feat(integrity): introduce sealed provenance markers for Verified

feat(integrity): derive-like macro VerifiedFields that allows to inherit Verified<T> type's provenance to all fields of T
feat(server): unify integrity API and propagate verified IDs through auth/EVM flows
2026-04-15 19:45:59 +02:00 · 2026-04-11 03:53:25 +02:00 · 2026-04-07 21:12:36 +02:00
214 changed files with 4692 additions and 15745 deletions
--- 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.
- **`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.
+- **`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.
 - **`FlowCoordinator`** — Coordinates cross-connection flow between user agents and SDK clients.
 - **`EvmActor`** — Handles EVM transaction policy enforcement and signing.
--- 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.
- **`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.
+- **`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.
 - **`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
@@ -29,37 +29,56 @@ flowchart TD
    A([Client connects]) --> B[Receive AuthChallengeRequest]
    B --> C{pubkey in DB?}
-    C -- yes --> G[Generate AuthChallenge]
+    C -- yes --> D[Read nonce\nIncrement nonce in DB]
    D --> G
    C -- no --> E[Ask all UserAgents:\nClientConnectionRequest]
    E --> F{First response}
    F -- denied --> Z([Reject connection])
    F -- approved --> F2[Cancel remaining\nUserAgent requests]
-    F2 --> F3[INSERT client]
+    F2 --> F3[INSERT client\nnonce = 1]
-    F3 --> G
+    F3 --> G[Send AuthChallenge\nwith nonce]
-    G --> H[Send AuthChallenge\ntimestamp + random bytes]
+    G --> H[Receive AuthChallengeSolution]
-    H --> I[Receive AuthChallengeSolution]
+    H --> I{Signature valid?}
-    I --> K{Signature valid?}
+    I -- no --> Z
-    K -- no --> Z
+    I -- yes --> J([Session started])
    K -- yes --> J([Session started])
 ```
-Auth challenges are generated from fresh random bytes plus a timestamp. They are signed as the canonical challenge payload and are not persisted in `program_client`.
+### Known Issue: Concurrent Registration Race (TOCTOU)
 Two connections presenting the same previously-unknown public key can race through the approval flow simultaneously:
 1. Both check the DB → neither is registered.
 2. Both request approval from user agents → both receive approval.
 3. Both `INSERT` the client record → the second insert silently overwrites the first, resetting the nonce.
 This means the first connection's nonce is invalidated by the second, causing its challenge verification to fail. A fix requires either serialising new-client registration (e.g. an in-memory lock keyed on pubkey) or replacing the separate check + insert with an `INSERT OR IGNORE` / upsert guarded by a unique constraint on `public_key`.
 ### Nonce Semantics
 The `program_client.nonce` column stores the **next usable nonce** — i.e. it is always one ahead of the nonce last issued in a challenge.
 - **New client:** inserted with `nonce = 1`; the first challenge is issued with `nonce = 0`.
 - **Existing client:** the current DB value is read and used as the challenge nonce, then immediately incremented within the same exclusive transaction, preventing replay.
 ---
 ## Cryptography
 ### Authentication
- **Client protocol:** ML-DSA
+- **Client protocol:** ed25519
 ### 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:** ML-DSA
+- **Supported schemes:** RSA, Ed25519, ECDSA (secp256k1)
- **Why:** Secure Enclave (MacOS) support them natively, on other platforms we could emulate while they roll-out
+- **Why:** the user agent authenticates with keys backed by platform facilities, and those facilities differ by platform
 - **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**
--- a/mise.lock
+++ b/mise.lock
@@ -72,10 +72,6 @@ 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"
--- a/mise.toml
+++ b/mise.toml
@@ -4,7 +4,7 @@
 "cargo:cargo-vet" = "0.10.2"
 flutter = "3.38.9-stable"
 protoc = "29.6"
-"rust" = {version = "1.93.0", components = "clippy,rust-analyzer"}
+"rust" = {version = "1.93.0", components = "clippy"}
 "cargo:cargo-features-manager" = "0.11.1"
 "cargo:cargo-nextest" = "0.9.126"
 "cargo:cargo-shear" = "latest"
@@ -13,7 +13,6 @@ 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/client/auth.proto
+++ b/protobufs/client/auth.proto
@@ -10,8 +10,8 @@ message AuthChallengeRequest {
 }
 message AuthChallenge {
-  uint64 timestamp_nanos = 1;
+  bytes pubkey = 1;
-  bytes random = 2;
+  int32 nonce = 2;
 }
 message AuthChallengeSolution {
--- a/protobufs/user_agent/auth.proto
+++ b/protobufs/user_agent/auth.proto
@@ -2,14 +2,21 @@ 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 {
-  uint64 timestamp_nanos = 1;
+  int32 nonce = 1;
  bytes random = 2;
 }
 message AuthChallengeSolution {
--- a/server/Cargo.lock
+++ b/server/Cargo.lock
--- a/server/Cargo.toml
+++ b/server/Cargo.toml
@@ -16,21 +16,22 @@ tonic = { version = "0.14.5", features = [
    "zstd",
 ] }
 tracing = "0.1.44"
-tokio = { version = "1.51.1", features = ["full"] }
+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 = "0.10.1"
+rand = "0.10.0"
-rustls = { version = "0.23.38", features = ["aws-lc-rs", "logging", "prefer-post-quantum", "std"], default-features = false }
+rustls = { version = "0.23.37", features = ["aws-lc-rs"] }
 smlang = "0.8.0"
 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"
 rustls-pki-types = "1.14.0"
-alloy = "2.0.0"
+alloy = "1.7.3"
 rcgen = { version = "0.14.7", features = [
    "aws_lc_rs",
    "pem",
@@ -39,13 +40,8 @@ rcgen = { version = "0.14.7", features = [
 ], default-features = false }
 k256 = { version = "0.13.4", features = ["ecdsa", "pkcs8"] }
 rsa = { version = "0.9", features = ["sha2"] }
-sha2 = "0.11"
+sha2 = "0.10"
-spki = "0.8"
+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"}
 hmac = "0.13.0"
--- a/server/crates/arbiter-client/Cargo.toml
+++ b/server/crates/arbiter-client/Cargo.toml
@@ -13,15 +13,14 @@ 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 = "0.103.12", features = ["aws-lc-rs"] }
+rustls-webpki = { version = "0.103.10", features = ["aws-lc-rs"] }
 async-trait.workspace = true
 rand.workspace = true
 chrono.workspace = true
--- a/server/crates/arbiter-client/src/auth.rs
+++ b/server/crates/arbiter-client/src/auth.rs
@@ -1,10 +1,5 @@
 use crate::{
    storage::StorageError,
    transport::{ClientTransport, next_request_id},
 };
 use arbiter_crypto::authn::{self, CLIENT_CONTEXT, SigningKey};
 use arbiter_proto::{
-    ClientMetadata,
+    ClientMetadata, format_challenge,
    proto::{
        client::{
            ClientRequest,
@@ -19,13 +14,15 @@ use arbiter_proto::{
        shared::ClientInfo as ProtoClientInfo,
    },
 };
 use ed25519_dalek::Signer as _;
-use chrono::DateTime;
+use crate::{
    storage::StorageError,
    transport::{ClientTransport, next_request_id},
 };
 #[derive(Debug, thiserror::Error)]
 pub enum AuthError {
    #[error("Server sent invalid auth challenge")]
    InvalidChallenge,
    #[error("Auth challenge was not returned by server")]
    MissingAuthChallenge,
@@ -57,14 +54,14 @@ fn map_auth_result(code: i32) -> AuthError {
 async fn send_auth_challenge_request(
    transport: &mut ClientTransport,
    metadata: ClientMetadata,
-    key: &SigningKey,
+    key: &ed25519_dalek::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.public_key().to_bytes(),
+                    pubkey: key.verifying_key().to_bytes().to_vec(),
                    client_info: Some(ProtoClientInfo {
                        name: metadata.name,
                        description: metadata.description,
@@ -98,22 +95,11 @@ async fn receive_auth_challenge(
 async fn send_auth_challenge_solution(
    transport: &mut ClientTransport,
-    key: &SigningKey,
+    key: &ed25519_dalek::SigningKey,
    challenge: AuthChallenge,
 ) -> std::result::Result<(), AuthError> {
-    let timestamp = DateTime::from_timestamp_nanos(challenge.timestamp_nanos as i64);
+    let challenge_payload = format_challenge(challenge.nonce, &challenge.pubkey);
-    let challenge = authn::AuthChallenge {
+    let signature = key.sign(&challenge_payload).to_bytes().to_vec();
        nonce: *challenge
            .random
            .as_array()
            .ok_or(AuthError::InvalidChallenge)?,
        timestamp,
    };
    let challenge_payload: Vec<u8> = challenge.format();
    let signature = key
        .sign_message(&challenge_payload, CLIENT_CONTEXT)
        .map_err(|_| AuthError::UnexpectedAuthResponse)?
        .to_bytes();
    transport
        .send(ClientRequest {
@@ -154,7 +140,7 @@ async fn receive_auth_confirmation(
 pub(crate) async fn authenticate(
    transport: &mut ClientTransport,
    metadata: ClientMetadata,
-    key: &SigningKey,
+    key: &ed25519_dalek::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
@@ -1,8 +1,8 @@
 use std::io::{self, Write};
 use arbiter_client::ArbiterClient;
 use arbiter_proto::{ClientMetadata, url::ArbiterUrl};
 use std::io::{self, Write};
 #[tokio::main]
 async fn main() {
    println!("Testing connection to Arbiter server...");
--- a/server/crates/arbiter-client/src/client.rs
+++ b/server/crates/arbiter-client/src/client.rs
@@ -1,20 +1,20 @@
-#[cfg(feature = "evm")]
+use arbiter_proto::{
-use crate::wallets::evm::ArbiterEvmWallet;
+    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},
 };
 use arbiter_crypto::authn::SigningKey;
 use arbiter_proto::{
    ClientMetadata, proto::arbiter_service_client::ArbiterServiceClient, url::ArbiterUrl,
 };
-use std::sync::Arc;
+#[cfg(feature = "evm")]
-use tokio::sync::{Mutex, mpsc};
+use crate::wallets::evm::ArbiterEvmWallet;
 use tokio_stream::wrappers::ReceiverStream;
 use tonic::transport::ClientTlsConfig;
 #[derive(Debug, thiserror::Error)]
 pub enum Error {
@@ -60,7 +60,7 @@ impl ArbiterClient {
    pub async fn connect_with_key(
        url: ArbiterUrl,
        metadata: ClientMetadata,
-        key: SigningKey,
+        key: ed25519_dalek::SigningKey,
    ) -> Result<Self, Error> {
        let anchor = webpki::anchor_from_trusted_cert(&url.ca_cert)?.to_owned();
        let tls = ClientTlsConfig::new().trust_anchor(anchor);
--- a/server/crates/arbiter-client/src/storage.rs
+++ b/server/crates/arbiter-client/src/storage.rs
@@ -1,6 +1,4 @@
 use arbiter_crypto::authn::SigningKey;
 use arbiter_proto::home_path;
 use std::path::{Path, PathBuf};
 #[derive(Debug, thiserror::Error)]
@@ -13,7 +11,7 @@ pub enum StorageError {
 }
 pub trait SigningKeyStorage {
-    fn load_or_create(&self) -> std::result::Result<SigningKey, StorageError>;
+    fn load_or_create(&self) -> std::result::Result<ed25519_dalek::SigningKey, StorageError>;
 }
 #[derive(Debug, Clone)]
@@ -22,7 +20,7 @@ pub struct FileSigningKeyStorage {
 }
 impl FileSigningKeyStorage {
-    pub const DEFAULT_FILE_NAME: &str = "sdk_client_ml_dsa.key";
+    pub const DEFAULT_FILE_NAME: &str = "sdk_client_ed25519.key";
    pub fn new(path: impl Into<PathBuf>) -> Self {
        Self { path: path.into() }
@@ -32,7 +30,7 @@ impl FileSigningKeyStorage {
        Ok(Self::new(home_path()?.join(Self::DEFAULT_FILE_NAME)))
    }
-    fn read_key(path: &Path) -> std::result::Result<SigningKey, StorageError> {
+    fn read_key(path: &Path) -> std::result::Result<ed25519_dalek::SigningKey, StorageError> {
        let bytes = std::fs::read(path)?;
        let raw: [u8; 32] =
            bytes
@@ -41,12 +39,12 @@ impl FileSigningKeyStorage {
                    expected: 32,
                    actual: v.len(),
                })?;
-        Ok(SigningKey::from_seed(raw))
+        Ok(ed25519_dalek::SigningKey::from_bytes(&raw))
    }
 }
 impl SigningKeyStorage for FileSigningKeyStorage {
-    fn load_or_create(&self) -> std::result::Result<SigningKey, StorageError> {
+    fn load_or_create(&self) -> std::result::Result<ed25519_dalek::SigningKey, StorageError> {
        if let Some(parent) = self.path.parent() {
            std::fs::create_dir_all(parent)?;
        }
@@ -55,8 +53,8 @@ impl SigningKeyStorage for FileSigningKeyStorage {
            return Self::read_key(&self.path);
        }
-        let key = SigningKey::generate();
+        let key = ed25519_dalek::SigningKey::generate(&mut rand::rng());
-        let raw_key = key.to_seed();
+        let raw_key = key.to_bytes();
        // Use create_new to prevent accidental overwrite if another process creates the key first.
        match std::fs::OpenOptions::new()
@@ -105,7 +103,7 @@ mod tests {
            .load_or_create()
            .expect("second load_or_create should read same key");
-        assert_eq!(key_a.to_seed(), key_b.to_seed());
+        assert_eq!(key_a.to_bytes(), key_b.to_bytes());
        assert!(path.exists());
        std::fs::remove_file(path).expect("temp key file should be removable");
--- a/server/crates/arbiter-client/src/transport.rs
+++ b/server/crates/arbiter-client/src/transport.rs
@@ -1,5 +1,4 @@
 use arbiter_proto::proto::client::{ClientRequest, ClientResponse};
 use std::sync::atomic::{AtomicI32, Ordering};
 use tokio::sync::mpsc;
--- a/server/crates/arbiter-client/src/wallets/evm.rs
+++ b/server/crates/arbiter-client/src/wallets/evm.rs
@@ -1,4 +1,13 @@
-use crate::transport::{ClientTransport, next_request_id};
+use alloy::{
    consensus::SignableTransaction,
    network::TxSigner,
    primitives::{Address, B256, ChainId, Signature},
    signers::{Error, Result, Signer},
 };
 use async_trait::async_trait;
 use std::sync::Arc;
 use tokio::sync::Mutex;
 use arbiter_proto::proto::{
    client::{
        ClientRequest,
@@ -16,15 +25,7 @@ use arbiter_proto::proto::{
    shared::evm::TransactionEvalError,
 };
-use alloy::{
+use crate::transport::{ClientTransport, next_request_id};
    consensus::SignableTransaction,
    network::TxSigner,
    primitives::{Address, B256, ChainId, Signature},
    signers::{Error, Result, Signer},
 };
 use async_trait::async_trait;
 use std::sync::Arc;
 use tokio::sync::Mutex;
 /// A typed error payload returned by [`ArbiterEvmWallet`] transaction signing.
