async fn prepare_challenge(
        &mut self,
        ChallengeRequest { pubkey }: ChallengeRequest,
    ) -> Result<ChallengeContext, Self::Error> {
        let stored_bytes = pubkey.to_stored_bytes();
        let nonce = create_nonce(&self.conn.db, &stored_bytes).await?;
        self.transport
            .send(Ok(Outbound::AuthChallenge { nonce }))
            .await
            .map_err(|e| {
                error!(?e, "Failed to send auth challenge");
                Error::Transport
            })?;
        Ok(ChallengeContext {
            challenge_nonce: nonce,
            key: pubkey,
        })
    }
    #[allow(missing_docs)]
    #[allow(clippy::result_unit_err)]
    async fn verify_bootstrap_token(
        &mut self,
        BootstrapAuthRequest { pubkey, token }: BootstrapAuthRequest,
    ) -> Result<AuthPublicKey, Self::Error> {
        let token_ok: bool = self
            .conn
            .actors
            .bootstrapper
            .ask(ConsumeToken {
                token: token.clone(),
            })
            .await
            .map_err(|e| {
                error!(?e, "Failed to consume bootstrap token");
                Error::internal("Failed to consume bootstrap token")
            })?;
        if !token_ok {
            error!("Invalid bootstrap token provided");
            return Err(Error::InvalidBootstrapToken);
        }
        register_key(&self.conn.db, &pubkey).await?;
        self.transport
            .send(Ok(Outbound::AuthSuccess))
            .await
            .map_err(|_| Error::Transport)?;
        Ok(pubkey)
    }
    #[allow(missing_docs)]
    #[allow(clippy::unused_unit)]
    async fn verify_solution(
        &mut self,
        ChallengeContext {
            challenge_nonce,
            key,
        }: &ChallengeContext,
        ChallengeSolution { solution }: ChallengeSolution,
    ) -> Result<AuthPublicKey, Self::Error> {
        let formatted = arbiter_proto::format_challenge(*challenge_nonce, &key.to_stored_bytes());
        let valid = match key {
            AuthPublicKey::Ed25519(vk) => {
                let sig = solution.as_slice().try_into().map_err(|_| {
                    error!(?solution, "Invalid Ed25519 signature length");
                    Error::InvalidChallengeSolution
                })?;
                vk.verify_strict(&formatted, &sig).is_ok()
            }
            AuthPublicKey::EcdsaSecp256k1(vk) => {
                use k256::ecdsa::signature::Verifier as _;
                let sig = k256::ecdsa::Signature::try_from(solution.as_slice()).map_err(|_| {
                    error!(?solution, "Invalid ECDSA signature bytes");
                    Error::InvalidChallengeSolution
                })?;
                vk.verify(&formatted, &sig).is_ok()
            }
            AuthPublicKey::Rsa(pk) => {
                use rsa::signature::Verifier as _;
                let verifying_key = rsa::pss::VerifyingKey::<sha2::Sha256>::new(pk.clone());
                let sig = rsa::pss::Signature::try_from(solution.as_slice()).map_err(|_| {
                    error!(?solution, "Invalid RSA signature bytes");
                    Error::InvalidChallengeSolution
                })?;
                verifying_key.verify(&formatted, &sig).is_ok()
            }
        };
        if !valid {
            error!("Invalid challenge solution signature");
            return Err(Error::InvalidChallengeSolution);
        }
        self.transport
            .send(Ok(Outbound::AuthSuccess))
            .await
            .map_err(|_| Error::Transport)?;
        Ok(key.clone())
    }
 }
--- a/server/crates/arbiter-server/src/actors/user_agent/mod.rs
+++ b/server/crates/arbiter-server/src/actors/user_agent/mod.rs
@@ -1,94 +0,0 @@
 use crate::{
    actors::{GlobalActors, client::ClientProfile},
    db::{self, models::KeyType},
 };
 /// Abstraction over Ed25519 / ECDSA-secp256k1 / RSA public keys used during the auth handshake.
 #[derive(Clone, Debug)]
 pub enum AuthPublicKey {
    Ed25519(ed25519_dalek::VerifyingKey),
    /// Compressed SEC1 public key; signature bytes are raw 64-byte (r||s).
    EcdsaSecp256k1(k256::ecdsa::VerifyingKey),
    /// RSA-2048+ public key (Windows Hello / KeyCredentialManager); signature bytes are PSS+SHA-256.
    Rsa(rsa::RsaPublicKey),
 }
 impl AuthPublicKey {
    /// Canonical bytes stored in DB and echoed back in the challenge.
    /// Ed25519: raw 32 bytes. ECDSA: SEC1 compressed 33 bytes. RSA: DER-encoded SPKI.
    pub fn to_stored_bytes(&self) -> Vec<u8> {
        match self {
            AuthPublicKey::Ed25519(k) => k.to_bytes().to_vec(),
            // SEC1 compressed (33 bytes) is the natural compact format for secp256k1
            AuthPublicKey::EcdsaSecp256k1(k) => k.to_encoded_point(true).as_bytes().to_vec(),
            AuthPublicKey::Rsa(k) => {
                use rsa::pkcs8::EncodePublicKey as _;
                #[allow(clippy::expect_used)]
                k.to_public_key_der()
                    .expect("rsa SPKI encoding is infallible")
                    .to_vec()
            }
        }
    }
    pub fn key_type(&self) -> KeyType {
        match self {
            AuthPublicKey::Ed25519(_) => KeyType::Ed25519,
            AuthPublicKey::EcdsaSecp256k1(_) => KeyType::EcdsaSecp256k1,
            AuthPublicKey::Rsa(_) => KeyType::Rsa,
        }
    }
 }
 impl TryFrom<(KeyType, Vec<u8>)> for AuthPublicKey {
    type Error = &'static str;
    fn try_from(value: (KeyType, Vec<u8>)) -> Result<Self, Self::Error> {
        let (key_type, bytes) = value;
        match key_type {
            KeyType::Ed25519 => {
                let bytes: [u8; 32] = bytes.try_into().map_err(|_| "invalid Ed25519 key length")?;
                let key = ed25519_dalek::VerifyingKey::from_bytes(&bytes)
                    .map_err(|_e| "invalid Ed25519 key")?;
                Ok(AuthPublicKey::Ed25519(key))
            }
            KeyType::EcdsaSecp256k1 => {
                let point =
                    k256::EncodedPoint::from_bytes(&bytes).map_err(|_e| "invalid ECDSA key")?;
                let key = k256::ecdsa::VerifyingKey::from_encoded_point(&point)
                    .map_err(|_e| "invalid ECDSA key")?;
                Ok(AuthPublicKey::EcdsaSecp256k1(key))
            }
            KeyType::Rsa => {
                use rsa::pkcs8::DecodePublicKey as _;
                let key = rsa::RsaPublicKey::from_public_key_der(&bytes)
                    .map_err(|_e| "invalid RSA key")?;
                Ok(AuthPublicKey::Rsa(key))
            }
        }
    }
 }
 // Messages, sent by user agent to connection client without having a request
 #[derive(Debug)]
 pub enum OutOfBand {
    ClientConnectionRequest { profile: ClientProfile },
    ClientConnectionCancel { pubkey: ed25519_dalek::VerifyingKey },
 }
 pub struct UserAgentConnection {
    pub(crate) db: db::DatabasePool,
    pub(crate) actors: GlobalActors,
 }
 impl UserAgentConnection {
    pub fn new(db: db::DatabasePool, actors: GlobalActors) -> Self {
        Self { db, actors }
    }
 }
 pub mod auth;
 pub mod session;
 pub use auth::authenticate;
 pub use session::UserAgentSession;
--- a/server/crates/arbiter-server/src/actors/user_agent/session/connection.rs
+++ b/server/crates/arbiter-server/src/actors/user_agent/session/connection.rs
@@ -1,510 +0,0 @@
 use std::sync::Mutex;
 use alloy::{consensus::TxEip1559, primitives::Address, signers::Signature};
 use chacha20poly1305::{AeadInPlace, XChaCha20Poly1305, XNonce, aead::KeyInit};
 use diesel::{ExpressionMethods as _, QueryDsl as _, SelectableHelper};
 use diesel_async::{AsyncConnection, RunQueryDsl};
 use kameo::error::SendError;
 use kameo::prelude::Context;
 use kameo::messages;
 use tracing::{error, info};
 use x25519_dalek::{EphemeralSecret, PublicKey};
 use crate::actors::flow_coordinator::client_connect_approval::ClientApprovalAnswer;
 use crate::actors::keyholder::KeyHolderState;
 use crate::actors::user_agent::session::Error;
 use crate::db::models::{
    EvmWalletAccess, NewEvmWalletAccess, ProgramClient, ProgramClientMetadata,
 };
 use crate::evm::policies::{Grant, SpecificGrant};
 use crate::safe_cell::SafeCell;
 use crate::{
    actors::{
        evm::{
            ClientSignTransaction, Generate, ListWallets, SignTransactionError as EvmSignError,
            UseragentCreateGrant, UseragentDeleteGrant, UseragentListGrants,
        },
        keyholder::{self, Bootstrap, TryUnseal},
        user_agent::session::{
            UserAgentSession,
            state::{UnsealContext, UserAgentEvents, UserAgentStates},
        },
    },
    safe_cell::SafeCellHandle as _,
 };
 impl UserAgentSession {
    fn take_unseal_secret(&mut self) -> Result<(EphemeralSecret, PublicKey), Error> {
        let UserAgentStates::WaitingForUnsealKey(unseal_context) = self.state.state() else {
            error!("Received encrypted key in invalid state");
            return Err(Error::internal("Invalid state for unseal encrypted key"));
        };
        let ephemeral_secret = {
            #[allow(
                clippy::unwrap_used,
                reason = "Mutex poison is unrecoverable and should panic"
            )]
            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");
                    return Err(Error::internal("Ephemeral secret already taken"));
                }
            }
        };
        Ok((ephemeral_secret, unseal_context.client_public_key))
    }
    fn decrypt_client_key_material(
        ephemeral_secret: EphemeralSecret,
        client_public_key: PublicKey,
        nonce: &[u8],
        ciphertext: &[u8],
        associated_data: &[u8],
    ) -> Result<SafeCell<Vec<u8>>, ()> {
        let nonce = XNonce::from_slice(nonce);
        let shared_secret = ephemeral_secret.diffie_hellman(&client_public_key);
        let cipher = XChaCha20Poly1305::new(shared_secret.as_bytes().into());
        let mut key_buffer = SafeCell::new(ciphertext.to_vec());
        let decryption_result = key_buffer.write_inline(|write_handle| {
            cipher.decrypt_in_place(nonce, associated_data, write_handle)
        });
        match decryption_result {
            Ok(_) => Ok(key_buffer),
            Err(err) => {
                error!(?err, "Failed to decrypt encrypted key material");
                Err(())
            }
        }
    }
 }
 pub struct UnsealStartResponse {
    pub server_pubkey: PublicKey,
 }
 #[derive(Debug, Error)]
 pub enum UnsealError {
    #[error("Invalid key provided for unsealing")]
    InvalidKey,
    #[error("Internal error during unsealing process")]
    General(#[from] super::Error),
 }
 #[derive(Debug, Error)]
 pub enum BootstrapError {
    #[error("Invalid key provided for bootstrapping")]
    InvalidKey,
    #[error("Vault is already bootstrapped")]
    AlreadyBootstrapped,
    #[error("Internal error during bootstrapping process")]
    General(#[from] super::Error),
 }
 #[derive(Debug, Error)]
 pub enum SignTransactionError {
    #[error("Policy evaluation failed")]
    Vet(#[from] crate::evm::VetError),
    #[error("Internal signing error")]
    Internal,
 }
 #[messages]
 impl UserAgentSession {
    #[message]
    pub async fn handle_unseal_request(
        &mut self,
        client_pubkey: x25519_dalek::PublicKey,
    ) -> Result<UnsealStartResponse, Error> {
        let secret = EphemeralSecret::random();
        let public_key = PublicKey::from(&secret);
        self.transition(UserAgentEvents::UnsealRequest(UnsealContext {
            secret: Mutex::new(Some(secret)),
            client_public_key: client_pubkey,
        }))?;
        Ok(UnsealStartResponse {
            server_pubkey: public_key,
        })
    }
    #[message]
    pub async fn handle_unseal_encrypted_key(
        &mut self,
        nonce: Vec<u8>,
        ciphertext: Vec<u8>,
        associated_data: Vec<u8>,
    ) -> Result<(), UnsealError> {
        let (ephemeral_secret, client_public_key) = match self.take_unseal_secret() {
            Ok(values) => values,
            Err(Error::State) => {
                self.transition(UserAgentEvents::ReceivedInvalidKey)?;
                return Err(UnsealError::InvalidKey);
            }
            Err(_err) => {
                return Err(Error::internal("Failed to take unseal secret").into());
            }
        };
        let seal_key_buffer = match Self::decrypt_client_key_material(
            ephemeral_secret,
            client_public_key,
            &nonce,
            &ciphertext,
            &associated_data,
        ) {
            Ok(buffer) => buffer,
            Err(()) => {
                self.transition(UserAgentEvents::ReceivedInvalidKey)?;
                return Err(UnsealError::InvalidKey);
            }
        };
        match self
            .props
            .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(())
            }
            Err(SendError::HandlerError(keyholder::Error::InvalidKey)) => {
                self.transition(UserAgentEvents::ReceivedInvalidKey)?;
                Err(UnsealError::InvalidKey)
            }
            Err(SendError::HandlerError(err)) => {
                error!(?err, "Keyholder failed to unseal key");
                self.transition(UserAgentEvents::ReceivedInvalidKey)?;
                Err(UnsealError::InvalidKey)
            }
            Err(err) => {
                error!(?err, "Failed to send unseal request to keyholder");
                self.transition(UserAgentEvents::ReceivedInvalidKey)?;
                Err(Error::internal("Vault actor error").into())
            }
        }
    }
    #[message]
    pub(crate) async fn handle_bootstrap_encrypted_key(
        &mut self,
        nonce: Vec<u8>,
        ciphertext: Vec<u8>,
        associated_data: Vec<u8>,
    ) -> Result<(), BootstrapError> {
        let (ephemeral_secret, client_public_key) = match self.take_unseal_secret() {
            Ok(values) => values,
            Err(Error::State) => {
                self.transition(UserAgentEvents::ReceivedInvalidKey)?;
                return Err(BootstrapError::InvalidKey);
            }
            Err(err) => return Err(err.into()),
        };
        let seal_key_buffer = match Self::decrypt_client_key_material(
            ephemeral_secret,
            client_public_key,
            &nonce,
            &ciphertext,
            &associated_data,
        ) {
            Ok(buffer) => buffer,
            Err(()) => {
                self.transition(UserAgentEvents::ReceivedInvalidKey)?;
                return Err(BootstrapError::InvalidKey);
            }
        };
        match self
            .props
            .actors
            .key_holder
            .ask(Bootstrap {
                seal_key_raw: seal_key_buffer,
            })
            .await
        {
            Ok(_) => {
                info!("Successfully bootstrapped vault with client-provided key");
                self.transition(UserAgentEvents::ReceivedValidKey)?;
                Ok(())
            }
            Err(SendError::HandlerError(keyholder::Error::AlreadyBootstrapped)) => {
                self.transition(UserAgentEvents::ReceivedInvalidKey)?;
                Err(BootstrapError::AlreadyBootstrapped)
            }
            Err(SendError::HandlerError(err)) => {
                error!(?err, "Keyholder failed to bootstrap vault");
                self.transition(UserAgentEvents::ReceivedInvalidKey)?;
                Err(BootstrapError::InvalidKey)
            }
            Err(err) => {
                error!(?err, "Failed to send bootstrap request to keyholder");
                self.transition(UserAgentEvents::ReceivedInvalidKey)?;
                Err(BootstrapError::General(Error::internal(
                    "Vault actor error",
                )))
            }
        }
    }
 }
 #[messages]
 impl UserAgentSession {
    #[message]
    pub(crate) async fn handle_query_vault_state(&mut self) -> Result<KeyHolderState, Error> {
        use crate::actors::keyholder::GetState;
        let vault_state = match self.props.actors.key_holder.ask(GetState {}).await {
            Ok(state) => state,
            Err(err) => {
                error!(?err, actor = "useragent", "keyholder.query.failed");
                return Err(Error::internal("Vault is in broken state"));
            }
        };
        Ok(vault_state)
    }
 }
 #[messages]
 impl UserAgentSession {
    #[message]
    pub(crate) async fn handle_evm_wallet_create(&mut self) -> Result<(i32, Address), Error> {
        match self.props.actors.evm.ask(Generate {}).await {
            Ok(address) => Ok(address),
            Err(SendError::HandlerError(err)) => Err(Error::internal(format!(
                "EVM wallet generation failed: {err}"
            ))),
            Err(err) => {
                error!(?err, "EVM actor unreachable during wallet create");
                Err(Error::internal("EVM actor unreachable"))
            }
        }
    }
    #[message]
    pub(crate) async fn handle_evm_wallet_list(&mut self) -> Result<Vec<(i32, Address)>, Error> {
        match self.props.actors.evm.ask(ListWallets {}).await {
            Ok(wallets) => Ok(wallets),
            Err(err) => {
                error!(?err, "EVM wallet list failed");
                Err(Error::internal("Failed to list EVM wallets"))
            }
        }
    }
 }
 #[messages]
 impl UserAgentSession {
    #[message]
    pub(crate) async fn handle_grant_list(&mut self) -> Result<Vec<Grant<SpecificGrant>>, Error> {
        match self.props.actors.evm.ask(UseragentListGrants {}).await {
            Ok(grants) => Ok(grants),
            Err(err) => {
                error!(?err, "EVM grant list failed");
                Err(Error::internal("Failed to list EVM grants"))
            }
        }
    }
    #[message]
    pub(crate) async fn handle_grant_create(
        &mut self,
        basic: crate::evm::policies::SharedGrantSettings,
        grant: crate::evm::policies::SpecificGrant,
    ) -> Result<i32, Error> {
        match self
            .props
            .actors
            .evm
            .ask(UseragentCreateGrant { basic, grant })
            .await
        {
            Ok(grant_id) => Ok(grant_id),
            Err(err) => {
                error!(?err, "EVM grant create failed");
                Err(Error::internal("Failed to create EVM grant"))
            }
        }
    }
    #[message]
    pub(crate) async fn handle_grant_delete(&mut self, grant_id: i32) -> Result<(), Error> {
        match self
            .props
            .actors
            .evm
            .ask(UseragentDeleteGrant { grant_id })
            .await
        {
            Ok(()) => Ok(()),
            Err(err) => {
                error!(?err, "EVM grant delete failed");
                Err(Error::internal("Failed to delete EVM grant"))
            }
        }
    }
    #[message]
    pub(crate) async fn handle_sign_transaction(
        &mut self,
        client_id: i32,
        wallet_address: Address,
        transaction: TxEip1559,
    ) -> Result<Signature, SignTransactionError> {
        match self
            .props
            .actors
            .evm
            .ask(ClientSignTransaction {
                client_id,
                wallet_address,
                transaction,
            })
            .await
        {
            Ok(signature) => Ok(signature),
            Err(SendError::HandlerError(EvmSignError::Vet(vet_error))) => {
                Err(SignTransactionError::Vet(vet_error))
            }
            Err(err) => {
                error!(?err, "EVM sign transaction failed in user-agent session");
                Err(SignTransactionError::Internal)
            }
        }
    }
    #[message]
    pub(crate) async fn handle_grant_evm_wallet_access(
        &mut self,
        entries: Vec<NewEvmWalletAccess>,
    ) -> Result<(), Error> {
        let mut conn = self.props.db.get().await?;
        conn.transaction(|conn| {
            Box::pin(async move {
                use crate::db::schema::evm_wallet_access;
                for entry in entries {
                    diesel::insert_into(evm_wallet_access::table)
                        .values(&entry)
                        .on_conflict_do_nothing()
                        .execute(conn)
                        .await?;
                }
                Result::<_, Error>::Ok(())
            })
        })
        .await?;
        Ok(())
    }
    #[message]
    pub(crate) async fn handle_revoke_evm_wallet_access(
        &mut self,
        entries: Vec<i32>,
    ) -> Result<(), Error> {
        let mut conn = self.props.db.get().await?;
        conn.transaction(|conn| {
            Box::pin(async move {
                use crate::db::schema::evm_wallet_access;
                for entry in entries {
                    diesel::delete(evm_wallet_access::table)
                        .filter(evm_wallet_access::wallet_id.eq(entry))
                        .execute(conn)
                        .await?;
                }
                Result::<_, Error>::Ok(())
            })
        })
        .await?;
        Ok(())
    }
    #[message]
    pub(crate) async fn handle_list_wallet_access(
        &mut self,
    ) -> Result<Vec<EvmWalletAccess>, Error> {
        let mut conn = self.props.db.get().await?;
        use crate::db::schema::evm_wallet_access;
        let access_entries = evm_wallet_access::table
            .select(EvmWalletAccess::as_select())
            .load::<_>(&mut conn)
            .await?;
        Ok(access_entries)
    }
 }
 #[messages]
 impl UserAgentSession {
    #[message(ctx)]
    pub(crate) async fn handle_new_client_approve(
        &mut self,
        approved: bool,
        pubkey: ed25519_dalek::VerifyingKey,
        ctx: &mut Context<Self, Result<(), Error>>,
    ) -> Result<(), Error> {
        let pending_approval = match self.pending_client_approvals.remove(&pubkey) {
            Some(approval) => approval,
            None => {
                error!("Received client connection response for unknown client");
                return Err(Error::internal("Unknown client in connection response"));
            }
        };
        pending_approval
            .controller
            .tell(ClientApprovalAnswer { approved })
            .await
            .map_err(|err| {
                error!(
                    ?err,
                    "Failed to send client approval response to controller"
                );
                Error::internal("Failed to send client approval response to controller")
            })?;
        ctx.actor_ref().unlink(&pending_approval.controller).await;
        Ok(())
    }
    #[message]
    pub(crate) async fn handle_sdk_client_list(
        &mut self,
    ) -> Result<Vec<(ProgramClient, ProgramClientMetadata)>, Error> {
        use crate::db::schema::{client_metadata, program_client};
        let mut conn = self.props.db.get().await?;
        let clients = program_client::table
            .inner_join(client_metadata::table)
            .select((
                ProgramClient::as_select(),
                ProgramClientMetadata::as_select(),
            ))
            .load::<(ProgramClient, ProgramClientMetadata)>(&mut conn)
            .await?;
        Ok(clients)
    }
 }
--- a/server/crates/arbiter-server/src/actors/user_agent/session/state.rs
+++ b/server/crates/arbiter-server/src/actors/user_agent/session/state.rs
@@ -1,27 +0,0 @@
 use std::sync::Mutex;
 use x25519_dalek::{EphemeralSecret, PublicKey};
 pub struct UnsealContext {
    pub client_public_key: PublicKey,
    pub secret: Mutex<Option<EphemeralSecret>>,
 }
 smlang::statemachine!(
    name: UserAgent,
    custom_error: false,
    transitions: {
        *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)
    }
 }
--- a/server/crates/arbiter-server/src/actors/useragent_registry.rs
+++ b/server/crates/arbiter-server/src/actors/useragent_registry.rs
@@ -0,0 +1,57 @@
 use alloy::primitives::map::HashMap;
 use arbiter_crypto::authn;
 use kameo::{error::Infallible, prelude::*};
 use crate::{db::DatabasePool, peers::user_agent::{Credentials, UserAgentSession}};
 use super::vault::{Vault, events as vault_events};
 pub struct Args {
    pub vault: ActorRef<Vault>,
    pub pool: DatabasePool,
 }
 pub struct UserAgentRegistry {
    vault: ActorRef<Vault>,
    pool: DatabasePool,
    connected: HashMap<Credentials, ActorRef<UserAgentSession>>,
 }
 impl Message<vault_events::Bootstrapped> for UserAgentRegistry {
    type Reply = ();
    async fn handle(
        &mut self,
        msg: vault_events::Bootstrapped,
        ctx: &mut Context<Self, Self::Reply>,
    ) -> Self::Reply {
        todo!()
    }
 }
 impl Message<vault_events::Unsealed> for UserAgentRegistry {
    type Reply = ();
    async fn handle(
        &mut self,
        msg: vault_events::Unsealed,
        ctx: &mut Context<Self, Self::Reply>,
    ) -> Self::Reply {
        todo!()
    }
 }
 impl Actor for UserAgentRegistry {
    type Args = Args;
    type Error = Infallible;
    async fn on_start(args: Self::Args, actor_ref: ActorRef<Self>) -> Result<Self, Self::Error> {
        Ok(Self {
            vault: args.vault,
            pool: args.pool,
            connected: HashMap::default(),
        })
    }
 }
--- a/server/crates/arbiter-server/src/actors/keyholder/mod.rs
+++ b/server/crates/arbiter-server/src/actors/keyholder/mod.rs
@@ -4,82 +4,92 @@ use diesel::{
    dsl::{insert_into, update},
 };
 use diesel_async::{AsyncConnection, RunQueryDsl};
-use kameo::{Actor, Reply, messages};
+use hmac::Mac as _;
 use kameo::{Actor, Reply, actor::ActorRef, messages};
 use kameo_actors::message_bus::{MessageBus, Publish};
 use strum::{EnumDiscriminants, IntoDiscriminant};
 use tracing::{error, info};
-use crate::safe_cell::SafeCell;
+use crate::crypto::{
-use crate::{
+    KeyCell, derive_key,
-    db::{
+    encryption::v1::{self, Nonce},
    integrity::v1::HmacSha256,
 };
 use crate::db::{
    self,
    models::{self, RootKeyHistory},
    schema::{self},
    },
    safe_cell::SafeCellHandle as _,
 };
-use encryption::v1::{self, KeyCell, Nonce};
+use arbiter_crypto::safecell::{SafeCell, SafeCellHandle as _};
-pub mod encryption;
+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,
 }
 struct Unsealed {
    root_key_history_id: i32,
    root_key: KeyCell,
 }
 #[derive(Default, EnumDiscriminants)]
-#[strum_discriminants(derive(Reply), vis(pub), name(KeyHolderState))]
+#[strum_discriminants(derive(Reply), vis(pub), name(VaultState))]
 enum State {
    #[default]
    Unbootstrapped,
    Sealed {
        root_key_history_id: i32,
    },
-    Unsealed {
+    Unsealed(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 {
+pub struct Vault {
    db: db::DatabasePool,
    state: State,
    events: ActorRef<MessageBus>,
 }
 #[messages]
-impl KeyHolder {
+impl Vault {
-    pub async fn new(db: db::DatabasePool) -> Result<Self, Error> {
+    pub async fn new(db: db::DatabasePool, events: ActorRef<MessageBus>) -> Result<Self, Error> {
        let state = {
            let mut conn = db.get().await?;
@@ -97,10 +107,10 @@ impl KeyHolder {
            }
        };
-        Ok(Self { db, state })
+        Ok(Self { db, state, events })
    }
-    // Exclusive transaction to avoid race condtions if multiple keyholders write
+    // 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: i32) -> Result<Nonce, Error> {
        let mut conn = pool.get().await?;
@@ -114,8 +124,7 @@ impl KeyHolder {
                        .first(conn)
                        .await?;
-                    let mut nonce =
+                    let mut nonce = Nonce::try_from(current_nonce.as_slice()).map_err(|_| {
                        v1::Nonce::try_from(current_nonce.as_slice()).map_err(|_| {
                        error!(
                            "Broken database: invalid nonce for root key history id={}",
                            root_key_id
@@ -138,18 +147,26 @@ impl KeyHolder {
        Ok(nonce)
    }
    fn expect_unsealed(state: &mut State) -> Result<&mut Unsealed, Error> {
        match state {
            State::Unsealed(unsealed) => Ok(unsealed),
            State::Unbootstrapped => Err(Error::NotBootstrapped),
            State::Sealed { .. } => Err(Error::Sealed),
        }
    }
    #[message]
    pub async fn bootstrap(&mut self, seal_key_raw: SafeCell<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 seal_key = derive_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 root_key_nonce = Nonce::default();
-        let data_encryption_nonce = v1::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();
@@ -190,12 +207,13 @@ impl KeyHolder {
            })
            .await?;
-        self.state = State::Unsealed {
+        self.state = State::Unsealed(Unsealed {
            root_key,
            root_key_history_id,
-        };
+        });
-        info!("Keyholder bootstrapped successfully");
+        info!("Vault bootstrapped successfully");
        self.events.tell(Publish(events::Bootstrapped)).await;
        Ok(())
    }
@@ -224,7 +242,7 @@ impl KeyHolder {
            error!("Broken database: invalid salt for root key");
            Error::BrokenDatabase
        })?;
-        let mut seal_key = v1::derive_seal_key(seal_key_raw, &salt);
+        let mut seal_key = derive_key(seal_key_raw, &salt);
        let mut root_key = SafeCell::new(current_key.ciphertext.clone());
@@ -242,25 +260,23 @@ impl KeyHolder {
                Error::InvalidKey
            })?;
-        self.state = State::Unsealed {
+        self.state = State::Unsealed(Unsealed {
            root_key_history_id: current_key.id,
-            root_key: v1::KeyCell::try_from(root_key).map_err(|err| {
+            root_key: KeyCell::try_from(root_key).map_err(|err| {
                error!(?err, "Broken database: invalid encryption key size");
                Error::BrokenDatabase
            })?,
-        };
+        });
-        info!("Keyholder unsealed successfully");
+        info!("Vault unsealed successfully");
        self.events.tell(Publish(events::Unsealed)).await;
        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<SafeCell<Vec<u8>>, Error> {
-        let State::Unsealed { root_key, .. } = &mut self.state else {
+        let Unsealed { root_key, .. } = Self::expect_unsealed(&mut self.state)?;
            return Err(Error::NotBootstrapped);
        };
        let row: models::AeadEncrypted = {
            let mut conn = self.db.get().await?;
@@ -288,13 +304,10 @@ impl KeyHolder {
    // 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 State::Unsealed {
+        let Unsealed {
            root_key,
            root_key_history_id,
-        } = &mut self.state
+        } = Self::expect_unsealed(&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
@@ -324,22 +337,69 @@ impl KeyHolder {
    }
    #[message]
-    pub fn get_state(&self) -> KeyHolderState {
+    pub fn get_state(&self) -> VaultState {
        self.state.discriminant()
    }
    #[message]
-    pub fn seal(&mut self) -> Result<(), Error> {
+    pub fn sign_integrity(&mut self, mac_input: Vec<u8>) -> Result<(i32, Vec<u8>), Error> {
-        let State::Unsealed {
+        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_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: i32,
    ) -> 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_be_bytes());
        hmac.update(&mac_input);
        Ok(hmac.verify_slice(&expected_mac).is_ok())
    }
    #[message]
    pub async fn seal(&mut self) -> Result<(), Error> {
        let Unsealed {
            root_key_history_id,
            ..
-        } = &self.state
+        } = Self::expect_unsealed(&mut self.state)?;
-        else {
+
            return Err(Error::NotBootstrapped);
        };
        self.state = State::Sealed {
            root_key_history_id: *root_key_history_id,
        };
        self.events.tell(Publish(events::VaultResealed)).await;
        Ok(())
    }
 }
@@ -351,14 +411,17 @@ mod tests {
    use diesel_async::RunQueryDsl;
    use crate::{
        actors::GlobalActors,
        db::{self},
        safe_cell::SafeCell,
    };
    use arbiter_crypto::safecell::{SafeCell, SafeCellHandle as _};
    use super::*;
-    async fn bootstrapped_actor(db: &db::DatabasePool) -> KeyHolder {
+    async fn bootstrapped_actor(db: &db::DatabasePool) -> Vault {
-        let mut actor = KeyHolder::new(db.clone()).await.unwrap();
+        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.bootstrap(seal_key).await.unwrap();
        actor
@@ -370,17 +433,17 @@ mod tests {
        let db = db::create_test_pool().await;
        let mut actor = bootstrapped_actor(&db).await;
        let root_key_history_id = match actor.state {
-            State::Unsealed {
+            State::Unsealed(Unsealed {
                root_key_history_id,
                ..