 ///
@@ -58,6 +59,10 @@ pub struct ArbiterEvmWallet {
 }
 impl ArbiterEvmWallet {
    #[expect(
        dead_code,
        reason = "constructor may be used in future extensions, e.g. to support wallet listing"
    )]
    pub(crate) fn new(transport: Arc<Mutex<ClientTransport>>, address: Address) -> Self {
        Self {
            transport,
--- a/server/crates/arbiter-crypto/.gitignore
+++ b/server/crates/arbiter-crypto/.gitignore
@@ -1 +0,0 @@
 /target
--- a/server/crates/arbiter-crypto/Cargo.toml
+++ b/server/crates/arbiter-crypto/Cargo.toml
@@ -1,21 +0,0 @@
 [package]
 name = "arbiter-crypto"
 version = "0.1.0"
 edition = "2024"
 [dependencies]
 ml-dsa = {workspace = true, optional = true }
 rand = {workspace = true, optional = true}
 memsafe = {version = "0.4.0", optional = true}
 hmac.workspace = true
 alloy.workspace = true
 x-wing = { version = "0.1.0-rc.0", features = ["zeroize"] }
 chrono.workspace = true
 [lints]
 workspace = true
 [features]
 default = ["authn", "safecell"]
 authn = ["dep:ml-dsa", "dep:rand"]
 safecell = ["dep:memsafe"]
--- a/server/crates/arbiter-crypto/src/authn/mod.rs
+++ b/server/crates/arbiter-crypto/src/authn/mod.rs
@@ -1,2 +0,0 @@
 pub mod v1;
 pub use v1::*;
--- a/server/crates/arbiter-crypto/src/authn/v1.rs
+++ b/server/crates/arbiter-crypto/src/authn/v1.rs
@@ -1,241 +0,0 @@
 use chrono::{DateTime, Utc};
 use hmac::digest::Digest;
 use ml_dsa::{
    EncodedVerifyingKey, Error, KeyGen, MlDsa87, Seed, Signature as MlDsaSignature,
    SigningKey as MlDsaSigningKey, VerifyingKey as MlDsaVerifyingKey, signature::Keypair as _,
 };
 use rand::RngExt;
 pub static CLIENT_CONTEXT: &[u8] = b"arbiter_client";
 pub static USERAGENT_CONTEXT: &[u8] = b"arbiter_user_agent";
 const NONCE_SIZE: usize = 32;
 #[derive(Debug, Clone)]
 pub struct AuthChallenge {
    pub nonce: [u8; NONCE_SIZE],
    pub timestamp: DateTime<Utc>,
 }
 impl AuthChallenge {
    pub fn generate(rng: &mut impl rand::CryptoRng) -> Self {
        let timestamp = Utc::now();
        let nonce = {
            let mut array = [0; NONCE_SIZE];
            rng.fill(&mut array);
            array
        };
        Self { nonce, timestamp }
    }
    pub fn format(&self) -> Vec<u8> {
        {
            let mut buffer = Vec::from(self.nonce);
            let stamp = self
                .timestamp
                .timestamp_nanos_opt()
                .expect("We would be long dead by the time this triggers :)");
            buffer.extend_from_slice(stamp.to_be_bytes().as_slice());
            buffer
        }
    }
    pub fn from_parts(nonce: &[u8], timestamp: i64) -> Result<Self, ()> {
        let random_nonce = nonce.as_array().ok_or(())?;
        Ok(AuthChallenge {
            nonce: *random_nonce,
            timestamp: DateTime::from_timestamp_nanos(timestamp),
        })
    }
 }
 pub type KeyParams = MlDsa87;
 #[derive(Clone, Debug, PartialEq)]
 pub struct PublicKey(Box<MlDsaVerifyingKey<KeyParams>>);
 impl crate::hashing::Hashable for PublicKey {
    fn hash<H: Digest>(&self, hasher: &mut H) {
        hasher.update(self.to_bytes());
    }
 }
 #[derive(Clone, Debug, PartialEq)]
 pub struct Signature(Box<MlDsaSignature<KeyParams>>);
 #[derive(Debug)]
 pub struct SigningKey(Box<MlDsaSigningKey<KeyParams>>);
 impl PublicKey {
    pub fn to_bytes(&self) -> Vec<u8> {
        self.0.encode().0.to_vec()
    }
    pub fn verify(&self, challenge: &AuthChallenge, context: &[u8], signature: &Signature) -> bool {
        let challenge = challenge.format();
        self.0
            .verify_with_context(&challenge, context, &signature.0)
    }
 }
 impl Signature {
    pub fn to_bytes(&self) -> Vec<u8> {
        self.0.encode().0.to_vec()
    }
 }
 impl SigningKey {
    pub fn generate() -> Self {
        Self(Box::new(KeyParams::key_gen(&mut rand::rng())))
    }
    pub fn from_seed(seed: [u8; 32]) -> Self {
        Self(Box::new(KeyParams::from_seed(&Seed::from(seed))))
    }
    pub fn to_seed(&self) -> [u8; 32] {
        self.0.to_seed().into()
    }
    pub fn public_key(&self) -> PublicKey {
        self.0.verifying_key().into()
    }
    pub fn sign_message(&self, message: &[u8], context: &[u8]) -> Result<Signature, Error> {
        self.0
            .signing_key()
            .sign_deterministic(message, context)
            .map(Into::into)
    }
    pub fn sign_challenge(
        &self,
        challenge: &AuthChallenge,
        context: &[u8],
    ) -> Result<Signature, Error> {
        let challenge = challenge.format();
        self.sign_message(&challenge, context)
    }
 }
 impl From<MlDsaVerifyingKey<KeyParams>> for PublicKey {
    fn from(value: MlDsaVerifyingKey<KeyParams>) -> Self {
        Self(Box::new(value))
    }
 }
 impl From<MlDsaSignature<KeyParams>> for Signature {
    fn from(value: MlDsaSignature<KeyParams>) -> Self {
        Self(Box::new(value))
    }
 }
 impl From<MlDsaSigningKey<KeyParams>> for SigningKey {
    fn from(value: MlDsaSigningKey<KeyParams>) -> Self {
        Self(Box::new(value))
    }
 }
 impl TryFrom<Vec<u8>> for PublicKey {
    type Error = ();
    fn try_from(value: Vec<u8>) -> Result<Self, Self::Error> {
        Self::try_from(value.as_slice())
    }
 }
 impl TryFrom<&'_ [u8]> for PublicKey {
    type Error = ();
    fn try_from(value: &[u8]) -> Result<Self, Self::Error> {
        let encoded = EncodedVerifyingKey::<KeyParams>::try_from(value).map_err(|_| ())?;
        Ok(Self(Box::new(MlDsaVerifyingKey::decode(&encoded))))
    }
 }
 impl TryFrom<Vec<u8>> for Signature {
    type Error = ();
    fn try_from(value: Vec<u8>) -> Result<Self, Self::Error> {
        Self::try_from(value.as_slice())
    }
 }
 impl TryFrom<&'_ [u8]> for Signature {
    type Error = ();
    fn try_from(value: &[u8]) -> Result<Self, Self::Error> {
        MlDsaSignature::try_from(value)
            .map(|sig| Self(Box::new(sig)))
            .map_err(|_| ())
    }
 }
 #[cfg(test)]
 mod tests {
    use ml_dsa::{KeyGen, MlDsa87, signature::Keypair as _};
    use crate::authn::AuthChallenge;
    use super::{CLIENT_CONTEXT, PublicKey, Signature, SigningKey, 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 challenge = AuthChallenge::generate(&mut rand::rng());
        let signature = key
            .sign_challenge(&challenge, CLIENT_CONTEXT)
            .expect("signature should be created");
        assert!(public_key.verify(&challenge, CLIENT_CONTEXT, &signature));
        assert!(!public_key.verify(&challenge, 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 challenge = AuthChallenge::generate(&mut rand::rng());
        let signature = restored
            .sign_challenge(&challenge, CLIENT_CONTEXT)
            .expect("signature should be created");
        assert!(
            restored
                .public_key()
                .verify(&challenge, CLIENT_CONTEXT, &signature)
        );
    }
 }
--- a/server/crates/arbiter-crypto/src/lib.rs
+++ b/server/crates/arbiter-crypto/src/lib.rs
@@ -1,7 +0,0 @@
 #[cfg(feature = "authn")]
 pub mod authn;
 pub mod hashing;
 #[cfg(feature = "safecell")]
 pub mod safecell;
 pub use x_wing;
--- a/server/crates/arbiter-macros/Cargo.toml
+++ b/server/crates/arbiter-macros/Cargo.toml
@@ -1,18 +0,0 @@
 [package]
 name = "arbiter-macros"
 version = "0.1.0"
 edition = "2024"
 [lib]
 proc-macro = true
 [dependencies]
 proc-macro2 = "1.0"
 quote = "1.0"
 syn = { version = "2.0", features = ["derive", "fold", "full", "visit-mut"] }
 [dev-dependencies]
 arbiter-crypto = { path = "../arbiter-crypto" }
 [lints]
 workspace = true
--- a/server/crates/arbiter-macros/src/hashable.rs
+++ b/server/crates/arbiter-macros/src/hashable.rs
@@ -1,131 +0,0 @@
 use crate::utils::{HASHABLE_TRAIT_PATH, HMAC_DIGEST_PATH};
 use proc_macro2::{Span, TokenStream, TokenTree};
 use quote::quote;
 use syn::{DataStruct, DeriveInput, Fields, Generics, Index, parse_quote, spanned::Spanned};
 pub(crate) fn derive(input: &DeriveInput) -> TokenStream {
    match &input.data {
        syn::Data::Struct(struct_data) => hashable_struct(input, struct_data),
        syn::Data::Enum(_) => {
            syn::Error::new_spanned(input, "Hashable can currently be derived only for structs")
                .to_compile_error()
        }
        syn::Data::Union(_) => {
            syn::Error::new_spanned(input, "Hashable cannot be derived for unions")
                .to_compile_error()
        }
    }
 }
 fn hashable_struct(input: &DeriveInput, struct_data: &syn::DataStruct) -> TokenStream {
    let ident = &input.ident;
    let hashable_trait = HASHABLE_TRAIT_PATH.to_path();
    let hmac_digest = HMAC_DIGEST_PATH.to_path();
    let generics = add_hashable_bounds(input.generics.clone(), &hashable_trait);
    let field_accesses = collect_field_accesses(struct_data);
    let hash_calls = build_hash_calls(&field_accesses, &hashable_trait);
    let (impl_generics, ty_generics, where_clause) = generics.split_for_impl();
    quote! {
        #[automatically_derived]
        impl #impl_generics #hashable_trait for #ident #ty_generics #where_clause {
            fn hash<H: #hmac_digest>(&self, hasher: &mut H) {
                #(#hash_calls)*
            }
        }
    }
 }
 fn add_hashable_bounds(mut generics: Generics, hashable_trait: &syn::Path) -> Generics {
    for type_param in generics.type_params_mut() {
        type_param.bounds.push(parse_quote!(#hashable_trait));
    }
    generics
 }
 struct FieldAccess {
    access: TokenStream,
    span: Span,
 }
 fn collect_field_accesses(struct_data: &DataStruct) -> Vec<FieldAccess> {
    match &struct_data.fields {
        Fields::Named(fields) => {
            // Keep deterministic alphabetical order for named fields.
            // Do not remove this sort, because it keeps hash output stable regardless of source order.
            let mut named_fields = fields
                .named
                .iter()
                .map(|field| {
                    let name = field
                        .ident
                        .as_ref()
                        .expect("Fields::Named(fields) must have names")
                        .clone();
                    (name.to_string(), name)
                })
                .collect::<Vec<_>>();
            named_fields.sort_by(|a, b| a.0.cmp(&b.0));
            named_fields
                .into_iter()
                .map(|(_, name)| FieldAccess {
                    access: quote! { #name },
                    span: name.span(),
                })
                .collect()
        }
        Fields::Unnamed(fields) => fields
            .unnamed
            .iter()
            .enumerate()
            .map(|(i, field)| FieldAccess {
                access: {
                    let index = Index::from(i);
                    quote! { #index }
                },
                span: field.ty.span(),
            })
            .collect(),
        Fields::Unit => Vec::new(),
    }
 }
 fn build_hash_calls(
    field_accesses: &[FieldAccess],
    hashable_trait: &syn::Path,
 ) -> Vec<TokenStream> {
    field_accesses
        .iter()
        .map(|field| {
            let access = &field.access;
            let call = quote! {
                #hashable_trait::hash(&self.#access, hasher);
            };
            respan(call, field.span)
        })
        .collect()
 }
 /// Recursively set span on all tokens, including interpolated ones.
 fn respan(tokens: TokenStream, span: Span) -> TokenStream {
    tokens
        .into_iter()
        .map(|tt| match tt {
            TokenTree::Group(g) => {
                let mut new = proc_macro2::Group::new(g.delimiter(), respan(g.stream(), span));
                new.set_span(span);
                TokenTree::Group(new)
            }
            mut other => {
                other.set_span(span);
                other
            }
        })
        .collect()
 }
--- a/server/crates/arbiter-macros/src/lib.rs
+++ b/server/crates/arbiter-macros/src/lib.rs
@@ -1,10 +0,0 @@
 use syn::{DeriveInput, parse_macro_input};
 mod hashable;
 mod utils;
 #[proc_macro_derive(Hashable)]
 pub fn derive_hashable(input: proc_macro::TokenStream) -> proc_macro::TokenStream {
    let input = parse_macro_input!(input as DeriveInput);
    hashable::derive(&input).into()
 }
--- a/server/crates/arbiter-macros/src/utils.rs
+++ b/server/crates/arbiter-macros/src/utils.rs
@@ -1,19 +0,0 @@
 pub(crate) struct ToPath(pub(crate) &'static str);
 impl ToPath {
    pub(crate) fn to_path(&self) -> syn::Path {
        syn::parse_str(self.0).expect("Invalid path")
    }
 }
 macro_rules! ensure_path {
    ($path:path) => {{
        #[cfg(test)]
        #[expect(unused_imports)]
        use $path as _;
        ToPath(stringify!($path))
    }};
 }
 pub(crate) const HASHABLE_TRAIT_PATH: ToPath = ensure_path!(::arbiter_crypto::hashing::Hashable);
 pub(crate) const HMAC_DIGEST_PATH: ToPath = ensure_path!(::arbiter_crypto::hashing::Digest);
--- a/server/crates/arbiter-proto/Cargo.toml
+++ b/server/crates/arbiter-proto/Cargo.toml
@@ -17,7 +17,7 @@ url = "2.5.8"
 miette.workspace = true
 thiserror.workspace = true
 rustls-pki-types.workspace = true
-base64.workspace = true
+base64 = "0.22.1"
 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
@@ -1,6 +1,8 @@
 pub mod transport;
 pub mod url;
 use base64::{Engine, prelude::BASE64_STANDARD};
 pub mod proto {
    tonic::include_proto!("arbiter");
@@ -82,3 +84,8 @@ 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
@@ -54,10 +54,11 @@
 //!   as a closed outbound channel.
 //! - [`Bi::recv`] returns `None` when the underlying transport closes.
 //! - Message translation is intentionally out of scope for this module.
-use async_trait::async_trait;
+
 use kameo::{error::Infallible, prelude::*};
 use std::marker::PhantomData;
 use async_trait::async_trait;
 /// Errors returned by transport adapters implementing [`Bi`].
 #[derive(thiserror::Error, Debug)]
 pub enum Error {
@@ -105,36 +106,6 @@ 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>;
@@ -190,29 +161,3 @@ where
 }
 pub mod grpc;
 #[derive(thiserror::Error, Debug)]
 pub enum ForwardError<I> {
    #[error("Transport error: {0}")]
    Transport(#[from] Error),
    #[error("Actor delivery error: {0}")]
    Actor(SendError<I>),
 }
 pub async fn forward_to_actor<Transport, Inbound, Outbound, Handler>(
    transport: &mut Transport,
    actor: &ActorRef<Handler>,
 ) -> Result<(), ForwardError<Inbound>>
 where
    Transport: Bi<Inbound, <Outbound as Reply>::Ok>,
    Handler: Actor + Message<Inbound, Reply = Outbound>,
    Inbound: Send + 'static,
    Outbound: Send + 'static + Reply<Error = Infallible>, // `Infallible` to enforce contract that `Outbound` carries handler-level error
 {
    while let Some(request) = transport.recv().await {
        let resp = actor.ask(request).await.map_err(ForwardError::Actor)?;
        transport.send(resp).await?