-            } => root_key_history_id,
+            }) => root_key_history_id,
            _ => panic!("expected unsealed state"),
        };
-        let n1 = KeyHolder::get_new_nonce(&db, root_key_history_id)
+        let n1 = Vault::get_new_nonce(&db, root_key_history_id)
            .await
            .unwrap();
-        let n2 = KeyHolder::get_new_nonce(&db, root_key_history_id)
+        let n2 = Vault::get_new_nonce(&db, root_key_history_id)
            .await
            .unwrap();
        assert!(n2.to_vec() > n1.to_vec(), "nonce must increase");
--- a/server/crates/arbiter-server/src/context/mod.rs
+++ b/server/crates/arbiter-server/src/context/mod.rs
@@ -1,6 +1,5 @@
 use std::sync::Arc;
 use miette::Diagnostic;
 use thiserror::Error;
 use crate::{
@@ -11,30 +10,24 @@ use crate::{
 pub mod tls;
-#[derive(Error, Debug, Diagnostic)]
+#[derive(Error, Debug)]
 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),
 }
--- a/server/crates/arbiter-server/src/context/tls.rs
+++ b/server/crates/arbiter-server/src/context/tls.rs
@@ -1,8 +1,8 @@
-use std::{net::IpAddr, string::FromUtf8Error};
+use std::{net::Ipv4Addr, 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,
@@ -29,30 +29,24 @@ const ENCODE_CONFIG: pem::EncodeConfig = {
    pem::EncodeConfig::new().set_line_ending(line_ending)
 };
-#[derive(Error, Debug, Diagnostic)]
+#[derive(Error, Debug)]
 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),
 }
@@ -116,9 +110,7 @@ impl TlsCa {
        ];
        params
            .subject_alt_names
-            .push(SanType::IpAddress(IpAddr::from([
+            .push(SanType::IpAddress(Ipv4Addr::LOCALHOST.into()));
                127, 0, 0, 1,
            ])));
        let mut dn = DistinguishedName::new();
        dn.push(DnType::CommonName, "Arbiter Instance Leaf");
--- a/server/crates/arbiter-server/src/crypto/encryption/mod.rs
+++ b/server/crates/arbiter-server/src/crypto/encryption/mod.rs
@@ -0,0 +1,3 @@
 pub mod v1;
 pub use v1::*;
--- a/server/crates/arbiter-server/src/crypto/encryption/v1.rs
+++ b/server/crates/arbiter-server/src/crypto/encryption/v1.rs
@@ -0,0 +1,107 @@
 use argon2::password_hash::Salt as ArgonSalt;
 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(pub [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 type Salt = [u8; ArgonSalt::RECOMMENDED_LENGTH];
 pub fn generate_salt() -> Salt {
    let mut salt = Salt::default();
    #[allow(
        clippy::unwrap_used,
        reason = "Rng failure is unrecoverable and should panic"
    )]
    let mut rng = StdRng::try_from_rng(&mut SysRng).unwrap();
    rng.fill_bytes(&mut salt);
    salt
 }
 #[cfg(test)]
 mod tests {
    use std::ops::Deref as _;
    use super::*;
    use crate::crypto::derive_key;
    use arbiter_crypto::safecell::{SafeCell, SafeCellHandle as _};
    #[test]
    pub 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.deref(), key2_reader.deref());
    }
    #[test]
    pub 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();
        let key_ref = key_reader.deref();
        assert_ne!(key_ref.as_slice(), &[0u8; 32][..]);
    }
    #[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
            ]
        );
    }
 }
--- a/server/crates/arbiter-server/src/crypto/integrity/mod.rs
+++ b/server/crates/arbiter-server/src/crypto/integrity/mod.rs
@@ -0,0 +1,3 @@
 pub mod v1;
 pub use v1::*;
--- a/server/crates/arbiter-server/src/crypto/integrity/v1.rs
+++ b/server/crates/arbiter-server/src/crypto/integrity/v1.rs
@@ -0,0 +1,349 @@
 use crate::{
    actors::vault::{self, GetState},
    crypto::integrity::hashing::Hashable,
 };
 use hmac::Hmac;
 use sha2::Sha256;
 use diesel::{ExpressionMethods as _, QueryDsl, dsl::insert_into, sqlite::Sqlite};
 use diesel_async::{AsyncConnection, RunQueryDsl};
 use kameo::{actor::ActorRef, error::SendError};
 use sha2::Digest as _;
 pub mod hashing;
 use crate::{
    actors::vault::{SignIntegrity, Vault, VerifyIntegrity},
    db::{
        self,
        models::{IntegrityEnvelope, NewIntegrityEnvelope},
        schema::integrity_envelope,
    },
 };
 #[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]) {
    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 {
                kameo::error::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.to_vec(),
        })
        .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 sha2::Digest;
    use crate::{
        actors::{
            GlobalActors,
            vault::{Bootstrap, Vault},
        },
        db::{self, schema},
    };
    use arbiter_crypto::safecell::{SafeCell, SafeCellHandle as _};
    use super::hashing::Hashable;
    use super::{Error, Integrable, sign_entity, verify_entity};
    #[derive(Clone)]
    struct DummyEntity {
        payload_version: i32,
        payload: Vec<u8>,
    }
    impl Hashable for DummyEntity {
        fn hash<H: Digest>(&self, hasher: &mut H) {
            self.payload_version.hash(hasher);
            self.payload.hash(hasher);
        }
    }
    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() {
        let db = db::create_test_pool().await;
        let vault = bootstrapped_vault(&db).await;
        let mut conn = db.get().await.unwrap();
        const ENTITY_ID: &[u8] = b"entity-id-7";
        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() {
        let db = db::create_test_pool().await;
        let vault = bootstrapped_vault(&db).await;
        let mut conn = db.get().await.unwrap();
        const ENTITY_ID: &[u8] = b"entity-id-11";
        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() {
        let db = db::create_test_pool().await;
        let vault = bootstrapped_vault(&db).await;
        let mut conn = db.get().await.unwrap();
        const ENTITY_ID: &[u8] = b"entity-id-21";
        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 { .. }));
    }
 }
--- a/server/crates/arbiter-server/src/crypto/integrity/v1/hashing.rs
+++ b/server/crates/arbiter-server/src/crypto/integrity/v1/hashing.rs
@@ -0,0 +1,107 @@
 use hmac::digest::Digest;
 use std::collections::HashSet;
 /// Deterministically hash a value by feeding its fields into the hasher in a consistent order.
 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> Hashable for HashSet<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> 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());
    }
 }
--- a/server/crates/arbiter-server/src/actors/keyholder/encryption/v1.rs
+++ b/server/crates/arbiter-server/src/actors/keyholder/encryption/v1.rs
@@ -1,52 +1,21 @@
 use std::ops::Deref as _;
-use argon2::{Algorithm, Argon2, password_hash::Salt as ArgonSalt};
+use argon2::{Algorithm, Argon2};
 use chacha20poly1305::{
    AeadInPlace, Key, KeyInit as _, XChaCha20Poly1305, XNonce,
    aead::{AeadMut, Error, Payload},
 };
 use rand::{
-    Rng as _, SeedableRng,
+    Rng as _, SeedableRng as _,
    rngs::{StdRng, SysRng},
 };
-use crate::safe_cell::{SafeCell, SafeCellHandle as _};
+use arbiter_crypto::safecell::{SafeCell, SafeCellHandle as _};
-pub const ROOT_KEY_TAG: &[u8] = "arbiter/seal/v1".as_bytes();
+pub mod encryption;
-pub const TAG: &[u8] = "arbiter/private-key/v1".as_bytes();
+pub mod integrity;
-pub const NONCE_LENGTH: usize = 24;
+use encryption::v1::{Nonce, Salt};
 #[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 SafeCell<Key>);
 impl From<SafeCell<Key>> for KeyCell {
@@ -133,24 +102,21 @@ impl KeyCell {
    }
 }
-pub type Salt = [u8; ArgonSalt::RECOMMENDED_LENGTH];
+/// Derive a fixed-length key from the password using Argon2id, which is designed for password hashing and key derivation.
-
+pub fn derive_key(mut password: SafeCell<Vec<u8>>, salt: &Salt) -> KeyCell {
-pub fn generate_salt() -> Salt {
+    let params = {
-    let mut salt = Salt::default();
+        #[cfg(debug_assertions)]
-    #[allow(
+        {
-        clippy::unwrap_used,
+            argon2::Params::new(8, 1, 1, None).unwrap()
        reason = "Rng failure is unrecoverable and should panic"
    )]
    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...
+        #[cfg(not(debug_assertions))]
-/// 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: SafeCell<Vec<u8>>, salt: &Salt) -> KeyCell {
+            argon2::Params::new(262_144, 3, 4, None).unwrap()
        }
    };
    #[allow(clippy::unwrap_used)]
    let params = argon2::Params::new(262_144, 3, 4, None).unwrap();
    let hasher = Argon2::new(Algorithm::Argon2id, argon2::Version::V0x13, params);
    let mut key = SafeCell::new(Key::default());
    password.read_inline(|password_source| {
@@ -171,37 +137,11 @@ pub fn derive_seal_key(mut password: SafeCell<Vec<u8>>, salt: &Salt) -> KeyCell
 #[cfg(test)]
 mod tests {
-    use super::*;
+    use super::{
-    use crate::safe_cell::SafeCell;
+        derive_key,
-
+        encryption::v1::{Nonce, generate_salt},
-    #[test]
+    };
-    pub fn derive_seal_key_deterministic() {
+    use arbiter_crypto::safecell::{SafeCell, SafeCellHandle as _};
        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_seal_key(password, &salt);
        let mut key2 = derive_seal_key(password2, &salt);
        let key1_reader = key1.0.read();
        let key2_reader = key2.0.read();
        assert_eq!(key1_reader.deref(), key2_reader.deref());
    }
    #[test]
    pub fn successful_derive() {
        static PASSWORD: &[u8] = b"password";
        let password = SafeCell::new(PASSWORD.to_vec());
        let salt = generate_salt();
        let mut key = derive_seal_key(password, &salt);
        let key_reader = key.0.read();
        let key_ref = key_reader.deref();
        assert_ne!(key_ref.as_slice(), &[0u8; 32][..]);
    }
    #[test]
    pub fn encrypt_decrypt() {
@@ -209,7 +149,7 @@ mod tests {
        let password = SafeCell::new(PASSWORD.to_vec());
        let salt = generate_salt();
-        let mut key = derive_seal_key(password, &salt);
+        let mut key = derive_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();
@@ -226,18 +166,4 @@ mod tests {
        let buffer = buffer.read();
        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
            ]
        );
    }
 }
--- a/server/crates/arbiter-server/src/db/mod.rs
+++ b/server/crates/arbiter-server/src/db/mod.rs
@@ -5,7 +5,7 @@ use diesel_async::{
    sync_connection_wrapper::SyncConnectionWrapper,
 };
 use diesel_migrations::{EmbeddedMigrations, MigrationHarness, embed_migrations};
-use miette::Diagnostic;
+
 use thiserror::Error;
 use tracing::info;
@@ -21,26 +21,21 @@ static DB_FILE: &str = "arbiter.sqlite";
 const MIGRATIONS: EmbeddedMigrations = embed_migrations!("migrations");
-#[derive(Error, Diagnostic, Debug)]
+#[derive(Error, Debug)]
 pub enum DatabaseSetupError {
    #[error("Failed to determine home directory")]
    #[diagnostic(code(arbiter::db::home_dir))]
    HomeDir(std::io::Error),
    #[error(transparent)]
    #[diagnostic(code(arbiter::db::connection))]
    Connection(diesel::ConnectionError),
    #[error(transparent)]
    #[diagnostic(code(arbiter::db::concurrency))]
    ConcurrencySetup(diesel::result::Error),
    #[error(transparent)]
    #[diagnostic(code(arbiter::db::migration))]
    Migration(Box<dyn std::error::Error + Send + Sync>),
    #[error(transparent)]
    #[diagnostic(code(arbiter::db::pool))]
    Pool(#[from] PoolInitError),
 }
@@ -138,6 +133,7 @@ pub async fn create_pool(url: Option<&str>) -> Result<DatabasePool, DatabaseSetu
    Ok(pool)
 }
 #[mutants::skip]
 pub async fn create_test_pool() -> DatabasePool {
    use rand::distr::{Alphanumeric, SampleString as _};
--- a/server/crates/arbiter-server/src/db/models.rs
+++ b/server/crates/arbiter-server/src/db/models.rs
@@ -5,7 +5,7 @@ use crate::db::schema::{
    self, aead_encrypted, arbiter_settings, evm_basic_grant, evm_ether_transfer_grant,
    evm_ether_transfer_grant_target, evm_ether_transfer_limit, evm_token_transfer_grant,
    evm_token_transfer_log, evm_token_transfer_volume_limit, evm_transaction_log, evm_wallet,
-    root_key_history, tls_history,
+    integrity_envelope, root_key_history, tls_history,
 };
 use chrono::{DateTime, Utc};
 use diesel::{prelude::*, sqlite::Sqlite};
@@ -72,40 +72,6 @@ pub mod types {
            Ok(SqliteTimestamp(datetime))
        }
    }
    /// Key algorithm stored in the `useragent_client.key_type` column.
    /// Values must stay stable — they are persisted in the database.
    #[derive(Debug, Clone, Copy, PartialEq, Eq, FromSqlRow, AsExpression, strum::FromRepr)]
    #[diesel(sql_type = Integer)]
    #[repr(i32)]
    pub enum KeyType {
        Ed25519 = 1,
        EcdsaSecp256k1 = 2,
        Rsa = 3,
    }
    impl ToSql<Integer, Sqlite> for KeyType {
        fn to_sql<'b>(
            &'b self,
            out: &mut diesel::serialize::Output<'b, '_, Sqlite>,
        ) -> diesel::serialize::Result {
            out.set_value(*self as i32);
            Ok(IsNull::No)
        }
    }
    impl FromSql<Integer, Sqlite> for KeyType {
        fn from_sql(
            mut bytes: <Sqlite as diesel::backend::Backend>::RawValue<'_>,
        ) -> diesel::deserialize::Result<Self> {
            let Some(SqliteType::Long) = bytes.value_type() else {
                return Err("Expected Integer for KeyType".into());
            };
            let discriminant = bytes.read_long();
            KeyType::from_repr(discriminant as i32)
                .ok_or_else(|| format!("Unknown KeyType discriminant: {discriminant}").into())
        }
    }
 }
 pub use types::*;
@@ -244,7 +210,6 @@ pub struct UseragentClient {
    pub public_key: Vec<u8>,
    pub created_at: SqliteTimestamp,
    pub updated_at: SqliteTimestamp,
    pub key_type: KeyType,
 }
 #[derive(Models, Queryable, Debug, Insertable, Selectable)]
@@ -376,3 +341,22 @@ pub struct EvmTokenTransferLog {
    pub value: Vec<u8>,
    pub created_at: SqliteTimestamp,
 }
 #[derive(Models, Queryable, Debug, Insertable, Selectable)]
 #[diesel(table_name = integrity_envelope, check_for_backend(Sqlite))]
 #[view(
    NewIntegrityEnvelope,
    derive(Insertable),
    omit(id, signed_at, created_at),
    attributes_with = "deriveless"
 )]
 pub struct IntegrityEnvelope {
    pub id: i32,
    pub entity_kind: String,
    pub entity_id: Vec<u8>,
    pub payload_version: i32,
    pub key_version: i32,
    pub mac: Vec<u8>,
    pub signed_at: SqliteTimestamp,
    pub created_at: SqliteTimestamp,
 }
--- a/server/crates/arbiter-server/src/db/schema.rs
+++ b/server/crates/arbiter-server/src/db/schema.rs
@@ -139,6 +139,19 @@ diesel::table! {
    }
 }
 diesel::table! {
    integrity_envelope (id) {
        id -> Integer,
        entity_kind -> Text,
        entity_id -> Binary,
        payload_version -> Integer,
        key_version -> Integer,
        mac -> Binary,
        signed_at -> Integer,
        created_at -> Integer,
    }
 }
 diesel::table! {
    program_client (id) {
        id -> Integer,
@@ -219,6 +232,7 @@ diesel::allow_tables_to_appear_in_same_query!(
    evm_transaction_log,
    evm_wallet,
    evm_wallet_access,
    integrity_envelope,
    program_client,
    root_key_history,
    tls_history,
--- a/server/crates/arbiter-server/src/evm/mod.rs
+++ b/server/crates/arbiter-server/src/evm/mod.rs
@@ -8,8 +8,11 @@ use alloy::{
 use chrono::Utc;
 use diesel::{ExpressionMethods as _, QueryDsl as _, QueryResult, insert_into, sqlite::Sqlite};
 use diesel_async::{AsyncConnection, RunQueryDsl};
 use kameo::actor::ActorRef;
 use crate::{
    actors::vault::Vault,
    crypto::integrity,
    db::{
        self, DatabaseError,
        models::{
@@ -18,8 +21,8 @@ use crate::{
        schema::{self, evm_transaction_log},
    },
    evm::policies::{
-        DatabaseID, EvalContext, EvalViolation, FullGrant, Grant, Policy, SharedGrantSettings,
+        CombinedSettings, DatabaseID, EvalContext, EvalViolation, Grant, Policy,
-        SpecificGrant, SpecificMeaning, ether_transfer::EtherTransfer,
+        SharedGrantSettings, SpecificGrant, SpecificMeaning, ether_transfer::EtherTransfer,
        token_transfers::TokenTransfer,
    },
 };
@@ -28,42 +31,47 @@ pub mod policies;
 mod utils;
 /// Errors that can only occur once the transaction meaning is known (during policy evaluation)
-#[derive(Debug, thiserror::Error, miette::Diagnostic)]
+#[derive(Debug, thiserror::Error)]
 pub enum PolicyError {
    #[error("Database error")]
    Database(#[from] crate::db::DatabaseError),
    #[error("Transaction violates policy: {0:?}")]
    #[diagnostic(code(arbiter_server::evm::policy_error::violation))]
    Violations(Vec<EvalViolation>),
    #[error("No matching grant found")]
    #[diagnostic(code(arbiter_server::evm::policy_error::no_matching_grant))]
    NoMatchingGrant,
    #[error("Integrity error: {0}")]
    Integrity(#[from] integrity::Error),
 }
-#[derive(Debug, thiserror::Error, miette::Diagnostic)]
+#[derive(Debug, thiserror::Error)]
 pub enum VetError {
    #[error("Contract creation transactions are not supported")]
    #[diagnostic(code(arbiter_server::evm::vet_error::contract_creation_unsupported))]
    ContractCreationNotSupported,
    #[error("Engine can't classify this transaction")]
    #[diagnostic(code(arbiter_server::evm::vet_error::unsupported))]
    UnsupportedTransactionType,
    #[error("Policy evaluation failed: {1}")]
    #[diagnostic(code(arbiter_server::evm::vet_error::evaluated))]
    Evaluated(SpecificMeaning, #[source] PolicyError),
 }
-#[derive(Debug, thiserror::Error, miette::Diagnostic)]
+#[derive(Debug, thiserror::Error)]
 pub enum AnalyzeError {
    #[error("Engine doesn't support granting permissions for contract creation")]
    #[diagnostic(code(arbiter_server::evm::analyze_error::contract_creation_not_supported))]
    ContractCreationNotSupported,
    #[error("Unsupported transaction type")]
    #[diagnostic(code(arbiter_server::evm::analyze_error::unsupported_transaction_type))]
    UnsupportedTransactionType,
 }
 #[derive(Debug, thiserror::Error)]
 pub enum ListError {
    #[error("Database error")]
    Database(#[from] crate::db::DatabaseError),
    #[error("Integrity verification failed for grant")]
    Integrity(#[from] integrity::Error),
 }
 /// Controls whether a transaction should be executed or only validated
 #[derive(Debug, Clone, Copy, PartialEq, Eq)]
 pub enum RunKind {
@@ -82,6 +90,14 @@ async fn check_shared_constraints(
    let mut violations = Vec::new();
    let now = Utc::now();
    if shared.chain != context.chain {
        violations.push(EvalViolation::MismatchingChainId {
            expected: shared.chain,
            actual: context.chain,
        });
        return Ok(violations);
    }
    // Validity window
    if shared.valid_from.is_some_and(|t| now < t) || shared.valid_until.is_some_and(|t| now > t) {
        violations.push(EvalViolation::InvalidTime);
@@ -122,6 +138,7 @@ async fn check_shared_constraints(
 // Supporting only EIP-1559 transactions for now, but we can easily extend this to support legacy transactions if needed
 pub struct Engine {
    db: db::DatabasePool,
    vault: ActorRef<Vault>,
 }
 impl Engine {
@@ -130,7 +147,10 @@ impl Engine {
        context: EvalContext,
        meaning: &P::Meaning,
        run_kind: RunKind,
-    ) -> Result<(), PolicyError> {
+    ) -> Result<(), PolicyError>
    where
        P::Settings: Clone,
    {
        let mut conn = self.db.get().await.map_err(DatabaseError::from)?;
        let grant = P::try_find_grant(&context, &mut conn)
@@ -138,8 +158,14 @@ impl Engine {
            .map_err(DatabaseError::from)?
            .ok_or(PolicyError::NoMatchingGrant)?;
-        let mut violations =
+        integrity::verify_entity(&mut conn, &self.vault, &grant.settings, grant.id).await?;
-            check_shared_constraints(&context, &grant.shared, grant.shared_grant_id, &mut conn)
+
        let mut violations = check_shared_constraints(
            &context,
            &grant.settings.shared,
            grant.common_settings_id,
            &mut conn,
        )
        .await
        .map_err(DatabaseError::from)?;
        violations.extend(
@@ -150,12 +176,14 @@ impl Engine {
        if !violations.is_empty() {
            return Err(PolicyError::Violations(violations));
-        } else if run_kind == RunKind::Execution {
+        }
        if run_kind == RunKind::Execution {
            conn.transaction(|conn| {
                Box::pin(async move {
                    let log_id: i32 = insert_into(evm_transaction_log::table)
                        .values(&NewEvmTransactionLog {
-                            grant_id: grant.shared_grant_id,
+                            grant_id: grant.common_settings_id,
                            wallet_access_id: context.target.id,
                            chain_id: context.chain as i32,
                            eth_value: utils::u256_to_bytes(context.value).to_vec(),
@@ -179,15 +207,19 @@ impl Engine {
 }
 impl Engine {
-    pub fn new(db: db::DatabasePool) -> Self {
+    pub fn new(db: db::DatabasePool, vault: ActorRef<Vault>) -> Self {
-        Self { db }
+        Self { db, vault }
    }
    pub async fn create_grant<P: Policy>(
        &self,
-        full_grant: FullGrant<P::Settings>,
+        full_grant: CombinedSettings<P::Settings>,
-    ) -> Result<i32, DatabaseError> {
+    ) -> Result<i32, DatabaseError>
    where
        P::Settings: Clone,
    {
        let mut conn = self.db.get().await?;
        let vault = self.vault.clone();
        let id = conn
            .transaction(|conn| {
@@ -196,25 +228,25 @@ impl Engine {
                    let basic_grant: EvmBasicGrant = insert_into(evm_basic_grant::table)
                        .values(&NewEvmBasicGrant {
-                            chain_id: full_grant.basic.chain as i32,
+                            chain_id: full_grant.shared.chain as i32,
-                            wallet_access_id: full_grant.basic.wallet_access_id,
+                            wallet_access_id: full_grant.shared.wallet_access_id,
-                            valid_from: full_grant.basic.valid_from.map(SqliteTimestamp),
+                            valid_from: full_grant.shared.valid_from.map(SqliteTimestamp),
-                            valid_until: full_grant.basic.valid_until.map(SqliteTimestamp),
+                            valid_until: full_grant.shared.valid_until.map(SqliteTimestamp),
                            max_gas_fee_per_gas: full_grant
-                                .basic
+                                .shared
                                .max_gas_fee_per_gas
                                .map(|fee| utils::u256_to_bytes(fee).to_vec()),
                            max_priority_fee_per_gas: full_grant
-                                .basic
+                                .shared
                                .max_priority_fee_per_gas
                                .map(|fee| utils::u256_to_bytes(fee).to_vec()),
                            rate_limit_count: full_grant
-                                .basic
+                                .shared
                                .rate_limit
                                .as_ref()
                                .map(|rl| rl.count as i32),
                            rate_limit_window_secs: full_grant
-                                .basic
+                                .shared
                                .rate_limit
                                .as_ref()
                                .map(|rl| rl.window.num_seconds() as i32),
@@ -224,7 +256,13 @@ impl Engine {
                        .get_result(conn)
                        .await?;
-                    P::create_grant(&basic_grant, &full_grant.specific, conn).await
+                    P::create_grant(&basic_grant, &full_grant.specific, conn).await?;
                    integrity::sign_entity(conn, &vault, &full_grant, basic_grant.id)
                        .await
                        .map_err(|_| diesel::result::Error::RollbackTransaction)?;
                    QueryResult::Ok(basic_grant.id)
                })
            })
            .await?;
@@ -232,33 +270,36 @@ impl Engine {
        Ok(id)
    }
-    pub async fn list_all_grants(&self) -> Result<Vec<Grant<SpecificGrant>>, DatabaseError> {
+    async fn list_one_kind<Kind: Policy, Y>(
-        let mut conn = self.db.get().await?;
+        &self,
        conn: &mut impl AsyncConnection<Backend = Sqlite>,
    ) -> Result<impl Iterator<Item = Grant<Y>>, ListError>
    where
        Y: From<Kind::Settings>,
    {
        let all_grants = Kind::find_all_grants(conn)
            .await
            .map_err(DatabaseError::from)?;
        // Verify integrity of all grants before returning any results
        for grant in &all_grants {
            integrity::verify_entity(conn, &self.vault, &grant.settings, grant.id).await?;
        }
        Ok(all_grants.into_iter().map(|g| Grant {
            id: g.id,
            common_settings_id: g.common_settings_id,
            settings: g.settings.generalize(),
        }))
    }
    pub async fn list_all_grants(&self) -> Result<Vec<Grant<SpecificGrant>>, ListError> {
        let mut conn = self.db.get().await.map_err(DatabaseError::from)?;
        let mut grants: Vec<Grant<SpecificGrant>> = Vec::new();
-        grants.extend(
+        grants.extend(self.list_one_kind::<EtherTransfer, _>(&mut conn).await?);
-            EtherTransfer::find_all_grants(&mut conn)
+        grants.extend(self.list_one_kind::<TokenTransfer, _>(&mut conn).await?);
                .await?
                .into_iter()
                .map(|g| Grant {
                    id: g.id,
                    shared_grant_id: g.shared_grant_id,
                    shared: g.shared,
                    settings: SpecificGrant::EtherTransfer(g.settings),
                }),
        );
        grants.extend(
            TokenTransfer::find_all_grants(&mut conn)
                .await?
                .into_iter()
                .map(|g| Grant {
                    id: g.id,
                    shared_grant_id: g.shared_grant_id,
                    shared: g.shared,
                    settings: SpecificGrant::TokenTransfer(g.settings),
                }),
        );
        Ok(grants)
    }
@@ -304,3 +345,255 @@ impl Engine {
        Err(VetError::UnsupportedTransactionType)
    }
 }
 #[cfg(test)]
 mod tests {
    use alloy::primitives::{Address, Bytes, U256, address};
    use chrono::{Duration, Utc};
    use diesel::{SelectableHelper, insert_into};
    use diesel_async::RunQueryDsl;
    use rstest::rstest;
    use crate::db::{
        self, DatabaseConnection,
        models::{
            EvmBasicGrant, EvmWalletAccess, NewEvmBasicGrant, NewEvmTransactionLog, SqliteTimestamp,
        },
        schema::{evm_basic_grant, evm_transaction_log},
    };
    use crate::evm::policies::{
        EvalContext, EvalViolation, SharedGrantSettings, TransactionRateLimit,
    };
    use super::check_shared_constraints;
    const WALLET_ACCESS_ID: i32 = 1;
    const CHAIN_ID: u64 = 1;
    const RECIPIENT: Address = address!("1111111111111111111111111111111111111111");
    fn context() -> EvalContext {
        EvalContext {
            target: EvmWalletAccess {
                id: WALLET_ACCESS_ID,
                wallet_id: 10,
                client_id: 20,
                created_at: SqliteTimestamp(Utc::now()),
            },
            chain: CHAIN_ID,
            to: RECIPIENT,
            value: U256::ZERO,
            calldata: Bytes::new(),
            max_fee_per_gas: 100,
            max_priority_fee_per_gas: 10,
        }
    }
    fn shared_settings() -> SharedGrantSettings {
        SharedGrantSettings {
            wallet_access_id: WALLET_ACCESS_ID,
            chain: CHAIN_ID,
            valid_from: None,
            valid_until: None,
            max_gas_fee_per_gas: None,
            max_priority_fee_per_gas: None,
            rate_limit: None,
        }
    }
    async fn insert_basic_grant(
        conn: &mut DatabaseConnection,
        shared: &SharedGrantSettings,
    ) -> EvmBasicGrant {
        insert_into(evm_basic_grant::table)
            .values(NewEvmBasicGrant {
                wallet_access_id: shared.wallet_access_id,
                chain_id: shared.chain as i32,
                valid_from: shared.valid_from.map(SqliteTimestamp),
                valid_until: shared.valid_until.map(SqliteTimestamp),
                max_gas_fee_per_gas: shared
                    .max_gas_fee_per_gas
                    .map(|fee| super::utils::u256_to_bytes(fee).to_vec()),
                max_priority_fee_per_gas: shared
                    .max_priority_fee_per_gas
                    .map(|fee| super::utils::u256_to_bytes(fee).to_vec()),
                rate_limit_count: shared.rate_limit.as_ref().map(|limit| limit.count as i32),
                rate_limit_window_secs: shared
                    .rate_limit
                    .as_ref()
                    .map(|limit| limit.window.num_seconds() as i32),
                revoked_at: None,
            })
            .returning(EvmBasicGrant::as_select())
            .get_result(conn)
            .await
            .unwrap()
    }
    #[rstest]
    #[case::matching_chain(CHAIN_ID, false)]
    #[case::mismatching_chain(CHAIN_ID + 1, true)]
    #[tokio::test]
    async fn check_shared_constraints_enforces_chain_id(
        #[case] context_chain: u64,
        #[case] expect_mismatch: bool,
    ) {
        let db = db::create_test_pool().await;
        let mut conn = db.get().await.unwrap();
        let context = EvalContext {
            chain: context_chain,
            ..context()
        };
        let violations = check_shared_constraints(&context, &shared_settings(), 999, &mut *conn)
            .await
            .unwrap();
        assert_eq!(
            violations
                .iter()
                .any(|violation| matches!(violation, EvalViolation::MismatchingChainId { .. })),
            expect_mismatch
        );
        if expect_mismatch {
            assert_eq!(violations.len(), 1);
        } else {
            assert!(violations.is_empty());
        }
    }
    #[rstest]
    #[case::valid_from_in_bounds(Some(Utc::now() - Duration::hours(1)), None, false)]
    #[case::valid_from_out_of_bounds(Some(Utc::now() + Duration::hours(1)), None, true)]
    #[case::valid_until_in_bounds(None, Some(Utc::now() + Duration::hours(1)), false)]
    #[case::valid_until_out_of_bounds(None, Some(Utc::now() - Duration::hours(1)), true)]
    #[tokio::test]
    async fn check_shared_constraints_enforces_validity_window(
        #[case] valid_from: Option<chrono::DateTime<Utc>>,
        #[case] valid_until: Option<chrono::DateTime<Utc>>,
        #[case] expect_invalid_time: bool,
    ) {
        let db = db::create_test_pool().await;
        let mut conn = db.get().await.unwrap();
        let shared = SharedGrantSettings {
            valid_from,
            valid_until,
            ..shared_settings()
        };
        let violations = check_shared_constraints(&context(), &shared, 999, &mut *conn)
            .await
            .unwrap();
        assert_eq!(
            violations
                .iter()
                .any(|violation| matches!(violation, EvalViolation::InvalidTime)),
            expect_invalid_time
        );
        if expect_invalid_time {
            assert_eq!(violations.len(), 1);
        } else {
            assert!(violations.is_empty());
        }
    }
    #[rstest]
    #[case::max_fee_within_limit(Some(U256::from(100u64)), None, 100, 10, false)]
    #[case::max_fee_exceeded(Some(U256::from(99u64)), None, 100, 10, true)]
    #[case::priority_fee_within_limit(None, Some(U256::from(10u64)), 100, 10, false)]
    #[case::priority_fee_exceeded(None, Some(U256::from(9u64)), 100, 10, true)]
    #[tokio::test]
    async fn check_shared_constraints_enforces_gas_fee_caps(
        #[case] max_gas_fee_per_gas: Option<U256>,
        #[case] max_priority_fee_per_gas: Option<U256>,
        #[case] actual_max_fee_per_gas: u128,
        #[case] actual_max_priority_fee_per_gas: u128,
        #[case] expect_gas_limit_violation: bool,
    ) {
        let db = db::create_test_pool().await;
        let mut conn = db.get().await.unwrap();
        let context = EvalContext {
            max_fee_per_gas: actual_max_fee_per_gas,
            max_priority_fee_per_gas: actual_max_priority_fee_per_gas,
            ..context()
        };
        let shared = SharedGrantSettings {
            max_gas_fee_per_gas,
            max_priority_fee_per_gas,
            ..shared_settings()
        };
        let violations = check_shared_constraints(&context, &shared, 999, &mut *conn)
            .await
            .unwrap();
        assert_eq!(
            violations
                .iter()
                .any(|violation| matches!(violation, EvalViolation::GasLimitExceeded { .. })),
            expect_gas_limit_violation
        );
        if expect_gas_limit_violation {
            assert_eq!(violations.len(), 1);
        } else {
            assert!(violations.is_empty());
        }
    }
    #[rstest]
    #[case::under_rate_limit(2, false)]
    #[case::at_rate_limit(1, true)]
    #[tokio::test]
    async fn check_shared_constraints_enforces_rate_limit(
        #[case] rate_limit_count: u32,
        #[case] expect_rate_limit_violation: bool,
    ) {
        let db = db::create_test_pool().await;
        let mut conn = db.get().await.unwrap();
        let shared = SharedGrantSettings {
            rate_limit: Some(TransactionRateLimit {
                count: rate_limit_count,
                window: Duration::hours(1),
            }),
            ..shared_settings()
        };
        let basic_grant = insert_basic_grant(&mut conn, &shared).await;
        insert_into(evm_transaction_log::table)
            .values(NewEvmTransactionLog {
                grant_id: basic_grant.id,
                wallet_access_id: WALLET_ACCESS_ID,
                chain_id: CHAIN_ID as i32,
                eth_value: super::utils::u256_to_bytes(U256::ZERO).to_vec(),
                signed_at: SqliteTimestamp(Utc::now()),
            })
            .execute(&mut *conn)
            .await
            .unwrap();
        let violations = check_shared_constraints(&context(), &shared, basic_grant.id, &mut *conn)
            .await
            .unwrap();
        assert_eq!(
            violations
                .iter()
                .any(|violation| matches!(violation, EvalViolation::RateLimitExceeded)),
            expect_rate_limit_violation
        );
        if expect_rate_limit_violation {
            assert_eq!(violations.len(), 1);
        } else {
            assert!(violations.is_empty());
        }
    }
 }
--- a/server/crates/arbiter-server/src/evm/policies.rs
+++ b/server/crates/arbiter-server/src/evm/policies.rs
@@ -6,10 +6,11 @@ use diesel::{
    ExpressionMethods as _, QueryDsl, SelectableHelper, result::QueryResult, sqlite::Sqlite,
 };
 use diesel_async::{AsyncConnection, RunQueryDsl};
-use miette::Diagnostic;
+
 use thiserror::Error;
 use crate::{
    crypto::integrity::v1::Integrable,
    db::models::{self, EvmBasicGrant, EvmWalletAccess},
    evm::utils,
 };
@@ -33,34 +34,31 @@ pub struct EvalContext {
    pub max_priority_fee_per_gas: u128,
 }
-#[derive(Debug, Error, Diagnostic)]
+#[derive(Debug, Error)]
 pub enum EvalViolation {
    #[error("This grant doesn't allow transactions to the target address {target}")]
    #[diagnostic(code(arbiter_server::evm::eval_violation::invalid_target))]
    InvalidTarget { target: Address },
    #[error("Gas limit exceeded for this grant")]
    #[diagnostic(code(arbiter_server::evm::eval_violation::gas_limit_exceeded))]
    GasLimitExceeded {
        max_gas_fee_per_gas: Option<U256>,
        max_priority_fee_per_gas: Option<U256>,
    },
    #[error("Rate limit exceeded for this grant")]
    #[diagnostic(code(arbiter_server::evm::eval_violation::rate_limit_exceeded))]
    RateLimitExceeded,
    #[error("Transaction exceeds volumetric limits of the grant")]
    #[diagnostic(code(arbiter_server::evm::eval_violation::volumetric_limit_exceeded))]
    VolumetricLimitExceeded,
    #[error("Transaction is outside of the grant's validity period")]
    #[diagnostic(code(arbiter_server::evm::eval_violation::invalid_time))]
    InvalidTime,
    #[error("Transaction type is not allowed by this grant")]
    #[diagnostic(code(arbiter_server::evm::eval_violation::invalid_transaction_type))]
    InvalidTransactionType,
    #[error("Mismatching chain ID")]
    MismatchingChainId { expected: ChainId, actual: ChainId },
 }
 pub type DatabaseID = i32;
@@ -68,13 +66,12 @@ pub type DatabaseID = i32;
 #[derive(Debug)]
 pub struct Grant<PolicySettings> {
    pub id: DatabaseID,
-    pub shared_grant_id: DatabaseID, // ID of the basic grant for shared-logic checks like rate limits and validity periods
+    pub common_settings_id: DatabaseID, // ID of the basic grant for shared-logic checks like rate limits and validity periods
-    pub shared: SharedGrantSettings,
+    pub settings: CombinedSettings<PolicySettings>,
    pub settings: PolicySettings,
 }
 pub trait Policy: Sized {
-    type Settings: Send + Sync + 'static + Into<SpecificGrant>;
+    type Settings: Send + Sync + 'static + Into<SpecificGrant> + Integrable;
    type Meaning: Display + std::fmt::Debug + Send + Sync + 'static + Into<SpecificMeaning>;
    fn analyze(context: &EvalContext) -> Option<Self::Meaning>;
@@ -130,13 +127,13 @@ pub enum SpecificMeaning {
    TokenTransfer(token_transfers::Meaning),
 }
-#[derive(Clone, Debug, PartialEq, Eq, Hash)]
+#[derive(Clone, Debug, PartialEq, Eq, Hash, PartialOrd, Ord)]
 pub struct TransactionRateLimit {
    pub count: u32,
    pub window: Duration,
 }
-#[derive(Clone, Debug, PartialEq, Eq, Hash)]
+#[derive(Clone, Debug, PartialEq, Eq, Hash, PartialOrd, Ord)]
 pub struct VolumeRateLimit {
    pub max_volume: U256,
    pub window: Duration,
@@ -157,7 +154,7 @@ pub struct SharedGrantSettings {
 }
 impl SharedGrantSettings {
-    fn try_from_model(model: EvmBasicGrant) -> QueryResult<Self> {
+    pub(crate) fn try_from_model(model: EvmBasicGrant) -> QueryResult<Self> {
        Ok(Self {
            wallet_access_id: model.wallet_access_id,
            chain: model.chain_id as u64, // safe because chain_id is stored as i32 but is guaranteed to be a valid ChainId by the API when creating grants
@@ -203,7 +200,57 @@ pub enum SpecificGrant {
    TokenTransfer(token_transfers::Settings),
 }
-pub struct FullGrant<PolicyGrant> {
+#[derive(Debug)]
-    pub basic: SharedGrantSettings,
+pub struct CombinedSettings<PolicyGrant> {
    pub shared: SharedGrantSettings,
    pub specific: PolicyGrant,
 }
 impl<P> CombinedSettings<P> {
    pub fn generalize<Y: From<P>>(self) -> CombinedSettings<Y> {
        CombinedSettings {
            shared: self.shared,
            specific: self.specific.into(),
        }
    }
 }
 impl<P: Integrable> Integrable for CombinedSettings<P> {
    const KIND: &'static str = P::KIND;
    const VERSION: i32 = P::VERSION;
 }
 use crate::crypto::integrity::hashing::Hashable;
 impl Hashable for TransactionRateLimit {
    fn hash<H: sha2::Digest>(&self, hasher: &mut H) {
        self.count.hash(hasher);
        self.window.hash(hasher);
    }
 }
 impl Hashable for VolumeRateLimit {
    fn hash<H: sha2::Digest>(&self, hasher: &mut H) {
        self.max_volume.hash(hasher);
        self.window.hash(hasher);
    }
 }
 impl Hashable for SharedGrantSettings {
    fn hash<H: sha2::Digest>(&self, hasher: &mut H) {
        self.wallet_access_id.hash(hasher);
        self.chain.hash(hasher);
        self.valid_from.hash(hasher);
        self.valid_until.hash(hasher);
        self.max_gas_fee_per_gas.hash(hasher);
        self.max_priority_fee_per_gas.hash(hasher);
        self.rate_limit.hash(hasher);
    }
 }
 impl<P: Hashable> Hashable for CombinedSettings<P> {
    fn hash<H: sha2::Digest>(&self, hasher: &mut H) {
        self.shared.hash(hasher);
        self.specific.hash(hasher);
    }
 }
--- a/server/crates/arbiter-server/src/evm/policies/ether_transfer/mod.rs
+++ b/server/crates/arbiter-server/src/evm/policies/ether_transfer/mod.rs
@@ -8,13 +8,14 @@ use diesel::sqlite::Sqlite;
 use diesel::{ExpressionMethods, JoinOnDsl, prelude::*};
 use diesel_async::{AsyncConnection, RunQueryDsl};
 use crate::crypto::integrity::v1::Integrable;
 use crate::db::models::{
    EvmBasicGrant, EvmEtherTransferGrant, EvmEtherTransferGrantTarget, EvmEtherTransferLimit,
    NewEvmEtherTransferLimit, SqliteTimestamp,
 };
 use crate::db::schema::{evm_basic_grant, evm_ether_transfer_limit, evm_transaction_log};
 use crate::evm::policies::{
-    Grant, SharedGrantSettings, SpecificGrant, SpecificMeaning, VolumeRateLimit,
+    CombinedSettings, Grant, SharedGrantSettings, SpecificGrant, SpecificMeaning, VolumeRateLimit,
 };
 use crate::{
    db::{
@@ -56,6 +57,18 @@ pub struct Settings {
    pub target: Vec<Address>,
    pub limit: VolumeRateLimit,
 }
 impl Integrable for Settings {
    const KIND: &'static str = "EtherTransfer";
 }
 use crate::crypto::integrity::hashing::Hashable;
 impl Hashable for Settings {
    fn hash<H: sha2::Digest>(&self, hasher: &mut H) {
        self.target.hash(hasher);
        self.limit.hash(hasher);
    }
 }
 impl From<Settings> for SpecificGrant {
    fn from(val: Settings) -> SpecificGrant {
@@ -95,17 +108,17 @@ async fn check_rate_limits(
    db: &mut impl AsyncConnection<Backend = Sqlite>,
 ) -> QueryResult<Vec<EvalViolation>> {
    let mut violations = Vec::new();
-    let window = grant.settings.limit.window;
+    let window = grant.settings.specific.limit.window;
    let past_transaction = query_relevant_past_transaction(grant.id, window, db).await?;
-    let window_start = chrono::Utc::now() - grant.settings.limit.window;
+    let window_start = chrono::Utc::now() - grant.settings.specific.limit.window;
    let prospective_cumulative_volume: U256 = past_transaction
        .iter()
        .filter(|(_, timestamp)| timestamp >= &window_start)
        .fold(current_transfer_value, |acc, (value, _)| acc + *value);
-    if prospective_cumulative_volume > grant.settings.limit.max_volume {
+    if prospective_cumulative_volume > grant.settings.specific.limit.max_volume {
        violations.push(EvalViolation::VolumetricLimitExceeded);
    }
@@ -138,7 +151,7 @@ impl Policy for EtherTransfer {
        let mut violations = Vec::new();
        // Check if the target address is within the grant's allowed targets
-        if !grant.settings.target.contains(&meaning.to) {
+        if !grant.settings.specific.target.contains(&meaning.to) {
            violations.push(EvalViolation::InvalidTarget { target: meaning.to });
        }
@@ -247,9 +260,11 @@ impl Policy for EtherTransfer {
        Ok(Some(Grant {
            id: grant.id,
-            shared_grant_id: grant.basic_grant_id,
+            common_settings_id: grant.basic_grant_id,
            settings: CombinedSettings {
                shared: SharedGrantSettings::try_from_model(basic_grant)?,
-            settings,
+                specific: settings,
            },
        }))
    }
@@ -327,9 +342,10 @@ impl Policy for EtherTransfer {
                Ok(Grant {
                    id: specific.id,
-                    shared_grant_id: specific.basic_grant_id,
+                    common_settings_id: specific.basic_grant_id,
                    settings: CombinedSettings {
                        shared: SharedGrantSettings::try_from_model(basic)?,
-                    settings: Settings {
+                        specific: Settings {
                            target: targets,
                            limit: VolumeRateLimit {
                                max_volume: utils::try_bytes_to_u256(&limit.max_volume).map_err(
@@ -338,6 +354,7 @@ impl Policy for EtherTransfer {
                                window: Duration::seconds(limit.window_secs as i64),
                            },
                        },
                    },
                })
            })
            .collect()
--- a/server/crates/arbiter-server/src/evm/policies/ether_transfer/tests.rs
+++ b/server/crates/arbiter-server/src/evm/policies/ether_transfer/tests.rs
@@ -11,7 +11,10 @@ use crate::db::{
    schema::{evm_basic_grant, evm_transaction_log},
 };
 use crate::evm::{
-    policies::{EvalContext, EvalViolation, Grant, Policy, SharedGrantSettings, VolumeRateLimit},
+    policies::{
        CombinedSettings, EvalContext, EvalViolation, Grant, Policy, SharedGrantSettings,
        VolumeRateLimit,
    },
    utils,
 };
@@ -81,8 +84,6 @@ fn shared() -> SharedGrantSettings {
    }
 }
 // ── analyze ─────────────────────────────────────────────────────────────
 #[test]
 fn analyze_matches_empty_calldata() {
    let m = EtherTransfer::analyze(&ctx(ALLOWED, U256::from(1_000u64))).unwrap();
@@ -99,8 +100,6 @@ fn analyze_rejects_nonempty_calldata() {
    assert!(EtherTransfer::analyze(&context).is_none());
 }
 // ── evaluate ────────────────────────────────────────────────────────────
 #[tokio::test]
 async fn evaluate_passes_for_allowed_target() {
    let db = db::create_test_pool().await;
@@ -108,9 +107,11 @@ async fn evaluate_passes_for_allowed_target() {
    let grant = Grant {
        id: 999,
-        shared_grant_id: 999,
+        common_settings_id: 999,
        settings: CombinedSettings {
            shared: shared(),
-        settings: make_settings(vec![ALLOWED], 1_000_000),
+            specific: make_settings(vec![ALLOWED], 1_000_000),
        },
    };
    let context = ctx(ALLOWED, U256::from(100u64));
    let m = EtherTransfer::analyze(&context).unwrap();
@@ -127,9 +128,11 @@ async fn evaluate_rejects_disallowed_target() {
    let grant = Grant {
        id: 999,
-        shared_grant_id: 999,
+        common_settings_id: 999,
        settings: CombinedSettings {
            shared: shared(),
-        settings: make_settings(vec![ALLOWED], 1_000_000),
+            specific: make_settings(vec![ALLOWED], 1_000_000),
        },
    };
    let context = ctx(OTHER, U256::from(100u64));
    let m = EtherTransfer::analyze(&context).unwrap();
@@ -167,9 +170,11 @@ async fn evaluate_passes_when_volume_within_limit() {
    let grant = Grant {
        id: grant_id,
-        shared_grant_id: basic.id,
+        common_settings_id: basic.id,
        settings: CombinedSettings {
            shared: shared(),
-        settings,
+            specific: settings,
        },
    };
    let context = ctx(ALLOWED, U256::from(100u64));
    let m = EtherTransfer::analyze(&context).unwrap();
@@ -207,9 +212,11 @@ async fn evaluate_rejects_volume_over_limit() {
    let grant = Grant {
        id: grant_id,
-        shared_grant_id: basic.id,
+        common_settings_id: basic.id,
        settings: CombinedSettings {
            shared: shared(),
-        settings,
+            specific: settings,
        },
    };
    let context = ctx(ALLOWED, U256::from(1u64));
    let m = EtherTransfer::analyze(&context).unwrap();
@@ -248,9 +255,11 @@ async fn evaluate_passes_at_exactly_volume_limit() {
    let grant = Grant {
        id: grant_id,
-        shared_grant_id: basic.id,
+        common_settings_id: basic.id,
        settings: CombinedSettings {
            shared: shared(),
-        settings,
+            specific: settings,
        },
    };
    let context = ctx(ALLOWED, U256::from(100u64));
    let m = EtherTransfer::analyze(&context).unwrap();
@@ -263,8 +272,6 @@ async fn evaluate_passes_at_exactly_volume_limit() {
    );
 }
 // ── try_find_grant ───────────────────────────────────────────────────────
 #[tokio::test]
 async fn try_find_grant_roundtrip() {
    let db = db::create_test_pool().await;
@@ -282,8 +289,11 @@ async fn try_find_grant_roundtrip() {
    assert!(found.is_some());
    let g = found.unwrap();
-    assert_eq!(g.settings.target, vec![ALLOWED]);
+    assert_eq!(g.settings.specific.target, vec![ALLOWED]);
-    assert_eq!(g.settings.limit.max_volume, U256::from(1_000_000u64));
+    assert_eq!(
        g.settings.specific.limit.max_volume,
        U256::from(1_000_000u64)
    );
 }
 #[tokio::test]
@@ -320,7 +330,36 @@ async fn try_find_grant_wrong_target_returns_none() {
    assert!(found.is_none());
 }
-// ── find_all_grants ──────────────────────────────────────────────────────
+proptest::proptest! {
    #[test]
    fn target_order_does_not_affect_hash(
        raw_addrs in proptest::collection::vec(proptest::prelude::any::<[u8; 20]>(), 0..8),
        seed in proptest::prelude::any::<u64>(),
        max_volume in proptest::prelude::any::<u64>(),
        window_secs in 1i64..=86400,
    ) {
        use rand::{SeedableRng, seq::SliceRandom};
        use sha2::Digest;
        use crate::crypto::integrity::hashing::Hashable;
        let addrs: Vec<Address> = raw_addrs.iter().map(|b| Address::from(*b)).collect();
        let mut shuffled = addrs.clone();
        shuffled.shuffle(&mut rand::rngs::StdRng::seed_from_u64(seed));
        let limit = VolumeRateLimit {
            max_volume: U256::from(max_volume),
            window: Duration::seconds(window_secs),
        };
        let mut h1 = sha2::Sha256::new();
        Settings { target: addrs, limit: limit.clone() }.hash(&mut h1);
        let mut h2 = sha2::Sha256::new();
        Settings { target: shuffled, limit }.hash(&mut h2);
        proptest::prop_assert_eq!(h1.finalize(), h2.finalize());
    }
 }
 #[tokio::test]
 async fn find_all_grants_empty_db() {
@@ -347,7 +386,7 @@ async fn find_all_grants_excludes_revoked() {
    let all = EtherTransfer::find_all_grants(&mut *conn).await.unwrap();
    assert_eq!(all.len(), 1);
-    assert_eq!(all[0].settings.target, vec![ALLOWED]);
+    assert_eq!(all[0].settings.specific.target, vec![ALLOWED]);
 }
 #[tokio::test]
@@ -363,8 +402,11 @@ async fn find_all_grants_multiple_targets() {
    let all = EtherTransfer::find_all_grants(&mut *conn).await.unwrap();
    assert_eq!(all.len(), 1);
-    assert_eq!(all[0].settings.target.len(), 2);
+    assert_eq!(all[0].settings.specific.target.len(), 2);
-    assert_eq!(all[0].settings.limit.max_volume, U256::from(1_000_000u64));
+    assert_eq!(
        all[0].settings.specific.limit.max_volume,
        U256::from(1_000_000u64)
    );
 }
 #[tokio::test]
--- a/server/crates/arbiter-server/src/evm/policies/token_transfers/mod.rs
+++ b/server/crates/arbiter-server/src/evm/policies/token_transfers/mod.rs
@@ -1,20 +1,5 @@
 use std::collections::HashMap;
 use alloy::{
    primitives::{Address, U256},
    sol_types::SolCall,
 };
 use arbiter_tokens_registry::evm::nonfungible::{self, TokenInfo};
 use chrono::{DateTime, Duration, Utc};
 use diesel::dsl::{auto_type, insert_into};
 use diesel::sqlite::Sqlite;
 use diesel::{ExpressionMethods, prelude::*};
 use diesel_async::{AsyncConnection, RunQueryDsl};
 use crate::db::models::{
    EvmBasicGrant, EvmTokenTransferGrant, EvmTokenTransferVolumeLimit, NewEvmTokenTransferGrant,
    NewEvmTokenTransferLog, NewEvmTokenTransferVolumeLimit, SqliteTimestamp,
 };
 use crate::db::schema::{
    evm_basic_grant, evm_token_transfer_grant, evm_token_transfer_log,
    evm_token_transfer_volume_limit,
@@ -26,6 +11,25 @@ use crate::evm::{
    },
    utils,
 };
 use crate::{
    crypto::integrity::Integrable,
    db::models::{
        EvmBasicGrant, EvmTokenTransferGrant, EvmTokenTransferVolumeLimit,
        NewEvmTokenTransferGrant, NewEvmTokenTransferLog, NewEvmTokenTransferVolumeLimit,
        SqliteTimestamp,
    },
    evm::policies::CombinedSettings,
 };
 use alloy::{
    primitives::{Address, U256},
    sol_types::SolCall,
 };
 use arbiter_tokens_registry::evm::nonfungible::{self, TokenInfo};
 use chrono::{DateTime, Duration, Utc};
 use diesel::dsl::{auto_type, insert_into};
 use diesel::sqlite::Sqlite;
 use diesel::{ExpressionMethods, prelude::*};
 use diesel_async::{AsyncConnection, RunQueryDsl};
 use super::{DatabaseID, EvalContext, EvalViolation};
@@ -38,9 +42,9 @@ fn grant_join() -> _ {
 #[derive(Clone, Debug, PartialEq, Eq, Hash)]
 pub struct Meaning {
-    pub(crate) token: &'static TokenInfo,
+    pub token: &'static TokenInfo,
-    pub(crate) to: Address,
+    pub to: Address,
-    pub(crate) value: U256,
+    pub value: U256,
 }
 impl std::fmt::Display for Meaning {
    fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
@@ -64,6 +68,20 @@ pub struct Settings {
    pub target: Option<Address>,
    pub volume_limits: Vec<VolumeRateLimit>,
 }
 impl Integrable for Settings {
    const KIND: &'static str = "TokenTransfer";
 }
 use crate::crypto::integrity::hashing::Hashable;
 impl Hashable for Settings {
    fn hash<H: sha2::Digest>(&self, hasher: &mut H) {
        self.token_contract.hash(hasher);
        self.target.hash(hasher);
        self.volume_limits.hash(hasher);
    }
 }
 impl From<Settings> for SpecificGrant {
    fn from(val: Settings) -> SpecificGrant {
        SpecificGrant::TokenTransfer(val)
@@ -106,13 +124,20 @@ async fn check_volume_rate_limits(
 ) -> QueryResult<Vec<EvalViolation>> {
    let mut violations = Vec::new();
-    let Some(longest_window) = grant.settings.volume_limits.iter().map(|l| l.window).max() else {
+    let Some(longest_window) = grant
        .settings
        .specific
        .volume_limits
        .iter()
        .map(|l| l.window)
        .max()
    else {
        return Ok(violations);
    };
    let past_transfers = query_relevant_past_transfers(grant.id, longest_window, db).await?;
-    for limit in &grant.settings.volume_limits {
+    for limit in &grant.settings.specific.volume_limits {
        let window_start = chrono::Utc::now() - limit.window;
        let prospective_cumulative_volume: U256 = past_transfers
            .iter()
@@ -158,7 +183,7 @@ impl Policy for TokenTransfer {
            return Ok(violations);
        }
-        if let Some(allowed) = grant.settings.target
+        if let Some(allowed) = grant.settings.specific.target
            && allowed != meaning.to
        {
            violations.push(EvalViolation::InvalidTarget { target: meaning.to });
@@ -269,9 +294,11 @@ impl Policy for TokenTransfer {
        Ok(Some(Grant {
            id: token_grant.id,
-            shared_grant_id: token_grant.basic_grant_id,
+            common_settings_id: token_grant.basic_grant_id,
            settings: CombinedSettings {
                shared: SharedGrantSettings::try_from_model(basic_grant)?,
-            settings,
+                specific: settings,
            },
        }))
    }
@@ -369,13 +396,15 @@ impl Policy for TokenTransfer {
                Ok(Grant {
                    id: specific.id,
-                    shared_grant_id: specific.basic_grant_id,
+                    common_settings_id: specific.basic_grant_id,
                    settings: CombinedSettings {
                        shared: SharedGrantSettings::try_from_model(basic)?,
-                    settings: Settings {
+                        specific: Settings {
                            token_contract: Address::from(token_contract),
                            target,
                            volume_limits,
                        },
                    },
                })
            })
            .collect()
--- a/server/crates/arbiter-server/src/evm/policies/token_transfers/tests.rs
+++ b/server/crates/arbiter-server/src/evm/policies/token_transfers/tests.rs
@@ -11,7 +11,10 @@ use crate::db::{
 };
 use crate::evm::{
    abi::IERC20::transferCall,
-    policies::{EvalContext, EvalViolation, Grant, Policy, SharedGrantSettings, VolumeRateLimit},
+    policies::{
        CombinedSettings, EvalContext, EvalViolation, Grant, Policy, SharedGrantSettings,
        VolumeRateLimit,
    },
    utils,
 };
@@ -98,8 +101,6 @@ fn shared() -> SharedGrantSettings {
    }
 }
 // ── analyze ─────────────────────────────────────────────────────────────
 #[test]
 fn analyze_known_token_valid_calldata() {
    let calldata = transfer_calldata(RECIPIENT, U256::from(100u64));
@@ -125,8 +126,6 @@ fn analyze_empty_calldata_returns_none() {
    assert!(TokenTransfer::analyze(&ctx(DAI, Bytes::new())).is_none());
 }
 // ── evaluate ────────────────────────────────────────────────────────────
 #[tokio::test]
 async fn evaluate_rejects_nonzero_eth_value() {
    let db = db::create_test_pool().await;
@@ -134,9 +133,11 @@ async fn evaluate_rejects_nonzero_eth_value() {
    let grant = Grant {
        id: 999,
-        shared_grant_id: 999,
+        common_settings_id: 999,
        settings: CombinedSettings {
            shared: shared(),
-        settings: make_settings(None, None),
+            specific: make_settings(None, None),
        },
    };
    let calldata = transfer_calldata(RECIPIENT, U256::from(100u64));
    let mut context = ctx(DAI, calldata);
@@ -163,9 +164,11 @@ async fn evaluate_passes_any_recipient_when_no_restriction() {
    let grant = Grant {
        id: 999,
-        shared_grant_id: 999,
+        common_settings_id: 999,
        settings: CombinedSettings {
            shared: shared(),
-        settings: make_settings(None, None),
+            specific: make_settings(None, None),
        },
    };
    let calldata = transfer_calldata(RECIPIENT, U256::from(100u64));
    let context = ctx(DAI, calldata);
@@ -183,9 +186,11 @@ async fn evaluate_passes_matching_restricted_recipient() {
    let grant = Grant {
        id: 999,
-        shared_grant_id: 999,
+        common_settings_id: 999,
        settings: CombinedSettings {
            shared: shared(),
-        settings: make_settings(Some(RECIPIENT), None),
+            specific: make_settings(Some(RECIPIENT), None),
        },
    };
    let calldata = transfer_calldata(RECIPIENT, U256::from(100u64));
    let context = ctx(DAI, calldata);
@@ -203,9 +208,11 @@ async fn evaluate_rejects_wrong_restricted_recipient() {
    let grant = Grant {
        id: 999,
-        shared_grant_id: 999,
+        common_settings_id: 999,
        settings: CombinedSettings {
            shared: shared(),
-        settings: make_settings(Some(RECIPIENT), None),
+            specific: make_settings(Some(RECIPIENT), None),
        },
    };
    let calldata = transfer_calldata(OTHER, U256::from(100u64));
    let context = ctx(DAI, calldata);
@@ -247,9 +254,11 @@ async fn evaluate_passes_volume_at_exact_limit() {
    let grant = Grant {
        id: grant_id,
-        shared_grant_id: basic.id,
+        common_settings_id: basic.id,
        settings: CombinedSettings {
            shared: shared(),
-        settings,
+            specific: settings,
        },
    };
    let calldata = transfer_calldata(RECIPIENT, U256::from(100u64));
    let context = ctx(DAI, calldata);
@@ -290,9 +299,11 @@ async fn evaluate_rejects_volume_over_limit() {
    let grant = Grant {
        id: grant_id,
-        shared_grant_id: basic.id,
+        common_settings_id: basic.id,
        settings: CombinedSettings {
            shared: shared(),
-        settings,
+            specific: settings,
        },
    };
    let calldata = transfer_calldata(RECIPIENT, U256::from(1u64));
    let context = ctx(DAI, calldata);
@@ -313,9 +324,11 @@ async fn evaluate_no_volume_limits_always_passes() {
    let grant = Grant {
        id: 999,
-        shared_grant_id: 999,
+        common_settings_id: 999,
        settings: CombinedSettings {
            shared: shared(),
-        settings: make_settings(None, None), // no volume limits