    }
    Err(Error::ChannelClosed.into())
 }
--- a/server/crates/arbiter-proto/src/transport/grpc.rs
+++ b/server/crates/arbiter-proto/src/transport/grpc.rs
@@ -1,10 +1,10 @@
 use super::{Bi, Receiver, Sender};
 use async_trait::async_trait;
 use futures::StreamExt;
 use tokio::sync::mpsc;
 use tokio_stream::wrappers::ReceiverStream;
 use super::{Bi, Receiver, Sender};
 pub struct GrpcSender<Outbound> {
    tx: mpsc::Sender<Result<Outbound, tonic::Status>>,
 }
--- a/server/crates/arbiter-proto/src/url.rs
+++ b/server/crates/arbiter-proto/src/url.rs
@@ -1,6 +1,7 @@
 use std::fmt::Display;
 use base64::{Engine as _, prelude::BASE64_URL_SAFE};
 use rustls_pki_types::CertificateDer;
 use std::fmt::Display;
 const ARBITER_URL_SCHEME: &str = "arbiter";
 const CERT_QUERY_KEY: &str = "cert";
--- a/server/crates/arbiter-server/Cargo.toml
+++ b/server/crates/arbiter-server/Cargo.toml
@@ -16,9 +16,9 @@ diesel-async = { version = "0.8.0", features = [
    "sqlite",
    "tokio",
 ] }
 ed25519-dalek.workspace = true
 ed25519-dalek.features = ["serde"]
 arbiter-proto.path = "../arbiter-proto"
 arbiter-crypto.path = "../arbiter-crypto"
 arbiter-macros.path = "../arbiter-macros"
 tracing.workspace = true
 tracing-subscriber = { version = "0.3", features = ["env-filter"] }
 tonic.workspace = true
@@ -37,15 +37,21 @@ 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
 k256.features = ["serde"]
 rsa.workspace = true
 rsa.features = ["serde"]
 sha2.workspace = true
-hmac.workspace = true
+hmac = "0.12"
 spki.workspace = true
 alloy.workspace = true
 prost-types.workspace = true
@@ -55,14 +61,11 @@ anyhow = "1.0.102"
 serde_with = "3.18.0"
 mutants.workspace = true
 subtle = "2.6.1"
-ml-dsa.workspace = true
+macro_rules_attribute = "0.2.2"
-ed25519-dalek.workspace = true
+paste = "1.0.15"
 x25519-dalek.workspace = true
 k256.workspace = true
 kameo_actors.workspace = true
 [dev-dependencies]
-insta = "1.47.2"
+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
@@ -45,11 +45,13 @@ insert into arbiter_settings (id) values (1) on conflict do nothing;
 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)
    created_at integer not null default(unixepoch ('now')),
    updated_at integer not null default(unixepoch ('now'))
 ) STRICT;
-create unique index if not exists uniq_useragent_client_public_key on useragent_client (public_key);
+create unique index if not exists uniq_useragent_client_public_key on useragent_client (public_key, key_type);
 create table if not exists client_metadata (
    id integer not null primary key,
@@ -71,6 +73,7 @@ create unique index if not exists uniq_metadata_binding_client on client_metadat
 create table if not exists program_client (
    id integer not null primary key,
    nonce integer not null default(1), -- used for auth challenge
    public_key blob not null,
    metadata_id integer not null references client_metadata (id) on delete cascade,
    created_at integer not null default(unixepoch ('now')),
--- a/server/crates/arbiter-server/src/actors/bootstrap.rs
+++ b/server/crates/arbiter-server/src/actors/bootstrap.rs
@@ -1,13 +1,13 @@
 use crate::db::{self, DatabasePool, schema};
 use arbiter_proto::{BOOTSTRAP_PATH, home_path};
 use diesel::QueryDsl;
 use diesel_async::RunQueryDsl;
 use kameo::{Actor, messages};
 use rand::{RngExt, distr::Alphanumeric, make_rng, rngs::StdRng};
 use subtle::ConstantTimeEq as _;
 use thiserror::Error;
 use crate::db::{self, DatabasePool, schema};
 const TOKEN_LENGTH: usize = 64;
 pub async fn generate_token() -> Result<String, std::io::Error> {
--- a/server/crates/arbiter-server/src/actors/client/auth.rs
+++ b/server/crates/arbiter-server/src/actors/client/auth.rs
@@ -1,32 +1,31 @@
 use super::{ClientConnection, ClientCredentials, ClientProfile};
 use crate::{
    actors::{
        GlobalActors,
        flow_coordinator::{self, RequestClientApproval},
        vault::Vault,
    },
    crypto::integrity::{self, AttestationStatus},
    db::{
        self,
        models::{ProgramClientMetadata, SqliteTimestamp},
        schema::program_client,
    },
 };
 use arbiter_crypto::authn::{self, AuthChallenge, CLIENT_CONTEXT};
 use arbiter_proto::{
-    ClientMetadata,
+    ClientMetadata, format_challenge,
    transport::{Bi, expect_message},
 };
 use chrono::Utc;
 use diesel::{
    ExpressionMethods as _, OptionalExtension as _, QueryDsl as _, SelectableHelper as _,
    dsl::insert_into, update,
 };
 use diesel_async::RunQueryDsl as _;
 use ed25519_dalek::{Signature, VerifyingKey};
 use kameo::{actor::ActorRef, error::SendError};
 use tracing::error;
 use crate::{
    actors::{
        client::{ClientConnection, ClientCredentials, ClientProfile},
        flow_coordinator::{self, RequestClientApproval},
        keyholder::KeyHolder,
    },
    crypto::integrity::{self, Verified, verified::VerifiedFieldsAccessor},
    db::{
        self,
        models::{ProgramClientMetadata, SqliteTimestamp},
        schema::program_client,
    },
 };
 #[derive(thiserror::Error, Debug, Clone, PartialEq, Eq)]
 pub enum Error {
    #[error("Database pool unavailable")]
@@ -63,33 +62,35 @@ pub enum ApproveError {
 #[derive(Debug, Clone)]
 pub enum Inbound {
    AuthChallengeRequest {
-        pubkey: authn::PublicKey,
+        pubkey: VerifyingKey,
        metadata: ClientMetadata,
    },
    AuthChallengeSolution {
-        signature: authn::Signature,
+        signature: Signature,
    },
 }
 #[derive(Debug, Clone)]
 pub enum Outbound {
-    AuthChallenge { challenge: AuthChallenge },
+    AuthChallenge { pubkey: VerifyingKey, nonce: i32 },
    AuthSuccess,
 }
-async fn get_client_id(
+/// Returns the current nonce and client ID for a registered client.
 /// Returns `None` if the pubkey is not registered.
 async fn get_current_nonce_and_id(
    db: &db::DatabasePool,
-    pubkey: &authn::PublicKey,
+    pubkey: &VerifyingKey,
-) -> Result<Option<i32>, Error> {
+) -> Result<Option<(i32, i32)>, Error> {
-    let pubkey_bytes = pubkey.to_bytes();
+    let pubkey_bytes = pubkey.as_bytes().to_vec();
    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)
+        .select((program_client::id, program_client::nonce))
-        .first::<i32>(&mut conn)
+        .first::<(i32, i32)>(&mut conn)
        .await
        .optional()
        .map_err(|e| {
@@ -98,44 +99,56 @@ async fn get_client_id(
        })
 }
-async fn verify_integrity(
+/// 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>,
+    keyholder: &ActorRef<KeyHolder>,
-    pubkey: &authn::PublicKey,
+    pubkey: &VerifyingKey,
-) -> Result<(), Error> {
+) -> Result<i32, Error> {
-    let mut db_conn = db.get().await.map_err(|e| {
+    let pubkey_bytes = pubkey.as_bytes().to_vec();
    let mut conn = db.get().await.map_err(|e| {
        error!(error = ?e, "Database pool error");
        Error::DatabasePoolUnavailable
    })?;
-    let id = get_client_id(db, pubkey).await?.ok_or_else(|| {
+    conn.exclusive_transaction(|conn| {
-        error!("Client not found during integrity verification");
+        let keyholder = keyholder.clone();
-        Error::DatabaseOperationFailed
+        Box::pin(async move {
-    })?;
+            let (id, new_nonce): (i32, i32) = update(program_client::table)
                .filter(program_client::public_key.eq(&pubkey_bytes))
                .set(program_client::nonce.eq(program_client::nonce + 1))
                .returning((program_client::id, program_client::nonce))
                .get_result(conn)
                .await?;
-    let attestation = integrity::verify_entity(
+            integrity::sign_entity(
-        &mut db_conn,
+                conn,
-        vault,
+                &keyholder,
                &ClientCredentials {
-            pubkey: pubkey.clone(),
+                    pubkey: *pubkey,
                    nonce: new_nonce,
                },
                id,
            )
            .await
            .map_err(|e| {
-        error!(?e, "Integrity verification failed");
+                error!(?e, "Integrity sign failed after nonce update");
-        Error::IntegrityCheckFailed
+                Error::DatabaseOperationFailed
-    })?;
+            })?
            .drop_verification_provenance();
-    if attestation != AttestationStatus::Attested {
+            Ok(new_nonce)
-        error!("Integrity attestation unavailable for client {id}");
+        })
-        return Err(Error::IntegrityCheckFailed);
+    })
-    }
+    .await
    Ok(())
 }
-async fn approve_new_client(actors: &GlobalActors, profile: ClientProfile) -> Result<(), Error> {
+async fn approve_new_client(
    actors: &crate::actors::GlobalActors,
    profile: ClientProfile,
 ) -> Result<(), Error> {
    let result = actors
        .flow_coordinator
        .ask(RequestClientApproval { client: profile })
@@ -157,12 +170,11 @@ async fn approve_new_client(actors: &GlobalActors, profile: ClientProfile) -> Re
 async fn insert_client(
    db: &db::DatabasePool,
-    vault: &ActorRef<Vault>,
+    keyholder: &ActorRef<KeyHolder>,
-    pubkey: &authn::PublicKey,
+    pubkey: &VerifyingKey,
    metadata: &ClientMetadata,
-) -> Result<i32, Error> {
+) -> Result<Verified<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| {
@@ -171,9 +183,10 @@ async fn insert_client(
    })?;
    conn.exclusive_transaction(|conn| {
-        let vault = vault.clone();
+        let keyholder = keyholder.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),
@@ -186,19 +199,21 @@ async fn insert_client(
            let client_id = insert_into(program_client::table)
                .values((
-                    program_client::public_key.eq(pubkey.to_bytes()),
+                    program_client::public_key.eq(pubkey.as_bytes().to_vec()),
                    program_client::metadata_id.eq(metadata_id),
                    program_client::nonce.eq(NONCE_START),
                ))
                .on_conflict_do_nothing()
                .returning(program_client::id)
                .get_result::<i32>(conn)
                .await?;
-            integrity::sign_entity(
+            let verified_id = integrity::sign_entity(
                conn,
-                &vault,
+                &keyholder,
                &ClientCredentials {
-                    pubkey: pubkey.clone(),
+                    pubkey: *pubkey,
                    nonce: NONCE_START,
                },
                client_id,
            )
@@ -206,9 +221,10 @@ async fn insert_client(
            .map_err(|e| {
                error!(error = ?e, "Failed to sign integrity tag for new client key");
                Error::DatabaseOperationFailed
-            })?;
+            })?
            .unqualify_origin();
-            Ok(client_id)
+            Ok(verified_id)
        })
    })
    .await
@@ -287,16 +303,14 @@ async fn sync_client_metadata(
 async fn challenge_client<T>(
    transport: &mut T,
-    pubkey: authn::PublicKey,
+    pubkey: VerifyingKey,
-    challenge: AuthChallenge,
+    nonce: i32,
 ) -> Result<(), Error>
 where
    T: Bi<Inbound, Result<Outbound, Error>> + ?Sized,
 {
    transport
-        .send(Ok(Outbound::AuthChallenge {
+        .send(Ok(Outbound::AuthChallenge { pubkey, nonce }))
            challenge: challenge.clone(),
        }))
        .await
        .map_err(|e| {
            error!(error = ?e, "Failed to send auth challenge");
@@ -313,15 +327,20 @@ where
        Error::Transport
    })?;
-    if !pubkey.verify(&challenge, CLIENT_CONTEXT, &signature) {
+    let formatted = format_challenge(nonce, pubkey.as_bytes());
    pubkey.verify_strict(&formatted, &signature).map_err(|_| {
        error!("Challenge solution verification failed");
-        return Err(Error::InvalidChallengeSolution);
+        Error::InvalidChallengeSolution
-    }
+    })?;
    Ok(())
 }
-pub async fn authenticate<T>(props: &mut ClientConnection, transport: &mut T) -> Result<i32, Error>
+pub async fn authenticate<T>(
    props: &mut ClientConnection,
    transport: &mut T,
 ) -> Result<Verified<i32>, Error>
 where
    T: Bi<Inbound, Result<Outbound, Error>> + Send + ?Sized,
 {
@@ -329,28 +348,45 @@ where
        return Err(Error::Transport);
    };
-    let client_id = match get_client_id(&props.db, &pubkey).await? {
+    // fixme! triage needed: probable regretion since in match->Some get_current_nonce_and_id called only once instead of twice
-        Some(id) => {
+    let client_id = match get_current_nonce_and_id(&props.db, &pubkey).await? {
-            verify_integrity(&props.db, &props.actors.vault, &pubkey).await?;
+        Some((nonce, id)) => {
-            id
+            let mut db_conn = props.db.get().await.map_err(|e| {
                error!(error = ?e, "Database pool error");
                Error::DatabasePoolUnavailable
            })?;
            integrity::verify_entity(
                &mut db_conn,
                &props.actors.key_holder,
                ClientCredentials { pubkey, nonce },
                id,
            )
            .await
            .map_err(|e| {
                error!(?e, "Integrity verification failed");
                Error::IntegrityCheckFailed
            })?
            .inherit()
            .entity_id
            .unqualify_origin()
        }
        None => {
            approve_new_client(
                &props.actors,
                ClientProfile {
-                    pubkey: pubkey.clone(),
+                    pubkey,
                    metadata: metadata.clone(),
                },
            )
            .await?;
-            insert_client(&props.db, &props.actors.vault, &pubkey, &metadata).await?
+            insert_client(&props.db, &props.actors.key_holder, &pubkey, &metadata).await?
        }
    };
-    sync_client_metadata(&props.db, client_id, &metadata).await?;
+    sync_client_metadata(&props.db, *client_id, &metadata).await?;
-
+    let challenge_nonce = create_nonce(&props.db, &props.actors.key_holder, &pubkey).await?;
-    let challenge = AuthChallenge::generate(&mut rand::rng());
+    challenge_client(transport, pubkey, challenge_nonce).await?;
    challenge_client(transport, pubkey, challenge).await?;
    transport
        .send(Ok(Outbound::AuthSuccess))
--- a/server/crates/arbiter-server/src/actors/client/mod.rs
+++ b/server/crates/arbiter-server/src/actors/client/mod.rs
@@ -1,28 +1,35 @@
 use crate::{
    actors::GlobalActors, crypto::integrity::Integrable, db, peers::client::session::ClientSession,
 };
 use arbiter_crypto::authn;
 use arbiter_macros::Hashable;
 use arbiter_proto::{ClientMetadata, transport::Bi};
 use kameo::actor::Spawn;
 use tracing::{error, info};
 use crate::{
    actors::{GlobalActors, client::session::ClientSession},
    crypto::integrity::{Integrable, hashing::Hashable},
    db,
 };
 #[derive(Debug, Clone)]
 pub struct ClientProfile {
-    pub pubkey: authn::PublicKey,
+    pub pubkey: ed25519_dalek::VerifyingKey,
    pub metadata: ClientMetadata,
 }
 #[derive(Hashable)]
 pub struct ClientCredentials {
-    pub pubkey: authn::PublicKey,
+    pub pubkey: ed25519_dalek::VerifyingKey,
    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.as_bytes());
        self.nonce.hash(hasher);
    }
 }
 pub struct ClientConnection {
    pub(crate) db: db::DatabasePool,
    pub(crate) actors: GlobalActors,
@@ -41,9 +48,7 @@ pub async fn connect_client<T>(mut props: ClientConnection, transport: &mut T)
 where
    T: Bi<auth::Inbound, Result<auth::Outbound, auth::Error>> + Send + ?Sized,
 {
-    let fut = auth::authenticate(&mut props, transport);
+    match auth::authenticate(&mut props, transport).await {
    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
@@ -1,26 +1,29 @@
 use super::ClientConnection;
 use crate::{
    actors::{
        GlobalActors,
        evm::{ClientSignTransaction, SignTransactionError},
        flow_coordinator::RegisterClient,
        vault::VaultState,
    },
    db,
    evm::VetError,
 };
 use alloy::{consensus::TxEip1559, primitives::Address, signers::Signature};
 use kameo::{Actor, messages};
 use tracing::error;
 use alloy::{consensus::TxEip1559, primitives::Address, signers::Signature};
 use crate::{
    actors::{
        client::ClientConnection,
        evm::{ClientSignTransaction, SignTransactionError},
        flow_coordinator::RegisterClient,
        keyholder::KeyHolderState,
    },
    crypto::integrity::Verified,
    evm::VetError,
 };
 #[cfg(test)]
 use crate::{actors::GlobalActors, db};
 pub struct ClientSession {
    props: ClientConnection,
-    client_id: i32,
+    client_id: Verified<i32>,
 }
 impl ClientSession {
-    pub(crate) fn new(props: ClientConnection, client_id: i32) -> Self {
+    pub(crate) fn new(props: ClientConnection, client_id: Verified<i32>) -> Self {
        Self { props, client_id }
    }
 }
@@ -28,13 +31,13 @@ impl ClientSession {
 #[messages]
 impl ClientSession {
    #[message]
-    pub(crate) async fn handle_query_vault_state(&mut self) -> Result<VaultState, Error> {
+    pub(crate) async fn handle_query_vault_state(&mut self) -> Result<KeyHolderState, Error> {
-        use crate::actors::vault::GetState;
+        use crate::actors::keyholder::GetState;
-        let vault_state = match self.props.actors.vault.ask(GetState {}).await {
+        let vault_state = match self.props.actors.key_holder.ask(GetState {}).await {
            Ok(state) => state,
            Err(err) => {
-                error!(?err, actor = "client", "vault.query.failed");
+                error!(?err, actor = "client", "keyholder.query.failed");
                return Err(Error::Internal);
            }
        };
@@ -53,7 +56,7 @@ impl ClientSession {
            .actors
            .evm
            .ask(ClientSignTransaction {
-                client_id: self.client_id,
+                client_id: *self.client_id,
                wallet_address,
                transaction,
            })
@@ -91,11 +94,12 @@ impl Actor for ClientSession {
 }
 impl ClientSession {
    #[cfg(test)]
    pub fn new_test(db: db::DatabasePool, actors: GlobalActors) -> Self {
        let props = ClientConnection::new(db, actors);
        Self {
            props,
-            client_id: 0,
+            client_id: Verified::new_unchecked(0),
        }
    }
 }
--- a/server/crates/arbiter-server/src/actors/evm/mod.rs
+++ b/server/crates/arbiter-server/src/actors/evm/mod.rs
@@ -1,6 +1,14 @@
 use alloy::{consensus::TxEip1559, primitives::Address, signers::Signature};
 use diesel::{
    ExpressionMethods, OptionalExtension as _, QueryDsl, SelectableHelper as _, dsl::insert_into,
 };
 use diesel_async::RunQueryDsl;
 use kameo::{Actor, actor::ActorRef, messages};
 use rand::{SeedableRng, rng, rngs::StdRng};
 use crate::{
-    actors::vault::{CreateNew, Decrypt, Vault},
+    actors::keyholder::{CreateNew, Decrypt, KeyHolder},
-    crypto::integrity,
+    crypto::integrity::{self, Integrable, Verified, hashing::Hashable},
    db::{
        DatabaseError, DatabasePool,
        models::{self},
@@ -13,47 +21,68 @@ use crate::{
            ether_transfer::EtherTransfer, token_transfers::TokenTransfer,
        },
    },
    safe_cell::{SafeCell, SafeCellHandle as _},
 };
 use arbiter_crypto::safecell::{SafeCell, SafeCellHandle as _};
 use alloy::{consensus::TxEip1559, primitives::Address, signers::Signature};
 use diesel::{
    ExpressionMethods, OptionalExtension as _, QueryDsl, SelectableHelper as _, dsl::insert_into,
 };
 use diesel_async::RunQueryDsl;
 use kameo::{Actor, actor::ActorRef, messages};
 use rand::{SeedableRng, rng, rngs::StdRng};
 pub use crate::evm::safe_signer;
 /// Hashable structure for wallet integrity protection.