+            specific: make_settings(None, None), // no volume limits
        },
    };
    let calldata = transfer_calldata(RECIPIENT, U256::from(u64::MAX));
    let context = ctx(DAI, calldata);
@@ -349,10 +362,13 @@ async fn try_find_grant_roundtrip() {
    assert!(found.is_some());
    let g = found.unwrap();
-    assert_eq!(g.settings.token_contract, DAI);
+    assert_eq!(g.settings.specific.token_contract, DAI);
-    assert_eq!(g.settings.target, Some(RECIPIENT));
+    assert_eq!(g.settings.specific.target, Some(RECIPIENT));
-    assert_eq!(g.settings.volume_limits.len(), 1);
+    assert_eq!(g.settings.specific.volume_limits.len(), 1);
-    assert_eq!(g.settings.volume_limits[0].max_volume, U256::from(5_000u64));
+    assert_eq!(
        g.settings.specific.volume_limits[0].max_volume,
        U256::from(5_000u64)
    );
 }
 #[tokio::test]
@@ -392,7 +408,39 @@ async fn try_find_grant_unknown_token_returns_none() {
    assert!(found.is_none());
 }
-// ── find_all_grants ──────────────────────────────────────────────────────
+proptest::proptest! {
    #[test]
    fn volume_limits_order_does_not_affect_hash(
        raw_limits in proptest::collection::vec(
            (proptest::prelude::any::<u64>(), 1i64..=86400),
            0..8,
        ),
        seed in proptest::prelude::any::<u64>(),
    ) {
        use rand::{SeedableRng, seq::SliceRandom};
        use sha2::Digest;
        use crate::crypto::integrity::hashing::Hashable;
        let limits: Vec<VolumeRateLimit> = raw_limits
            .iter()
            .map(|(max_vol, window_secs)| VolumeRateLimit {
                max_volume: U256::from(*max_vol),
                window: Duration::seconds(*window_secs),
            })
            .collect();
        let mut shuffled = limits.clone();
        shuffled.shuffle(&mut rand::rngs::StdRng::seed_from_u64(seed));
        let mut h1 = sha2::Sha256::new();
        Settings { token_contract: DAI, target: None, volume_limits: limits }.hash(&mut h1);
        let mut h2 = sha2::Sha256::new();
        Settings { token_contract: DAI, target: None, volume_limits: shuffled }.hash(&mut h2);
        proptest::prop_assert_eq!(h1.finalize(), h2.finalize());
    }
 }
 #[tokio::test]
 async fn find_all_grants_empty_db() {
@@ -434,9 +482,9 @@ async fn find_all_grants_loads_volume_limits() {
    let all = TokenTransfer::find_all_grants(&mut *conn).await.unwrap();
    assert_eq!(all.len(), 1);
-    assert_eq!(all[0].settings.volume_limits.len(), 1);
+    assert_eq!(all[0].settings.specific.volume_limits.len(), 1);
    assert_eq!(
-        all[0].settings.volume_limits[0].max_volume,
+        all[0].settings.specific.volume_limits[0].max_volume,
        U256::from(9_999u64)
    );
 }
--- a/server/crates/arbiter-server/src/evm/safe_signer.rs
+++ b/server/crates/arbiter-server/src/evm/safe_signer.rs
@@ -1,12 +1,12 @@
 use std::sync::Mutex;
 use crate::safe_cell::{SafeCell, SafeCellHandle as _};
 use alloy::{
    consensus::SignableTransaction,
    network::{TxSigner, TxSignerSync},
    primitives::{Address, B256, ChainId, Signature},
    signers::{Error, Result, Signer, SignerSync, utils::secret_key_to_address},
 };
 use arbiter_crypto::safecell::{SafeCell, SafeCellHandle as _};
 use async_trait::async_trait;
 use k256::ecdsa::{self, RecoveryId, SigningKey, signature::hazmat::PrehashSigner};
--- a/server/crates/arbiter-server/src/grpc/client.rs
+++ b/server/crates/arbiter-server/src/grpc/client.rs
@@ -10,8 +10,8 @@ use tonic::Status;
 use tracing::{info, warn};
 use crate::{
    actors::client::{ClientConnection, session::ClientSession},
    grpc::request_tracker::RequestTracker,
    peers::client::{ClientConnection, session::ClientSession},
 };
 mod auth;
--- a/server/crates/arbiter-server/src/grpc/client/auth.rs
+++ b/server/crates/arbiter-server/src/grpc/client/auth.rs
@@ -1,3 +1,4 @@
 use arbiter_crypto::authn;
 use arbiter_proto::{
    ClientMetadata,
    proto::{
@@ -21,8 +22,8 @@ use tonic::Status;
 use tracing::warn;
 use crate::{
    actors::client::{self, ClientConnection, auth},
    grpc::request_tracker::RequestTracker,
    peers::client::{self, ClientConnection, auth},
 };
 pub struct AuthTransportAdapter<'a> {
@@ -45,7 +46,7 @@ impl<'a> AuthTransportAdapter<'a> {
        match response {
            auth::Outbound::AuthChallenge { pubkey, nonce } => {
                AuthResponsePayload::Challenge(ProtoAuthChallenge {
-                    pubkey: pubkey.to_bytes().to_vec(),
+                    pubkey: pubkey.to_bytes(),
                    nonce,
                })
            }
@@ -68,6 +69,7 @@ impl<'a> AuthTransportAdapter<'a> {
                auth::Error::ApproveError(auth::ApproveError::Internal)
                | auth::Error::DatabasePoolUnavailable
                | auth::Error::DatabaseOperationFailed
                | auth::Error::IntegrityCheckFailed
                | auth::Error::Transport => ProtoAuthResult::Internal,
            }
            .into(),
@@ -140,7 +142,9 @@ impl Receiver<auth::Inbound> for AuthTransportAdapter<'_> {
        let Some(payload) = auth_request.payload else {
            let _ = self
                .bi
-                .send(Err(Status::invalid_argument("Missing client auth request payload")))
+                .send(Err(Status::invalid_argument(
                    "Missing client auth request payload",
                )))
                .await;
            return None;
        };
@@ -157,11 +161,7 @@ impl Receiver<auth::Inbound> for AuthTransportAdapter<'_> {
                        .await;
                    return None;
                };
-                let Ok(pubkey) = <[u8; 32]>::try_from(pubkey) else {
+                let Ok(pubkey) = authn::PublicKey::try_from(pubkey.as_slice()) else {
                    let _ = self.send_auth_result(ProtoAuthResult::InvalidKey).await;
                    return None;
                };
                let Ok(pubkey) = ed25519_dalek::VerifyingKey::from_bytes(&pubkey) else {
                    let _ = self.send_auth_result(ProtoAuthResult::InvalidKey).await;
                    return None;
                };
@@ -170,10 +170,8 @@ impl Receiver<auth::Inbound> for AuthTransportAdapter<'_> {
                    metadata: client_metadata_from_proto(client_info),
                })
            }
-            AuthRequestPayload::ChallengeSolution(ProtoAuthChallengeSolution {
+            AuthRequestPayload::ChallengeSolution(ProtoAuthChallengeSolution { signature }) => {
-                signature,
+                let Ok(signature) = authn::Signature::try_from(signature.as_slice()) else {
            }) => {
                let Ok(signature) = ed25519_dalek::Signature::try_from(signature.as_slice()) else {
                    let _ = self
                        .send_auth_result(ProtoAuthResult::InvalidSignature)
                        .await;
--- a/server/crates/arbiter-server/src/grpc/client/evm.rs
+++ b/server/crates/arbiter-server/src/grpc/client/evm.rs
@@ -16,11 +16,11 @@ use tonic::Status;
 use tracing::warn;
 use crate::{
    actors::client::session::{ClientSession, HandleSignTransaction, SignTransactionRpcError},
    grpc::{
        Convert, TryConvert,
        common::inbound::{RawEvmAddress, RawEvmTransaction},
    },
    peers::client::session::{ClientSession, HandleSignTransaction, SignTransactionRpcError},
 };
 fn wrap_response(payload: EvmResponsePayload) -> ClientResponsePayload {
@@ -34,7 +34,9 @@ pub(super) async fn dispatch(
    req: proto_evm::Request,
 ) -> Result<ClientResponsePayload, Status> {
    let Some(payload) = req.payload else {
-        return Err(Status::invalid_argument("Missing client EVM request payload"));
+        return Err(Status::invalid_argument(
            "Missing client EVM request payload",
        ));
    };
    match payload {
@@ -59,13 +61,13 @@ pub(super) async fn dispatch(
                ))) => EvmSignTransactionResponse {
                    result: Some(vet_error.convert()),
                },
-                Err(kameo::error::SendError::HandlerError(
+                Err(kameo::error::SendError::HandlerError(SignTransactionRpcError::Internal)) => {
-                    SignTransactionRpcError::Internal,
+                    EvmSignTransactionResponse {
                )) => EvmSignTransactionResponse {
                        result: Some(EvmSignTransactionResult::Error(
                            ProtoEvmError::Internal.into(),
                        )),
-                },
+                    }
                }
                Err(err) => {
                    warn!(error = ?err, "Failed to sign EVM transaction");
                    EvmSignTransactionResponse {
@@ -78,8 +80,8 @@ pub(super) async fn dispatch(
            Ok(wrap_response(EvmResponsePayload::SignTransaction(response)))
        }
-        EvmRequestPayload::AnalyzeTransaction(_) => {
+        EvmRequestPayload::AnalyzeTransaction(_) => Err(Status::unimplemented(
-            Err(Status::unimplemented("EVM transaction analysis is not yet implemented"))
+            "EVM transaction analysis is not yet implemented",
-        }
+        )),
    }
 }
--- a/server/crates/arbiter-server/src/grpc/client/inbound.rs
+++ b/server/crates/arbiter-server/src/grpc/client/inbound.rs
@@ -0,0 +1 @@
--- a/server/crates/arbiter-server/src/grpc/client/outbound.rs
+++ b/server/crates/arbiter-server/src/grpc/client/outbound.rs
@@ -0,0 +1 @@
--- a/server/crates/arbiter-server/src/grpc/client/vault.rs
+++ b/server/crates/arbiter-server/src/grpc/client/vault.rs
@@ -13,10 +13,8 @@ use tonic::Status;
 use tracing::warn;
 use crate::{
-    actors::{
+    actors::vault::VaultState,
-        client::session::{ClientSession, Error, HandleQueryVaultState},
+    peers::client::session::{ClientSession, Error, HandleQueryVaultState},
        keyholder::KeyHolderState,
    },
 };
 pub(super) async fn dispatch(
@@ -24,15 +22,17 @@ pub(super) async fn dispatch(
    req: proto_vault::Request,
 ) -> Result<ClientResponsePayload, Status> {
    let Some(payload) = req.payload else {
-        return Err(Status::invalid_argument("Missing client vault request payload"));
+        return Err(Status::invalid_argument(
            "Missing client vault request payload",
        ));
    };
    match payload {
        VaultRequestPayload::QueryState(_) => {
            let state = match actor.ask(HandleQueryVaultState {}).await {
-                Ok(KeyHolderState::Unbootstrapped) => ProtoVaultState::Unbootstrapped,
+                Ok(VaultState::Unbootstrapped) => ProtoVaultState::Unbootstrapped,
-                Ok(KeyHolderState::Sealed) => ProtoVaultState::Sealed,
+                Ok(VaultState::Sealed) => ProtoVaultState::Sealed,
-                Ok(KeyHolderState::Unsealed) => ProtoVaultState::Unsealed,
+                Ok(VaultState::Unsealed) => ProtoVaultState::Unsealed,
                Err(SendError::HandlerError(Error::Internal)) => ProtoVaultState::Error,
                Err(err) => {
                    warn!(error = ?err, "Failed to query vault state");
--- a/server/crates/arbiter-server/src/grpc/common/inbound.rs
+++ b/server/crates/arbiter-server/src/grpc/common/inbound.rs
@@ -28,9 +28,8 @@ impl TryConvert for RawEvmTransaction {
    type Error = tonic::Status;
    fn try_convert(self) -> Result<Self::Output, Self::Error> {
-        let tx = TxEip1559::decode(&mut self.0.as_slice()).map_err(|_| {
+        let tx = TxEip1559::decode(&mut self.0.as_slice())
-            tonic::Status::invalid_argument("Invalid EVM transaction format")
+            .map_err(|_| tonic::Status::invalid_argument("Invalid EVM transaction format"))?;
        })?;
        Ok(tx)
    }
 }
--- a/server/crates/arbiter-server/src/grpc/common/outbound.rs
+++ b/server/crates/arbiter-server/src/grpc/common/outbound.rs
@@ -1,11 +1,14 @@
 use alloy::primitives::U256;
 use arbiter_proto::proto::{
-    evm::{EvmError as ProtoEvmError, evm_sign_transaction_response::Result as EvmSignTransactionResult},
+    evm::{
        EvmError as ProtoEvmError,
        evm_sign_transaction_response::Result as EvmSignTransactionResult,
    },
    shared::evm::{
-        EvalViolation as ProtoEvalViolation, GasLimitExceededViolation,
+        EvalViolation as ProtoEvalViolation, GasLimitExceededViolation, NoMatchingGrantError,
-        NoMatchingGrantError, PolicyViolationsError, SpecificMeaning as ProtoSpecificMeaning,
+        PolicyViolationsError, SpecificMeaning as ProtoSpecificMeaning,
        TokenInfo as ProtoTokenInfo, TransactionEvalError as ProtoTransactionEvalError,
-        eval_violation::Kind as ProtoEvalViolationKind,
+        eval_violation as proto_eval_violation, eval_violation::Kind as ProtoEvalViolationKind,
        specific_meaning::Meaning as ProtoSpecificMeaningKind,
        transaction_eval_error::Kind as ProtoTransactionEvalErrorKind,
    },
@@ -76,6 +79,12 @@ impl Convert for EvalViolation {
            EvalViolation::InvalidTransactionType => {
                ProtoEvalViolationKind::InvalidTransactionType(())
            }
            EvalViolation::MismatchingChainId { expected, actual } => {
                ProtoEvalViolationKind::ChainIdMismatch(proto_eval_violation::ChainIdMismatch {
                    expected,
                    actual,
                })
            }
        };
        ProtoEvalViolation { kind: Some(kind) }
@@ -105,12 +114,12 @@ impl Convert for VetError {
                        violations: violations.into_iter().map(Convert::convert).collect(),
                    })
                }
-                PolicyError::Database(_) => {
+                PolicyError::Database(_) | PolicyError::Integrity(_) => {
                    return EvmSignTransactionResult::Error(ProtoEvmError::Internal.into());
                }
            },
        };
-        EvmSignTransactionResult::EvalError(ProtoTransactionEvalError { kind: Some(kind) }.into())
+        EvmSignTransactionResult::EvalError(ProtoTransactionEvalError { kind: Some(kind) })
    }
 }
--- a/server/crates/arbiter-server/src/grpc/mod.rs
+++ b/server/crates/arbiter-server/src/grpc/mod.rs
@@ -10,8 +10,7 @@ use tonic::{Request, Response, Status, async_trait};
 use tracing::info;
 use crate::{
-    actors::{client::ClientConnection, user_agent::UserAgentConnection},
+    peers::{client::ClientConnection, user_agent::UserAgentConnection},
    grpc::user_agent::start,
 };
 mod request_tracker;
@@ -63,7 +62,7 @@ impl arbiter_proto::proto::arbiter_service_server::ArbiterService for super::Ser
        let (bi, rx) = GrpcBi::from_bi_stream(req_stream);
-        tokio::spawn(start(
+        tokio::spawn(user_agent::start(
            UserAgentConnection {
                db: self.context.db.clone(),
                actors: self.context.actors.clone(),
--- a/server/crates/arbiter-server/src/grpc/user_agent.rs
+++ b/server/crates/arbiter-server/src/grpc/user_agent.rs
@@ -1,13 +1,11 @@
-use tokio::sync::mpsc;
+use tokio::sync::{mpsc, oneshot};
 use arbiter_proto::{
-    proto::{
+    proto::user_agent::{
        user_agent::{
        UserAgentRequest, UserAgentResponse,
        user_agent_request::Payload as UserAgentRequestPayload,
        user_agent_response::Payload as UserAgentResponsePayload,
    },
    },
    transport::{Error as TransportError, Receiver, Sender, grpc::GrpcBi},
 };
 use async_trait::async_trait;
@@ -16,15 +14,21 @@ use tonic::Status;
 use tracing::{error, info, warn};
 use crate::{
-    actors::user_agent::{OutOfBand, UserAgentConnection, UserAgentSession},
+    crypto::integrity,
    grpc::request_tracker::RequestTracker,
    peers::user_agent::{
        Credentials, OutOfBand, UserAgentConnection, UserAgentSession,
        vault_gate::VaultGate,
    },
 };
 mod auth;
 mod evm;
 mod inbound;
 mod outbound;
 mod sdk_client;
 mod vault;
 mod vault_gate;
 pub struct OutOfBandAdapter(mpsc::Sender<OutOfBand>);
@@ -125,21 +129,115 @@ pub async fn start(
 ) {
    let mut request_tracker = RequestTracker::default();
-    let pubkey = match auth::start(&mut conn, &mut bi, &mut request_tracker).await {
+    let auth_creds = match auth::start(&mut conn, &mut bi, &mut request_tracker).await {
-        Ok(pubkey) => pubkey,
+        Ok(creds) => creds,
        Err(e) => {
            warn!(error = ?e, "Authentication failed");
            return;
        }
    };
    info!(pubkey = ?auth_creds.creds.pubkey, "User authenticated successfully");
    let creds = if integrity::is_signing_available(&conn.actors.vault)
        .await
        .unwrap_or(false)
    {
        // Vault is unsealed; integrity was verified during auth — promote directly.
        auth_creds.creds
    } else {
        // Vault is sealed/unbootstrapped; run the VaultGate phase.
        let (promotion_tx, promotion_rx) = oneshot::channel();
        let gate = VaultGate::spawn(VaultGate::new(
            auth_creds,
            conn.actors.clone(),
            conn.db.clone(),
            promotion_tx,
        ));
        let result = vault_gate_loop(&mut bi, &gate, &mut request_tracker, promotion_rx).await;
        gate.kill();
        match result {
            Some(creds) => creds,
            None => return,
        }
    };
    let (oob_sender, oob_receiver) = mpsc::channel(16);
    let oob_adapter = OutOfBandAdapter(oob_sender);
-    let actor = UserAgentSession::spawn(UserAgentSession::new(conn, Box::new(oob_adapter)));
+    let actor = UserAgentSession::spawn(UserAgentSession::new(conn, creds, Box::new(oob_adapter)));
    let actor_for_cleanup = actor.clone();
    info!(?pubkey, "User authenticated successfully");
    dispatch_loop(bi, actor, oob_receiver, request_tracker).await;
    actor_for_cleanup.kill();
 }
 async fn vault_gate_loop(
    bi: &mut GrpcBi<UserAgentRequest, UserAgentResponse>,
    gate: &ActorRef<VaultGate>,
    request_tracker: &mut RequestTracker,
    mut promotion_rx: oneshot::Receiver<Result<Credentials, crate::peers::user_agent::vault_gate::Error>>,
 ) -> Option<Credentials> {
    loop {
        tokio::select! {
            result = &mut promotion_rx => {
                return match result {
                    Ok(Ok(creds)) => Some(creds),
                    Ok(Err(e)) => {
                        warn!(error = ?e, "VaultGate promotion failed");
                        None
                    }
                    Err(_) => {
                        warn!("VaultGate promotion channel closed unexpectedly");
                        None
                    }
                };
            }
            message = bi.recv() => {
                let Some(message) = message else { return None; };
                let conn = match message {
                    Ok(conn) => conn,
                    Err(err) => {
                        warn!(error = ?err, "Failed to receive request during vault gate phase");
                        return None;
                    }
                };
                let request_id = match request_tracker.request(conn.id) {
                    Ok(id) => id,
                    Err(err) => {
                        let _ = bi.send(Err(err)).await;
                        return None;
                    }
                };
                let Some(payload) = conn.payload else {
                    let _ = bi.send(Err(Status::invalid_argument("Missing request payload"))).await;
                    return None;
                };
                let response = match payload {
                    UserAgentRequestPayload::Vault(req) => vault_gate::dispatch(gate, req).await,
                    _ => Err(Status::permission_denied("Only vault operations are permitted before unsealing")),
                };
                match response {
                    Ok(Some(payload)) => {
                        if bi.send(Ok(UserAgentResponse { id: Some(request_id), payload: Some(payload) })).await.is_err() {
                            return None;
                        }
                    }
                    Ok(None) => {}
                    Err(status) => {
                        let _ = bi.send(Err(status)).await;
                        return None;
                    }
                }
            }
        }
    }
 }
--- a/server/crates/arbiter-server/src/grpc/user_agent/auth.rs
+++ b/server/crates/arbiter-server/src/grpc/user_agent/auth.rs
@@ -1,12 +1,14 @@
 use arbiter_crypto::authn;
 use arbiter_proto::{
    proto::user_agent::{
-        UserAgentRequest, UserAgentResponse, auth::{
+        UserAgentRequest, UserAgentResponse,
        auth::{
            self as proto_auth, AuthChallenge as ProtoAuthChallenge,
            AuthChallengeRequest as ProtoAuthChallengeRequest,
            AuthChallengeSolution as ProtoAuthChallengeSolution, AuthResult as ProtoAuthResult,
-            KeyType as ProtoKeyType, request::Payload as AuthRequestPayload,
+            request::Payload as AuthRequestPayload, response::Payload as AuthResponsePayload,
-            response::Payload as AuthResponsePayload,
+        },
-        }, user_agent_request::Payload as UserAgentRequestPayload,
+        user_agent_request::Payload as UserAgentRequestPayload,
        user_agent_response::Payload as UserAgentResponsePayload,
    },
    transport::{Bi, Error as TransportError, Receiver, Sender, grpc::GrpcBi},
@@ -16,14 +18,13 @@ use tonic::Status;
 use tracing::warn;
 use crate::{
    actors::user_agent::{AuthPublicKey, UserAgentConnection, auth},
    db::models::KeyType,
    grpc::request_tracker::RequestTracker,
    peers::user_agent::{AuthCredentials, UserAgentConnection, auth},
 };
 pub struct AuthTransportAdapter<'a> {
-    bi: &'a mut GrpcBi<UserAgentRequest, UserAgentResponse>,
+    pub(super) bi: &'a mut GrpcBi<UserAgentRequest, UserAgentResponse>,
-    request_tracker: &'a mut RequestTracker,
+    pub(super) request_tracker: &'a mut RequestTracker,
 }
 impl<'a> AuthTransportAdapter<'a> {
@@ -37,16 +38,32 @@ impl<'a> AuthTransportAdapter<'a> {
        }
    }
-    async fn send_user_agent_response(
+    pub(super) fn bi_mut(&mut self) -> &mut GrpcBi<UserAgentRequest, UserAgentResponse> {
        self.bi
    }
    pub(super) fn tracker_mut(&mut self) -> &mut RequestTracker {
        self.request_tracker
    }
    pub(super) async fn send_response_payload(
        &mut self,
-        payload: AuthResponsePayload,
+        payload: UserAgentResponsePayload,
    ) -> Result<(), TransportError> {
        self.bi
            .send(Ok(UserAgentResponse {
                id: Some(self.request_tracker.current_request_id()),
                payload: Some(UserAgentResponsePayload::Auth(proto_auth::Response {
                payload: Some(payload),
-                })),
+            }))
            .await
    }
    async fn send_user_agent_response(
        &mut self,
        payload: AuthResponsePayload,
    ) -> Result<(), TransportError> {
        self.send_response_payload(UserAgentResponsePayload::Auth(proto_auth::Response {
            payload: Some(payload),
        }))
        .await
    }
@@ -63,7 +80,9 @@ impl Sender<Result<auth::Outbound, auth::Error>> for AuthTransportAdapter<'_> {
            Ok(Outbound::AuthChallenge { nonce }) => {
                AuthResponsePayload::Challenge(ProtoAuthChallenge { nonce })
            }
-            Ok(Outbound::AuthSuccess) => AuthResponsePayload::Result(ProtoAuthResult::Success.into()),
+            Ok(Outbound::AuthSuccess) => {
                AuthResponsePayload::Result(ProtoAuthResult::Success.into())
            }
            Err(Error::UnregisteredPublicKey) => {
                AuthResponsePayload::Result(ProtoAuthResult::InvalidKey.into())
            }
@@ -137,28 +156,8 @@ impl Receiver<auth::Inbound> for AuthTransportAdapter<'_> {
            AuthRequestPayload::ChallengeRequest(ProtoAuthChallengeRequest {
                pubkey,
                bootstrap_token,
                key_type,
            }) => {
-                let Ok(key_type) = ProtoKeyType::try_from(key_type) else {
+                let Ok(pubkey) = authn::PublicKey::try_from(pubkey.as_slice()) else {
                    warn!(
                        event = "received request with invalid key type",
                        "grpc.useragent.auth_adapter"
                    );
                    return None;
                };
                let key_type = match key_type {
                    ProtoKeyType::Ed25519 => KeyType::Ed25519,
                    ProtoKeyType::EcdsaSecp256k1 => KeyType::EcdsaSecp256k1,
                    ProtoKeyType::Rsa => KeyType::Rsa,
                    ProtoKeyType::Unspecified => {
                        warn!(
                            event = "received request with unspecified key type",
                            "grpc.useragent.auth_adapter"
                        );
                        return None;
                    }
                };
                let Ok(pubkey) = AuthPublicKey::try_from((key_type, pubkey)) else {
                    warn!(
                        event = "received request with invalid public key",
                        "grpc.useragent.auth_adapter"
@@ -171,9 +170,9 @@ impl Receiver<auth::Inbound> for AuthTransportAdapter<'_> {
                    bootstrap_token,
                })
            }
-            AuthRequestPayload::ChallengeSolution(ProtoAuthChallengeSolution {
+            AuthRequestPayload::ChallengeSolution(ProtoAuthChallengeSolution { signature }) => {
-                signature,
+                Some(auth::Inbound::AuthChallengeSolution { signature })
-            }) => Some(auth::Inbound::AuthChallengeSolution { signature }),
+            }
        }
    }
 }
@@ -184,7 +183,7 @@ pub async fn start(
    conn: &mut UserAgentConnection,
    bi: &mut GrpcBi<UserAgentRequest, UserAgentResponse>,
    request_tracker: &mut RequestTracker,
-) -> Result<AuthPublicKey, auth::Error> {
+) -> Result<AuthCredentials, auth::Error> {
-    let transport = AuthTransportAdapter::new(bi, request_tracker);
+    let mut transport = AuthTransportAdapter::new(bi, request_tracker);
-    auth::authenticate(conn, transport).await
+    auth::authenticate(conn, &mut transport).await
 }
--- a/server/crates/arbiter-server/src/grpc/user_agent/evm.rs
+++ b/server/crates/arbiter-server/src/grpc/user_agent/evm.rs
@@ -3,8 +3,7 @@ use arbiter_proto::proto::{
        EvmError as ProtoEvmError, EvmGrantCreateRequest, EvmGrantCreateResponse,
        EvmGrantDeleteRequest, EvmGrantDeleteResponse, EvmGrantList, EvmGrantListResponse,
        EvmSignTransactionResponse, GrantEntry, WalletCreateResponse, WalletEntry, WalletList,
-        WalletListResponse,
+        WalletListResponse, evm_grant_create_response::Result as EvmGrantCreateResult,
        evm_grant_create_response::Result as EvmGrantCreateResult,
        evm_grant_delete_response::Result as EvmGrantDeleteResult,
        evm_grant_list_response::Result as EvmGrantListResult,
        evm_sign_transaction_response::Result as EvmSignTransactionResult,
@@ -24,18 +23,18 @@ use tonic::Status;
 use tracing::warn;
 use crate::{
    actors::user_agent::{
        UserAgentSession,
        session::connection::{
            HandleEvmWalletCreate, HandleEvmWalletList, HandleGrantCreate, HandleGrantDelete,
            HandleGrantList, HandleSignTransaction,
            SignTransactionError as SessionSignTransactionError,
        },
    },
    grpc::{
        Convert, TryConvert,
        common::inbound::{RawEvmAddress, RawEvmTransaction},
    },
    peers::user_agent::{
        UserAgentSession,
        session::handlers::{
            GrantMutationError, HandleEvmWalletCreate, HandleEvmWalletList, HandleGrantCreate,
            HandleGrantDelete, HandleGrantList, HandleSignTransaction,
            SignTransactionError as SessionSignTransactionError,
        },
    },
 };
 fn wrap_evm_response(payload: EvmResponsePayload) -> UserAgentResponsePayload {
@@ -115,10 +114,10 @@ async fn handle_grant_list(
            grants: grants
                .into_iter()
                .map(|grant| GrantEntry {
-                    id: grant.id,
+                    id: grant.common_settings_id,
-                    wallet_access_id: grant.shared.wallet_access_id,
+                    wallet_access_id: grant.settings.shared.wallet_access_id,
-                    shared: Some(grant.shared.convert()),
+                    shared: Some(grant.settings.shared.convert()),
-                    specific: Some(grant.settings.convert()),
+                    specific: Some(grant.settings.specific.convert()),
                })
                .collect(),
        }),
@@ -149,6 +148,9 @@ async fn handle_grant_create(
    let result = match actor.ask(HandleGrantCreate { basic, grant }).await {
        Ok(grant_id) => EvmGrantCreateResult::GrantId(grant_id),
        Err(kameo::error::SendError::HandlerError(GrantMutationError::VaultSealed)) => {
            EvmGrantCreateResult::Error(ProtoEvmError::VaultSealed.into())
        }
        Err(err) => {
            warn!(error = ?err, "Failed to create EVM grant");
            EvmGrantCreateResult::Error(ProtoEvmError::Internal.into())
@@ -165,8 +167,16 @@ async fn handle_grant_delete(
    actor: &ActorRef<UserAgentSession>,
    req: EvmGrantDeleteRequest,
 ) -> Result<Option<UserAgentResponsePayload>, Status> {
-    let result = match actor.ask(HandleGrantDelete { grant_id: req.grant_id }).await {
+    let result = match actor
        .ask(HandleGrantDelete {
            grant_id: req.grant_id,
        })
        .await
    {
        Ok(()) => EvmGrantDeleteResult::Ok(()),
        Err(kameo::error::SendError::HandlerError(GrantMutationError::VaultSealed)) => {
            EvmGrantDeleteResult::Error(ProtoEvmError::VaultSealed.into())
        }
        Err(err) => {
            warn!(error = ?err, "Failed to delete EVM grant");
            EvmGrantDeleteResult::Error(ProtoEvmError::Internal.into())
@@ -202,18 +212,18 @@ async fn handle_sign_transaction(
                signature.as_bytes().to_vec(),
            )),
        },
-        Err(kameo::error::SendError::HandlerError(
+        Err(kameo::error::SendError::HandlerError(SessionSignTransactionError::Vet(vet_error))) => {
-            SessionSignTransactionError::Vet(vet_error),
+            EvmSignTransactionResponse {
        )) => EvmSignTransactionResponse {
                result: Some(vet_error.convert()),
-        },
+            }
-        Err(kameo::error::SendError::HandlerError(
+        }
-            SessionSignTransactionError::Internal,
+        Err(kameo::error::SendError::HandlerError(SessionSignTransactionError::Internal)) => {
-        )) => EvmSignTransactionResponse {
+            EvmSignTransactionResponse {
                result: Some(EvmSignTransactionResult::Error(
                    ProtoEvmError::Internal.into(),
                )),
-        },
+            }
        }
        Err(err) => {
            warn!(error = ?err, "Failed to sign EVM transaction");
            EvmSignTransactionResponse {
@@ -224,7 +234,7 @@ async fn handle_sign_transaction(
        }
    };
-    Ok(Some(wrap_evm_response(EvmResponsePayload::SignTransaction(
+    Ok(Some(wrap_evm_response(
-        response,
+        EvmResponsePayload::SignTransaction(response),
-    ))))
+    )))
 }
--- a/server/crates/arbiter-server/src/grpc/user_agent/outbound.rs
+++ b/server/crates/arbiter-server/src/grpc/user_agent/outbound.rs
@@ -5,9 +5,7 @@ use arbiter_proto::proto::{
        TransactionRateLimit as ProtoTransactionRateLimit, VolumeRateLimit as ProtoVolumeRateLimit,
        specific_grant::Grant as ProtoSpecificGrantType,
    },
-    user_agent::sdk_client::{
+    user_agent::sdk_client::{WalletAccess, WalletAccessEntry as ProtoSdkClientWalletAccess},
        WalletAccess, WalletAccessEntry as ProtoSdkClientWalletAccess,
    },
 };
 use chrono::{DateTime, Utc};
 use prost_types::Timestamp as ProtoTimestamp;
--- a/server/crates/arbiter-server/src/grpc/user_agent/sdk_client.rs
+++ b/server/crates/arbiter-server/src/grpc/user_agent/sdk_client.rs
@@ -1,4 +1,6 @@
 use arbiter_crypto::authn;
 use arbiter_proto::proto::{
    shared::ClientInfo as ProtoClientMetadata,
    user_agent::{
        sdk_client::{
            self as proto_sdk_client, ConnectionCancel as ProtoSdkClientConnectionCancel,
@@ -13,22 +15,21 @@ use arbiter_proto::proto::{
        },
        user_agent_response::Payload as UserAgentResponsePayload,
    },
    shared::ClientInfo as ProtoClientMetadata,
 };
 use kameo::actor::ActorRef;
 use tonic::Status;
 use tracing::{info, warn};
 use crate::{
-    actors::user_agent::{
+    db::models::NewEvmWalletAccess,
    grpc::Convert,
    peers::user_agent::{
        OutOfBand, UserAgentSession,
-        session::connection::{
+        session::handlers::{
            HandleGrantEvmWalletAccess, HandleListWalletAccess, HandleNewClientApprove,
            HandleRevokeEvmWalletAccess, HandleSdkClientList,
        },
    },
    db::models::NewEvmWalletAccess,
    grpc::Convert,
 };
 fn wrap_sdk_client_response(payload: SdkClientResponsePayload) -> UserAgentResponsePayload {
@@ -41,7 +42,7 @@ pub(super) fn out_of_band_payload(oob: OutOfBand) -> UserAgentResponsePayload {
    match oob {
        OutOfBand::ClientConnectionRequest { profile } => wrap_sdk_client_response(
            SdkClientResponsePayload::ConnectionRequest(ProtoSdkClientConnectionRequest {
-                pubkey: profile.pubkey.to_bytes().to_vec(),
+                pubkey: profile.pubkey.to_bytes(),
                info: Some(ProtoClientMetadata {
                    name: profile.metadata.name,
                    description: profile.metadata.description,
@@ -51,7 +52,7 @@ pub(super) fn out_of_band_payload(oob: OutOfBand) -> UserAgentResponsePayload {
        ),
        OutOfBand::ClientConnectionCancel { pubkey } => wrap_sdk_client_response(
            SdkClientResponsePayload::ConnectionCancel(ProtoSdkClientConnectionCancel {
-                pubkey: pubkey.to_bytes().to_vec(),
+                pubkey: pubkey.to_bytes(),
            }),
        ),
    }
@@ -62,18 +63,22 @@ pub(super) async fn dispatch(
    req: proto_sdk_client::Request,
 ) -> Result<Option<UserAgentResponsePayload>, Status> {
    let Some(payload) = req.payload else {
-        return Err(Status::invalid_argument("Missing SDK client request payload"));
+        return Err(Status::invalid_argument(
            "Missing SDK client request payload",
        ));
    };
    match payload {
        SdkClientRequestPayload::ConnectionResponse(resp) => {
            handle_connection_response(actor, resp).await
        }
-        SdkClientRequestPayload::Revoke(_) => {
+        SdkClientRequestPayload::Revoke(_) => Err(Status::unimplemented(
-            Err(Status::unimplemented("SdkClientRevoke is not yet implemented"))
+            "SdkClientRevoke is not yet implemented",
-        }
+        )),
        SdkClientRequestPayload::List(_) => handle_list(actor).await,
-        SdkClientRequestPayload::GrantWalletAccess(req) => handle_grant_wallet_access(actor, req).await,
+        SdkClientRequestPayload::GrantWalletAccess(req) => {
            handle_grant_wallet_access(actor, req).await
        }
        SdkClientRequestPayload::RevokeWalletAccess(req) => {
            handle_revoke_wallet_access(actor, req).await
        }
@@ -85,10 +90,8 @@ async fn handle_connection_response(
    actor: &ActorRef<UserAgentSession>,
    resp: ProtoSdkClientConnectionResponse,
 ) -> Result<Option<UserAgentResponsePayload>, Status> {
-    let pubkey_bytes = <[u8; 32]>::try_from(resp.pubkey)
+    let pubkey = authn::PublicKey::try_from(resp.pubkey.as_slice())
-        .map_err(|_| Status::invalid_argument("Invalid Ed25519 public key length"))?;
+        .map_err(|_| Status::invalid_argument("Invalid ML-DSA public key"))?;
    let pubkey = ed25519_dalek::VerifyingKey::from_bytes(&pubkey_bytes)
        .map_err(|_| Status::invalid_argument("Invalid Ed25519 public key"))?;
    actor
        .ask(HandleNewClientApprove {
@@ -113,7 +116,7 @@ async fn handle_list(
                .into_iter()
                .map(|(client, metadata)| ProtoSdkClientEntry {
                    id: client.id,
-                    pubkey: client.public_key,
+                    pubkey: client.public_key.to_vec(),
                    info: Some(ProtoClientMetadata {
                        name: metadata.name,
                        description: metadata.description,
@@ -128,11 +131,11 @@ async fn handle_list(
            ProtoSdkClientListResult::Error(ProtoSdkClientError::Internal.into())
        }
    };
-    Ok(Some(wrap_sdk_client_response(SdkClientResponsePayload::List(
+    Ok(Some(wrap_sdk_client_response(
-        ProtoSdkClientListResponse {
+        SdkClientResponsePayload::List(ProtoSdkClientListResponse {
            result: Some(result),
-        },
+        }),
-    ))))
+    )))
 }
 async fn handle_grant_wallet_access(
--- a/server/crates/arbiter-server/src/grpc/user_agent/vault.rs
+++ b/server/crates/arbiter-server/src/grpc/user_agent/vault.rs
@@ -1,37 +1,15 @@
 use arbiter_proto::proto::shared::VaultState as ProtoVaultState;
 use arbiter_proto::proto::user_agent::{
    user_agent_response::Payload as UserAgentResponsePayload,
-    vault::{
+    vault::{self as proto_vault, request::Payload as VaultRequestPayload, response::Payload as VaultResponsePayload},
        self as proto_vault,
        bootstrap::{
            self as proto_bootstrap, BootstrapEncryptedKey as ProtoBootstrapEncryptedKey,
            BootstrapResult as ProtoBootstrapResult,
        },
        request::Payload as VaultRequestPayload,
        response::Payload as VaultResponsePayload,
        unseal::{
            self as proto_unseal, UnsealEncryptedKey as ProtoUnsealEncryptedKey,
            UnsealResult as ProtoUnsealResult, UnsealStart,
            request::Payload as UnsealRequestPayload,
            response::Payload as UnsealResponsePayload,
        },
    },
 };
-use arbiter_proto::proto::shared::VaultState as ProtoVaultState;
+use kameo::actor::ActorRef;
 use kameo::{actor::ActorRef, error::SendError};
 use tonic::Status;
 use tracing::warn;
 use crate::{
-    actors::{
+    actors::vault::VaultState,
-        keyholder::KeyHolderState,
+    peers::user_agent::{UserAgentSession, session::handlers::HandleQueryVaultState},
        user_agent::{
            UserAgentSession,
            session::connection::{
                BootstrapError, HandleBootstrapEncryptedKey, HandleQueryVaultState,
                HandleUnsealEncryptedKey, HandleUnsealRequest, UnsealError,
            },
        },
    },
 };
 fn wrap_vault_response(payload: VaultResponsePayload) -> UserAgentResponsePayload {
@@ -40,18 +18,6 @@ fn wrap_vault_response(payload: VaultResponsePayload) -> UserAgentResponsePayloa
    })
 }
 fn wrap_unseal_response(payload: UnsealResponsePayload) -> UserAgentResponsePayload {
    wrap_vault_response(VaultResponsePayload::Unseal(proto_unseal::Response {
        payload: Some(payload),
    }))
 }
 fn wrap_bootstrap_response(result: ProtoBootstrapResult) -> UserAgentResponsePayload {
    wrap_vault_response(VaultResponsePayload::Bootstrap(proto_bootstrap::Response {
        result: result.into(),
    }))
 }
 pub(super) async fn dispatch(
    actor: &ActorRef<UserAgentSession>,
    req: proto_vault::Request,
@@ -62,114 +28,21 @@ pub(super) async fn dispatch(
    match payload {
        VaultRequestPayload::QueryState(_) => handle_query_vault_state(actor).await,
-        VaultRequestPayload::Unseal(req) => dispatch_unseal_request(actor, req).await,
+        VaultRequestPayload::Unseal(_) | VaultRequestPayload::Bootstrap(_) => {
-        VaultRequestPayload::Bootstrap(req) => handle_bootstrap_request(actor, req).await,
+            Err(Status::permission_denied(
                "Vault is already unsealed; unseal/bootstrap not permitted in session",
            ))
        }
    }
 async fn dispatch_unseal_request(
    actor: &ActorRef<UserAgentSession>,
    req: proto_unseal::Request,
 ) -> Result<Option<UserAgentResponsePayload>, Status> {
    let Some(payload) = req.payload else {
        return Err(Status::invalid_argument("Missing unseal request payload"));
    };
    match payload {
        UnsealRequestPayload::Start(req) => handle_unseal_start(actor, req).await,
        UnsealRequestPayload::EncryptedKey(req) => handle_unseal_encrypted_key(actor, req).await,
    }
 }
 async fn handle_unseal_start(
    actor: &ActorRef<UserAgentSession>,
    req: UnsealStart,
 ) -> Result<Option<UserAgentResponsePayload>, Status> {
    let client_pubkey = <[u8; 32]>::try_from(req.client_pubkey)
        .map(x25519_dalek::PublicKey::from)
        .map_err(|_| Status::invalid_argument("Invalid X25519 public key"))?;
    let response = actor
        .ask(HandleUnsealRequest { client_pubkey })
        .await
        .map_err(|err| {
            warn!(error = ?err, "Failed to handle unseal start request");
            Status::internal("Failed to start unseal flow")
        })?;
    Ok(Some(wrap_unseal_response(UnsealResponsePayload::Start(
        proto_unseal::UnsealStartResponse {
            server_pubkey: response.server_pubkey.as_bytes().to_vec(),
        },
    ))))
 }
 async fn handle_unseal_encrypted_key(
    actor: &ActorRef<UserAgentSession>,
    req: ProtoUnsealEncryptedKey,
 ) -> Result<Option<UserAgentResponsePayload>, Status> {
    let result = match actor
        .ask(HandleUnsealEncryptedKey {
            nonce: req.nonce,
            ciphertext: req.ciphertext,
            associated_data: req.associated_data,
        })
        .await
    {
        Ok(()) => ProtoUnsealResult::Success,
        Err(SendError::HandlerError(UnsealError::InvalidKey)) => ProtoUnsealResult::InvalidKey,
        Err(err) => {
            warn!(error = ?err, "Failed to handle unseal request");
            return Err(Status::internal("Failed to unseal vault"));
        }
    };
    Ok(Some(wrap_unseal_response(UnsealResponsePayload::Result(
        result.into(),
    ))))
 }
 async fn handle_bootstrap_request(
    actor: &ActorRef<UserAgentSession>,
    req: proto_bootstrap::Request,
 ) -> Result<Option<UserAgentResponsePayload>, Status> {
    let encrypted_key = req
        .encrypted_key
        .ok_or_else(|| Status::invalid_argument("Missing bootstrap encrypted key"))?;
    handle_bootstrap_encrypted_key(actor, encrypted_key).await
 }
 async fn handle_bootstrap_encrypted_key(
    actor: &ActorRef<UserAgentSession>,
    req: ProtoBootstrapEncryptedKey,
 ) -> Result<Option<UserAgentResponsePayload>, Status> {
    let result = match actor
        .ask(HandleBootstrapEncryptedKey {
            nonce: req.nonce,
            ciphertext: req.ciphertext,
            associated_data: req.associated_data,
        })
        .await
    {
        Ok(()) => ProtoBootstrapResult::Success,
        Err(SendError::HandlerError(BootstrapError::InvalidKey)) => ProtoBootstrapResult::InvalidKey,
        Err(SendError::HandlerError(BootstrapError::AlreadyBootstrapped)) => {
            ProtoBootstrapResult::AlreadyBootstrapped
        }
        Err(err) => {
            warn!(error = ?err, "Failed to handle bootstrap request");
            return Err(Status::internal("Failed to bootstrap vault"));
        }
    };
    Ok(Some(wrap_bootstrap_response(result)))
 }
 async fn handle_query_vault_state(
    actor: &ActorRef<UserAgentSession>,
 ) -> Result<Option<UserAgentResponsePayload>, Status> {
    let state = match actor.ask(HandleQueryVaultState {}).await {
-        Ok(KeyHolderState::Unbootstrapped) => ProtoVaultState::Unbootstrapped,
+        Ok(VaultState::Unbootstrapped) => ProtoVaultState::Unbootstrapped,
-        Ok(KeyHolderState::Sealed) => ProtoVaultState::Sealed,
+        Ok(VaultState::Sealed) => ProtoVaultState::Sealed,
-        Ok(KeyHolderState::Unsealed) => ProtoVaultState::Unsealed,
+        Ok(VaultState::Unsealed) => ProtoVaultState::Unsealed,
        Err(err) => {
            warn!(error = ?err, "Failed to query vault state");
            ProtoVaultState::Error
--- a/server/crates/arbiter-server/src/grpc/user_agent/vault_gate.rs
+++ b/server/crates/arbiter-server/src/grpc/user_agent/vault_gate.rs
@@ -0,0 +1,238 @@
 use arbiter_proto::{
    proto::user_agent::{
        user_agent_request::Payload as UserAgentRequestPayload,
        user_agent_response::Payload as UserAgentResponsePayload,
        vault::{
            self as proto_vault,
            bootstrap::{self as proto_bootstrap, BootstrapResult as ProtoBootstrapResult},
            request::Payload as VaultRequestPayload,
            response::Payload as VaultResponsePayload,
            unseal::{
                self as proto_unseal, UnsealResult as ProtoUnsealResult,
                request::Payload as UnsealRequestPayload,
                response::Payload as UnsealResponsePayload,
            },
        },
    },
    transport::{Bi, Error as TransportError, Receiver, Sender},
 };
 use async_trait::async_trait;
 use tonic::Status;
 use tracing::warn;
 use super::auth::AuthTransportAdapter;
 use crate::peers::user_agent::vault_gate::{
    self as vault_gate, HandleBootstrapEncryptedKey, HandleHandshake, HandleUnsealEncryptedKey,
 };
 fn wrap_vault_response(payload: VaultResponsePayload) -> UserAgentResponsePayload {
    UserAgentResponsePayload::Vault(proto_vault::Response {
        payload: Some(payload),
    })
 }
 fn wrap_unseal_response(payload: UnsealResponsePayload) -> UserAgentResponsePayload {
    wrap_vault_response(VaultResponsePayload::Unseal(proto_unseal::Response {
        payload: Some(payload),
    }))
 }
 fn wrap_bootstrap_response(result: ProtoBootstrapResult) -> UserAgentResponsePayload {
    wrap_vault_response(VaultResponsePayload::Bootstrap(proto_bootstrap::Response {
        result: result.into(),
    }))
 }
 impl AuthTransportAdapter<'_> {
    async fn send_query_state(&mut self) -> Result<(), TransportError> {
        use arbiter_proto::proto::shared::VaultState as ProtoVaultState;
        self.send_response_payload(wrap_vault_response(VaultResponsePayload::State(
            ProtoVaultState::Sealed.into(),
        )))
        .await
    }
 }
 #[async_trait]
 impl Receiver<vault_gate::Inbound> for AuthTransportAdapter<'_> {
    async fn recv(&mut self) -> Option<vault_gate::Inbound> {
        loop {
            let request = match self.bi_mut().recv().await? {
                Ok(request) => request,
                Err(error) => {
                    warn!(?error, "Failed to receive user agent request during vault gate");
                    return None;
                }
            };
            if let Err(err) = self.tracker_mut().request(request.id) {
                let _ = self.bi_mut().send(Err(err)).await;
                return None;
            }
            let Some(payload) = request.payload else {
                let _ = self
                    .bi_mut()
                    .send(Err(Status::invalid_argument("Missing request payload")))
                    .await;
                return None;
            };
            let vault_req = match payload {
                UserAgentRequestPayload::Vault(req) => req,
                _ => {
                    let _ = self
                        .bi_mut()
                        .send(Err(Status::permission_denied(
                            "Only vault operations are permitted before unsealing",
                        )))
                        .await;
                    return None;
                }
            };
            let Some(vault_payload) = vault_req.payload else {
                let _ = self
                    .bi_mut()
                    .send(Err(Status::invalid_argument("Missing vault request payload")))
                    .await;
                return None;
            };
            match vault_payload {
                VaultRequestPayload::QueryState(_) => {
                    if self.send_query_state().await.is_err() {
                        return None;
                    }
                    continue;
                }
                VaultRequestPayload::Unseal(req) => {
                    let Some(unseal_payload) = req.payload else {
                        let _ = self
                            .bi_mut()
                            .send(Err(Status::invalid_argument("Missing unseal request payload")))
                            .await;
                        return None;
                    };
                    match unseal_payload {
                        UnsealRequestPayload::Start(start) => {
                            let Ok(bytes) = <[u8; 32]>::try_from(start.client_pubkey) else {
                                let _ = self
                                    .bi_mut()
                                    .send(Err(Status::invalid_argument(
                                        "Invalid X25519 public key",
                                    )))
                                    .await;
                                return None;
                            };
                            return Some(vault_gate::Inbound::HandleHandshake(HandleHandshake {
                                client_pubkey: x25519_dalek::PublicKey::from(bytes),
                            }));
                        }
                        UnsealRequestPayload::EncryptedKey(key) => {
                            return Some(vault_gate::Inbound::HandleUnsealEncryptedKey(
                                HandleUnsealEncryptedKey {
                                    nonce: key.nonce,
                                    ciphertext: key.ciphertext,
                                    associated_data: key.associated_data,
                                },
                            ));
                        }
                    }
                }
                VaultRequestPayload::Bootstrap(req) => {
                    let Some(encrypted_key) = req.encrypted_key else {
                        let _ = self
                            .bi_mut()
                            .send(Err(Status::invalid_argument(
                                "Missing bootstrap encrypted key",
                            )))
                            .await;
                        return None;
                    };
                    return Some(vault_gate::Inbound::HandleBootstrapEncryptedKey(
                        HandleBootstrapEncryptedKey {
                            nonce: encrypted_key.nonce,
                            ciphertext: encrypted_key.ciphertext,
                            associated_data: encrypted_key.associated_data,
                        },
                    ));
                }
            }
        }
    }
 }
 #[async_trait]
 impl Sender<Result<vault_gate::Outbound, vault_gate::Error>> for AuthTransportAdapter<'_> {
    async fn send(
        &mut self,
        item: Result<vault_gate::Outbound, vault_gate::Error>,
    ) -> Result<(), TransportError> {
        let outbound = match item {
            Ok(outbound) => outbound,
            Err(err) => {
                warn!(?err, "vault gate produced transport-level error");
                return self
                    .bi_mut()
                    .send(Err(Status::internal(err.to_string())))
                    .await;
            }
        };
        let payload = match outbound {
            vault_gate::Outbound::HandleHandshake(Ok(response)) => {
                wrap_unseal_response(UnsealResponsePayload::Start(
                    proto_unseal::UnsealStartResponse {
                        server_pubkey: response.server_pubkey.as_bytes().to_vec(),
                    },
                ))
            }
            vault_gate::Outbound::HandleHandshake(Err(err)) => {
                warn!(?err, "handshake failed");
                return self
                    .bi_mut()
                    .send(Err(Status::internal("Failed to start unseal flow")))
                    .await;
            }
            vault_gate::Outbound::HandleUnsealEncryptedKey(result) => {
                let proto_result = match result {
                    Ok(()) => ProtoUnsealResult::Success,
                    Err(vault_gate::Error::InvalidKey) => ProtoUnsealResult::InvalidKey,
                    Err(err) => {
                        warn!(?err, "unseal failed");
                        return self
                            .bi_mut()
                            .send(Err(Status::internal("Failed to unseal vault")))
                            .await;
                    }
                };
                wrap_unseal_response(UnsealResponsePayload::Result(proto_result.into()))
            }
            vault_gate::Outbound::HandleBootstrapEncryptedKey(result) => {
                let proto_result = match result {
                    Ok(()) => ProtoBootstrapResult::Success,
                    Err(vault_gate::Error::InvalidKey) => ProtoBootstrapResult::InvalidKey,
                    Err(vault_gate::Error::AlreadyBootstrapped) => {
                        ProtoBootstrapResult::AlreadyBootstrapped
                    }
                    Err(err) => {
                        warn!(?err, "bootstrap failed");
                        return self
                            .bi_mut()
                            .send(Err(Status::internal("Failed to bootstrap vault")))
                            .await;
                    }
                };
                wrap_bootstrap_response(proto_result)
            }
        };
        self.send_response_payload(payload).await
    }
 }
 impl Bi<vault_gate::Inbound, Result<vault_gate::Outbound, vault_gate::Error>>
    for AuthTransportAdapter<'_>
 {
 }
--- a/server/crates/arbiter-server/src/lib.rs
+++ b/server/crates/arbiter-server/src/lib.rs
@@ -3,10 +3,11 @@ use crate::context::ServerContext;
 pub mod actors;
 pub mod context;
 pub mod crypto;
 pub mod db;
 pub mod evm;
 pub mod grpc;
-pub mod safe_cell;
+pub mod peers;
 pub mod utils;
 pub struct Server {
--- a/server/crates/arbiter-server/src/main.rs
+++ b/server/crates/arbiter-server/src/main.rs
@@ -1,8 +1,8 @@
 use std::net::SocketAddr;
 use anyhow::anyhow;
 use arbiter_proto::{proto::arbiter_service_server::ArbiterServiceServer, url::ArbiterUrl};
 use arbiter_server::{Server, actors::bootstrap::GetToken, context::ServerContext, db};
 use miette::miette;
 use rustls::crypto::aws_lc_rs;
 use tonic::transport::{Identity, ServerTlsConfig};
 use tracing::info;
@@ -10,7 +10,8 @@ use tracing::info;
 const PORT: u16 = 50051;
 #[tokio::main]
-async fn main() -> miette::Result<()> {
+#[mutants::skip]
 async fn main() -> anyhow::Result<()> {
    aws_lc_rs::default_provider().install_default().unwrap();
    tracing_subscriber::fmt()
@@ -46,11 +47,11 @@ async fn main() -> miette::Result<()> {
    tonic::transport::Server::builder()
        .tls_config(tls)
-        .map_err(|err| miette!("Faild to setup TLS: {err}"))?
+        .map_err(|err| anyhow!("Failed to setup TLS: {err}"))?
        .add_service(ArbiterServiceServer::new(Server::new(context)))
        .serve(addr)
        .await
-        .map_err(|e| miette::miette!("gRPC server error: {e}"))?;
+        .map_err(|e| anyhow!("gRPC server error: {e}"))?;
    unreachable!("gRPC server should run indefinitely");
 }
--- a/server/crates/arbiter-server/src/actors/client/auth.rs
+++ b/server/crates/arbiter-server/src/actors/client/auth.rs
@@ -1,5 +1,6 @@
 use arbiter_crypto::authn::{self, CLIENT_CONTEXT};
 use arbiter_proto::{
-    ClientMetadata, format_challenge,
+    ClientMetadata,
    transport::{Bi, expect_message},
 };
 use chrono::Utc;
@@ -8,15 +9,16 @@ use diesel::{
    dsl::insert_into, update,
 };
 use diesel_async::RunQueryDsl as _;
-use ed25519_dalek::{Signature, VerifyingKey};
+use kameo::{actor::ActorRef, error::SendError};
 use kameo::error::SendError;
 use tracing::error;
 use crate::{
    actors::{
-        client::{ClientConnection, ClientProfile},
+        GlobalActors,
        flow_coordinator::{self, RequestClientApproval},
        vault::Vault,
    },
    crypto::integrity::{self, AttestationStatus},
    db::{
        self,
        models::{ProgramClientMetadata, SqliteTimestamp},
@@ -24,12 +26,16 @@ use crate::{
    },
 };
 use super::{ClientConnection, ClientCredentials, ClientProfile};
 #[derive(thiserror::Error, Debug, Clone, PartialEq, Eq)]
 pub enum Error {
    #[error("Database pool unavailable")]
    DatabasePoolUnavailable,
    #[error("Database operation failed")]
    DatabaseOperationFailed,
    #[error("Integrity check failed")]
    IntegrityCheckFailed,
    #[error("Invalid challenge solution")]
    InvalidChallengeSolution,
    #[error("Client approval request failed")]
@@ -38,6 +44,13 @@ pub enum Error {
    Transport,
 }
 impl From<diesel::result::Error> for Error {
    fn from(e: diesel::result::Error) -> Self {
        error!(?e, "Database error");
        Self::DatabaseOperationFailed
    }
 }
 #[derive(thiserror::Error, Debug, Clone, PartialEq, Eq)]
 pub enum ApproveError {
    #[error("Internal error")]
@@ -51,32 +64,93 @@ pub enum ApproveError {
 #[derive(Debug, Clone)]
 pub enum Inbound {
    AuthChallengeRequest {
-        pubkey: VerifyingKey,
+        pubkey: authn::PublicKey,
        metadata: ClientMetadata,
    },
    AuthChallengeSolution {
-        signature: Signature,
+        signature: authn::Signature,
    },
 }
 #[derive(Debug, Clone)]
 pub enum Outbound {
-    AuthChallenge { pubkey: VerifyingKey, nonce: i32 },
+    AuthChallenge {
        pubkey: authn::PublicKey,
        nonce: i32,
    },
    AuthSuccess,
 }
-pub struct ClientInfo {
+/// Returns the current nonce and client ID for a registered client.
-    pub id: i32,
+/// Returns `None` if the pubkey is not registered.
-    pub current_nonce: i32,
+async fn get_current_nonce_and_id(
    db: &db::DatabasePool,
    pubkey: &authn::PublicKey,
 ) -> Result<Option<(i32, i32)>, Error> {
    let pubkey_bytes = pubkey.to_bytes();
    let mut conn = db.get().await.map_err(|e| {
        error!(error = ?e, "Database pool error");
        Error::DatabasePoolUnavailable
    })?;
    program_client::table
        .filter(program_client::public_key.eq(&pubkey_bytes))
        .select((program_client::id, program_client::nonce))
        .first::<(i32, i32)>(&mut conn)
        .await
        .optional()
        .map_err(|e| {
            error!(error = ?e, "Database error");
            Error::DatabaseOperationFailed
        })
 }
-/// Atomically reads and increments the nonce for a known client.
+async fn verify_integrity(
 /// Returns `None` if the pubkey is not registered.
 async fn get_client_and_nonce(
    db: &db::DatabasePool,
-    pubkey: &VerifyingKey,
+    vault: &ActorRef<Vault>,
-) -> Result<Option<ClientInfo>, Error> {
+    pubkey: &authn::PublicKey,
-    let pubkey_bytes = pubkey.as_bytes().to_vec();
+) -> Result<(), Error> {
    let mut db_conn = db.get().await.map_err(|e| {
        error!(error = ?e, "Database pool error");
        Error::DatabasePoolUnavailable
    })?;
    let (id, nonce) = get_current_nonce_and_id(db, pubkey).await?.ok_or_else(|| {
        error!("Client not found during integrity verification");
        Error::DatabaseOperationFailed
    })?;
    let attestation = integrity::verify_entity(
        &mut db_conn,
        vault,
        &ClientCredentials {
            pubkey: pubkey.clone(),
            nonce,
        },
        id,
    )
    .await
    .map_err(|e| {
        error!(?e, "Integrity verification failed");
        Error::IntegrityCheckFailed
    })?;
    if attestation != AttestationStatus::Attested {
        error!("Integrity attestation unavailable for client {id}");
        return Err(Error::IntegrityCheckFailed);
    }
    Ok(())
 }
 /// Atomically increments the nonce and re-signs the integrity envelope.
 /// Returns the new nonce, which is used as the challenge nonce.
 async fn create_nonce(
    db: &db::DatabasePool,
    vault: &ActorRef<Vault>,
    pubkey: &authn::PublicKey,
 ) -> Result<i32, Error> {
    let pubkey_bytes = pubkey.to_bytes();
    let pubkey = pubkey.clone();
    let mut conn = db.get().await.map_err(|e| {
        error!(error = ?e, "Database pool error");
@@ -84,40 +158,38 @@ async fn get_client_and_nonce(
    })?;
    conn.exclusive_transaction(|conn| {
        let vault = vault.clone();
        let pubkey = pubkey.clone();
        Box::pin(async move {
-            let Some((client_id, current_nonce)) = program_client::table
+            let (id, new_nonce): (i32, i32) = update(program_client::table)
                .filter(program_client::public_key.eq(&pubkey_bytes))
-                .select((program_client::id, program_client::nonce))
+                .set(program_client::nonce.eq(program_client::nonce + 1))
-                .first::<(i32, i32)>(conn)
+                .returning((program_client::id, program_client::nonce))
-                .await
+                .get_result(conn)
                .optional()?
            else {
                return Result::<_, diesel::result::Error>::Ok(None);
            };
            update(program_client::table)
                .filter(program_client::public_key.eq(&pubkey_bytes))
                .set(program_client::nonce.eq(current_nonce + 1))
                .execute(conn)
                .await?;
-            Ok(Some(ClientInfo {
+            integrity::sign_entity(
-                id: client_id,
+                conn,
-                current_nonce,
+                &vault,
-            }))
+                &ClientCredentials {
                    pubkey: pubkey.clone(),
                    nonce: new_nonce,
                },
                id,
            )
            .await
            .map_err(|e| {
                error!(?e, "Integrity sign failed after nonce update");
                Error::DatabaseOperationFailed
            })?;
            Ok(new_nonce)
        })
    })
    .await
    .map_err(|e| {
        error!(error = ?e, "Database error");
        Error::DatabaseOperationFailed
    })
 }
-async fn approve_new_client(
+async fn approve_new_client(actors: &GlobalActors, profile: ClientProfile) -> Result<(), Error> {
    actors: &crate::actors::GlobalActors,
    profile: ClientProfile,
 ) -> Result<(), Error> {
    let result = actors
        .flow_coordinator
        .ask(RequestClientApproval { client: profile })
@@ -139,15 +211,25 @@ async fn approve_new_client(
 async fn insert_client(
    db: &db::DatabasePool,
-    pubkey: &VerifyingKey,
+    vault: &ActorRef<Vault>,
    pubkey: &authn::PublicKey,
    metadata: &ClientMetadata,
 ) -> Result<i32, Error> {
    use crate::db::schema::{client_metadata, program_client};
    let pubkey = pubkey.clone();
    let metadata = metadata.clone();
    let mut conn = db.get().await.map_err(|e| {
        error!(error = ?e, "Database pool error");
        Error::DatabasePoolUnavailable
    })?;
    conn.exclusive_transaction(|conn| {
        let vault = vault.clone();
        let pubkey = pubkey.clone();
        Box::pin(async move {
            const NONCE_START: i32 = 1;
            let metadata_id = insert_into(client_metadata::table)
                .values((
                    client_metadata::name.eq(&metadata.name),
@@ -155,29 +237,39 @@ async fn insert_client(
                    client_metadata::version.eq(&metadata.version),
                ))
                .returning(client_metadata::id)
-        .get_result::<i32>(&mut conn)
+                .get_result::<i32>(conn)
-        .await
+                .await?;
        .map_err(|e| {
            error!(error = ?e, "Failed to insert client metadata");
            Error::DatabaseOperationFailed
        })?;
            let client_id = insert_into(program_client::table)
                .values((
-            program_client::public_key.eq(pubkey.as_bytes().to_vec()),
+                    program_client::public_key.eq(pubkey.to_bytes()),
                    program_client::metadata_id.eq(metadata_id),
-            program_client::nonce.eq(1), // pre-incremented; challenge uses 0
+                    program_client::nonce.eq(NONCE_START),
                ))
                .on_conflict_do_nothing()
                .returning(program_client::id)
-        .get_result::<i32>(&mut conn)
+                .get_result::<i32>(conn)
                .await?;
            integrity::sign_entity(
                conn,
                &vault,
                &ClientCredentials {
                    pubkey: pubkey.clone(),
                    nonce: NONCE_START,
                },
                client_id,
            )
            .await
            .map_err(|e| {
-            error!(error = ?e, "Failed to insert client metadata");
+                error!(error = ?e, "Failed to sign integrity tag for new client key");
                Error::DatabaseOperationFailed
            })?;
            Ok(client_id)
        })
    })
    .await
 }
 async fn sync_client_metadata(
@@ -253,14 +345,17 @@ async fn sync_client_metadata(
 async fn challenge_client<T>(
    transport: &mut T,
-    pubkey: VerifyingKey,
+    pubkey: authn::PublicKey,
    nonce: i32,
 ) -> Result<(), Error>
 where
    T: Bi<Inbound, Result<Outbound, Error>> + ?Sized,
 {
    transport
-        .send(Ok(Outbound::AuthChallenge { pubkey, nonce }))
+        .send(Ok(Outbound::AuthChallenge {
            pubkey: pubkey.clone(),
            nonce,
        }))
        .await
        .map_err(|e| {
            error!(error = ?e, "Failed to send auth challenge");
@@ -277,20 +372,15 @@ where
        Error::Transport
    })?;
-    let formatted = format_challenge(nonce, pubkey.as_bytes());
+    if !pubkey.verify(nonce, CLIENT_CONTEXT, &signature) {
    pubkey.verify_strict(&formatted, &signature).map_err(|_| {
        error!("Challenge solution verification failed");
-        Error::InvalidChallengeSolution
+        return Err(Error::InvalidChallengeSolution);
-    })?;
+    }
    Ok(())
 }
-pub async fn authenticate<T>(
+pub async fn authenticate<T>(props: &mut ClientConnection, transport: &mut T) -> Result<i32, Error>
    props: &mut ClientConnection,
    transport: &mut T,
 ) -> Result<i32, Error>
 where
    T: Bi<Inbound, Result<Outbound, Error>> + Send + ?Sized,
 {
@@ -298,27 +388,27 @@ where
        return Err(Error::Transport);
    };
-    let info = match get_client_and_nonce(&props.db, &pubkey).await? {
+    let client_id = match get_current_nonce_and_id(&props.db, &pubkey).await? {
-        Some(nonce) => nonce,
+        Some((id, _)) => {
            verify_integrity(&props.db, &props.actors.vault, &pubkey).await?;
            id
        }
        None => {
            approve_new_client(
                &props.actors,
                ClientProfile {
-                    pubkey,
+                    pubkey: pubkey.clone(),
                    metadata: metadata.clone(),
                },
            )
            .await?;
-            let client_id = insert_client(&props.db, &pubkey, &metadata).await?;
+            insert_client(&props.db, &props.actors.vault, &pubkey, &metadata).await?