 /// Binds the encrypted private key to the wallet address using HMAC.
 pub struct EvmWalletIntegrity {
    pub address: Vec<u8>,       // 20-byte Ethereum address
    pub aead_encrypted_id: i32, // Reference to encrypted key material
 }
 impl Hashable for EvmWalletIntegrity {
    fn hash<H: sha2::Digest>(&self, hasher: &mut H) {
        hasher.update(&self.address);
        hasher.update(self.aead_encrypted_id.to_be_bytes());
    }
 }
 impl Integrable for EvmWalletIntegrity {
    const KIND: &'static str = "evm_wallet";
 }
 #[derive(Debug, thiserror::Error)]
 pub enum SignTransactionError {
    #[error("Wallet not found")]
    WalletNotFound,
    #[error("Wallet integrity check failed")]
    WalletIntegrityCheckFailed,
    #[error(
        "Decrypted key does not correspond to wallet address (CRITICAL: possible key substitution attack)"
    )]
    KeyAddressMismatch,
    #[error("Database error: {0}")]
    Database(#[from] DatabaseError),
-    #[error("Vault error: {0}")]
+    #[error("Keyholder error: {0}")]
-    Vault(#[from] crate::actors::vault::Error),
+    Keyholder(#[from] crate::actors::keyholder::Error),
-    #[error("Vault mailbox error")]
+    #[error("Keyholder mailbox error")]
-    VaultSend,
+    KeyholderSend,
    #[error("Signing error: {0}")]
    Signing(#[from] alloy::signers::Error),
    #[error("Policy error: {0}")]
    Vet(#[from] evm::VetError),
    #[error("Integrity error: {0}")]
    Integrity(#[from] integrity::Error),
 }
 #[derive(Debug, thiserror::Error)]
 pub enum Error {
-    #[error("Vault error: {0}")]
+    #[error("Keyholder error: {0}")]
-    Vault(#[from] crate::actors::vault::Error),
+    Keyholder(#[from] crate::actors::keyholder::Error),
-    #[error("Vault mailbox error")]
+    #[error("Keyholder mailbox error")]
-    VaultSend,
+    KeyholderSend,
    #[error("Database error: {0}")]
    Database(#[from] DatabaseError),
@@ -64,20 +93,20 @@ pub enum Error {
 #[derive(Actor)]
 pub struct EvmActor {
-    pub vault: ActorRef<Vault>,
+    pub keyholder: ActorRef<KeyHolder>,
    pub db: DatabasePool,
    pub rng: StdRng,
    pub engine: evm::Engine,
 }
 impl EvmActor {
-    pub fn new(vault: ActorRef<Vault>, db: DatabasePool) -> Self {
+    pub fn new(keyholder: ActorRef<KeyHolder>, db: DatabasePool) -> Self {
        // is it safe to seed rng from system once?
        // todo: audit
        let rng = StdRng::from_rng(&mut rng());
-        let engine = evm::Engine::new(db.clone(), vault.clone());
+        let engine = evm::Engine::new(db.clone(), keyholder.clone());
        Self {
-            vault,
+            keyholder,
            db,
            rng,
            engine,
@@ -88,19 +117,19 @@ impl EvmActor {
 #[messages]
 impl EvmActor {
    #[message]
-    pub async fn generate(&mut self) -> Result<(i32, Address), Error> {
+    pub async fn generate(&mut self) -> Result<(Verified<i32>, Address), Error> {
        let (mut key_cell, address) = safe_signer::generate(&mut self.rng);
        let plaintext = key_cell.read_inline(|reader| SafeCell::new(reader.to_vec()));
        let aead_id: i32 = self
-            .vault
+            .keyholder
            .ask(CreateNew { plaintext })
            .await
-            .map_err(|_| Error::VaultSend)?;
+            .map_err(|_| Error::KeyholderSend)?;
        let mut conn = self.db.get().await.map_err(DatabaseError::from)?;
-        let wallet_id = insert_into(schema::evm_wallet::table)
+        let wallet_id: i32 = insert_into(schema::evm_wallet::table)
            .values(&models::NewEvmWallet {
                address: address.as_slice().to_vec(),
                aead_encrypted_id: aead_id,
@@ -110,7 +139,17 @@ impl EvmActor {
            .await
            .map_err(DatabaseError::from)?;
-        Ok((wallet_id, address))
+        // Sign integrity envelope to bind encrypted key to wallet address
        let wallet_integrity = EvmWalletIntegrity {
            address: address.as_slice().to_vec(),
            aead_encrypted_id: aead_id,
        };
        let verified_wallet_id =
            integrity::sign_entity(&mut conn, &self.keyholder, &wallet_integrity, wallet_id)
                .await?
                .unqualify_origin();
        Ok((verified_wallet_id, address))
    }
    #[message]
@@ -136,7 +175,7 @@ impl EvmActor {
        &mut self,
        basic: SharedGrantSettings,
        grant: SpecificGrant,
-    ) -> Result<i32, Error> {
+    ) -> Result<integrity::Verified<i32>, Error> {
        match grant {
            SpecificGrant::EtherTransfer(settings) => self
                .engine
@@ -160,7 +199,7 @@ impl EvmActor {
    #[message]
    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 vault = self.vault.clone();
+        // let keyholder = self.keyholder.clone();
        // diesel_async::AsyncConnection::transaction(&mut conn, |conn| {
        //     Box::pin(async move {
@@ -207,9 +246,23 @@ impl EvmActor {
            .optional()
            .map_err(DatabaseError::from)?
            .ok_or(SignTransactionError::WalletNotFound)?;
        // Verify wallet integrity envelope
        let wallet = integrity::verify_entity(
            &mut conn,
            &self.keyholder,
            EvmWalletIntegrity {
                address: wallet.address.clone(),
                aead_encrypted_id: wallet.aead_encrypted_id,
            },
            wallet.id,
        )
        .await
        .map_err(|_| SignTransactionError::WalletIntegrityCheckFailed)?;
        let wallet_access = schema::evm_wallet_access::table
            .select(models::EvmWalletAccess::as_select())
-            .filter(schema::evm_wallet_access::wallet_id.eq(wallet.id))
+            .filter(schema::evm_wallet_access::wallet_id.eq(wallet.entity_id))
            .filter(schema::evm_wallet_access::client_id.eq(client_id))
            .first(&mut conn)
            .await
@@ -242,9 +295,23 @@ impl EvmActor {
            .optional()
            .map_err(DatabaseError::from)?
            .ok_or(SignTransactionError::WalletNotFound)?;
        // Verify wallet integrity envelope to ensure encrypted key is bound to address
        let wallet = integrity::verify_entity(
            &mut conn,
            &self.keyholder,
            EvmWalletIntegrity {
                address: wallet.address.clone(),
                aead_encrypted_id: wallet.aead_encrypted_id,
            },
            wallet.id,
        )
        .await
        .map_err(|_| SignTransactionError::WalletIntegrityCheckFailed)?;
        let wallet_access = schema::evm_wallet_access::table
            .select(models::EvmWalletAccess::as_select())
-            .filter(schema::evm_wallet_access::wallet_id.eq(wallet.id))
+            .filter(schema::evm_wallet_access::wallet_id.eq(wallet.entity_id))
            .filter(schema::evm_wallet_access::client_id.eq(client_id))
            .first(&mut conn)
            .await
@@ -254,15 +321,21 @@ impl EvmActor {
        drop(conn);
        let raw_key: SafeCell<Vec<u8>> = self
-            .vault
+            .keyholder
            .ask(Decrypt {
                aead_id: wallet.aead_encrypted_id,
            })
            .await
-            .map_err(|_| SignTransactionError::VaultSend)?;
+            .map_err(|_| SignTransactionError::KeyholderSend)?;
        let signer = safe_signer::SafeSigner::from_cell(raw_key)?;
        // Verify that the decrypted key's derived address matches the wallet address
        // This prevents an attacker from substituting one wallet's key with another's even if they compromised the DB
        if signer.address() != wallet_address {
            return Err(SignTransactionError::KeyAddressMismatch);
        }
        self.engine
            .evaluate_transaction(wallet_access, transaction.clone(), RunKind::Execution)
            .await?;
--- 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
@@ -1,17 +1,16 @@
-use crate::{
+use std::ops::ControlFlow;
    actors::flow_coordinator::ApprovalError,
    peers::{
        client::ClientProfile,
        user_agent::{UserAgentSession, session::BeginNewClientApproval},
    },
 };
 use kameo::{
    Actor, messages,
    prelude::{ActorId, ActorRef, ActorStopReason, Context, WeakActorRef},
    reply::ReplySender,
 };
-use std::ops::ControlFlow;
+
 use crate::actors::{
    client::ClientProfile,
    flow_coordinator::ApprovalError,
    user_agent::{UserAgentSession, session::BeginNewClientApproval},
 };
 pub struct Args {
    pub client: ClientProfile,
--- a/server/crates/arbiter-server/src/actors/flow_coordinator/mod.rs
+++ b/server/crates/arbiter-server/src/actors/flow_coordinator/mod.rs
@@ -1,10 +1,4 @@
-use crate::{
+use std::{collections::HashMap, ops::ControlFlow};
    actors::{
        flow_coordinator::client_connect_approval::ClientApprovalController,
        useragent_registry::{GetConnected, UserAgentRegistry},
    },
    peers::client::{ClientProfile, session::ClientSession},
 };
 use kameo::{
    Actor,
@@ -13,23 +7,20 @@ use kameo::{
    prelude::{ActorStopReason, Context, WeakActorRef},
    reply::DelegatedReply,
 };
 use std::{collections::HashMap, ops::ControlFlow};
 use tracing::info;
 use crate::actors::{
    client::{ClientProfile, session::ClientSession},
    flow_coordinator::client_connect_approval::ClientApprovalController,
    user_agent::session::UserAgentSession,
 };
 pub mod client_connect_approval;
 #[derive(Default)]
 pub struct FlowCoordinator {
    pub user_agents: HashMap<ActorId, ActorRef<UserAgentSession>>,
    pub clients: HashMap<ActorId, ActorRef<ClientSession>>,
    useragent_registry: ActorRef<UserAgentRegistry>,
 }
 impl FlowCoordinator {
    pub fn new(useragent_registry: ActorRef<UserAgentRegistry>) -> Self {
        Self {
            clients: HashMap::default(),
            useragent_registry,
        }
    }
 }
 impl Actor for FlowCoordinator {
@@ -47,7 +38,13 @@ impl Actor for FlowCoordinator {
        id: ActorId,
        _: ActorStopReason,
    ) -> Result<ControlFlow<ActorStopReason>, Self::Error> {
-        if self.clients.remove(&id).is_some() {
+        if self.user_agents.remove(&id).is_some() {
            info!(
                ?id,
                actor = "FlowCoordinator",
                event = "useragent.disconnected"
            );
        } else if self.clients.remove(&id).is_some() {
            info!(
                ?id,
                actor = "FlowCoordinator",
@@ -72,6 +69,17 @@ pub enum ApprovalError {
 #[messages]
 impl FlowCoordinator {
    #[message(ctx)]
    pub async fn register_user_agent(
        &mut self,
        actor: ActorRef<UserAgentSession>,
        ctx: &mut Context<Self, ()>,
    ) {
        info!(id = %actor.id(), actor = "FlowCoordinator", event = "useragent.connected");
        ctx.actor_ref().link(&actor).await;
        self.user_agents.insert(actor.id(), actor);
    }
    #[message(ctx)]
    pub async fn register_client(
        &mut self,
@@ -93,14 +101,7 @@ impl FlowCoordinator {
            unreachable!("Expected `request_client_approval` to have callback channel");
        };
-        let refs = match self.useragent_registry.ask(GetConnected).await {
+        let refs: Vec<_> = self.user_agents.values().cloned().collect();
            Ok(refs) => refs,
            Err(_) => {
                reply_sender.send(Err(ApprovalError::NoUserAgentsConnected));
                return reply;
            }
        };
        if refs.is_empty() {
            reply_sender.send(Err(ApprovalError::NoUserAgentsConnected));
            return reply;
--- a/server/crates/arbiter-server/src/actors/keyholder/mod.rs
+++ b/server/crates/arbiter-server/src/actors/keyholder/mod.rs
@@ -1,17 +1,3 @@
 use crate::{
    crypto::{
        KeyCell, derive_key,
        encryption::v1::{self, Nonce},
        integrity::v1::HmacSha256,
    },
    db::{
        self,
        models::{self, RootKeyHistory},
        schema::{self},
    },
 };
 use arbiter_crypto::safecell::{SafeCell, SafeCellHandle as _};
 use chrono::Utc;
 use diesel::{
    ExpressionMethods as _, OptionalExtension, QueryDsl, SelectableHelper,
@@ -19,31 +5,47 @@ use diesel::{
 };
 use diesel_async::{AsyncConnection, RunQueryDsl};
 use hmac::Mac as _;
-use kameo::{Actor, Reply, actor::ActorRef, messages};
+use kameo::{Actor, Reply, messages};
 use kameo_actors::message_bus::{MessageBus, Publish};
 use strum::{EnumDiscriminants, IntoDiscriminant};
 use tracing::{error, info};
-pub mod events {
+use crate::{
    crypto::{
        KeyCell, derive_key,
        encryption::v1::{self, Nonce},
        integrity::v1::HmacSha256,
    },
    safe_cell::SafeCell,
 };
 use crate::{
    db::{
        self,
        models::{self, RootKeyHistory},
        schema::{self},
    },
    safe_cell::SafeCellHandle as _,
 };
-    #[derive(Clone, Copy)]
+#[derive(Default, EnumDiscriminants)]
-    pub struct Bootstrapped;
+#[strum_discriminants(derive(Reply), vis(pub), name(KeyHolderState))]
-
+enum State {
-    #[derive(Clone, Copy)]
+    #[default]
-    pub struct Unsealed;
+    Unbootstrapped,
-
+    Sealed {
-    #[derive(Clone, Copy)]
+        root_key_history_id: i32,
-    pub struct VaultResealed;
+    },
    Unsealed {
        root_key_history_id: i32,
        root_key: KeyCell,
    },
 }
 #[derive(Debug, thiserror::Error)]
 pub enum Error {
-    #[error("Vault is already bootstrapped")]
+    #[error("Keyholder is already bootstrapped")]
    AlreadyBootstrapped,
-    #[error("Vault is not bootstrapped")]
+    #[error("Keyholder is not bootstrapped")]
    NotBootstrapped,
    #[error("Vault is sealed")]
    Sealed,
    #[error("Invalid key provided")]
    InvalidKey,
@@ -63,35 +65,18 @@ pub enum Error {
    BrokenDatabase,
 }
 struct Unsealed {
    root_key_history_id: i32,
    root_key: KeyCell,
 }
 #[derive(Default, EnumDiscriminants)]
 #[strum_discriminants(derive(Reply), vis(pub), name(VaultState))]
 enum State {
    #[default]
    Unbootstrapped,
    Sealed {
        root_key_history_id: i32,
    },
    Unsealed(Unsealed),
 }
 /// Manages vault root key and tracks current state of the vault (bootstrapped/unbootstrapped, sealed/unsealed).
 /// Provides API for encrypting and decrypting data using the vault root key.
 /// Abstraction over database to make sure nonces are never reused and encryption keys are never exposed in plaintext outside of this actor.