            ClientInfo {
                id: client_id,
                current_nonce: 0,
            }
        }
    };
-    sync_client_metadata(&props.db, info.id, &metadata).await?;
+    sync_client_metadata(&props.db, client_id, &metadata).await?;
-    challenge_client(transport, pubkey, info.current_nonce).await?;
+    let challenge_nonce = create_nonce(&props.db, &props.actors.vault, &pubkey).await?;
    challenge_client(transport, pubkey, challenge_nonce).await?;
    transport
        .send(Ok(Outbound::AuthSuccess))
@@ -328,5 +418,5 @@ where
            Error::Transport
        })?;
-    Ok(info.id)
+    Ok(client_id)
 }
--- a/server/crates/arbiter-server/src/actors/client/mod.rs
+++ b/server/crates/arbiter-server/src/actors/client/mod.rs
@@ -1,18 +1,37 @@
 use arbiter_crypto::authn;
 use arbiter_proto::{ClientMetadata, transport::Bi};
 use kameo::actor::Spawn;
 use tracing::{error, info};
 use crate::{
-    actors::{GlobalActors, client::session::ClientSession},
+    actors::GlobalActors,
    crypto::integrity::{Integrable, hashing::Hashable},
    db,
    peers::client::session::ClientSession,
 };
 #[derive(Debug, Clone)]
 pub struct ClientProfile {
-    pub pubkey: ed25519_dalek::VerifyingKey,
+    pub pubkey: authn::PublicKey,
    pub metadata: ClientMetadata,
 }
 pub struct ClientCredentials {
    pub pubkey: authn::PublicKey,
    pub nonce: i32,
 }
 impl Integrable for ClientCredentials {
    const KIND: &'static str = "client_credentials";
 }
 impl Hashable for ClientCredentials {
    fn hash<H: sha2::Digest>(&self, hasher: &mut H) {
        hasher.update(self.pubkey.to_bytes());
        self.nonce.hash(hasher);
    }
 }
 pub struct ClientConnection {
    pub(crate) db: db::DatabasePool,
    pub(crate) actors: GlobalActors,
@@ -20,10 +39,7 @@ pub struct ClientConnection {
 impl ClientConnection {
    pub fn new(db: db::DatabasePool, actors: GlobalActors) -> Self {
-        Self {
+        Self { db, actors }
            db,
            actors,
        }
    }
 }
@@ -34,7 +50,9 @@ pub async fn connect_client<T>(mut props: ClientConnection, transport: &mut T)
 where
    T: Bi<auth::Inbound, Result<auth::Outbound, auth::Error>> + Send + ?Sized,
 {
-    match auth::authenticate(&mut props, transport).await {
+    let fut = auth::authenticate(&mut props, transport);
    println!("authenticate future size: {}", std::mem::size_of_val(&fut));
    match fut.await {
        Ok(client_id) => {
            ClientSession::spawn(ClientSession::new(props, client_id));
            info!("Client authenticated, session started");
--- a/server/crates/arbiter-server/src/actors/client/session.rs
+++ b/server/crates/arbiter-server/src/actors/client/session.rs
@@ -6,16 +6,16 @@ use alloy::{consensus::TxEip1559, primitives::Address, signers::Signature};
 use crate::{
    actors::{
        GlobalActors,
        client::ClientConnection, flow_coordinator::RegisterClient,
        evm::{ClientSignTransaction, SignTransactionError},
-        keyholder::KeyHolderState,
+        flow_coordinator::RegisterClient,
-       
+        vault::VaultState,
    },
    db,
    evm::VetError,
 };
 use super::ClientConnection;
 pub struct ClientSession {
    props: ClientConnection,
    client_id: i32,
@@ -30,13 +30,13 @@ impl ClientSession {
 #[messages]
 impl ClientSession {
    #[message]
-    pub(crate) async fn handle_query_vault_state(&mut self) -> Result<KeyHolderState, Error> {
+    pub(crate) async fn handle_query_vault_state(&mut self) -> Result<VaultState, Error> {
-        use crate::actors::keyholder::GetState;
+        use crate::actors::vault::GetState;
-        let vault_state = match self.props.actors.key_holder.ask(GetState {}).await {
+        let vault_state = match self.props.actors.vault.ask(GetState {}).await {
            Ok(state) => state,
            Err(err) => {
-                error!(?err, actor = "client", "keyholder.query.failed");
+                error!(?err, actor = "client", "vault.query.failed");
                return Err(Error::Internal);
            }
        };
@@ -95,7 +95,10 @@ impl Actor for ClientSession {
 impl ClientSession {
    pub fn new_test(db: db::DatabasePool, actors: GlobalActors) -> Self {
        let props = ClientConnection::new(db, actors);
-        Self { props, client_id: 0 }
+        Self {
            props,
            client_id: 0,
        }
    }
 }
--- a/server/crates/arbiter-server/src/peers/mod.rs
+++ b/server/crates/arbiter-server/src/peers/mod.rs
@@ -0,0 +1,2 @@
 pub mod client;
 pub mod user_agent;
--- a/server/crates/arbiter-server/src/peers/user_agent/auth/mod.rs
+++ b/server/crates/arbiter-server/src/peers/user_agent/auth/mod.rs
@@ -1,18 +1,16 @@
 use arbiter_crypto::authn;
 use arbiter_proto::transport::Bi;
 use tracing::error;
 use crate::actors::user_agent::{
    AuthPublicKey, UserAgentConnection,
    auth::state::{AuthContext, AuthStateMachine},
 };
 mod state;
 use state::*;
 use super::{AuthCredentials, UserAgentConnection};
 #[derive(Debug, Clone)]
 pub enum Inbound {
    AuthChallengeRequest {
-        pubkey: AuthPublicKey,
+        pubkey: authn::PublicKey,
        bootstrap_token: Option<String>,
    },
    AuthChallengeSolution {
@@ -37,6 +35,13 @@ impl Error {
    }
 }
 impl From<diesel::result::Error> for Error {
    fn from(e: diesel::result::Error) -> Self {
        error!(?e, "Database error");
        Self::internal("Database error")
    }
 }
 #[derive(Debug, Clone)]
 pub enum Outbound {
    AuthChallenge { nonce: i32 },
@@ -63,10 +68,10 @@ fn parse_auth_event(payload: Inbound) -> AuthEvents {
 pub async fn authenticate<T>(
    props: &mut UserAgentConnection,
-    transport: T,
+    transport: &mut T,
-) -> Result<AuthPublicKey, Error>
+) -> Result<AuthCredentials, Error>
 where
-    T: Bi<Inbound, Result<Outbound, Error>> + Send,
+    T: Bi<Inbound, Result<Outbound, Error>> + Send + ?Sized,
 {
    let mut state = AuthStateMachine::new(AuthContext::new(props, transport));
@@ -77,7 +82,7 @@ where
        };
        match state.process_event(parse_auth_event(payload)).await {
-            Ok(AuthStates::AuthOk(key)) => return Ok(key.clone()),
+            Ok(AuthStates::AuthOk(result)) => return Ok(result.clone()),
            Err(AuthError::ActionFailed(err)) => {
                error!(?err, "State machine action failed");
                return Err(err);
--- a/server/crates/arbiter-server/src/peers/user_agent/auth/state.rs
+++ b/server/crates/arbiter-server/src/peers/user_agent/auth/state.rs
@@ -0,0 +1,329 @@
 use super::super::{AuthCredentials, Credentials, UserAgentConnection};
 use arbiter_crypto::authn::{self, USERAGENT_CONTEXT};
 use arbiter_proto::transport::Bi;
 use diesel::{ExpressionMethods as _, OptionalExtension as _, QueryDsl, sqlite::Sqlite, update};
 use diesel_async::{AsyncConnection, RunQueryDsl};
 use kameo::actor::ActorRef;
 use tracing::error;
 use super::Error;
 use crate::peers::user_agent::auth::Outbound;
 use crate::{
    actors::{bootstrap::ConsumeToken, vault::Vault},
    crypto::integrity,
    db::{DatabasePool, schema::useragent_client},
 };
 pub struct ChallengeRequest {
    pub pubkey: authn::PublicKey,
 }
 pub struct BootstrapAuthRequest {
    pub pubkey: authn::PublicKey,
    pub token: String,
 }
 pub struct ChallengeContext {
    pub id: i32,
    pub challenge_nonce: i32,
    pub key: authn::PublicKey,
 }
 pub struct ChallengeSolution {
    pub solution: Vec<u8>,
 }
 smlang::statemachine!(
    name: Auth,
    custom_error: true,
    transitions: {
        *Init + AuthRequest(ChallengeRequest) / async prepare_challenge = SentChallenge(ChallengeContext),
        Init + BootstrapAuthRequest(BootstrapAuthRequest) / async verify_bootstrap_token = AuthOk(AuthCredentials),
        SentChallenge(ChallengeContext) + ReceivedSolution(ChallengeSolution) / async verify_solution = AuthOk(AuthCredentials),
    }
 );
 const NONCE_START: i32 = 1;
 /// Returns the current nonce, ready to use for the challenge nonce.
 async fn get_current_nonce_and_id(
    db: &DatabasePool,
    key: &authn::PublicKey,
 ) -> Result<(i32, i32), Error> {
    let mut db_conn = db.get().await.map_err(|e| {
        error!(error = ?e, "Database pool error");
        Error::internal("Database unavailable")
    })?;
    db_conn
        .exclusive_transaction(|conn| {
            Box::pin(async move {
                useragent_client::table
                    .filter(useragent_client::public_key.eq(key.to_bytes()))
                    .select((useragent_client::id, useragent_client::nonce))
                    .first::<(i32, i32)>(conn)
                    .await
            })
        })
        .await
        .optional()
        .map_err(|e| {
            error!(error = ?e, "Database error");
            Error::internal("Database operation failed")
        })?
        .ok_or_else(|| {
            error!(?key, "Public key not found in database");
            Error::UnregisteredPublicKey
        })
 }
 async fn verify_integrity(
    db: &DatabasePool,
    vault: &ActorRef<Vault>,
    pubkey: &authn::PublicKey,
 ) -> Result<(), Error> {
    let mut db_conn = db.get().await.map_err(|e| {
        error!(error = ?e, "Database pool error");
        Error::internal("Database unavailable")
    })?;
    let (id, nonce) = get_current_nonce_and_id(db, pubkey).await?;
    let _result = integrity::verify_entity(
        &mut db_conn,
        vault,
        &AuthCredentials {
            creds: Credentials {
                id,
                pubkey: pubkey.clone(),
            },
            new_nonce: nonce,
        },
        id,
    )
    .await
    .map_err(|e| {
        error!(?e, "Integrity verification failed");
        Error::internal("Integrity verification failed")
    })?;
    Ok(())
 }
 async fn compute_current_nonce(
    conn: &mut impl AsyncConnection<Backend = Sqlite>,
    pubkey: &authn::PublicKey,
 ) -> Result<(i32, i32), Error> {
    update(useragent_client::table)
        .filter(useragent_client::public_key.eq(pubkey.to_bytes()))
        .set(useragent_client::nonce.eq(useragent_client::nonce + 1))
        .returning((useragent_client::id, useragent_client::nonce))
        .get_result(conn)
        .await
        .map_err(|e| {
            error!(error = ?e, "Database error incrementing nonce");
            Error::internal("Database operation failed")
        })
 }
 async fn resign_credentials(
    conn: &mut impl AsyncConnection<Backend = Sqlite>,
    vault: &ActorRef<Vault>,
    id: i32,
    pubkey: &authn::PublicKey,
    new_nonce: i32,
 ) -> Result<(), Error> {
    integrity::sign_entity(
        conn,
        vault,
        &AuthCredentials {
            creds: Credentials {
                id,
                pubkey: pubkey.clone(),
            },
            new_nonce,
        },
        id,
    )
    .await
    .map_err(|e| {
        error!(?e, "Integrity signature update failed");
        Error::internal("Database error")
    })
 }
 async fn register_key(db: &DatabasePool, pubkey: &authn::PublicKey) -> Result<i32, Error> {
    let pubkey_bytes = pubkey.to_bytes();
    let mut conn = db.get().await.map_err(|e| {
        error!(error = ?e, "Database pool error");
        Error::internal("Database unavailable")
    })?;
    let id: i32 = diesel::insert_into(useragent_client::table)
        .values((
            useragent_client::public_key.eq(pubkey_bytes),
            useragent_client::nonce.eq(NONCE_START),
        ))
        .returning(useragent_client::id)
        .get_result(&mut conn)
        .await
        .map_err(|e| {
            error!(error = ?e, "Database error");
            Error::internal("Database operation failed")
        })?;
    Ok(id)
 }
 pub struct AuthContext<'a, T: ?Sized> {
    pub(super) conn: &'a mut UserAgentConnection,
    pub(super) transport: &'a mut T,
 }
 impl<'a, T: ?Sized> AuthContext<'a, T> {
    pub fn new(conn: &'a mut UserAgentConnection, transport: &'a mut T) -> Self {
        Self { conn, transport }
    }
 }
 impl<T> AuthStateMachineContext for AuthContext<'_, T>
 where
    T: Bi<super::Inbound, Result<super::Outbound, Error>> + Send + ?Sized,
 {
    type Error = Error;
    async fn prepare_challenge(
        &mut self,
        ChallengeRequest { pubkey }: ChallengeRequest,
    ) -> Result<ChallengeContext, Self::Error> {
        let is_signing = integrity::is_signing_available(&self.conn.actors.vault)
            .await
            .unwrap_or(false);
        if is_signing {
            verify_integrity(&self.conn.db, &self.conn.actors.vault, &pubkey).await?;
        }
        let vault = self.conn.actors.vault.clone();
        let mut conn = self.conn.db.get().await.map_err(|e| {
            error!(error = ?e, "Database pool error");
            Error::internal("Database unavailable")
        })?;
        let (id, nonce) = conn
            .exclusive_transaction(|conn| {
                let pubkey = pubkey.clone();
                let vault = vault.clone();
                Box::pin(async move {
                    let (id, new_nonce) = compute_current_nonce(conn, &pubkey).await?;
                    if is_signing {
                        resign_credentials(conn, &vault, id, &pubkey, new_nonce).await?;
                    }
                    Result::<_, Error>::Ok((id, new_nonce))
                })
            })
            .await?;
        self.transport
            .send(Ok(Outbound::AuthChallenge { nonce }))
            .await
            .map_err(|e| {
                error!(?e, "Failed to send auth challenge");
                Error::Transport
            })?;
        Ok(ChallengeContext {
            id,
            challenge_nonce: nonce,
            key: pubkey,
        })
    }
    #[allow(missing_docs)]
    #[allow(clippy::result_unit_err)]
    async fn verify_bootstrap_token(
        &mut self,
        BootstrapAuthRequest { pubkey, token }: BootstrapAuthRequest,
    ) -> Result<AuthCredentials, Self::Error> {
        let token_ok: bool = self
            .conn
            .actors
            .bootstrapper
            .ask(ConsumeToken {
                token: token.clone(),
            })
            .await
            .map_err(|e| {
                error!(?e, "Failed to consume bootstrap token");
                Error::internal("Failed to consume bootstrap token")
            })?;
        if !token_ok {
            error!("Invalid bootstrap token provided");
            return Err(Error::InvalidBootstrapToken);
        }
        match token_ok {
            true => {
                let id = register_key(&self.conn.db, &pubkey).await?;
                self.transport
                    .send(Ok(Outbound::AuthSuccess))
                    .await
                    .map_err(|_| Error::Transport)?;
                Ok(AuthCredentials {
                    creds: Credentials { id, pubkey },
                    new_nonce: NONCE_START,
                })
            }
            false => {
                error!("Invalid bootstrap token provided");
                self.transport
                    .send(Err(Error::InvalidBootstrapToken))
                    .await
                    .map_err(|_| Error::Transport)?;
                Err(Error::InvalidBootstrapToken)
            }
        }
    }
    #[allow(missing_docs)]
    #[allow(clippy::unused_unit)]
    async fn verify_solution(
        &mut self,
        ChallengeContext {
            id,
            challenge_nonce,
            key,
        }: &ChallengeContext,
        ChallengeSolution { solution }: ChallengeSolution,
    ) -> Result<AuthCredentials, Self::Error> {
        let signature = authn::Signature::try_from(solution.as_slice()).map_err(|_| {
            error!("Failed to decode signature in challenge solution");
            Error::InvalidChallengeSolution
        })?;
        let valid = key.verify(*challenge_nonce, USERAGENT_CONTEXT, &signature);
        match valid {
            true => {
                self.transport
                    .send(Ok(Outbound::AuthSuccess))
                    .await
                    .map_err(|_| Error::Transport)?;
                Ok(AuthCredentials {
                    creds: Credentials {
                        id: *id,
                        pubkey: key.clone(),
                    },
                    new_nonce: *challenge_nonce,
                })
            }
            false => {
                self.transport
                    .send(Err(Error::InvalidChallengeSolution))
                    .await
                    .map_err(|_| Error::Transport)?;
                Err(Error::InvalidChallengeSolution)
            }
        }
    }
 }
--- a/server/crates/arbiter-server/src/peers/user_agent/mod.rs
+++ b/server/crates/arbiter-server/src/peers/user_agent/mod.rs
@@ -0,0 +1,175 @@
 use crate::{
    actors::GlobalActors,
    crypto::integrity::{self, Integrable},
    db,
    peers::client::ClientProfile,
 };
 use arbiter_crypto::authn;
 use arbiter_proto::transport::{Bi, Sender};
 pub use auth::authenticate;
 use kameo::actor::{ActorRef, Spawn as _};
 pub use session::UserAgentSession;
 use tokio::sync::oneshot;
 use tracing::warn;
 use vault_gate::VaultGate;
 use crate::crypto::integrity::hashing::Hashable;
 pub mod auth;
 pub mod session;
 pub mod vault_gate;
 #[derive(Debug, Clone, Hash)]
 pub struct Credentials {
    pub id: i32,
    pub pubkey: authn::PublicKey,
 }
 impl Hashable for Credentials {
    fn hash<H: sha2::Digest>(&self, hasher: &mut H) {
        self.id.hash(hasher);
        self.pubkey.hash(hasher);
    }
 }
 #[derive(Debug, Clone)]
 pub struct AuthCredentials {
    pub creds: Credentials,
    // denotes new nonce, not current
    pub new_nonce: i32,
 }
 impl Hashable for authn::PublicKey {
    fn hash<H: sha2::Digest>(&self, hasher: &mut H) {
        hasher.update(self.to_bytes());
    }
 }
 impl Hashable for AuthCredentials {
    fn hash<H: sha2::Digest>(&self, hasher: &mut H) {
        self.creds.hash(hasher);
        self.new_nonce.hash(hasher);
    }
 }
 impl Integrable for AuthCredentials {
    const KIND: &'static str = "useragent_credentials";
 }
 // Messages, sent by user agent to connection client without having a request
 #[derive(Debug)]
 pub enum OutOfBand {
    ClientConnectionRequest { profile: ClientProfile },
    ClientConnectionCancel { pubkey: authn::PublicKey },
 }
 #[derive(Clone)]
 pub struct UserAgentConnection {
    pub(crate) db: db::DatabasePool,
    pub(crate) actors: GlobalActors,
 }
 impl UserAgentConnection {
    pub fn new(db: db::DatabasePool, actors: GlobalActors) -> Self {
        Self { db, actors }
    }
 }
 #[derive(Debug, thiserror::Error)]
 pub enum Error {
    #[error("authentication failed: {0:?}")]
    Auth(auth::Error),
    #[error("vault gate failed: {0}")]
    VaultGate(#[from] vault_gate::Error),
    #[error("transport closed unexpectedly")]
    Transport,
    #[error("internal: {0}")]
    Internal(String),
 }
 impl From<auth::Error> for Error {
    fn from(err: auth::Error) -> Self {
        Self::Auth(err)
    }
 }
 pub async fn start<T>(
    props: &mut UserAgentConnection,
    mut transport: T,
    oob_sender: Box<dyn Sender<OutOfBand>>,
 ) -> Result<ActorRef<UserAgentSession>, Error>
 where
    T: Bi<auth::Inbound, Result<auth::Outbound, auth::Error>> + Send,
    T: Bi<vault_gate::Inbound, Result<vault_gate::Outbound, vault_gate::Error>> + Send,
 {
    let auth_creds = authenticate(props, &mut transport).await?;
    let creds = if integrity::is_signing_available(&props.actors.vault)
        .await
        .unwrap_or(false)
    {
        auth_creds.creds
    } else {
        run_vault_gate(props, &mut transport, auth_creds).await?
    };
    Ok(UserAgentSession::spawn(UserAgentSession::new(
        props.clone(),
        creds,
        oob_sender,
    )))
 }
 async fn run_vault_gate<T>(
    props: &UserAgentConnection,
    transport: &mut T,
    auth_creds: AuthCredentials,
 ) -> Result<Credentials, Error>
 where
    T: Bi<vault_gate::Inbound, Result<vault_gate::Outbound, vault_gate::Error>> + Send + ?Sized,
 {
    let (promotion_tx, mut promotion_rx) = oneshot::channel();
    let gate = VaultGate::spawn(VaultGate::new(
        auth_creds,
        props.actors.clone(),
        props.db.clone(),
        promotion_tx,
    ));
    let result = loop {
        tokio::select! {
            promotion = &mut promotion_rx => {
                break match promotion {
                    Ok(Ok(creds)) => Ok(creds),
                    Ok(Err(err)) => Err(Error::VaultGate(err)),
                    Err(_) => Err(Error::Internal(
                        "vault gate promotion channel closed".into(),
                    )),
                };
            }
            inbound = transport.recv() => {
                let Some(inbound) = inbound else {
                    break Err(Error::Transport);
                };
                match gate.ask(inbound).await {
                    Ok(outbound) => {
                        if transport.send(Ok(outbound)).await.is_err() {
                            break Err(Error::Transport);
                        }
                    }
                    Err(err) => {
                        warn!(?err, "VaultGate failed to handle message");
                        break Err(Error::Internal(format!(
                            "vault gate ask failed: {err:?}"
                        )));
                    }
                }
            }
        }
    };
    gate.kill();
    result
 }
--- a/server/crates/arbiter-server/src/peers/user_agent/session/handlers.rs
+++ b/server/crates/arbiter-server/src/peers/user_agent/session/handlers.rs
@@ -0,0 +1,299 @@
 use std::sync::Mutex;
 use alloy::{consensus::TxEip1559, primitives::Address, signers::Signature};
 use arbiter_crypto::{
    authn,
    safecell::{SafeCell, SafeCellHandle as _},
 };
 use chacha20poly1305::{AeadInPlace, XChaCha20Poly1305, XNonce, aead::KeyInit};
 use diesel::{ExpressionMethods as _, QueryDsl as _, SelectableHelper};
 use diesel_async::{AsyncConnection, RunQueryDsl};
 use kameo::error::SendError;
 use kameo::messages;
 use kameo::prelude::Context;
 use tracing::{error, info};
 use x25519_dalek::{EphemeralSecret, PublicKey};
 use crate::actors::flow_coordinator::client_connect_approval::ClientApprovalAnswer;
 use crate::actors::{
    evm::{
        ClientSignTransaction, Generate, ListWallets, SignTransactionError as EvmSignError,
        UseragentCreateGrant, UseragentListGrants,
    },
    vault::{self, Bootstrap, TryUnseal},
 };
 use crate::db::models::{
    EvmWalletAccess, NewEvmWalletAccess, ProgramClient, ProgramClientMetadata,
 };
 use crate::evm::policies::{Grant, SpecificGrant};
 use crate::{
    actors::vault::VaultState,
 };
 use super::{Error, UserAgentSession};
 #[derive(Debug, Error)]
 pub enum SignTransactionError {
    #[error("Policy evaluation failed")]
    Vet(#[from] crate::evm::VetError),
    #[error("Internal signing error")]
    Internal,
 }
 #[derive(Debug, Error)]
 pub enum GrantMutationError {
    #[error("Vault is sealed")]
    VaultSealed,
    #[error("Internal grant mutation error")]
    Internal,
 }
 #[messages]
 impl UserAgentSession {
    #[message]
    pub(crate) async fn handle_query_vault_state(&mut self) -> Result<VaultState, Error> {
        use crate::actors::vault::GetState;
        let vault_state = match self.props.actors.vault.ask(GetState {}).await {
            Ok(state) => state,
            Err(err) => {
                error!(?err, actor = "useragent", "vault.query.failed");
                return Err(Error::internal("Vault is in broken state"));
            }
        };
        Ok(vault_state)
    }
 }
 #[messages]
 impl UserAgentSession {
    #[message]
    pub(crate) async fn handle_evm_wallet_create(&mut self) -> Result<(i32, Address), Error> {
        match self.props.actors.evm.ask(Generate {}).await {
            Ok(address) => Ok(address),
            Err(SendError::HandlerError(err)) => Err(Error::internal(format!(
                "EVM wallet generation failed: {err}"
            ))),
            Err(err) => {
                error!(?err, "EVM actor unreachable during wallet create");
                Err(Error::internal("EVM actor unreachable"))
            }
        }
    }
    #[message]
    pub(crate) async fn handle_evm_wallet_list(&mut self) -> Result<Vec<(i32, Address)>, Error> {
        match self.props.actors.evm.ask(ListWallets {}).await {
            Ok(wallets) => Ok(wallets),
            Err(err) => {
                error!(?err, "EVM wallet list failed");
                Err(Error::internal("Failed to list EVM wallets"))
            }
        }
    }
 }
 #[messages]
 impl UserAgentSession {
    #[message]
    pub(crate) async fn handle_grant_list(&mut self) -> Result<Vec<Grant<SpecificGrant>>, Error> {
        match self.props.actors.evm.ask(UseragentListGrants {}).await {
            Ok(grants) => Ok(grants),
            Err(err) => {
                error!(?err, "EVM grant list failed");
                Err(Error::internal("Failed to list EVM grants"))
            }
        }
    }
    #[message]
    pub(crate) async fn handle_grant_create(
        &mut self,
        basic: crate::evm::policies::SharedGrantSettings,
        grant: crate::evm::policies::SpecificGrant,
    ) -> Result<i32, GrantMutationError> {
        match self
            .props
            .actors
            .evm
            .ask(UseragentCreateGrant { basic, grant })
            .await
        {
            Ok(grant_id) => Ok(grant_id),
            Err(err) => {
                error!(?err, "EVM grant create failed");
                Err(GrantMutationError::Internal)
            }
        }
    }
    #[message]
    pub(crate) async fn handle_grant_delete(
        &mut self,
        grant_id: i32,
    ) -> Result<(), GrantMutationError> {
        // match self
        //     .props
        //     .actors
        //     .evm
        //     .ask(UseragentDeleteGrant { grant_id })
        //     .await
        // {
        //     Ok(()) => Ok(()),
        //     Err(err) => {
        //         error!(?err, "EVM grant delete failed");
        //         Err(GrantMutationError::Internal)
        //     }
        // }
        let _ = grant_id;
        todo!()
    }
    #[message]
    pub(crate) async fn handle_sign_transaction(
        &mut self,
        client_id: i32,
        wallet_address: Address,
        transaction: TxEip1559,
    ) -> Result<Signature, SignTransactionError> {
        match self
            .props
            .actors
            .evm
            .ask(ClientSignTransaction {
                client_id,
                wallet_address,
                transaction,
            })
            .await
        {
            Ok(signature) => Ok(signature),
            Err(SendError::HandlerError(EvmSignError::Vet(vet_error))) => {
                Err(SignTransactionError::Vet(vet_error))
            }
            Err(err) => {
                error!(?err, "EVM sign transaction failed in user-agent session");
                Err(SignTransactionError::Internal)
            }
        }
    }
    #[message]
    pub(crate) async fn handle_grant_evm_wallet_access(
        &mut self,
        entries: Vec<NewEvmWalletAccess>,
    ) -> Result<(), Error> {
        let mut conn = self.props.db.get().await?;
        conn.transaction(|conn| {
            Box::pin(async move {
                use crate::db::schema::evm_wallet_access;
                for entry in entries {
                    diesel::insert_into(evm_wallet_access::table)
                        .values(&entry)
                        .on_conflict_do_nothing()
                        .execute(conn)
                        .await?;
                }
                Result::<_, Error>::Ok(())
            })
        })
        .await?;
        Ok(())
    }
    #[message]
    pub(crate) async fn handle_revoke_evm_wallet_access(
        &mut self,
        entries: Vec<i32>,
    ) -> Result<(), Error> {
        let mut conn = self.props.db.get().await?;
        conn.transaction(|conn| {
            Box::pin(async move {
                use crate::db::schema::evm_wallet_access;
                for entry in entries {
                    diesel::delete(evm_wallet_access::table)
                        .filter(evm_wallet_access::wallet_id.eq(entry))
                        .execute(conn)
                        .await?;
                }
                Result::<_, Error>::Ok(())
            })
        })
        .await?;
        Ok(())
    }
    #[message]
    pub(crate) async fn handle_list_wallet_access(
        &mut self,
    ) -> Result<Vec<EvmWalletAccess>, Error> {
        let mut conn = self.props.db.get().await?;
        use crate::db::schema::evm_wallet_access;
        let access_entries = evm_wallet_access::table
            .select(EvmWalletAccess::as_select())
            .load::<_>(&mut conn)
            .await?;
        Ok(access_entries)
    }
 }
 #[messages]
 impl UserAgentSession {
    #[message(ctx)]
    pub(crate) async fn handle_new_client_approve(
        &mut self,
        approved: bool,
        pubkey: authn::PublicKey,
        ctx: &mut Context<Self, Result<(), Error>>,
    ) -> Result<(), Error> {
        let pending_approval = match self.pending_client_approvals.remove(&pubkey.to_bytes()) {
            Some(approval) => approval,
            None => {
                error!("Received client connection response for unknown client");
                return Err(Error::internal("Unknown client in connection response"));
            }
        };
        pending_approval
            .controller
            .tell(ClientApprovalAnswer { approved })
            .await
            .map_err(|err| {
                error!(
                    ?err,
                    "Failed to send client approval response to controller"
                );
                Error::internal("Failed to send client approval response to controller")
            })?;
        ctx.actor_ref().unlink(&pending_approval.controller).await;
        Ok(())
    }
    #[message]
    pub(crate) async fn handle_sdk_client_list(
        &mut self,
    ) -> Result<Vec<(ProgramClient, ProgramClientMetadata)>, Error> {
        use crate::db::schema::{client_metadata, program_client};
        let mut conn = self.props.db.get().await?;
        let clients = program_client::table
            .inner_join(client_metadata::table)
            .select((
                ProgramClient::as_select(),
                ProgramClientMetadata::as_select(),
            ))
            .load::<(ProgramClient, ProgramClientMetadata)>(&mut conn)
            .await?;
        Ok(clients)
    }
 }
--- a/server/crates/arbiter-server/src/peers/user_agent/session/mod.rs
+++ b/server/crates/arbiter-server/src/peers/user_agent/session/mod.rs
@@ -1,20 +1,23 @@
 use arbiter_crypto::authn;
 use diesel::{ExpressionMethods, QueryDsl};
 use diesel_async::{RunQueryDsl};
 use kameo_actors::message_bus::Register;
 use std::{borrow::Cow, collections::HashMap};
 use arbiter_proto::transport::Sender;
-use async_trait::async_trait;
+use kameo::{Actor, actor::ActorRef, messages, prelude::Message};
 use ed25519_dalek::VerifyingKey;
 use kameo::{Actor, actor::ActorRef, messages};
 use thiserror::Error;
 use tracing::error;
-use crate::actors::{
+use crate::{
-    client::ClientProfile,
+    actors::{
        flow_coordinator::{RegisterUserAgent, client_connect_approval::ClientApprovalController},
-    user_agent::{OutOfBand, UserAgentConnection},
+        vault::events,
    }, crypto::integrity, db::schema::useragent_client, peers::{client::ClientProfile, user_agent::{AuthCredentials, Credentials}}
 };
-mod state;
+use super::{OutOfBand, UserAgentConnection};
 use state::{DummyContext, UserAgentEvents, UserAgentStateMachine};
 #[derive(Debug, Error)]
 pub enum Error {
@@ -47,52 +50,33 @@ impl Error {
 }
 pub struct PendingClientApproval {
    pubkey: authn::PublicKey,
    controller: ActorRef<ClientApprovalController>,
 }
 pub struct UserAgentSession {
    creds: Credentials,
    props: UserAgentConnection,
    state: UserAgentStateMachine<DummyContext>,
    sender: Box<dyn Sender<OutOfBand>>,
-    pending_client_approvals: HashMap<VerifyingKey, PendingClientApproval>,
+    pending_client_approvals: HashMap<Vec<u8>, PendingClientApproval>,
 }
-pub mod connection;
+pub mod handlers;
 impl UserAgentSession {
-    pub(crate) fn new(props: UserAgentConnection, sender: Box<dyn Sender<OutOfBand>>) -> Self {
+    pub(crate) fn new(
        props: UserAgentConnection,
        creds: Credentials,
        sender: Box<dyn Sender<OutOfBand>>,
    ) -> Self {
        Self {
            creds,
            props,
            state: UserAgentStateMachine::new(DummyContext),
            sender,
            pending_client_approvals: Default::default(),
        }
    }
    pub fn new_test(db: crate::db::DatabasePool, actors: crate::actors::GlobalActors) -> Self {
        struct DummySender;
        #[async_trait]
        impl Sender<OutOfBand> for DummySender {
            async fn send(
                &mut self,
                _item: OutOfBand,
            ) -> Result<(), arbiter_proto::transport::Error> {
                Ok(())
            }
        }
        Self::new(UserAgentConnection::new(db, actors), Box::new(DummySender))
    }
    fn transition(&mut self, event: UserAgentEvents) -> Result<(), Error> {
        self.state.process_event(event).map_err(|e| {
            error!(?e, "State transition failed");
            Error::State
        })?;
        Ok(())
    }
 }
 #[messages]
@@ -118,8 +102,13 @@ impl UserAgentSession {
            return;
        }
-        self.pending_client_approvals
+        self.pending_client_approvals.insert(
-            .insert(client.pubkey, PendingClientApproval { controller });
+            client.pubkey.to_bytes(),
            PendingClientApproval {
                pubkey: client.pubkey,
                controller,
            },
        );
    }
 }
@@ -158,14 +147,18 @@ impl Actor for UserAgentSession {
        let cancelled_pubkey = self
            .pending_client_approvals
            .iter()
-            .find_map(|(k, v)| (v.controller.id() == id).then_some(*k));
+            .find_map(|(k, v)| (v.controller.id() == id).then_some(k.clone()));
-        if let Some(pubkey) = cancelled_pubkey {
+        if let Some(pubkey_bytes) = cancelled_pubkey {
-            self.pending_client_approvals.remove(&pubkey);
+            let Some(approval) = self.pending_client_approvals.remove(&pubkey_bytes) else {
                return Ok(std::ops::ControlFlow::Continue(()));
            };
            if let Err(e) = self
                .sender
-                .send(OutOfBand::ClientConnectionCancel { pubkey })
+                .send(OutOfBand::ClientConnectionCancel {
                    pubkey: approval.pubkey,
                })
                .await
            {
                error!(
--- a/server/crates/arbiter-server/src/peers/user_agent/vault_gate/mod.rs
+++ b/server/crates/arbiter-server/src/peers/user_agent/vault_gate/mod.rs
@@ -0,0 +1,295 @@
 use arbiter_crypto::safecell::{SafeCell, SafeCellHandle as _};
 use chacha20poly1305::{AeadInPlace, KeyInit as _, XChaCha20Poly1305, XNonce};
 use kameo::{Actor, error::SendError, messages, prelude::Message};
 use kameo_actors::message_bus::Register;
 use tokio::sync::oneshot;
 use tracing::{error, info};
 use x25519_dalek::{EphemeralSecret, PublicKey, SharedSecret};
 pub mod state;
 use state::*;
 use super::{AuthCredentials, Credentials};
 use crate::{
    actors::{
        GlobalActors,
        vault::{self, Bootstrap, TryUnseal, events},
    },
    crypto::integrity::{self, AttestationStatus},
    db::DatabasePool,
 };
 #[derive(Debug, thiserror::Error)]
 pub enum Error {
    #[error("Vault is already bootstrapped")]
    AlreadyBootstrapped,
    #[error("Invalid key provided")]
    InvalidKey,
    #[error("State transition failed")]
    State,
    #[error("Internal error: {0}")]
    Internal(String),
 }
 impl Error {
    fn internal(message: impl Into<String>) -> Self {
        Self::Internal(message.into())
    }
 }
 pub struct HandshakeResponse {
    pub server_pubkey: PublicKey,
 }
 pub struct VaultGate {
    pub auth_creds: AuthCredentials,
    pub promotion_tx: Option<oneshot::Sender<Result<Credentials, Error>>>,
    pub state: State,
    pub actors: GlobalActors,
    pub db: DatabasePool,
 }
 impl VaultGate {
    pub fn new(
        auth_creds: AuthCredentials,
        actors: GlobalActors,
        db: DatabasePool,
        promotion_tx: oneshot::Sender<Result<Credentials, Error>>,
    ) -> Self {
        Self {
            auth_creds,
            state: State::default(),
            actors,
            db,
            promotion_tx: Some(promotion_tx),
        }
    }
 }
 impl Actor for VaultGate {
    type Args = Self;
    type Error = ();
    async fn on_start(
        args: Self::Args,
        actor_ref: kameo::prelude::ActorRef<Self>,
    ) -> Result<Self, Self::Error> {
        let _ = args
            .actors
            .events
            .tell(Register(
                actor_ref.clone().recipient::<events::Bootstrapped>(),
            ))
            .await;
        let _ = args
            .actors
            .events
            .tell(Register(actor_ref.recipient::<events::Unsealed>()))
            .await;
        Ok(args)
    }
 }
 impl VaultGate {
    fn decrypt_key(
        secret: &SharedSecret,
        nonce: &[u8],
        ciphertext: &[u8],
        associated_data: &[u8],
    ) -> Result<SafeCell<Vec<u8>>, ()> {
        let nonce = XNonce::from_slice(nonce);
        let cipher = XChaCha20Poly1305::new(secret.as_bytes().into());
        let mut key_buffer = SafeCell::new(ciphertext.to_vec());
        let decryption_result = key_buffer.write_inline(|write_handle| {
            cipher.decrypt_in_place(nonce, associated_data, write_handle)
        });
        match decryption_result {
            Ok(_) => Ok(key_buffer),
            Err(err) => {
                error!(?err, "Failed to decrypt encrypted key material");
                Err(())
            }
        }
    }
 }
 #[messages(messages = Inbound, replies = Outbound)]
 impl VaultGate {
    #[message]
    pub async fn handle_handshake(
        &mut self,
        client_pubkey: x25519_dalek::PublicKey,
    ) -> Result<HandshakeResponse, Error> {
        let ephemeral_secret = EphemeralSecret::random();
        let public_key = PublicKey::from(&ephemeral_secret);
        let secret = ephemeral_secret.diffie_hellman(&client_pubkey);
        self.state = State::ReadyForExchange {
            server_key: public_key.clone(),
            secret,
        };
        Ok(HandshakeResponse {
            server_pubkey: public_key,
        })
    }
    #[message]
    pub async fn handle_unseal_encrypted_key(
        &mut self,
        nonce: Vec<u8>,
        ciphertext: Vec<u8>,
        associated_data: Vec<u8>,
    ) -> Result<(), Error> {
        let State::ReadyForExchange { secret, .. } = &self.state else {
            return Err(Error::State);
        };
        let seal_key_buffer = match Self::decrypt_key(secret, &nonce, &ciphertext, &associated_data)
        {
            Ok(buffer) => buffer,
            Err(()) => {
                return Err(Error::InvalidKey);
            }
        };
        match self
            .actors
            .vault
            .ask(TryUnseal {
                seal_key_raw: seal_key_buffer,
            })
            .await
        {
            Ok(_) => {
                info!("Successfully unsealed key with client-provided key");
                Ok(())
            }
            Err(SendError::HandlerError(vault::Error::InvalidKey)) => Err(Error::InvalidKey),
            Err(SendError::HandlerError(err)) => {
                error!(?err, "Vault failed to unseal key");
                Err(Error::InvalidKey)
            }
            Err(err) => {
                error!(?err, "Failed to send unseal request to vault");
                Err(Error::internal("Vault actor error").into())
            }
        }
    }
    #[message]
    pub async fn handle_bootstrap_encrypted_key(
        &mut self,
        nonce: Vec<u8>,
        ciphertext: Vec<u8>,
        associated_data: Vec<u8>,
    ) -> Result<(), Error> {
        let State::ReadyForExchange { secret, .. } = &self.state else {
            return Err(Error::State);
        };
        let seal_key_buffer = match Self::decrypt_key(secret, &nonce, &ciphertext, &associated_data)
        {
            Ok(buffer) => buffer,
            Err(()) => {
                return Err(Error::InvalidKey);
            }
        };
        match self
            .actors
            .vault
            .ask(Bootstrap {
                seal_key_raw: seal_key_buffer,
            })
            .await
        {
            Ok(_) => {
                info!("Successfully bootstrapped vault with client-provided key");
                Ok(())
            }
            Err(SendError::HandlerError(vault::Error::AlreadyBootstrapped)) => {
                Err(Error::AlreadyBootstrapped)
            }
            Err(SendError::HandlerError(err)) => {
                error!(?err, "Vault failed to bootstrap vault");
                Err(Error::InvalidKey)
            }
            Err(err) => {
                error!(?err, "Failed to send bootstrap request to vault");
                Err(Error::internal("Vault error"))
            }
        }
    }
 }
 impl Message<events::Bootstrapped> for VaultGate {
    type Reply = ();
    async fn handle(
        &mut self,
        _: events::Bootstrapped,
        ctx: &mut kameo::prelude::Context<Self, Self::Reply>,
    ) -> Self::Reply {
        let result = async {
            let mut conn = self.db.get().await.map_err(|_| Error::internal("DB unavailable"))?;
            integrity::sign_entity(&mut conn, &self.actors.vault, &self.auth_creds, self.auth_creds.creds.id)
                .await
                .map_err(|e| {
                    error!(?e, "Failed to sign integrity envelope on bootstrap");
                    Error::internal("Integrity sign failed")
                })?;
            Ok(self.auth_creds.creds.clone())
        }
        .await;
        if let Some(tx) = self.promotion_tx.take() {
            let _ = tx.send(result);
        }
        ctx.stop();
    }
 }
 impl Message<events::Unsealed> for VaultGate {
    type Reply = ();
    async fn handle(
        &mut self,
        _: events::Unsealed,
        ctx: &mut kameo::prelude::Context<Self, Self::Reply>,
    ) -> Self::Reply {
        let result = async {
            let mut conn = self.db.get().await.map_err(|_| Error::internal("DB unavailable"))?;
            match integrity::verify_entity(
                &mut conn,
                &self.actors.vault,
                &self.auth_creds,
                self.auth_creds.creds.id,
            )
            .await
            {
                Ok(AttestationStatus::Attested) => Ok(self.auth_creds.creds.clone()),
                Ok(AttestationStatus::Unavailable) => {
                    Err(Error::internal("Vault sealed during promotion"))
                }
                Err(e) => {
                    error!(?e, "Integrity verification failed during unseal promotion");
                    Err(Error::InvalidKey)
                }
            }
        }
        .await;
        if let Some(tx) = self.promotion_tx.take() {
            let _ = tx.send(result);
        }
        ctx.stop();
    }
 }
--- a/server/crates/arbiter-server/src/peers/user_agent/vault_gate/state.rs
+++ b/server/crates/arbiter-server/src/peers/user_agent/vault_gate/state.rs
@@ -0,0 +1,17 @@
 use std::sync::Mutex;
 use x25519_dalek::{EphemeralSecret, PublicKey, SharedSecret};
 pub struct Handshake {
    client_pubkey: PublicKey,
 }
 #[derive(Default)]
 pub enum State {
    #[default]
    Idle,
    ReadyForExchange {
        server_key: PublicKey,
        secret: SharedSecret,
    },
 }
--- a/server/crates/arbiter-server/tests/client/auth.rs
+++ b/server/crates/arbiter-server/tests/client/auth.rs
@@ -1,13 +1,18 @@
 use arbiter_crypto::{
    authn::{self, CLIENT_CONTEXT, format_challenge},
    safecell::{SafeCell, SafeCellHandle as _},
 };
 use arbiter_proto::ClientMetadata;
 use arbiter_proto::transport::{Receiver, Sender};
 use arbiter_server::actors::GlobalActors;
 use arbiter_server::{
-    actors::client::{ClientConnection, auth, connect_client},
+    actors::{GlobalActors, vault::Bootstrap},
-    db,
+    crypto::integrity,
    db::{self, schema},
    peers::client::{ClientConnection, ClientCredentials, auth, connect_client},
 };
 use diesel::{ExpressionMethods as _, NullableExpressionMethods as _, QueryDsl as _, insert_into};
 use diesel_async::RunQueryDsl;
-use ed25519_dalek::Signer as _;
+use ml_dsa::{KeyGen, MlDsa87, SigningKey, VerifyingKey, signature::Keypair as _};
 use super::common::ChannelTransport;
@@ -21,7 +26,8 @@ fn metadata(name: &str, description: Option<&str>, version: Option<&str>) -> Cli
 async fn insert_registered_client(
    db: &db::DatabasePool,
-    pubkey: Vec<u8>,
+    actors: &GlobalActors,
    pubkey: VerifyingKey<MlDsa87>,
    metadata: &ClientMetadata,
 ) {
    use arbiter_server::db::schema::{client_metadata, program_client};
@@ -37,34 +43,90 @@ async fn insert_registered_client(
        .get_result(&mut conn)
        .await
        .unwrap();
-    insert_into(program_client::table)
+    let client_id: i32 = insert_into(program_client::table)
        .values((
-            program_client::public_key.eq(pubkey),
+            program_client::public_key.eq(pubkey.encode().to_vec()),
            program_client::metadata_id.eq(metadata_id),
        ))
        .returning(program_client::id)
        .get_result(&mut conn)
        .await
        .unwrap();
    integrity::sign_entity(
        &mut conn,
        &actors.vault,
        &ClientCredentials {
            pubkey: pubkey.into(),
            nonce: 1,
        },
        client_id,
    )
    .await
    .unwrap();
 }
 fn sign_client_challenge(
    key: &SigningKey<MlDsa87>,
    nonce: i32,
    pubkey: &authn::PublicKey,
 ) -> authn::Signature {
    let challenge = format_challenge(nonce, &pubkey.to_bytes());
    key.signing_key()
        .sign_deterministic(&challenge, CLIENT_CONTEXT)
        .unwrap()
        .into()
 }
 async fn insert_bootstrap_sentinel_useragent(db: &db::DatabasePool) {
    let mut conn = db.get().await.unwrap();
    let sentinel_key = MlDsa87::key_gen(&mut rand::rng())
        .verifying_key()
        .encode()
        .to_vec();
    insert_into(schema::useragent_client::table)
        .values((
            schema::useragent_client::public_key.eq(sentinel_key),
            schema::useragent_client::key_type.eq(1i32),
        ))
        .execute(&mut conn)
        .await
        .unwrap();
 }
 async fn spawn_test_actors(db: &db::DatabasePool) -> GlobalActors {
    insert_bootstrap_sentinel_useragent(db).await;
    let actors = GlobalActors::spawn(db.clone()).await.unwrap();
    actors
        .vault
        .ask(Bootstrap {
            seal_key_raw: SafeCell::new(b"test-seal-key".to_vec()),
        })
        .await
        .unwrap();
    actors
 }
 #[tokio::test]
 #[test_log::test]
 pub async fn test_unregistered_pubkey_rejected() {
    let db = db::create_test_pool().await;
    let (server_transport, mut test_transport) = ChannelTransport::new();
-    let actors = GlobalActors::spawn(db.clone()).await.unwrap();
+    let actors = spawn_test_actors(&db).await;
    let props = ClientConnection::new(db.clone(), actors);
    let task = tokio::spawn(async move {
        let mut server_transport = server_transport;
        connect_client(props, &mut server_transport).await;
    });
-    let new_key = ed25519_dalek::SigningKey::generate(&mut rand::rng());
+    let new_key = MlDsa87::key_gen(&mut rand::rng());
    test_transport
        .send(auth::Inbound::AuthChallengeRequest {
-            pubkey: new_key.verifying_key(),
+            pubkey: new_key.verifying_key().into(),
            metadata: metadata("client", Some("desc"), Some("1.0.0")),
        })
        .await
@@ -78,20 +140,19 @@ pub async fn test_unregistered_pubkey_rejected() {
 #[test_log::test]
 pub async fn test_challenge_auth() {
    let db = db::create_test_pool().await;
    let actors = spawn_test_actors(&db).await;
-    let new_key = ed25519_dalek::SigningKey::generate(&mut rand::rng());
+    let new_key = MlDsa87::key_gen(&mut rand::rng());
    let pubkey_bytes = new_key.verifying_key().to_bytes().to_vec();
    insert_registered_client(
        &db,
-        pubkey_bytes.clone(),
+        &actors,
        new_key.verifying_key(),
        &metadata("client", Some("desc"), Some("1.0.0")),
    )
    .await;
    let (server_transport, mut test_transport) = ChannelTransport::new();
    let actors = GlobalActors::spawn(db.clone()).await.unwrap();
    let props = ClientConnection::new(db.clone(), actors);
    let task = tokio::spawn(async move {
        let mut server_transport = server_transport;
@@ -101,7 +162,7 @@ pub async fn test_challenge_auth() {
    // Send challenge request
    test_transport
        .send(auth::Inbound::AuthChallengeRequest {
-            pubkey: new_key.verifying_key(),
+            pubkey: new_key.verifying_key().into(),
            metadata: metadata("client", Some("desc"), Some("1.0.0")),
        })
        .await
@@ -121,8 +182,7 @@ pub async fn test_challenge_auth() {
    };
    // Sign the challenge and send solution
-    let formatted_challenge = arbiter_proto::format_challenge(challenge.1, challenge.0.as_bytes());
+    let signature = sign_client_challenge(&new_key, challenge.1, &challenge.0);
    let signature = new_key.sign(&formatted_challenge);
    test_transport
        .send(auth::Inbound::AuthChallengeSolution { signature })
@@ -147,34 +207,13 @@ pub async fn test_challenge_auth() {
 #[test_log::test]
 pub async fn test_metadata_unchanged_does_not_append_history() {
    let db = db::create_test_pool().await;
-    let actors = GlobalActors::spawn(db.clone()).await.unwrap();
+    let actors = spawn_test_actors(&db).await;
-    let props = ClientConnection::new(db.clone(), actors);
+    let new_key = MlDsa87::key_gen(&mut rand::rng());
    let new_key = ed25519_dalek::SigningKey::generate(&mut rand::rng());
    let requested = metadata("client", Some("desc"), Some("1.0.0"));
-    {
+    insert_registered_client(&db, &actors, new_key.verifying_key(), &requested).await;
-        use arbiter_server::db::schema::{client_metadata, program_client};
+
-        let mut conn = db.get().await.unwrap();
+    let props = ClientConnection::new(db.clone(), actors);
        let metadata_id: i32 = insert_into(client_metadata::table)
            .values((
                client_metadata::name.eq(&requested.name),
                client_metadata::description.eq(&requested.description),
                client_metadata::version.eq(&requested.version),
            ))
            .returning(client_metadata::id)
            .get_result(&mut conn)
            .await
            .unwrap();
        insert_into(program_client::table)
            .values((
                program_client::public_key.eq(new_key.verifying_key().to_bytes().to_vec()),
                program_client::metadata_id.eq(metadata_id),
            ))
            .execute(&mut conn)
            .await
            .unwrap();
    }
    let (server_transport, mut test_transport) = ChannelTransport::new();
    let task = tokio::spawn(async move {
@@ -184,7 +223,7 @@ pub async fn test_metadata_unchanged_does_not_append_history() {
    test_transport
        .send(auth::Inbound::AuthChallengeRequest {
-            pubkey: new_key.verifying_key(),
+            pubkey: new_key.verifying_key().into(),
            metadata: requested,
        })
        .await
@@ -195,7 +234,7 @@ pub async fn test_metadata_unchanged_does_not_append_history() {
        auth::Outbound::AuthChallenge { pubkey, nonce } => (pubkey, nonce),
        other => panic!("Expected AuthChallenge, got {other:?}"),
    };
-    let signature = new_key.sign(&arbiter_proto::format_challenge(nonce, pubkey.as_bytes()));
+    let signature = sign_client_challenge(&new_key, nonce, &pubkey);
    test_transport
        .send(auth::Inbound::AuthChallengeSolution { signature })
        .await
@@ -225,34 +264,19 @@ pub async fn test_metadata_unchanged_does_not_append_history() {
 #[test_log::test]
 pub async fn test_metadata_change_appends_history_and_repoints_binding() {
    let db = db::create_test_pool().await;
-    let actors = GlobalActors::spawn(db.clone()).await.unwrap();
+    let actors = spawn_test_actors(&db).await;
    let new_key = MlDsa87::key_gen(&mut rand::rng());
    insert_registered_client(
        &db,
        &actors,
        new_key.verifying_key(),
        &metadata("client", Some("old"), Some("1.0.0")),
    )
    .await;
    let props = ClientConnection::new(db.clone(), actors);
    let new_key = ed25519_dalek::SigningKey::generate(&mut rand::rng());
    {
        use arbiter_server::db::schema::{client_metadata, program_client};
        let mut conn = db.get().await.unwrap();
        let metadata_id: i32 = insert_into(client_metadata::table)
            .values((
                client_metadata::name.eq("client"),
                client_metadata::description.eq(Some("old")),
                client_metadata::version.eq(Some("1.0.0")),
            ))
            .returning(client_metadata::id)
            .get_result(&mut conn)
            .await
            .unwrap();
        insert_into(program_client::table)
            .values((
                program_client::public_key.eq(new_key.verifying_key().to_bytes().to_vec()),
                program_client::metadata_id.eq(metadata_id),
            ))
            .execute(&mut conn)
            .await
            .unwrap();
    }
    let (server_transport, mut test_transport) = ChannelTransport::new();
    let task = tokio::spawn(async move {
        let mut server_transport = server_transport;
@@ -261,7 +285,7 @@ pub async fn test_metadata_change_appends_history_and_repoints_binding() {
    test_transport
        .send(auth::Inbound::AuthChallengeRequest {
-            pubkey: new_key.verifying_key(),
+            pubkey: new_key.verifying_key().into(),
            metadata: metadata("client", Some("new"), Some("2.0.0")),
        })
        .await
@@ -272,7 +296,7 @@ pub async fn test_metadata_change_appends_history_and_repoints_binding() {
        auth::Outbound::AuthChallenge { pubkey, nonce } => (pubkey, nonce),
        other => panic!("Expected AuthChallenge, got {other:?}"),
    };
-    let signature = new_key.sign(&arbiter_proto::format_challenge(nonce, pubkey.as_bytes()));
+    let signature = sign_client_challenge(&new_key, nonce, &pubkey);
    test_transport
        .send(auth::Inbound::AuthChallengeSolution { signature })
        .await
@@ -322,3 +346,59 @@ pub async fn test_metadata_change_appends_history_and_repoints_binding() {
        );
    }
 }
 #[tokio::test]
 #[test_log::test]
 pub async fn test_challenge_auth_rejects_integrity_tag_mismatch() {
    let db = db::create_test_pool().await;
    let actors = spawn_test_actors(&db).await;
    let new_key = MlDsa87::key_gen(&mut rand::rng());
    let requested = metadata("client", Some("desc"), Some("1.0.0"));
    {
        use arbiter_server::db::schema::{client_metadata, program_client};
        let mut conn = db.get().await.unwrap();
        let metadata_id: i32 = insert_into(client_metadata::table)
            .values((
                client_metadata::name.eq(&requested.name),
                client_metadata::description.eq(&requested.description),
                client_metadata::version.eq(&requested.version),
            ))
            .returning(client_metadata::id)
            .get_result(&mut conn)
            .await
            .unwrap();
        insert_into(program_client::table)
            .values((
                program_client::public_key.eq(new_key.verifying_key().encode().to_vec()),
                program_client::metadata_id.eq(metadata_id),
            ))
            .execute(&mut conn)
            .await
            .unwrap();
    }
    let (server_transport, mut test_transport) = ChannelTransport::new();
    let props = ClientConnection::new(db.clone(), actors);
    let task = tokio::spawn(async move {
        let mut server_transport = server_transport;
        connect_client(props, &mut server_transport).await;
    });
    test_transport
        .send(auth::Inbound::AuthChallengeRequest {
            pubkey: new_key.verifying_key().into(),
            metadata: requested,
        })
        .await
        .unwrap();
    let response = test_transport
        .recv()
        .await
        .expect("should receive auth rejection");
    assert!(matches!(response, Err(auth::Error::IntegrityCheckFailed)));
    task.await.unwrap();
 }
--- a/server/crates/arbiter-server/tests/common/mod.rs
+++ b/server/crates/arbiter-server/tests/common/mod.rs
@@ -1,17 +1,20 @@
 use arbiter_crypto::safecell::{SafeCell, SafeCellHandle as _};
 use arbiter_proto::transport::{Bi, Error, Receiver, Sender};
 use arbiter_server::{
-    actors::keyholder::KeyHolder,
+    actors::{GlobalActors, vault::Vault},
    db::{self, schema},
    safe_cell::{SafeCell, SafeCellHandle as _},
 };
 use async_trait::async_trait;
 use diesel::QueryDsl;
 use diesel_async::RunQueryDsl;
 use tokio::sync::mpsc;
 #[allow(dead_code)]
-pub async fn bootstrapped_keyholder(db: &db::DatabasePool) -> KeyHolder {
+pub async fn bootstrapped_vault(db: &db::DatabasePool) -> Vault {
-    let mut actor = KeyHolder::new(db.clone()).await.unwrap();
+    let mut actor = Vault::new(db.clone(), GlobalActors::spawn_message_bus())
        .await
        .unwrap();
    actor
        .bootstrap(SafeCell::new(b"test-seal-key".to_vec()))
        .await
--- a/server/crates/arbiter-server/tests/keyholder.rs
+++ b/server/crates/arbiter-server/tests/keyholder.rs
@@ -1,8 +0,0 @@
 mod common;
 #[path = "keyholder/concurrency.rs"]
 mod concurrency;
 #[path = "keyholder/lifecycle.rs"]
 mod lifecycle;
 #[path = "keyholder/storage.rs"]
 mod storage;
--- a/server/crates/arbiter-server/tests/user_agent/auth.rs
+++ b/server/crates/arbiter-server/tests/user_agent/auth.rs
@@ -1,36 +1,58 @@
 use arbiter_crypto::{
    authn::{self, USERAGENT_CONTEXT, format_challenge},
    safecell::{SafeCell, SafeCellHandle as _},
 };
 use arbiter_proto::transport::{Receiver, Sender};
 use arbiter_server::{
-    actors::{
+    actors::{GlobalActors, bootstrap::GetToken, vault::Bootstrap},
-        GlobalActors,
+    crypto::integrity,
        bootstrap::GetToken,
        user_agent::{AuthPublicKey, UserAgentConnection, auth},
    },
    db::{self, schema},
    peers::user_agent::{AuthCredentials, Credentials, UserAgentConnection, auth},
 };
 use diesel::{ExpressionMethods as _, QueryDsl, insert_into};
 use diesel_async::RunQueryDsl;
-use ed25519_dalek::Signer as _;
+use ml_dsa::{KeyGen, MlDsa87, SigningKey, signature::Keypair as _};
 use super::common::ChannelTransport;
 fn sign_useragent_challenge(
    key: &SigningKey<MlDsa87>,
    nonce: i32,
    pubkey_bytes: &[u8],
 ) -> authn::Signature {
    let challenge = format_challenge(nonce, pubkey_bytes);
    key.signing_key()
        .sign_deterministic(&challenge, USERAGENT_CONTEXT)
        .unwrap()
        .into()
 }
 #[tokio::test]
 #[test_log::test]
 pub async fn test_bootstrap_token_auth() {
    let db = db::create_test_pool().await;
    let actors = GlobalActors::spawn(db.clone()).await.unwrap();
    actors
        .vault
        .ask(Bootstrap {
            seal_key_raw: SafeCell::new(b"test-seal-key".to_vec()),
        })
        .await
        .unwrap();
    let token = actors.bootstrapper.ask(GetToken).await.unwrap().unwrap();
-    let (server_transport, mut test_transport) = ChannelTransport::new();
+    let (mut server_transport, mut test_transport) = ChannelTransport::new();
    let db_for_task = db.clone();
    let task = tokio::spawn(async move {
        let mut props = UserAgentConnection::new(db_for_task, actors);
-        auth::authenticate(&mut props, server_transport).await
+        auth::authenticate(&mut props, &mut server_transport).await
    });
-    let new_key = ed25519_dalek::SigningKey::generate(&mut rand::rng());
+    let new_key = MlDsa87::key_gen(&mut rand::rng());
    test_transport
        .send(auth::Inbound::AuthChallengeRequest {
-            pubkey: AuthPublicKey::Ed25519(new_key.verifying_key()),
+            pubkey: new_key.verifying_key().into(),
            bootstrap_token: Some(token),
        })
        .await
@@ -53,7 +75,7 @@ pub async fn test_bootstrap_token_auth() {
        .first::<Vec<u8>>(&mut conn)
        .await
        .unwrap();
-    assert_eq!(stored_pubkey, new_key.verifying_key().to_bytes().to_vec());
+    assert_eq!(stored_pubkey, new_key.verifying_key().encode().to_vec());
 }
 #[tokio::test]
@@ -62,17 +84,17 @@ pub async fn test_bootstrap_invalid_token_auth() {
    let db = db::create_test_pool().await;
    let actors = GlobalActors::spawn(db.clone()).await.unwrap();
-    let (server_transport, mut test_transport) = ChannelTransport::new();
+    let (mut server_transport, mut test_transport) = ChannelTransport::new();
    let db_for_task = db.clone();
    let task = tokio::spawn(async move {
        let mut props = UserAgentConnection::new(db_for_task, actors);
-        auth::authenticate(&mut props, server_transport).await
+        auth::authenticate(&mut props, &mut server_transport).await
    });
-    let new_key = ed25519_dalek::SigningKey::generate(&mut rand::rng());
+    let new_key = MlDsa87::key_gen(&mut rand::rng());
    test_transport
        .send(auth::Inbound::AuthChallengeRequest {
-            pubkey: AuthPublicKey::Ed25519(new_key.verifying_key()),
+            pubkey: new_key.verifying_key().into(),
            bootstrap_token: Some("invalid_token".to_string()),
        })
        .await
@@ -83,7 +105,6 @@ pub async fn test_bootstrap_invalid_token_auth() {
        Err(auth::Error::InvalidBootstrapToken)
    ));
    // Verify no key was registered
    let mut conn = db.get().await.unwrap();
    let count: i64 = schema::useragent_client::table
        .count()
@@ -98,40 +119,59 @@ pub async fn test_bootstrap_invalid_token_auth() {
 pub async fn test_challenge_auth() {
    let db = db::create_test_pool().await;
    let actors = GlobalActors::spawn(db.clone()).await.unwrap();
    actors
        .vault
        .ask(Bootstrap {
            seal_key_raw: SafeCell::new(b"test-seal-key".to_vec()),
        })
        .await
        .unwrap();
-    let new_key = ed25519_dalek::SigningKey::generate(&mut rand::rng());
+    let new_key = MlDsa87::key_gen(&mut rand::rng());
-    let pubkey_bytes = new_key.verifying_key().to_bytes().to_vec();
+    let pubkey_bytes = new_key.verifying_key().encode().to_vec();
    // Pre-register key with key_type
    {
        let mut conn = db.get().await.unwrap();
-        insert_into(schema::useragent_client::table)
+        let id: i32 = insert_into(schema::useragent_client::table)
            .values((
                schema::useragent_client::public_key.eq(pubkey_bytes.clone()),
                schema::useragent_client::key_type.eq(1i32),
            ))
-            .execute(&mut conn)
+            .returning(schema::useragent_client::id)
            .get_result(&mut conn)
            .await
            .unwrap();
        integrity::sign_entity(
            &mut conn,
            &actors.vault,
            &AuthCredentials {
                creds: Credentials {
                    id,
                    pubkey: new_key.verifying_key().into(),
                },
                new_nonce: 1,
            },
            id,
        )
        .await
        .unwrap();
    }
-    let (server_transport, mut test_transport) = ChannelTransport::new();
+    let (mut server_transport, mut test_transport) = ChannelTransport::new();
    let db_for_task = db.clone();
    let task = tokio::spawn(async move {
        let mut props = UserAgentConnection::new(db_for_task, actors);
-        auth::authenticate(&mut props, server_transport).await
+        auth::authenticate(&mut props, &mut server_transport).await
    });
    // Send challenge request
    test_transport
        .send(auth::Inbound::AuthChallengeRequest {
-            pubkey: AuthPublicKey::Ed25519(new_key.verifying_key()),
+            pubkey: new_key.verifying_key().into(),
            bootstrap_token: None,
        })
        .await
        .unwrap();
    // Read the challenge response
    let response = test_transport
        .recv()
        .await
@@ -144,12 +184,11 @@ pub async fn test_challenge_auth() {
        Err(err) => panic!("Expected Ok response, got Err({err:?})"),
    };
-    let formatted_challenge = arbiter_proto::format_challenge(challenge, &pubkey_bytes);
+    let signature = sign_useragent_challenge(&new_key, challenge, &pubkey_bytes);
    let signature = new_key.sign(&formatted_challenge);
    test_transport
        .send(auth::Inbound::AuthChallengeSolution {
-            signature: signature.to_bytes().to_vec(),
+            signature: signature.to_bytes(),
        })
        .await
        .unwrap();
@@ -168,14 +207,21 @@ pub async fn test_challenge_auth() {
 #[tokio::test]
 #[test_log::test]
-pub async fn test_challenge_auth_rejects_invalid_signature() {
+pub async fn test_challenge_auth_rejects_integrity_tag_mismatch_when_unsealed() {
    let db = db::create_test_pool().await;
    let actors = GlobalActors::spawn(db.clone()).await.unwrap();
-    let new_key = ed25519_dalek::SigningKey::generate(&mut rand::rng());
+    actors
-    let pubkey_bytes = new_key.verifying_key().to_bytes().to_vec();
+        .vault
        .ask(Bootstrap {
            seal_key_raw: SafeCell::new(b"test-seal-key".to_vec()),
        })
        .await
        .unwrap();
    let new_key = MlDsa87::key_gen(&mut rand::rng());
    let pubkey_bytes = new_key.verifying_key().encode().to_vec();
    // Pre-register key with key_type
    {
        let mut conn = db.get().await.unwrap();
        insert_into(schema::useragent_client::table)
@@ -188,16 +234,80 @@ pub async fn test_challenge_auth_rejects_invalid_signature() {
            .unwrap();
    }
-    let (server_transport, mut test_transport) = ChannelTransport::new();
+    let (mut server_transport, mut test_transport) = ChannelTransport::new();
    let db_for_task = db.clone();
    let task = tokio::spawn(async move {
        let mut props = UserAgentConnection::new(db_for_task, actors);
-        auth::authenticate(&mut props, server_transport).await
+        auth::authenticate(&mut props, &mut server_transport).await
    });
    test_transport
        .send(auth::Inbound::AuthChallengeRequest {
-            pubkey: AuthPublicKey::Ed25519(new_key.verifying_key()),
+            pubkey: new_key.verifying_key().into(),
            bootstrap_token: None,
        })
        .await
        .unwrap();
    assert!(matches!(
        task.await.unwrap(),
        Err(auth::Error::Internal { .. })
    ));
 }
 #[tokio::test]
 #[test_log::test]
 pub async fn test_challenge_auth_rejects_invalid_signature() {
    let db = db::create_test_pool().await;
    let actors = GlobalActors::spawn(db.clone()).await.unwrap();
    actors
        .vault
        .ask(Bootstrap {
            seal_key_raw: SafeCell::new(b"test-seal-key".to_vec()),
        })
        .await
        .unwrap();
    let new_key = MlDsa87::key_gen(&mut rand::rng());
    let pubkey_bytes = new_key.verifying_key().encode().to_vec();
    {
        let mut conn = db.get().await.unwrap();
        let id: i32 = insert_into(schema::useragent_client::table)
            .values((
                schema::useragent_client::public_key.eq(pubkey_bytes.clone()),
                schema::useragent_client::key_type.eq(1i32),
            ))
            .returning(schema::useragent_client::id)
            .get_result(&mut conn)
            .await
            .unwrap();
        integrity::sign_entity(
            &mut conn,
            &actors.vault,
            &AuthCredentials {
                creds: Credentials {
                    id,
                    pubkey: new_key.verifying_key().into(),
                },
                new_nonce: 1,
            },
            id,
        )
        .await
        .unwrap();
    }
    let (mut server_transport, mut test_transport) = ChannelTransport::new();
    let db_for_task = db.clone();
    let task = tokio::spawn(async move {
        let mut props = UserAgentConnection::new(db_for_task, actors);
        auth::authenticate(&mut props, &mut server_transport).await
    });
    test_transport
        .send(auth::Inbound::AuthChallengeRequest {
            pubkey: new_key.verifying_key().into(),
            bootstrap_token: None,
        })
        .await
@@ -215,19 +325,19 @@ pub async fn test_challenge_auth_rejects_invalid_signature() {
        Err(err) => panic!("Expected Ok response, got Err({err:?})"),
    };
-    // Sign a different challenge value so signature format is valid but verification must fail.