 #[derive(Actor)]
-pub struct Vault {
+pub struct KeyHolder {
    db: db::DatabasePool,
    state: State,
    events: ActorRef<MessageBus>,
 }
 #[messages]
-impl Vault {
+impl KeyHolder {
-    pub async fn new(db: db::DatabasePool, events: ActorRef<MessageBus>) -> Result<Self, Error> {
+    pub async fn new(db: db::DatabasePool) -> Result<Self, Error> {
        let state = {
            let mut conn = db.get().await?;
@@ -109,10 +94,10 @@ impl Vault {
            }
        };
-        Ok(Self { db, state, events })
+        Ok(Self { db, state })
    }
-    // Exclusive transaction to avoid race condtions if multiple vaults write
+    // Exclusive transaction to avoid race condtions if multiple keyholders write
    // additional layer of protection against nonce-reuse
    async fn get_new_nonce(pool: &db::DatabasePool, root_key_id: i32) -> Result<Nonce, Error> {
        let mut conn = pool.get().await?;
@@ -149,14 +134,6 @@ impl Vault {
        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) {
@@ -209,13 +186,12 @@ impl Vault {
            })
            .await?;
-        self.state = State::Unsealed(Unsealed {
+        self.state = State::Unsealed {
            root_key,
            root_key_history_id,
-        });
+        };
-        info!("Vault bootstrapped successfully");
+        info!("Keyholder bootstrapped successfully");
        let _ = self.events.tell(Publish(events::Bootstrapped)).await;
        Ok(())
    }
@@ -262,23 +238,24 @@ impl Vault {
                Error::InvalidKey
            })?;
-        self.state = State::Unsealed(Unsealed {
+        self.state = State::Unsealed {
            root_key_history_id: current_key.id,
            root_key: KeyCell::try_from(root_key).map_err(|err| {
                error!(?err, "Broken database: invalid encryption key size");
                Error::BrokenDatabase
            })?,
-        });
+        };
-        info!("Vault unsealed successfully");
+        info!("Keyholder unsealed successfully");
        let _ = self.events.tell(Publish(events::Unsealed)).await;
        Ok(())
    }
    #[message]
    pub async fn decrypt(&mut self, aead_id: i32) -> Result<SafeCell<Vec<u8>>, Error> {
-        let Unsealed { root_key, .. } = Self::expect_unsealed(&mut self.state)?;
+        let State::Unsealed { root_key, .. } = &mut self.state else {
            return Err(Error::NotBootstrapped);
        };
        let row: models::AeadEncrypted = {
            let mut conn = self.db.get().await?;
@@ -306,10 +283,14 @@ impl Vault {
    // Creates new `aead_encrypted` entry in the database and returns it's ID
    #[message]
    pub async fn create_new(&mut self, mut plaintext: SafeCell<Vec<u8>>) -> Result<i32, Error> {
-        let Unsealed {
+        let State::Unsealed {
            root_key,
            root_key_history_id,
-        } = Self::expect_unsealed(&mut self.state)?;
+            ..
        } = &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
@@ -339,16 +320,19 @@ impl Vault {
    }
    #[message]
-    pub fn get_state(&self) -> VaultState {
+    pub fn get_state(&self) -> KeyHolderState {
        self.state.discriminant()
    }
    #[message]
    pub fn sign_integrity(&mut self, mac_input: Vec<u8>) -> Result<(i32, Vec<u8>), Error> {
-        let Unsealed {
+        let State::Unsealed {
            root_key,
            root_key_history_id,
-        } = Self::expect_unsealed(&mut self.state)?;
+        } = &mut self.state
        else {
            return Err(Error::NotBootstrapped);
        };
        let mut hmac = root_key
            .0
@@ -370,10 +354,13 @@ impl Vault {
        expected_mac: Vec<u8>,
        key_version: i32,
    ) -> Result<bool, Error> {
-        let Unsealed {
+        let State::Unsealed {
            root_key,
            root_key_history_id,
-        } = Self::expect_unsealed(&mut self.state)?;
+        } = &mut self.state
        else {
            return Err(Error::NotBootstrapped);
        };
        if *root_key_history_id != key_version {
            return Ok(false);
@@ -392,16 +379,17 @@ impl Vault {
    }
    #[message]
-    pub async fn seal(&mut self) -> Result<(), Error> {
+    pub fn seal(&mut self) -> Result<(), Error> {
-        let Unsealed {
+        let State::Unsealed {
            root_key_history_id,
            ..
-        } = Self::expect_unsealed(&mut self.state)?;
+        } = &self.state
-
+        else {
            return Err(Error::NotBootstrapped);
        };
        self.state = State::Sealed {
            root_key_history_id: *root_key_history_id,
        };
        let _ = self.events.tell(Publish(events::VaultResealed)).await;
        Ok(())
    }
 }
@@ -413,17 +401,14 @@ 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) -> Vault {
+    async fn bootstrapped_actor(db: &db::DatabasePool) -> KeyHolder {
-        let mut actor = Vault::new(db.clone(), GlobalActors::spawn_message_bus())
+        let mut actor = KeyHolder::new(db.clone()).await.unwrap();
            .await
            .unwrap();
        let seal_key = SafeCell::new(b"test-seal-key".to_vec());
        actor.bootstrap(seal_key).await.unwrap();
        actor
@@ -435,17 +420,17 @@ 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(Unsealed {
+            State::Unsealed {
                root_key_history_id,
                ..
-            }) => root_key_history_id,
+            } => root_key_history_id,
            _ => panic!("expected unsealed state"),
        };
-        let n1 = Vault::get_new_nonce(&db, root_key_history_id)
+        let n1 = KeyHolder::get_new_nonce(&db, root_key_history_id)
            .await
            .unwrap();
-        let n2 = Vault::get_new_nonce(&db, root_key_history_id)
+        let n2 = KeyHolder::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/actors/mod.rs
+++ b/server/crates/arbiter-server/src/actors/mod.rs
@@ -1,59 +1,47 @@
 use kameo::actor::{ActorRef, Spawn};
 use thiserror::Error;
 use crate::{
    actors::{
        bootstrap::Bootstrapper, evm::EvmActor, flow_coordinator::FlowCoordinator,
-        useragent_registry::UserAgentRegistry, vault::Vault,
+        keyholder::KeyHolder,
    },
    db,
 };
 use kameo::actor::{ActorRef, Spawn};
 use kameo_actors::{DeliveryStrategy, message_bus::MessageBus};
 use thiserror::Error;
 pub mod bootstrap;
-pub mod evm;
+pub mod client;
 mod evm;
 pub mod flow_coordinator;
-pub mod useragent_registry;
+pub mod keyholder;
-pub mod vault;
+pub mod user_agent;
 #[derive(Error, Debug)]
 pub enum SpawnError {
    #[error("Failed to spawn Bootstrapper actor")]
    Bootstrapper(#[from] bootstrap::Error),
-    #[error("Failed to spawn Vault actor")]
+    #[error("Failed to spawn KeyHolder actor")]
-    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 vault: ActorRef<Vault>,
+    pub key_holder: ActorRef<KeyHolder>,
    pub bootstrapper: ActorRef<Bootstrapper>,
    pub flow_coordinator: ActorRef<FlowCoordinator>,
    pub useragent_registry: ActorRef<UserAgentRegistry>,
    pub evm: ActorRef<EvmActor>,
    pub events: ActorRef<MessageBus>,
 }
 impl GlobalActors {
    pub fn spawn_message_bus() -> ActorRef<MessageBus> {
        MessageBus::spawn(MessageBus::new(DeliveryStrategy::Guaranteed))
    }
    pub async fn spawn(db: db::DatabasePool) -> Result<Self, SpawnError> {
-        let message_bus = Self::spawn_message_bus();
+        let key_holder = KeyHolder::spawn(KeyHolder::new(db.clone()).await?);
        let key_holder = Vault::spawn(Vault::new(db.clone(), message_bus.clone()).await?);
        let useragent_registry = UserAgentRegistry::spawn(UserAgentRegistry::default());
        Ok(Self {
            bootstrapper: Bootstrapper::spawn(Bootstrapper::new(&db).await?),
            evm: EvmActor::spawn(EvmActor::new(key_holder.clone(), db)),
-            vault: key_holder,
+            key_holder,
-            flow_coordinator: FlowCoordinator::spawn(FlowCoordinator::new(
+            flow_coordinator: FlowCoordinator::spawn(FlowCoordinator::default()),
                useragent_registry.clone(),
            )),
            useragent_registry,
            events: message_bus,
        })
    }
 }
--- a/server/crates/arbiter-server/src/peers/user_agent/auth/mod.rs
+++ b/server/crates/arbiter-server/src/peers/user_agent/auth/mod.rs
@@ -1,16 +1,18 @@
 use super::{Credentials, UserAgentConnection};
 use arbiter_crypto::authn::{self, AuthChallenge};
 use arbiter_proto::transport::Bi;
 use state::*;
 use tracing::error;
 use crate::actors::user_agent::{
    AuthPublicKey, UserAgentConnection,
    auth::state::{AuthContext, AuthStateMachine},
 };
 mod state;
 use state::*;
 #[derive(Debug, Clone)]
 pub enum Inbound {
    AuthChallengeRequest {
-        pubkey: authn::PublicKey,
+        pubkey: AuthPublicKey,
        bootstrap_token: Option<String>,
    },
    AuthChallengeSolution {
@@ -28,23 +30,32 @@ pub enum Error {
 }
 impl Error {
-    fn internal(details: impl Into<String>) -> Self {
+    #[track_caller]
-        Self::Internal {
+    pub(super) fn internal(details: impl Into<String>, err: &impl std::fmt::Debug) -> Self {
-            details: details.into(),
+        let details = details.into();
-        }
+        let caller = std::panic::Location::caller();
        error!(
            caller_file = %caller.file(),
            caller_line = caller.line(),
            caller_column = caller.column(),
            details = %details,
            error = ?err,
            "Internal error"
        );
        Self::Internal { details }
    }
 }
 impl From<diesel::result::Error> for Error {
    fn from(e: diesel::result::Error) -> Self {
-        error!(?e, "Database error");
+        Self::internal("Database error", &e)
        Self::internal("Database error")
    }
 }
 #[derive(Debug, Clone)]
 pub enum Outbound {
-    AuthChallenge { challenge: AuthChallenge },
+    AuthChallenge { nonce: i32 },
    AuthSuccess,
 }
@@ -52,11 +63,12 @@ fn parse_auth_event(payload: Inbound) -> AuthEvents {
    match payload {
        Inbound::AuthChallengeRequest {
            pubkey,
-            bootstrap_token,
+            bootstrap_token: None,
-        } => AuthEvents::AuthRequest(ChallengeRequest {
+        } => AuthEvents::AuthRequest(ChallengeRequest { pubkey }),
        Inbound::AuthChallengeRequest {
            pubkey,
-            bootstrap_token,
+            bootstrap_token: Some(token),
-        }),
+        } => AuthEvents::BootstrapAuthRequest(BootstrapAuthRequest { pubkey, token }),
        Inbound::AuthChallengeSolution { signature } => {
            AuthEvents::ReceivedSolution(ChallengeSolution {
                solution: signature,
@@ -67,20 +79,21 @@ fn parse_auth_event(payload: Inbound) -> AuthEvents {
 pub async fn authenticate<T>(
    props: &mut UserAgentConnection,
-    transport: &mut T,
+    transport: T,
-) -> Result<Credentials, Error>
+) -> Result<AuthPublicKey, Error>
 where
-    T: Bi<Inbound, Result<Outbound, Error>> + Send + ?Sized,
+    T: Bi<Inbound, Result<Outbound, Error>> + Send,
 {
    let mut state = AuthStateMachine::new(AuthContext::new(props, transport));
    loop {
        // `state` holds a mutable reference to `props` so we can't access it directly here
        let Some(payload) = state.context_mut().transport.recv().await else {
            return Err(Error::Transport);
        };
        match state.process_event(parse_auth_event(payload)).await {
-            Ok(AuthStates::AuthOk(result)) => return Ok(result.clone()),
+            Ok(AuthStates::AuthOk(key)) => return Ok(key.clone()),
            Err(AuthError::ActionFailed(err)) => {
                error!(?err, "State machine action failed");
                return Err(err);
--- a/server/crates/arbiter-server/src/actors/user_agent/auth/state.rs
+++ b/server/crates/arbiter-server/src/actors/user_agent/auth/state.rs
@@ -0,0 +1,347 @@
 use arbiter_proto::transport::Bi;
 use diesel::{ExpressionMethods as _, OptionalExtension as _, QueryDsl, update};
 use diesel_async::{AsyncConnection, RunQueryDsl};
 use kameo::actor::ActorRef;
 use tracing::error;
 use super::Error;
 use crate::{
    actors::{
        bootstrap::ConsumeToken,
        keyholder::KeyHolder,
        user_agent::{AuthPublicKey, UserAgentConnection, UserAgentCredentials, auth::Outbound},
    },
    crypto::integrity,
    db::{DatabasePool, schema::useragent_client},
 };
 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),
    }
 );
 /// Returns the current nonce, ready to use for the challenge nonce.
 async fn get_current_nonce_and_id(
    db: &DatabasePool,
    key: &AuthPublicKey,
 ) -> Result<(i32, i32), Error> {
    let mut db_conn = db
        .get()
        .await
        .map_err(|e| Error::internal("Database unavailable", &e))?;
    db_conn
        .exclusive_transaction(|conn| {
            Box::pin(async move {
                useragent_client::table
                    .filter(useragent_client::public_key.eq(key.to_stored_bytes()))
                    .filter(useragent_client::key_type.eq(key.key_type()))
                    .select((useragent_client::id, useragent_client::nonce))
                    .first::<(i32, i32)>(conn)
                    .await
            })
        })
        .await
        .optional()
        .map_err(|e| Error::internal("Database operation failed", &e))?
        .ok_or_else(|| {
            error!(?key, "Public key not found in database");
            Error::UnregisteredPublicKey
        })
 }
 async fn verify_integrity(
    db: &DatabasePool,
    keyholder: &ActorRef<KeyHolder>,
    pubkey: &AuthPublicKey,
 ) -> Result<(), Error> {
    let mut db_conn = db
        .get()
        .await
        .map_err(|e| Error::internal("Database unavailable", &e))?;
    let (id, nonce) = get_current_nonce_and_id(db, pubkey).await?;
    let attestation_status = integrity::check_entity_attestation(
        &mut db_conn,
        keyholder,
        &UserAgentCredentials {
            pubkey: pubkey.clone(),
            nonce,
        },
        id,
    )
    .await
    .map_err(|e| Error::internal("Integrity verification failed", &e))?;
    use integrity::AttestationStatus as AS;
    // SAFETY (policy): challenge auth must work in both vault states.
    // While sealed, integrity checks can only report `Unavailable` because key material is not
    // accessible. While unsealed, the same check can report `Attested`.
    // This path intentionally accepts both outcomes to keep challenge auth available across state
    // transitions; stricter verification is enforced in sensitive post-auth flows.
    match attestation_status {
        AS::Attested | AS::Unavailable => Ok(()),
    }
 }
 async fn create_nonce(
    db: &DatabasePool,
    keyholder: &ActorRef<KeyHolder>,
    pubkey: &AuthPublicKey,
 ) -> Result<i32, Error> {
    let mut db_conn = db
        .get()
        .await
        .map_err(|e| Error::internal("Database unavailable", &e))?;
    let new_nonce = db_conn
        .exclusive_transaction(|conn| {
            Box::pin(async move {
                let (id, new_nonce): (i32, i32) = update(useragent_client::table)
                    .filter(useragent_client::public_key.eq(pubkey.to_stored_bytes()))
                    .filter(useragent_client::key_type.eq(pubkey.key_type()))
                    .set(useragent_client::nonce.eq(useragent_client::nonce + 1))
                    .returning((useragent_client::id, useragent_client::nonce))
                    .get_result(conn)
                    .await
                    .map_err(|e| Error::internal("Database operation failed", &e))?;
                integrity::sign_entity(
                    conn,
                    keyholder,
                    &UserAgentCredentials {
                        pubkey: pubkey.clone(),
                        nonce: new_nonce,
                    },
                    id,
                )
                .await
                .map_err(|e| Error::internal("Database error", &e))?
                .drop_verification_provenance();
                Result::<_, Error>::Ok(new_nonce)
            })
        })
        .await?;
    Ok(new_nonce)
 }
 async fn register_key(
    db: &DatabasePool,
    keyholder: &ActorRef<KeyHolder>,
    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::internal("Database unavailable", &e))?;
    conn.transaction(|conn| {
        Box::pin(async move {
            const NONCE_START: i32 = 1;
            let id: i32 = diesel::insert_into(useragent_client::table)
                .values((
                    useragent_client::public_key.eq(pubkey_bytes),
                    useragent_client::nonce.eq(NONCE_START),
                    useragent_client::key_type.eq(key_type),
                ))
                .returning(useragent_client::id)
                .get_result(conn)
                .await
                .map_err(|e| Error::internal("Database operation failed", &e))?;
            if let Err(e) = integrity::sign_entity(
                conn,
                keyholder,
                &UserAgentCredentials {
                    pubkey: pubkey.clone(),
                    nonce: NONCE_START,
                },
                id,
            )
            .await
            {
                match e {
                    integrity::Error::Keyholder(
                        crate::actors::keyholder::Error::NotBootstrapped,
                    ) => {
                        // IMPORTANT: bootstrap-token auth must work before the vault has a root key.
                        // We intentionally allow creating the DB row first and backfill envelopes
                        // after bootstrap/unseal to keep the bootstrap flow possible.