+    let signature = sign_useragent_challenge(&new_key, challenge + 1, &pubkey_bytes);
    let wrong_challenge = arbiter_proto::format_challenge(challenge + 1, &pubkey_bytes);
    let signature = new_key.sign(&wrong_challenge);
    test_transport
        .send(auth::Inbound::AuthChallengeSolution {
-            signature: signature.to_bytes().to_vec(),
+            signature: signature.to_bytes(),
        })
        .await
        .unwrap();
    let expected_err = task.await.unwrap();
    println!("Received expected error: {expected_err:#?}");
    assert!(matches!(
-        task.await.unwrap(),
+        expected_err,
        Err(auth::Error::InvalidChallengeSolution)
    ));
 }
--- a/server/crates/arbiter-server/tests/user_agent/unseal.rs
+++ b/server/crates/arbiter-server/tests/user_agent/unseal.rs
@@ -1,47 +1,59 @@
 use arbiter_crypto::{
    authn,
    safecell::{SafeCell, SafeCellHandle as _},
 };
 use arbiter_server::{
    actors::{
        GlobalActors,
-        keyholder::{Bootstrap, Seal},
+        vault::{Bootstrap, Seal},
        user_agent::{UserAgentSession, session::connection::{
            HandleUnsealEncryptedKey, HandleUnsealRequest, UnsealError,
        }},
    },
    db,
-    safe_cell::{SafeCell, SafeCellHandle as _},
+    peers::user_agent::{
        AuthCredentials, Credentials,
        vault_gate::{Error as VaultGateError, HandleHandshake, HandleUnsealEncryptedKey, VaultGate},
    },
 };
 use chacha20poly1305::{AeadInPlace, XChaCha20Poly1305, XNonce, aead::KeyInit};
 use kameo::actor::Spawn as _;
 use tokio::sync::oneshot;
 use x25519_dalek::{EphemeralSecret, PublicKey};
-async fn setup_sealed_user_agent(
+async fn setup_sealed_gate(
    seal_key: &[u8],
-) -> (db::DatabasePool, kameo::actor::ActorRef<UserAgentSession>) {
+) -> (db::DatabasePool, kameo::actor::ActorRef<VaultGate>, oneshot::Receiver<Result<Credentials, VaultGateError>>) {
    let db = db::create_test_pool().await;
    let actors = GlobalActors::spawn(db.clone()).await.unwrap();
    actors
-        .key_holder
+        .vault
        .ask(Bootstrap {
            seal_key_raw: SafeCell::new(seal_key.to_vec()),
        })
        .await
        .unwrap();
-    actors.key_holder.ask(Seal).await.unwrap();
+    actors.vault.ask(Seal).await.unwrap();
-    let session = UserAgentSession::spawn(UserAgentSession::new_test(db.clone(), actors));
+    let (promotion_tx, promotion_rx) = oneshot::channel();
    let pubkey = authn::SigningKey::generate().public_key();
    let auth_creds = AuthCredentials {
        creds: Credentials { id: 1, pubkey },
        new_nonce: 1,
    };
    let gate = VaultGate::spawn(VaultGate::new(auth_creds, actors, db.clone(), promotion_tx));
-    (db, session)
+    (db, gate, promotion_rx)
 }
 async fn client_dh_encrypt(
-    user_agent: &kameo::actor::ActorRef<UserAgentSession>,
+    gate: &kameo::actor::ActorRef<VaultGate>,
    key_to_send: &[u8],
 ) -> HandleUnsealEncryptedKey {
    let client_secret = EphemeralSecret::random();
    let client_public = PublicKey::from(&client_secret);
-    let response = user_agent
+    let response = gate
-        .ask(HandleUnsealRequest {
+        .ask(HandleHandshake {
            client_pubkey: client_public,
        })
        .await
@@ -69,26 +81,26 @@ async fn client_dh_encrypt(
 #[test_log::test]
 pub async fn test_unseal_success() {
    let seal_key = b"test-seal-key";
-    let (_db, user_agent) = setup_sealed_user_agent(seal_key).await;
+    let (_db, gate, _promotion_rx) = setup_sealed_gate(seal_key).await;
-    let encrypted_key = client_dh_encrypt(&user_agent, seal_key).await;
+    let encrypted_key = client_dh_encrypt(&gate, seal_key).await;
-    let response = user_agent.ask(encrypted_key).await;
+    let response = gate.ask(encrypted_key).await;
    assert!(matches!(response, Ok(())));
 }
 #[tokio::test]
 #[test_log::test]
 pub async fn test_unseal_wrong_seal_key() {
-    let (_db, user_agent) = setup_sealed_user_agent(b"correct-key").await;
+    let (_db, gate, _promotion_rx) = setup_sealed_gate(b"correct-key").await;
-    let encrypted_key = client_dh_encrypt(&user_agent, b"wrong-key").await;
+    let encrypted_key = client_dh_encrypt(&gate, b"wrong-key").await;
-    let response = user_agent.ask(encrypted_key).await;
+    let response = gate.ask(encrypted_key).await;
    assert!(matches!(
        response,
        Err(kameo::error::SendError::HandlerError(
-            UnsealError::InvalidKey
+            VaultGateError::InvalidKey
        ))
    ));
 }
@@ -96,19 +108,18 @@ pub async fn test_unseal_wrong_seal_key() {
 #[tokio::test]
 #[test_log::test]
 pub async fn test_unseal_corrupted_ciphertext() {
-    let (_db, user_agent) = setup_sealed_user_agent(b"test-key").await;
+    let (_db, gate, _promotion_rx) = setup_sealed_gate(b"test-key").await;
    let client_secret = EphemeralSecret::random();
    let client_public = PublicKey::from(&client_secret);
-    user_agent
+    gate.ask(HandleHandshake {
        .ask(HandleUnsealRequest {
        client_pubkey: client_public,
    })
    .await
    .unwrap();
-    let response = user_agent
+    let response = gate
        .ask(HandleUnsealEncryptedKey {
            nonce: vec![0u8; 24],
            ciphertext: vec![0u8; 32],
@@ -119,7 +130,7 @@ pub async fn test_unseal_corrupted_ciphertext() {
    assert!(matches!(
        response,
        Err(kameo::error::SendError::HandlerError(
-            UnsealError::InvalidKey
+            VaultGateError::InvalidKey
        ))
    ));
 }
@@ -128,24 +139,24 @@ pub async fn test_unseal_corrupted_ciphertext() {
 #[test_log::test]
 pub async fn test_unseal_retry_after_invalid_key() {
    let seal_key = b"real-seal-key";
-    let (_db, user_agent) = setup_sealed_user_agent(seal_key).await;
+    let (_db, gate, _promotion_rx) = setup_sealed_gate(seal_key).await;
    {
-        let encrypted_key = client_dh_encrypt(&user_agent, b"wrong-key").await;
+        let encrypted_key = client_dh_encrypt(&gate, b"wrong-key").await;
-        let response = user_agent.ask(encrypted_key).await;
+        let response = gate.ask(encrypted_key).await;
        assert!(matches!(
            response,
            Err(kameo::error::SendError::HandlerError(
-                UnsealError::InvalidKey
+                VaultGateError::InvalidKey
            ))
        ));
    }
    {
-        let encrypted_key = client_dh_encrypt(&user_agent, seal_key).await;
+        let encrypted_key = client_dh_encrypt(&gate, seal_key).await;
-        let response = user_agent.ask(encrypted_key).await;
+        let response = gate.ask(encrypted_key).await;
        assert!(matches!(response, Ok(())));
    }
 }
--- a/server/crates/arbiter-server/tests/vault.rs
+++ b/server/crates/arbiter-server/tests/vault.rs
@@ -0,0 +1,8 @@
 mod common;
 #[path = "vault/concurrency.rs"]
 mod concurrency;
 #[path = "vault/lifecycle.rs"]
 mod lifecycle;
 #[path = "vault/storage.rs"]
 mod storage;
--- a/Show More
+++ b/Show More
Author	SHA1	Message	Date
hdbg	8c4c63f51e	WIP: `kameo::messages` wiring for transport generalization	2026-04-14 15:31:20 +02:00
hdbg	87ee0fe87b	feat(user-agent): add VaultGate for sealed vault authentication	2026-04-12 11:53:05 +02:00
hdbg	205227a3df	fix(server::integrity): `vault` now differentias between expected/unexpected states for commands more granularly	2026-04-08 18:21:48 +02:00
hdbg	a4070e7df7	fix(useragent): unsafe, but working implementation of ml-dsa	2026-04-08 17:43:51 +02:00
hdbg	6b8da567dd	fix(server::user_agent): useragents now self-sign themselves on bootstrap	2026-04-08 17:40:45 +02:00
hdbg	1585f90cae	refactor(server): reorganized client/user_agent actors into separate module `peers` and added event `MessageBus`	2026-04-08 12:34:16 +02:00
Stas	f3cf6a9438	Merge pull request 'Post-quantum crypto and better useragent security' (#80 ) from push-xrxykvkuxpsv into main Some checks failed ci/woodpecker/push/server-audit Pipeline was successful Details ci/woodpecker/push/server-lint Pipeline failed Details ci/woodpecker/push/server-vet Pipeline failed Details ci/woodpecker/push/server-test Pipeline was successful Details Reviewed-on: #80	2026-04-07 19:26:54 +00:00
hdbg	a9f9fc2a9d	housekeeping(server): fixed clippy warns Some checks failed ci/woodpecker/pr/server-audit Pipeline was successful Details ci/woodpecker/pr/server-lint Pipeline failed Details ci/woodpecker/pr/server-vet Pipeline failed Details ci/woodpecker/pr/server-test Pipeline was successful Details	2026-04-07 16:28:47 +02:00
hdbg	d22ab49e3d	refactor(server): moved shared module crypto into `arbiter-crypto`	2026-04-07 16:24:51 +02:00
hdbg	a845181ef6	docs: ml-dsa scheme everywhere Some checks failed ci/woodpecker/pr/server-audit Pipeline was successful Details ci/woodpecker/pr/server-vet Pipeline failed Details ci/woodpecker/pr/server-lint Pipeline failed Details ci/woodpecker/pr/server-test Pipeline was successful Details	2026-04-07 15:02:32 +02:00
hdbg	0d424f3afc	refactor(server): migrated auth to `ml-dsa`	2026-04-07 14:55:31 +02:00
hdbg	1497884ce6	fix(server::bootsrapper): token compare is now constant-time Some checks failed ci/woodpecker/push/server-audit Pipeline was successful Details ci/woodpecker/push/server-vet Pipeline failed Details ci/woodpecker/push/server-lint Pipeline failed Details ci/woodpecker/push/server-test Pipeline was successful Details	2026-04-06 18:33:47 +02:00
hdbg	b3464cf8a6	tests(server::client::auth): integrity envelope insertion for valid paths Some checks failed ci/woodpecker/pr/server-audit Pipeline was successful Details ci/woodpecker/pr/server-vet Pipeline failed Details ci/woodpecker/pr/server-lint Pipeline failed Details ci/woodpecker/pr/server-test Pipeline was successful Details ci/woodpecker/push/server-audit Pipeline was successful Details ci/woodpecker/push/server-vet Pipeline failed Details ci/woodpecker/push/server-lint Pipeline failed Details ci/woodpecker/push/server-test Pipeline was successful Details	2026-04-06 18:24:13 +02:00
hdbg	46d1318b6f	feat(server): add integrity verification for client keys	2026-04-06 18:13:11 +02:00
Stas	9c80d51d45	Merge pull request 'fix(server): replaced postcard-based integrity fingerprint with custom trait providing order-independent hashing' (#77 ) from push-opwuyuwxknyo into main Some checks failed ci/woodpecker/push/server-audit Pipeline was successful Details ci/woodpecker/push/server-vet Pipeline failed Details ci/woodpecker/push/server-lint Pipeline failed Details ci/woodpecker/push/server-test Pipeline was successful Details Reviewed-on: #77	2026-04-06 15:42:47 +00:00
hdbg	33456a644d	tests(server): property-based testing for ordering independency for hash Some checks failed ci/woodpecker/pr/server-audit Pipeline was successful Details ci/woodpecker/pr/server-lint Pipeline failed Details ci/woodpecker/pr/server-vet Pipeline failed Details ci/woodpecker/pr/server-test Pipeline was successful Details	2026-04-06 17:40:41 +02:00
hdbg	5bc0c42cc7	fix(server): replaced `postcard`-based integrity fingerprint with custom trait providing order-independent hashing	2026-04-06 16:25:32 +02:00
hdbg	f6b62ab884	fix(server): added `chain_id` check and covered `check_shared_constraints` with unit tests Some checks failed ci/woodpecker/pr/server-audit Pipeline was successful Details ci/woodpecker/pr/server-lint Pipeline failed Details ci/woodpecker/pr/server-vet Pipeline failed Details ci/woodpecker/pr/server-test Pipeline was successful Details ci/woodpecker/push/server-audit Pipeline was successful Details ci/woodpecker/push/server-lint Pipeline failed Details ci/woodpecker/push/server-vet Pipeline failed Details ci/woodpecker/push/server-test Pipeline was successful Details	2026-04-06 12:57:18 +02:00
hdbg	2dd5a3f32f	tests(server): initial `cargo-mutants` Some checks failed ci/woodpecker/push/server-audit Pipeline was successful Details ci/woodpecker/push/server-vet Pipeline failed Details ci/woodpecker/push/server-lint Pipeline failed Details ci/woodpecker/push/server-test Pipeline was successful Details	2026-04-06 12:03:56 +02:00
hdbg	1aca9d4007	fix(server): simplify hash function for `debug` profile	2026-04-05 22:50:28 +02:00
Stas	5ee1b49c43	Merge pull request 'feat(server): integrity envelope engine for EVM grants with HMAC verification' (#51 ) from integrity-envelope into main Some checks failed ci/woodpecker/push/server-audit Pipeline was successful Details ci/woodpecker/push/server-lint Pipeline failed Details ci/woodpecker/push/server-vet Pipeline failed Details ci/woodpecker/push/server-test Pipeline was successful Details Reviewed-on: #51	2026-04-05 16:26:51 +00:00
hdbg	00745bb381	tests(server): fixed for new integrity checks Some checks failed ci/woodpecker/pr/server-audit Pipeline was successful Details ci/woodpecker/pr/server-vet Pipeline failed Details ci/woodpecker/pr/server-lint Pipeline failed Details ci/woodpecker/pr/server-test Pipeline was successful Details	2026-04-05 14:49:02 +02:00
hdbg	b122aa464c	refactor(server): rework envelopes and integrity check Some checks failed ci/woodpecker/pr/server-audit Pipeline was successful Details ci/woodpecker/pr/server-vet Pipeline failed Details ci/woodpecker/pr/server-lint Pipeline failed Details ci/woodpecker/pr/server-test Pipeline failed Details	2026-04-05 14:17:00 +02:00
hdbg	9fab945a00	fix(server): remove stale mentions of miette Some checks failed ci/woodpecker/pr/server-audit Pipeline was successful Details ci/woodpecker/pr/server-lint Pipeline failed Details ci/woodpecker/pr/server-test Pipeline failed Details ci/woodpecker/pr/server-vet Pipeline failed Details	2026-04-05 10:45:24 +02:00
CleverWild	aeed664e9a	chore: inline integrity proto types Some checks failed ci/woodpecker/pr/server-lint Pipeline failed Details ci/woodpecker/pr/server-audit Pipeline was successful Details ci/woodpecker/pr/server-test Pipeline failed Details ci/woodpecker/pr/server-vet Pipeline failed Details	2026-04-05 10:44:21 +02:00
CleverWild	4057c1fc12	feat(server): integrity envelope engine for EVM grants with HMAC verification	2026-04-05 10:44:21 +02:00
hdbg	f5eb51978d	docs: add recovery operators and multi-operator details	2026-04-05 08:27:24 +00:00
hdbg	d997e0f843	docs: add multi-operator governance section	2026-04-05 08:27:24 +00:00
hdbg	7aca281a81	merge: @main into client-integrity-verification Some checks failed ci/woodpecker/push/server-vet Pipeline failed Details ci/woodpecker/push/server-lint Pipeline failed Details ci/woodpecker/pr/useragent-analyze Pipeline failed Details ci/woodpecker/pr/server-lint Pipeline failed Details ci/woodpecker/push/useragent-analyze Pipeline failed Details ci/woodpecker/push/server-test Pipeline failed Details ci/woodpecker/pr/server-test Pipeline failed Details ci/woodpecker/pr/server-vet Pipeline failed Details ci/woodpecker/push/server-audit Pipeline was successful Details ci/woodpecker/pr/server-audit Pipeline was successful Details	2026-04-05 10:25:46 +02:00
Stas	0daad1dd37	Merge branch 'main' into push-zmyvyloztluy Some checks failed ci/woodpecker/push/server-lint Pipeline failed Details ci/woodpecker/pr/server-audit Pipeline was successful Details ci/woodpecker/pr/server-lint Pipeline failed Details ci/woodpecker/push/server-vet Pipeline failed Details ci/woodpecker/push/server-audit Pipeline was successful Details ci/woodpecker/pr/server-vet Pipeline failed Details ci/woodpecker/pr/server-test Pipeline was successful Details ci/woodpecker/push/server-test Pipeline was successful Details	2026-04-05 07:57:31 +00:00
Stas	9ea474e1b2	fix(server): use `LOCALHOST` const instead of hard-coded ip value Some checks failed ci/woodpecker/pr/server-audit Pipeline was successful Details ci/woodpecker/pr/server-lint Pipeline failed Details ci/woodpecker/pr/server-vet Pipeline failed Details ci/woodpecker/pr/server-test Pipeline was successful Details	2026-04-04 14:14:15 +00:00
CleverWild	c6f440fdad	fix(client): evm-feature's code for new proto Some checks failed ci/woodpecker/push/server-audit Pipeline was successful Details ci/woodpecker/push/server-vet Pipeline failed Details ci/woodpecker/push/server-lint Pipeline failed Details ci/woodpecker/push/server-test Pipeline was successful Details	2026-04-04 14:10:44 +00:00
Stas	e17c25a604	ci(server-test): ensure that all features are compiling Some checks failed ci/woodpecker/pr/server-audit Pipeline was successful Details ci/woodpecker/pr/server-vet Pipeline failed Details ci/woodpecker/pr/server-lint Pipeline failed Details ci/woodpecker/pr/server-test Pipeline failed Details ci/woodpecker/push/server-audit Pipeline was successful Details ci/woodpecker/push/server-vet Pipeline failed Details ci/woodpecker/push/server-lint Pipeline failed Details ci/woodpecker/push/server-test Pipeline failed Details	2026-04-04 14:06:02 +00:00
hdbg	01b12515bd	housekeeping(server): fixed clippy warns Some checks failed ci/woodpecker/pr/server-audit Pipeline was successful Details ci/woodpecker/pr/server-vet Pipeline failed Details ci/woodpecker/pr/server-lint Pipeline failed Details ci/woodpecker/pr/server-test Pipeline failed Details ci/woodpecker/pr/useragent-analyze Pipeline failed Details	2026-04-04 14:33:48 +02:00
hdbg	4a50daa7ea	refactor(user-agent): remove backfill pubkey integrity tags Some checks failed ci/woodpecker/pr/server-audit Pipeline was successful Details ci/woodpecker/pr/server-lint Pipeline failed Details ci/woodpecker/pr/server-vet Pipeline failed Details ci/woodpecker/pr/server-test Pipeline failed Details ci/woodpecker/pr/useragent-analyze Pipeline failed Details	2026-04-04 14:32:00 +02:00
hdbg	352ee3ee63	fix(server): previously, user agent auth accepted invalid signatures Some checks failed ci/woodpecker/pr/server-lint Pipeline failed Details ci/woodpecker/pr/server-audit Pipeline was successful Details ci/woodpecker/pr/server-vet Pipeline failed Details ci/woodpecker/pr/server-test Pipeline failed Details ci/woodpecker/pr/useragent-analyze Pipeline failed Details	2026-04-04 14:28:07 +02:00
hdbg	dd51d756da	refactor(server): separate crypto by purpose and moved outside of actor into separate module	2026-04-04 14:21:52 +02:00
CleverWild	0bb6e596ac	feat(auth): implement attestation status verification for public keys Some checks failed ci/woodpecker/pr/server-audit Pipeline was successful Details ci/woodpecker/pr/server-lint Pipeline failed Details ci/woodpecker/pr/server-vet Pipeline failed Details ci/woodpecker/pr/server-test Pipeline failed Details ci/woodpecker/pr/useragent-analyze Pipeline failed Details	2026-04-04 12:10:45 +02:00
hdbg	083ff66af2	refactor(server): removed `miette` out of server Some checks failed ci/woodpecker/pr/server-audit Pipeline was successful Details ci/woodpecker/pr/server-vet Pipeline failed Details ci/woodpecker/pr/server-lint Pipeline failed Details ci/woodpecker/pr/server-test Pipeline was successful Details	2026-04-04 12:10:34 +02:00
CleverWild	881f16bb1a	fix(keyholder): comment drift	2026-04-04 12:02:50 +02:00
CleverWild	78895bca5b	refactor(keyholder): generalize derive_useragent_integrity_key and compute_useragent_pubkey_integrity_tag corespondenly to derive_integrity_key and compute_integrity_tag	2026-04-04 12:00:39 +02:00
CleverWild	a02ef68a70	feat(auth): add seal-key-derived pubkey integrity tags with auth enforcement and unseal backfill Some checks failed ci/woodpecker/pr/server-lint Pipeline failed Details ci/woodpecker/pr/server-audit Pipeline was successful Details ci/woodpecker/pr/server-vet Pipeline failed Details ci/woodpecker/pr/server-test Pipeline failed Details	2026-03-30 00:17:04 +02:00
hdbg	e5be55e141	style(dashboard): format code and add title margin Some checks failed ci/woodpecker/push/useragent-analyze Pipeline failed Details	2026-03-29 10:54:02 +02:00
hdbg	8f0eb7130b	feat(grants-create): add configurable grant authorization fields	2026-03-29 00:37:58 +01:00
hdbg	94fe04a6a4	refactor(useragent::evm::grants): split into more files & flutter_form_builder usage	2026-03-29 00:37:58 +01:00
hdbg	976c11902c	fix(useragent::dashboard): screen pushed twice due to improper listen hook	2026-03-29 00:37:58 +01:00
hdbg	c8d2662a36	refactor(grants): wrap grant list in SingleChildScrollView	2026-03-29 00:37:58 +01:00
hdbg	ac5fedddd1	style(dashboard): remove const from _CalloutBell and add title to nav rail	2026-03-29 00:37:58 +01:00
hdbg	0c2d4986a2	refactor(useragent): moved shared CreamPanel and StatePanel into generic widgets	2026-03-29 00:37:58 +01:00
hdbg	a3203936d2	feat(evm): add EVM grants screen with create UI and list	2026-03-29 00:37:58 +01:00
hdbg	fb1c0ec130	refactor(proto): restructure wallet access messages for improved data organization	2026-03-29 00:37:58 +01:00
hdbg	2a21758369	refactor(server::evm): removed repetetive errors and error variants	2026-03-29 00:37:58 +01:00
hdbg	1abb5fa006	refactor(useragent::evm::table): broke down into more widgets	2026-03-29 00:37:58 +01:00
hdbg	e1b1c857fa	refactor(useragent::evm): moved out header into general widget	2026-03-29 00:37:58 +01:00
hdbg	4216007af3	feat(useragent): vibe-coded access list	2026-03-29 00:37:58 +01:00