                    }
                    other => {
                        return Err(Error::internal("Failed to register public key", &other));
                    }
                }
            }
            Result::<_, Error>::Ok(())
        })
    })
    .await?;
    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> {
        verify_integrity(&self.conn.db, &self.conn.actors.key_holder, &pubkey).await?;
        let nonce = create_nonce(&self.conn.db, &self.conn.actors.key_holder, &pubkey).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::internal("Failed to consume bootstrap token", &e))?;
        if !token_ok {
            error!("Invalid bootstrap token provided");
            return Err(Error::InvalidBootstrapToken);
        }
        match token_ok {
            true => {
                register_key(&self.conn.db, &self.conn.actors.key_holder, &pubkey).await?;
                self.transport
                    .send(Ok(Outbound::AuthSuccess))
                    .await
                    .map_err(|_| Error::Transport)?;
                Ok(pubkey)
            }
            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 {
            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()
            }
        };
        match valid {
            true => {
                self.transport
                    .send(Ok(Outbound::AuthSuccess))
                    .await
                    .map_err(|_| Error::Transport)?;
                Ok(key.clone())
            }
            false => {
                self.transport
                    .send(Err(Error::InvalidChallengeSolution))
                    .await
                    .map_err(|_| Error::Transport)?;
                Err(Error::InvalidChallengeSolution)
            }
        }
    }
 }
--- a/server/crates/arbiter-server/src/actors/user_agent/mod.rs
+++ b/server/crates/arbiter-server/src/actors/user_agent/mod.rs
@@ -0,0 +1,120 @@
 use crate::{
    actors::{GlobalActors, client::ClientProfile},
    crypto::integrity::Integrable,
    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),
 }
 #[derive(Debug)]
 pub struct UserAgentCredentials {
    pub pubkey: AuthPublicKey,
    pub nonce: i32,
 }
 impl Integrable for UserAgentCredentials {
    const KIND: &'static str = "useragent_credentials";
 }
 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;
 use crate::crypto::integrity::hashing::Hashable;
 impl Hashable for AuthPublicKey {
    fn hash<H: sha2::Digest>(&self, hasher: &mut H) {
        hasher.update(self.to_stored_bytes());
    }
 }
 impl Hashable for UserAgentCredentials {
    fn hash<H: sha2::Digest>(&self, hasher: &mut H) {
        self.pubkey.hash(hasher);
        self.nonce.hash(hasher);
    }
 }
--- a/server/crates/arbiter-server/src/peers/user_agent/session/mod.rs
+++ b/server/crates/arbiter-server/src/peers/user_agent/session/mod.rs
@@ -1,19 +1,21 @@
 use super::{OutOfBand, UserAgentConnection};
 use crate::{
    actors::{
        flow_coordinator::client_connect_approval::ClientApprovalController,
        useragent_registry::ConnectUseragent,
    },
    peers::client::ClientProfile,
 };
 use arbiter_crypto::authn;
 use arbiter_proto::transport::Sender;
 use kameo::{Actor, actor::ActorRef, messages};
 use std::{borrow::Cow, collections::HashMap};
 use arbiter_proto::transport::Sender;
 use async_trait::async_trait;
 use ed25519_dalek::VerifyingKey;
 use kameo::{Actor, actor::ActorRef, messages};
 use thiserror::Error;
 use tracing::error;
 use crate::actors::{
    client::ClientProfile,
    flow_coordinator::{RegisterUserAgent, client_connect_approval::ClientApprovalController},
    user_agent::{OutOfBand, UserAgentConnection},
 };
 mod state;
 use state::{DummyContext, UserAgentEvents, UserAgentStateMachine};
 #[derive(Debug, Error)]
 pub enum Error {
    #[error("State transition failed")]
@@ -45,27 +47,52 @@ impl Error {
 }
 pub struct PendingClientApproval {
    pubkey: authn::PublicKey,
    controller: ActorRef<ClientApprovalController>,
 }
 pub struct UserAgentSession {
    props: UserAgentConnection,
    state: UserAgentStateMachine<DummyContext>,
    sender: Box<dyn Sender<OutOfBand>>,
-    pending_client_approvals: HashMap<Vec<u8>, PendingClientApproval>,
+    pending_client_approvals: HashMap<VerifyingKey, PendingClientApproval>,
 }
-pub mod handlers;
+pub mod connection;
 impl UserAgentSession {
    pub(crate) fn new(props: UserAgentConnection, sender: Box<dyn Sender<OutOfBand>>) -> Self {
        Self {
            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]
@@ -91,13 +118,8 @@ impl UserAgentSession {
            return;
        }
-        self.pending_client_approvals.insert(
+        self.pending_client_approvals
-            client.pubkey.to_bytes(),
+            .insert(client.pubkey, PendingClientApproval { controller });
            PendingClientApproval {
                pubkey: client.pubkey,
                controller,
            },
        );
    }
 }
@@ -112,17 +134,17 @@ impl Actor for UserAgentSession {
    ) -> Result<Self, Self::Error> {
        args.props
            .actors
-            .useragent_registry
+            .flow_coordinator
-            .ask(ConnectUseragent {
+            .ask(RegisterUserAgent {
                actor: this.clone(),
            })
            .await
            .map_err(|err| {
                error!(
                    ?err,
-                    "Failed to register user agent connection with user agent registry"
+                    "Failed to register user agent connection with flow coordinator"
                );
-                Error::internal("Failed to register user agent connection with user agent registry")
+                Error::internal("Failed to register user agent connection with flow coordinator")
            })?;
        Ok(args)
    }
@@ -136,18 +158,14 @@ impl Actor for UserAgentSession {
        let cancelled_pubkey = self
            .pending_client_approvals
            .iter()
-            .find_map(|(k, v)| (v.controller.id() == id).then_some(k.clone()));
+            .find_map(|(k, v)| (v.controller.id() == id).then_some(*k));
-        if let Some(pubkey_bytes) = cancelled_pubkey {
+        if let Some(pubkey) = cancelled_pubkey {
-            let Some(approval) = self.pending_client_approvals.remove(&pubkey_bytes) else {
+            self.pending_client_approvals.remove(&pubkey);
                return Ok(std::ops::ControlFlow::Continue(()));
            };
            if let Err(e) = self
                .sender
-                .send(OutOfBand::ClientConnectionCancel {
+                .send(OutOfBand::ClientConnectionCancel { pubkey })
                    pubkey: approval.pubkey,
                })
                .await
            {
                error!(
--- a/server/crates/arbiter-server/src/actors/user_agent/session/connection.rs
+++ b/server/crates/arbiter-server/src/actors/user_agent/session/connection.rs
@@ -0,0 +1,592 @@
 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::messages;
 use kameo::prelude::Context;
 use tracing::{error, info};
 use x25519_dalek::{EphemeralSecret, PublicKey};
 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::flow_coordinator::client_connect_approval::ClientApprovalAnswer,
    crypto::integrity::{self, Verified},
 };
 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},
        },
        user_agent::{AuthPublicKey, UserAgentCredentials},
    },
    db::schema::useragent_client,
    safe_cell::SafeCellHandle as _,
 };
 fn is_vault_sealed_from_evm<M>(err: &SendError<M, crate::actors::evm::Error>) -> bool {
    matches!(
        err,
        SendError::HandlerError(crate::actors::evm::Error::Keyholder(
            keyholder::Error::NotBootstrapped
        )) | SendError::HandlerError(crate::actors::evm::Error::Integrity(
            crate::crypto::integrity::Error::Keyholder(keyholder::Error::NotBootstrapped)
        ))
    )
 }
 impl UserAgentSession {
    async fn backfill_useragent_integrity(&self) -> Result<(), Error> {
        let mut conn = self.props.db.get().await?;
        let keyholder = self.props.actors.key_holder.clone();
        conn.transaction(|conn| {
            Box::pin(async move {
                let rows: Vec<(i32, i32, Vec<u8>, crate::db::models::KeyType)> =
                    useragent_client::table
                        .select((
                            useragent_client::id,
                            useragent_client::nonce,
                            useragent_client::public_key,
                            useragent_client::key_type,
                        ))
                        .load(conn)
                        .await?;
                for (id, nonce, public_key, key_type) in rows {
                    let pubkey = AuthPublicKey::try_from((key_type, public_key)).map_err(|e| {
                        Error::internal(format!("Invalid user-agent key in db: {e}"))
                    })?;
                    integrity::sign_entity(
                        conn,
                        &keyholder,
                        &UserAgentCredentials { pubkey, nonce },
                        id,
                    )
                    .await
                    .map_err(|e| {
                        Error::internal(format!("Failed to backfill user-agent integrity: {e}"))
                    })?
                    .drop_verification_provenance();
                }
                Result::<_, Error>::Ok(())
            })
        })
        .await?;
        Ok(())
    }
    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,
 }
 #[derive(Debug, Error)]
 pub enum GrantMutationError {
    #[error("Vault is sealed")]
    VaultSealed,
    #[error("Internal grant mutation 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(_) => {
                self.backfill_useragent_integrity().await?;
                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(_) => {
                self.backfill_useragent_integrity().await?;
                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<(Verified<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>>, GrantMutationError> {
        match self.props.actors.evm.ask(UseragentListGrants {}).await {
            Ok(grants) => Ok(grants),
            Err(err) if is_vault_sealed_from_evm(&err) => Err(GrantMutationError::VaultSealed),
            Err(err) => {
                error!(?err, "EVM grant list failed");
                Err(GrantMutationError::Internal)
            }
        }
    }
    #[message]
    pub(crate) async fn handle_grant_create(
        &mut self,
        basic: crate::evm::policies::SharedGrantSettings,
        grant: crate::evm::policies::SpecificGrant,
    ) -> Result<Verified<i32>, GrantMutationError> {
        match self
            .props
            .actors
            .evm
            .ask(UseragentCreateGrant { basic, grant })
            .await
        {
            Ok(grant_id) => Ok(grant_id),
            Err(err) if is_vault_sealed_from_evm(&err) => Err(GrantMutationError::VaultSealed),
            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: grant_id,
            })
            .await
        {
            Ok(()) => Ok(()),
            Err(err) if is_vault_sealed_from_evm(&err) => Err(GrantMutationError::VaultSealed),
            Err(err) => {
                error!(?err, "EVM grant delete failed");
                Err(GrantMutationError::Internal)
            }
        }
    }
    #[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
@@ -0,0 +1,27 @@
 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
@@ -1,61 +0,0 @@
 use crate::peers::user_agent::UserAgentSession;
 use kameo::{
    Actor,
    actor::{ActorId, ActorRef},
    error::Infallible,
    messages,
    prelude::{ActorStopReason, Context, WeakActorRef},
 };
 use std::{collections::HashMap, ops::ControlFlow};
 use tracing::info;
 #[derive(Default)]
 pub struct UserAgentRegistry {
    connected: HashMap<ActorId, ActorRef<UserAgentSession>>,
 }
 impl Actor for UserAgentRegistry {
    type Args = Self;
    type Error = Infallible;
    async fn on_start(args: Self::Args, _: ActorRef<Self>) -> Result<Self, Self::Error> {
        Ok(args)
    }
    async fn on_link_died(
        &mut self,
        _: WeakActorRef<Self>,
        id: ActorId,
        _: ActorStopReason,
    ) -> Result<ControlFlow<ActorStopReason>, Self::Error> {
        if self.connected.remove(&id).is_some() {
            info!(
                ?id,
                actor = "UserAgentRegistry",
                event = "useragent.disconnected"
            );
        }
        Ok(ControlFlow::Continue(()))
    }
 }
 #[messages]
 impl UserAgentRegistry {
    #[message(ctx)]
    pub async fn connect_useragent(
        &mut self,
        actor: ActorRef<UserAgentSession>,
        ctx: &mut Context<Self, ()>,
    ) {
        info!(id = %actor.id(), actor = "UserAgentRegistry", event = "useragent.connected");
        ctx.actor_ref().link(&actor).await;
        self.connected.insert(actor.id(), actor);
    }
    #[message]
    pub fn get_connected(&self) -> Vec<ActorRef<UserAgentSession>> {
        self.connected.values().cloned().collect()
    }
 }
--- a/server/crates/arbiter-server/src/context/mod.rs
+++ b/server/crates/arbiter-server/src/context/mod.rs
@@ -1,12 +1,13 @@
 use std::sync::Arc;
 use thiserror::Error;
 use crate::{
    actors::GlobalActors,
    context::tls::TlsManager,
    db::{self},
 };
 use std::sync::Arc;
 use thiserror::Error;
 pub mod tls;
 #[derive(Error, Debug)]
--- a/server/crates/arbiter-server/src/context/tls.rs
+++ b/server/crates/arbiter-server/src/context/tls.rs
@@ -1,3 +1,17 @@
 use std::{net::Ipv4Addr, string::FromUtf8Error};
 use diesel::{ExpressionMethods as _, QueryDsl, SelectableHelper as _};
 use diesel_async::{AsyncConnection, RunQueryDsl};
 use pem::Pem;
 use rcgen::{
    BasicConstraints, Certificate, CertificateParams, CertifiedIssuer, DistinguishedName, DnType,
    IsCa, Issuer, KeyPair, KeyUsagePurpose, SanType,
 };
 use rustls::pki_types::pem::PemObject;
 use thiserror::Error;
 use tonic::transport::CertificateDer;
 use crate::db::{
    self,
    models::{NewTlsHistory, TlsHistory},
@@ -7,18 +21,6 @@ use crate::db::{
    },
 };
 use diesel::{ExpressionMethods as _, QueryDsl, SelectableHelper as _};
 use diesel_async::{AsyncConnection, RunQueryDsl};
 use pem::Pem;
 use rcgen::{
    BasicConstraints, Certificate, CertificateParams, CertifiedIssuer, DistinguishedName, DnType,
    IsCa, Issuer, KeyPair, KeyUsagePurpose, SanType,
 };
 use rustls::pki_types::pem::PemObject;
 use std::{net::Ipv4Addr, string::FromUtf8Error};
 use thiserror::Error;
 use tonic::transport::CertificateDer;
 const ENCODE_CONFIG: pem::EncodeConfig = {
    let line_ending = match cfg!(target_family = "windows") {
        true => pem::LineEnding::CRLF,
--- a/server/crates/arbiter-server/src/crypto/encryption/v1.rs
+++ b/server/crates/arbiter-server/src/crypto/encryption/v1.rs
@@ -1,4 +1,5 @@
 use argon2::password_hash::Salt as ArgonSalt;
 use rand::{
    Rng as _, SeedableRng,
    rngs::{StdRng, SysRng},
@@ -58,11 +59,13 @@ mod tests {
    use std::ops::Deref as _;
    use super::*;
-    use crate::crypto::derive_key;
+    use crate::{
-    use arbiter_crypto::safecell::{SafeCell, SafeCellHandle as _};
+        crypto::derive_key,
        safe_cell::{SafeCell, SafeCellHandle as _},
    };
    #[test]
-    fn derive_seal_key_deterministic() {
+    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());
@@ -78,7 +81,7 @@ mod tests {
    }
    #[test]
-    fn successful_derive() {
+    pub fn successful_derive() {
        static PASSWORD: &[u8] = b"password";
        let password = SafeCell::new(PASSWORD.to_vec());
        let salt = generate_salt();
@@ -92,7 +95,7 @@ mod tests {
    #[test]
    // We should fuzz this
-    fn test_nonce_increment() {
+    pub fn test_nonce_increment() {
        let mut nonce = Nonce([0u8; NONCE_LENGTH]);
        nonce.increment();
--- a/server/crates/arbiter-server/src/crypto/integrity/v1.rs
+++ b/server/crates/arbiter-server/src/crypto/integrity/v1.rs
@@ -1,29 +1,44 @@
-use crate::{
+use crate::actors::keyholder;
-    actors::vault::{self, GetState, SignIntegrity, Vault, VerifyIntegrity},
+use hmac::Hmac;
-    db::{
+use sha2::Sha256;
-        self,
+use std::future::Future;
-        models::{IntegrityEnvelope, NewIntegrityEnvelope},
+use std::ops::Deref;
-        schema::integrity_envelope,
+use std::pin::Pin;
    },
 };
 use arbiter_crypto::hashing::Hashable;
 use diesel::{ExpressionMethods as _, QueryDsl, dsl::insert_into, sqlite::Sqlite};
 use diesel_async::{AsyncConnection, RunQueryDsl};
 use hmac::Hmac;
 use kameo::{actor::ActorRef, error::SendError};
-use sha2::{Digest as _, Sha256};
+use sha2::Digest as _;
 pub mod hashing;
 pub mod verified;
 use self::hashing::Hashable;
 use crate::{
    actors::keyholder::{KeyHolder, SignIntegrity, VerifyIntegrity},
    db::{
        self,
        models::{IntegrityEnvelope as IntegrityEnvelopeRow, NewIntegrityEnvelope},
        schema::integrity_envelope,
    },
 };
 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 use self::verified::{Nested, Root, VerificationOrigin, Verified};
 #[derive(Debug, thiserror::Error)]
 pub enum Error {
    #[error("Database error: {0}")]
    Database(#[from] db::DatabaseError),
-    #[error("Vault error: {0}")]
+    #[error("KeyHolder error: {0}")]
-    Vault(#[from] vault::Error),
+    Keyholder(#[from] keyholder::Error),
-    #[error("Vault mailbox error")]
+    #[error("KeyHolder mailbox error")]
-    VaultSend,
+    KeyholderSend,
    #[error("Integrity envelope is missing for entity {entity_kind}")]
    MissingEnvelope { entity_kind: &'static str },
@@ -42,87 +57,105 @@ pub enum Error {
 }
 #[derive(Debug, Clone, Copy, PartialEq, Eq)]
 #[must_use]
 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] {
+impl<T: Integrable> Integrable for &T {
-    let mut hasher = Sha256::new();
+    const KIND: &'static str = T::KIND;
-    payload.hash(&mut hasher);
+    const VERSION: i32 = T::VERSION;
    hasher.finalize().into()
 }
-fn push_len_prefixed(out: &mut Vec<u8>, bytes: &[u8]) {
+#[derive(Debug, Clone)]
-    out.extend_from_slice(&(bytes.len() as u32).to_be_bytes());
+pub struct EntityId(Vec<u8>);
    out.extend_from_slice(bytes);
 }
-fn build_mac_input(
+impl Deref for EntityId {
-    entity_kind: &str,
+    type Target = [u8];
    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 deref(&self) -> &Self::Target {
-    fn into_id(self) -> Vec<u8>;
+        &self.0
 }
 impl IntoId for i32 {
    fn into_id(self) -> Vec<u8> {
        self.to_be_bytes().to_vec()
    }
 }
-impl IntoId for &'_ [u8] {
+impl From<i32> for EntityId {
-    fn into_id(self) -> Vec<u8> {
+    fn from(value: i32) -> Self {
-        self.to_vec()
+        Self(value.to_be_bytes().to_vec())
    }
 }
-pub async fn sign_entity<E: Integrable>(
+impl From<&'_ [u8]> for EntityId {
    fn from(bytes: &'_ [u8]) -> Self {
        Self(bytes.to_vec())
    }
 }
 pub async fn lookup_verified<E, Id, C, F, Fut>(
    conn: &mut C,
    keyholder: &ActorRef<KeyHolder>,
    entity_id: Id,
    load: F,
 ) -> Result<Verified<Entity<E, Id>, Nested<E>>, Error>
 where
    C: AsyncConnection<Backend = Sqlite>,
    E: Integrable,
    Id: Into<EntityId> + Clone,
    F: FnOnce(&mut C) -> Fut,
    Fut: Future<Output = Result<E, db::DatabaseError>>,
 {
    let entity = load(conn).await?;
    verify_entity(conn, keyholder, entity, entity_id).await
 }
 pub async fn lookup_verified_from_query<E, Id, C, F>(
    conn: &mut C,
    keyholder: &ActorRef<KeyHolder>,
    load: F,
 ) -> Result<Verified<Entity<E, Id>, Nested<E>>, Error>
 where
    C: AsyncConnection<Backend = Sqlite> + Send,
    E: Integrable,
    Id: Into<EntityId> + Clone,
    F: for<'a> FnOnce(
        &'a mut C,
    ) -> Pin<
        Box<dyn Future<Output = Result<(Id, E), db::DatabaseError>> + Send + 'a>,
    >,
 {
    let (entity_id, entity) = load(conn).await?;
    verify_entity(conn, keyholder, entity, entity_id).await
 }
 pub async fn sign_entity<E: Integrable, Id: Into<EntityId> + Clone>(
    conn: &mut impl AsyncConnection<Backend = Sqlite>,
-    vault: &ActorRef<Vault>,
+    keyholder: &ActorRef<KeyHolder>,
    entity: &E,
-    entity_id: impl IntoId,
+    as_entity_id: Id,
-) -> Result<(), Error> {
+) -> Result<Verified<Id, Nested<E>>, Error> {
-    let payload_hash = payload_hash(&entity);
+    let payload_hash = payload_hash(entity);
-    let entity_id = entity_id.into_id();
+    let entity_id = as_entity_id.clone().into();
    let mac_input = build_mac_input(E::KIND, &entity_id, E::VERSION, &payload_hash);
-    let (key_version, mac) =
+    let (key_version, mac) = keyholder
        vault
        .ask(SignIntegrity { mac_input })
        .await
        .map_err(|err| match err {
-                kameo::error::SendError::HandlerError(inner) => Error::Vault(inner),
+            kameo::error::SendError::HandlerError(inner) => Error::Keyholder(inner),
-                _ => Error::VaultSend,
+            _ => Error::KeyholderSend,
        })?;
    insert_into(integrity_envelope::table)
        .values(NewIntegrityEnvelope {
            entity_kind: E::KIND.to_owned(),
-            entity_id,
+            entity_id: entity_id.to_vec(),
            payload_version: E::VERSION,
            key_version,
            mac: mac.to_vec(),
@@ -141,19 +174,19 @@ pub async fn sign_entity<E: Integrable>(
        .await
        .map_err(db::DatabaseError::from)?;
-    Ok(())
+    Ok(Verified::<Id, Nested<E>>::new(as_entity_id))
 }
-pub async fn verify_entity<E: Integrable>(
+pub async fn check_entity_attestation<E: Integrable>(
    conn: &mut impl AsyncConnection<Backend = Sqlite>,
-    vault: &ActorRef<Vault>,
+    keyholder: &ActorRef<KeyHolder>,
    entity: &E,
-    entity_id: impl IntoId,
+    entity_id: impl Into<EntityId>,
 ) -> Result<AttestationStatus, Error> {
-    let entity_id = entity_id.into_id();
+    let entity_id = entity_id.into();
-    let envelope: IntegrityEnvelope = integrity_envelope::table
+    let envelope: IntegrityEnvelopeRow = integrity_envelope::table
        .filter(integrity_envelope::entity_kind.eq(E::KIND))
-        .filter(integrity_envelope::entity_id.eq(&entity_id))
+        .filter(integrity_envelope::entity_id.eq(&*entity_id))
        .first(conn)
        .await
        .map_err(|err| match err {
@@ -171,10 +204,10 @@ pub async fn verify_entity<E: Integrable>(
        });
    }
-    let payload_hash = payload_hash(&entity);
+    let payload_hash = payload_hash(entity);
    let mac_input = build_mac_input(E::KIND, &entity_id, envelope.payload_version, &payload_hash);
-    let result = vault
+    let result = keyholder
        .ask(VerifyIntegrity {
            mac_input,
            expected_mac: envelope.mac,
@@ -187,143 +220,100 @@ pub async fn verify_entity<E: Integrable>(
        Ok(false) => Err(Error::MacMismatch {
            entity_kind: E::KIND,
        }),
-        Err(SendError::HandlerError(vault::Error::Sealed)) => Ok(AttestationStatus::Unavailable),
+        Err(SendError::HandlerError(keyholder::Error::NotBootstrapped)) => {
-        Err(_) => Err(Error::VaultSend),
+            Ok(AttestationStatus::Unavailable)
        }
        Err(_) => Err(Error::KeyholderSend),
    }
 }
-pub async fn is_signing_available(vault: &ActorRef<Vault>) -> Result<bool, Error> {
+#[derive(Debug, Clone, crate::VerifiedFields!)]
-    let state = vault.ask(GetState).await.map_err(|_| Error::VaultSend)?;
+#[repr(C)]
-    Ok(matches!(state, vault::VaultState::Unsealed))
+pub struct Entity<E, Id> {
    pub entity: E,
    pub entity_id: Id,
 }
 impl<E, Id> Deref for Entity<E, Id> {
    type Target = E;
    fn deref(&self) -> &Self::Target {
        &self.entity
    }
 }
 pub async fn verify_entity<E: Integrable, Id: Into<EntityId> + Clone>(
    conn: &mut impl AsyncConnection<Backend = Sqlite>,
    keyholder: &ActorRef<KeyHolder>,
    entity: E,
    entity_id: Id,
 ) -> Result<Verified<Entity<E, Id>, Nested<E>>, Error> {
    match check_entity_attestation(conn, keyholder, &entity, entity_id.clone()).await? {
        AttestationStatus::Attested => Ok(Verified::<Entity<E, Id>, Nested<E>>::new(Entity {
            entity,
            entity_id,
        })),
        AttestationStatus::Unavailable => Err(Error::Keyholder(keyholder::Error::NotBootstrapped)),
    }
 }
 pub async fn verify_entity_ref<'e, E: Integrable, Id: Into<EntityId> + Clone>(
    conn: &mut impl AsyncConnection<Backend = Sqlite>,
    keyholder: &ActorRef<KeyHolder>,
    entity: &'e E,
    entity_id: Id,
 ) -> Result<Verified<Entity<&'e E, Id>, Nested<E>>, Error> {
    match check_entity_attestation(conn, keyholder, entity, entity_id.clone()).await? {
        AttestationStatus::Attested => Ok(Verified::<Entity<&'e E, Id>, Nested<E>>::new(Entity {
            entity,
            entity_id,
        })),
        AttestationStatus::Unavailable => Err(Error::Keyholder(keyholder::Error::NotBootstrapped)),
    }
 }
 pub async fn delete_envelope<E: Integrable>(
    conn: &mut impl AsyncConnection<Backend = Sqlite>,
    entity_id: impl Into<EntityId>,
 ) -> Result<usize, Error> {
    let entity_id = entity_id.into();
    let affected = diesel::delete(
        integrity_envelope::table
            .filter(integrity_envelope::entity_kind.eq(E::KIND))
            .filter(integrity_envelope::entity_id.eq(&*entity_id)),
    )
    .execute(conn)
    .await
    .map_err(db::DatabaseError::from)?;
    Ok(affected)
 }
 fn payload_hash(payload: &impl Hashable) -> [u8; 32] {
    let mut hasher = Sha256::new();
    payload.hash(&mut hasher);
    hasher.finalize().into()
 }
 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
 }
 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);
 }
 #[cfg(test)]
-mod tests {
+mod tests;
    use diesel::{ExpressionMethods as _, QueryDsl};
    use diesel_async::RunQueryDsl;
    use kameo::{actor::ActorRef, prelude::Spawn};
    use crate::{
        actors::{
            GlobalActors,
            vault::{Bootstrap, Vault},
        },
        db::{self, schema},
    };
    use arbiter_crypto::safecell::{SafeCell, SafeCellHandle as _};
    use super::{Error, Integrable, sign_entity, verify_entity};
    #[derive(Clone, arbiter_macros::Hashable)]
    struct DummyEntity {
        payload_version: i32,
        payload: Vec<u8>,
    }
    impl Integrable for DummyEntity {
        const KIND: &'static str = "dummy_entity";
    }
    async fn bootstrapped_vault(db: &db::DatabasePool) -> ActorRef<Vault> {
        let actor = Vault::spawn(
            Vault::new(db.clone(), GlobalActors::spawn_message_bus())
                .await
                .unwrap(),
        );
        actor
            .ask(Bootstrap {
                seal_key_raw: SafeCell::new(b"integrity-test-seal-key".to_vec()),
            })
            .await
            .unwrap();
        actor
    }
    #[tokio::test]
    async fn sign_writes_envelope_and_verify_passes() {
        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
@@ -1,18 +1,13 @@
 use hmac::digest::Digest;
 use std::collections::HashSet;
 pub use hmac::digest::Digest;
 /// Deterministically hash a value by feeding its fields into the hasher in a consistent order.
 #[diagnostic::on_unimplemented(
    note = "for local types consider adding `#[derive(arbiter_macros::Hashable)]` to your `{Self}` type",
    note = "for types from other crates check whether the crate offers a `Hashable` implementation"
 )]
 pub trait Hashable {
    fn hash<H: Digest>(&self, hasher: &mut H);
 }
 macro_rules! impl_numeric {
-    ($($t:ty),*) => {
+($($t:ty),*) => {
    $(
        impl Hashable for $t {
            fn hash<H: Digest>(&self, hasher: &mut H) {
@@ -20,7 +15,7 @@ macro_rules! impl_numeric {
            }
        }
    )*
-    };
+};
 }
 impl_numeric!(u8, u16, u32, u64, i8, i16, i32, i64);
--- a/server/crates/arbiter-server/src/crypto/integrity/v1/tests.rs
+++ b/server/crates/arbiter-server/src/crypto/integrity/v1/tests.rs
@@ -0,0 +1,298 @@
 use diesel::{ExpressionMethods as _, QueryDsl};
 use diesel_async::RunQueryDsl;
 use kameo::{actor::ActorRef, prelude::Spawn};
 use sha2::Digest;
 use crate::{
    actors::keyholder::{Bootstrap, KeyHolder},
    db::{self, schema},
    safe_cell::{SafeCell, SafeCellHandle as _},
 };
 use super::hashing::Hashable;
 use super::{
    Error, Integrable, check_entity_attestation, lookup_verified, lookup_verified_from_query,
    sign_entity, verify_entity,
 };
 #[derive(Clone, Debug)]
 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_keyholder(db: &db::DatabasePool) -> ActorRef<KeyHolder> {
    let actor = KeyHolder::spawn(KeyHolder::new(db.clone()).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 keyholder = bootstrapped_keyholder(&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, &keyholder, &entity, ENTITY_ID)
        .await
        .unwrap()
        .drop_verification_provenance();
    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");
    let _ = check_entity_attestation(&mut conn, &keyholder, &entity, ENTITY_ID)
        .await
        .unwrap();
 }
 #[tokio::test]
 async fn tampered_mac_fails_verification() {
    let db = db::create_test_pool().await;
    let keyholder = bootstrapped_keyholder(&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, &keyholder, &entity, ENTITY_ID)
        .await
        .unwrap()
        .drop_verification_provenance();
    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 = check_entity_attestation(&mut conn, &keyholder, &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 keyholder = bootstrapped_keyholder(&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, &keyholder, &entity, ENTITY_ID)
        .await
        .unwrap()
        .drop_verification_provenance();
    let tampered = DummyEntity {
        payload: b"payload-v1-but-tampered".to_vec(),
        ..entity
    };
    let err = check_entity_attestation(&mut conn, &keyholder, &tampered, ENTITY_ID)
        .await
        .unwrap_err();
    assert!(matches!(err, Error::MacMismatch { .. }));
 }
 #[tokio::test]
 async fn strict_verify_fails_closed_while_sealed() {
    let db = db::create_test_pool().await;
    let keyholder = bootstrapped_keyholder(&db).await;
    let mut conn = db.get().await.unwrap();
    const ENTITY_ID: &[u8] = b"entity-id-41";
    let entity = DummyEntity {
        payload_version: 1,
        payload: b"payload-v1".to_vec(),
    };
    sign_entity(&mut conn, &keyholder, &entity, ENTITY_ID)
        .await
        .unwrap()
        .drop_verification_provenance();
    drop(keyholder);
    let sealed_keyholder = KeyHolder::spawn(KeyHolder::new(db.clone()).await.unwrap());
    let err = verify_entity(&mut conn, &sealed_keyholder, &entity, ENTITY_ID)
        .await
        .unwrap_err();
    assert!(matches!(
        err,
        Error::Keyholder(crate::actors::keyholder::Error::NotBootstrapped)
    ));
    let err = lookup_verified(&mut conn, &sealed_keyholder, ENTITY_ID, |_| async {
        Ok::<_, db::DatabaseError>(DummyEntity {
            payload_version: 1,
            payload: b"payload-v1".to_vec(),
        })
    })
    .await
    .unwrap_err();
    assert!(matches!(
        err,
        Error::Keyholder(crate::actors::keyholder::Error::NotBootstrapped)
    ));
 }
 #[tokio::test]
 async fn lookup_verified_supports_loaded_aggregate() {
    let db = db::create_test_pool().await;
    let keyholder = bootstrapped_keyholder(&db).await;
    let mut conn = db.get().await.unwrap();
    const ENTITY_ID: i32 = 77;
    let entity = DummyEntity {
        payload_version: 1,
        payload: b"payload-v1".to_vec(),
    };
    sign_entity(&mut conn, &keyholder, &entity, ENTITY_ID)
        .await
        .unwrap()
        .drop_verification_provenance();
    let verified = lookup_verified(&mut conn, &keyholder, ENTITY_ID, |_| async {
        Ok::<_, db::DatabaseError>(DummyEntity {
            payload_version: 1,
            payload: b"payload-v1".to_vec(),
        })
    })
    .await
    .unwrap();
    assert_eq!(verified.entity.payload, b"payload-v1".to_vec());
 }
 #[tokio::test]
 async fn extension_trait_lookup_verified_required_works() {
    let db = db::create_test_pool().await;
    let keyholder = bootstrapped_keyholder(&db).await;
    let mut conn = db.get().await.unwrap();
    const ENTITY_ID: i32 = 79;
    let entity = DummyEntity {
        payload_version: 1,
        payload: b"payload-v1".to_vec(),
    };
    sign_entity(&mut conn, &keyholder, &entity, ENTITY_ID)
        .await
        .unwrap()
        .drop_verification_provenance();
    let verified = lookup_verified(&mut conn, &keyholder, ENTITY_ID, |_| {
        Box::pin(async {
            Ok::<_, db::DatabaseError>(DummyEntity {
                payload_version: 1,
                payload: b"payload-v1".to_vec(),
            })
        })
    })
    .await
    .unwrap();
    assert_eq!(verified.entity.payload, b"payload-v1".to_vec());
 }
 #[tokio::test]
 async fn lookup_verified_from_query_helpers_work() {
    let db = db::create_test_pool().await;
    let keyholder = bootstrapped_keyholder(&db).await;
    let mut conn = db.get().await.unwrap();
    const ENTITY_ID: i32 = 80;
    let entity = DummyEntity {
        payload_version: 1,
        payload: b"payload-v1".to_vec(),
    };
    sign_entity(&mut conn, &keyholder, &entity, ENTITY_ID)
        .await
        .unwrap()
        .drop_verification_provenance();
    let verified = lookup_verified_from_query(&mut conn, &keyholder, |_| {
        Box::pin(async {
            Ok::<_, db::DatabaseError>((
                ENTITY_ID,
                DummyEntity {
                    payload_version: 1,
                    payload: b"payload-v1".to_vec(),
                },
            ))
        })
    })
    .await
    .unwrap();
    assert_eq!(verified.entity.payload, b"payload-v1".to_vec());
    drop(keyholder);
    let sealed_keyholder = KeyHolder::spawn(KeyHolder::new(db.clone()).await.unwrap());
    let err = lookup_verified_from_query(&mut conn, &sealed_keyholder, |_| {
        Box::pin(async {
            Ok::<_, db::DatabaseError>((
                ENTITY_ID,
                DummyEntity {
                    payload_version: 1,
                    payload: b"payload-v1".to_vec(),
                },
            ))
        })
    })
    .await
    .unwrap_err();
    assert!(matches!(
        err,
        Error::Keyholder(crate::actors::keyholder::Error::NotBootstrapped)
    ));
 }
--- a/server/crates/arbiter-server/src/crypto/integrity/v1/verified.rs
+++ b/server/crates/arbiter-server/src/crypto/integrity/v1/verified.rs
@@ -0,0 +1,593 @@
 use std::ops::Deref;
 use super::Integrable;
 mod private {
    pub trait Sealed {}
 }
 /// Marker trait for type-level verification provenance.
 ///
 /// This trait is intentionally sealed so external code cannot invent arbitrary
 /// provenance tags and bypass the intended type-level guarantees.
 pub trait VerificationOrigin: private::Sealed {
    type Origin: VerificationOrigin;
 }
 /// Root provenance marker for values directly produced by integrity APIs.
 #[derive(Debug, Clone, Copy, PartialEq, Eq, Hash, Default)]
 pub struct Root;
 /// Nested provenance marker carrying the source integrable type and previous
 /// provenance marker in the chain.
 #[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
 pub struct Nested<From, P: VerificationOrigin = Root>(core::marker::PhantomData<(From, P)>);
 impl private::Sealed for Root {}
 impl VerificationOrigin for Root {
    type Origin = Self;
 }
 impl<T, P: VerificationOrigin> private::Sealed for Nested<T, P> {}
 impl<T, P: VerificationOrigin> VerificationOrigin for Nested<T, P> {
    type Origin = P;
 }
 #[derive(Debug, Clone, Copy, PartialEq, Eq)]
 #[repr(transparent)]
 #[must_use = "Verified<T> is a proof-bearing wrapper; use self.drop_verification_provenance() to explicitly discard integrity provenance when needed"]
 pub struct Verified<T, O: VerificationOrigin = Root> {
    inner: T,
    origin: core::marker::PhantomData<O>,
 }
 impl<T, O: VerificationOrigin> AsRef<Verified<T, O>> for Verified<&T, O> {
    fn as_ref(&self) -> &Verified<T, O> {
        // SAFETY: `Verified<T>` is `#[repr(transparent)]` over `T`, so `&T`
        // and `&Verified<T>` have identical layout.
        unsafe { reinterpret_layout_ref::<T, Verified<T, O>>(self.inner) }
    }
 }
 impl<T, U: Integrable, O: VerificationOrigin> Deref for Verified<T, Nested<U, O>> {
    type Target = Verified<T, O::Origin>;
    fn deref(&self) -> &Self::Target {
        // SAFETY: `Verified<T, Nested<U, O>>` is `#[repr(transparent)]` over `T`, so `&Verified<T, Nested<U, O>>`
        // and `&Nested<U, O>` have identical layout.
        unsafe { reinterpret_layout_ref::<Self, Verified<T, O::Origin>>(self) }
    }
 }
 impl<T> Deref for Verified<T, Root> {
    type Target = T;
    fn deref(&self) -> &Self::Target {
        &self.inner
    }
 }
 impl<T, O: VerificationOrigin> Verified<T, O> {
    /// Unwraps the verified value, discarding the integrity provenance.
    ///
    /// The name is intentionally verbose — call sites where provenance is
    /// dropped should be easy to find and audit.
    pub fn drop_verification_provenance(self) -> T {
        self.inner
    }
    /// Downgrades the origin provenance to any lower nestedness level,
    /// e.g. `Verified<T, Nested<Other>>` to `Verified<T, Root>`.
    pub fn unqualify_origin<Target: VerificationOrigin>(self) -> Verified<T, Target>
    where
        O: VerificationOrigin<Origin = Target>,
    {
        Verified {
            inner: self.inner,
            origin: core::marker::PhantomData,
        }
    }
    /// Constructs a `Verified<T>` by wrapping a `T`.
    pub(super) fn new(value: T) -> Self {
        Self {
            inner: value,
            origin: core::marker::PhantomData,
        }
    }
    /// Constructs a `Verified<T>` from a raw value without performing any
    /// integrity check. Only available in test builds; use the integrity
    /// module's functions to obtain a `Verified<T>` in production code.
    #[cfg(test)]
    pub(crate) fn new_unchecked(value: T) -> Self {
        Self {
            inner: value,
            origin: core::marker::PhantomData,
        }
    }
    /// Reinterprets `&T` as `&Verified<T>`.
    #[allow(dead_code)]
    pub(super) fn from_ref(from: &T) -> &Self {
        // SAFETY: `Self` is `#[repr(transparent)]` over `T`.
        unsafe { reinterpret_layout_ref::<T, Self>(from) }
    }
 }
 /// Bit-copies `value: From` into a `To`, suppressing the source destructor so
 /// the destination owns the bytes.
 ///
 /// # Safety
 ///
 /// The caller must guarantee that `From` and `To` have identical in-memory
 /// layout — the raw bytes that encode a valid `From` must also encode a valid
 /// `To`.
 ///
 /// A `union` is used instead of [`std::mem::transmute`] because `transmute`
 /// rejects generic source/destination types at the call site even when their
 /// sizes are provably equal at monomorphization time.
 #[allow(dead_code)]
 #[inline]
 pub const unsafe fn reinterpret_layout<From, To>(value: From) -> To {
    const {
        assert!(
            ::std::mem::size_of::<From>() == ::std::mem::size_of::<To>(),
            "reinterpret_layout: source and destination must have identical size"
        );
        assert!(
            ::std::mem::align_of::<From>() == ::std::mem::align_of::<To>(),
            "reinterpret_layout: source and destination must have identical alignment"
        );
    }
    union Reinterpret<A, B> {
        from: ::std::mem::ManuallyDrop<A>,
        to: ::std::mem::ManuallyDrop<B>,
    }
    // SAFETY: caller guarantees layout equivalence (see fn docs). The union
    // write-read copies the raw bytes of `value` into a `To` slot, and
    // `ManuallyDrop` on the source side suppresses its destructor so the
    // destination owns the bytes unambiguously — no double-drop is possible.
    unsafe {
        ::std::mem::ManuallyDrop::into_inner(
            Reinterpret {
                from: ::std::mem::ManuallyDrop::new(value),
            }
            .to,
        )
    }
 }
 /// Reinterprets `&From` as `&To` via a layout-preserving pointer cast.
 ///
 /// # Safety
 ///
 /// Same invariants as [`reinterpret_layout`].
 #[inline]
 pub const unsafe fn reinterpret_layout_ref<From, To>(value: &From) -> &To {
    const {
        assert!(
            ::std::mem::size_of::<From>() == ::std::mem::size_of::<To>(),
            "reinterpret_layout_ref: source and destination must have identical size"
        );
        assert!(
            ::std::mem::align_of::<From>() == ::std::mem::align_of::<To>(),
            "reinterpret_layout_ref: source and destination must have identical alignment"
        );
    }
    // SAFETY: caller guarantees layout equivalence (see fn docs). A reference
    // cast between identically-laid-out types produces a reference with the
    // same address and lifetime, which is sound.
    unsafe { &*(value as *const From as *const To) }
 }
 /// Implemented on `Verified<T>` by [`VerifiedFields!`], exposing the field-wise counterpart.
 ///
 /// ## Disclaimer
 /// Do not implement this trait manually. It is intended to be implemented only
 /// by the `VerifiedFields!` macro, which generates the necessary layout
 /// guarantees for sound pointer casts.
 ///
 /// ## Soundness
 /// When [`verify_entity`][crate::crypto::integrity::verify_entity] attests an
 /// entity, it returns `Verified<T>` — an aggregate proof over the whole value.
 /// This trait converts that wrapper into `Counterpart` (e.g.
 /// `VerifiedMyStruct`), where every field is individually wrapped in
 /// [`Verified`], allowing verified data to flow into functions that require
 /// `Verified<FieldType>` without re-verifying.
 ///
 /// ## Safety
 /// The conversion is a zero-cost reinterpretation — no copying (beyond a
 /// bitwise move in the owned variant) or HMAC work occurs. Soundness rests on
 /// identical memory layout between `Verified<T>` and `Counterpart`:
 ///
 /// - `T` carries `#[repr(C)]` (enforced by `@require_repr` in the macro).
 /// - `T` does **not** carry `packed` (enforced by `@reject_packed`).
 /// - `Counterpart` also carries `#[repr(C)]`, with the same fields in the same
 ///   order.
 /// - Each `Verified<F>` field is `#[repr(transparent)]` over `F`, so its size
 ///   and alignment match `F` exactly.
 /// - `Verified<T>` itself is `#[repr(transparent)]` over `T`.
 ///
 /// As an additional machine-checked guard, [`reinterpret_layout`] and
 /// [`reinterpret_layout_ref`] assert size/align equality of the two types at
 /// monomorphization time.
 ///
 /// The trait is implemented directly on `Verified<T>` (not on `T`), so no
 /// `Deref`-coercion or auto-ref stripping is needed at call sites — the impl
 /// is unambiguous.
 pub trait VerifiedFieldsAccessor {
    /// The field-wise verified counterpart, e.g. `VerifiedMyStruct`.
    type Counterpart;
    /// Reinterprets `&self` as `&Counterpart` via a layout-preserving pointer cast.
    ///
    /// No data is copied and no re-verification occurs. The returned reference
    /// borrows from `self` and has the same lifetime.
    fn inherit_ref(&self) -> &Self::Counterpart;
    /// Consumes `self` and returns `Counterpart` via a layout-preserving
    /// bitwise move.
    ///
    /// The original `Verified<T>` is moved without running its destructor
    /// (there is none — `Verified` is a transparent wrapper with no heap
    /// allocation), and the returned counterpart owns the original bytes. No
    /// re-verification occurs.
    fn inherit(self) -> Self::Counterpart;
 }
 // todo! rewrite macro_rules to derive crate
 #[macro_export]
 macro_rules! VerifiedFields {
    // --- Entry point (no source generics) ---
    (
        $(#$attr:tt)*
        $vis:vis struct $name:ident
        {
            $(
                $field_vis:vis $field_name:ident : $field_ty:ty
            ),* $(,)?
        }
    ) => {
        // Attribute-list checks run in isolation — they only receive the attrs,
        // not the struct body.
        $crate::VerifiedFields!(@require_repr [$(#$attr)*]);
        $crate::VerifiedFields!(@reject_packed [$(#$attr)*]);
        paste::paste! {
            #[doc = concat!(
                "Field-wise verified counterpart of [`", stringify!($name), "`]."
            )]
            //
            // `#[repr(C)]` is required for the pointer casts in `inherit_ref`
            // and `inherit` to be sound. Both the source struct (enforced by
            // `@require_repr`) and this counterpart carry `#[repr(C)]`, which
            // guarantees matching field offsets. Combined with each
            // `Verified<F>` being `#[repr(transparent)]` over `F`, the two
            // structs have identical memory layout.
            //
            // `#[repr(transparent)]` is not usable here because it only permits
            // a single non-ZST field; multi-field structs would fail to compile.
            #[repr(C)]
            $vis struct [<Verified $name>]<P: $crate::crypto::integrity::v1::verified::VerificationOrigin>
            {
                $(
                    $field_vis $field_name : $crate::crypto::integrity::Verified<$field_ty, P>
                ),*
            }
            impl<P: $crate::crypto::integrity::v1::verified::VerificationOrigin>
                $crate::crypto::integrity::v1::verified::VerifiedFieldsAccessor
                for $crate::crypto::integrity::Verified<$name, P>
            {
                type Counterpart = [<Verified $name>]<P>;
                fn inherit_ref(&self) -> &Self::Counterpart {
                    // SAFETY: `Self` is `Verified<T>` (transparent over
                    // `T #[repr(C)]`) and `Self::Counterpart` is `#[repr(C)]`
                    // with the same fields in the same order, each wrapped in
                    // a `#[repr(transparent)]` `Verified<F>`. The two types
                    // therefore have identical memory layout, which
                    // `reinterpret_layout_ref` re-checks as size/align
                    // equality at monomorphization.
                    unsafe {
                        $crate::crypto::integrity::v1::verified::reinterpret_layout_ref::<
                            Self,
                            Self::Counterpart,
                        >(self)
                    }
                }
                fn inherit(self) -> Self::Counterpart {
                    // SAFETY: identical layout — see `inherit_ref`. The owned
                    // helper additionally suppresses the source destructor so
                    // the returned counterpart owns the original bytes (no
                    // double-drop is possible).
                    unsafe {
                        $crate::crypto::integrity::v1::verified::reinterpret_layout::<
                            Self,
                            Self::Counterpart,
                        >(self)
                    }
                }
            }
        }
    };
    // --- Entry point (source has generics) ---
    (
        $(#$attr:tt)*
        $vis:vis struct $name:ident <$($gen:tt),*>
        {
            $(
                $field_vis:vis $field_name:ident : $field_ty:ty
            ),* $(,)?
        }
    ) => {
        // Attribute-list checks run in isolation — they only receive the attrs,
        // not the struct body.
        $crate::VerifiedFields!(@require_repr [$(#$attr)*]);
        $crate::VerifiedFields!(@reject_packed [$(#$attr)*]);
        paste::paste! {
            #[doc = concat!(
                "Field-wise verified counterpart of [`", stringify!($name), "`]."
            )]
            //
            // `#[repr(C)]` is required for the pointer casts in `inherit_ref`
            // and `inherit` to be sound. Both the source struct (enforced by
            // `@require_repr`) and this counterpart carry `#[repr(C)]`, which
            // guarantees matching field offsets. Combined with each
            // `Verified<F>` being `#[repr(transparent)]` over `F`, the two
            // structs have identical memory layout.
            //
            // `#[repr(transparent)]` is not usable here because it only permits
            // a single non-ZST field; multi-field structs would fail to compile.
            #[repr(C)]
            $vis struct [<Verified $name>]<$($gen),*, P: $crate::crypto::integrity::v1::verified::VerificationOrigin>
            {
                $(
                    $field_vis $field_name : $crate::crypto::integrity::Verified<$field_ty, P>
                ),*
            }
            impl<$($gen),*, P: $crate::crypto::integrity::v1::verified::VerificationOrigin>
                $crate::crypto::integrity::v1::verified::VerifiedFieldsAccessor
                for $crate::crypto::integrity::Verified<$name<$($gen),*>, P>
            {
                type Counterpart = [<Verified $name>]<$($gen),*, P>;
                fn inherit_ref(&self) -> &Self::Counterpart {
                    // SAFETY: `Self` is `Verified<T>` (transparent over
                    // `T #[repr(C)]`) and `Self::Counterpart` is `#[repr(C)]`
                    // with the same fields in the same order, each wrapped in
                    // a `#[repr(transparent)]` `Verified<F>`. The two types
                    // therefore have identical memory layout, which
                    // `reinterpret_layout_ref` re-checks as size/align
                    // equality at monomorphization.
                    unsafe {
                        $crate::crypto::integrity::v1::verified::reinterpret_layout_ref::<
                            Self,
                            Self::Counterpart,
                        >(self)
                    }
                }
                fn inherit(self) -> Self::Counterpart {
                    // SAFETY: identical layout — see `inherit_ref`. The owned
                    // helper additionally suppresses the source destructor so
                    // the returned counterpart owns the original bytes (no
                    // double-drop is possible).
                    unsafe {
                        $crate::crypto::integrity::v1::verified::reinterpret_layout::<
                            Self,
                            Self::Counterpart,
                        >(self)
                    }
                }
            }
        }
    };
    // --- @require_repr: ensure `#[repr(C)]` appears in the attribute list ---
    (@require_repr [#[repr(C)] $($rest:tt)*]) => {};
    (@require_repr [#$other:tt $($rest:tt)*]) => {
        $crate::VerifiedFields!(@require_repr [$($rest)*]);
    };
    (@require_repr []) => {
        ::std::compile_error!(
            "VerifiedFields requires `#[repr(C)]` on the struct to guarantee field layout"
        );
    };
    // --- @reject_packed: walk attrs and reject any `#[repr(..., packed, ...)]`.
    //
    // Without this, a packed struct would still fail at monomorphization via
    // the const assertions inside the `reinterpret_layout*` helpers, but the
    // diagnostic would be much harder to read. `align(N)` is *not* rejected
    // here because const assertions catch alignment mismatches cleanly, and
    // forbidding it would be unnecessarily restrictive.
    (@reject_packed [#[repr($($inner:tt)*)] $($rest:tt)*]) => {
        $crate::VerifiedFields!(@reject_packed_inner [$($inner)*]);
        $crate::VerifiedFields!(@reject_packed [$($rest)*]);
    };
    (@reject_packed [#$other:tt $($rest:tt)*]) => {
        $crate::VerifiedFields!(@reject_packed [$($rest)*]);
    };
    (@reject_packed []) => {};
    (@reject_packed_inner [packed $($rest:tt)*]) => {
        ::std::compile_error!(
            "VerifiedFields does not support packed layouts; the generated \
             counterpart would not share layout with the source struct"
        );
    };
    (@reject_packed_inner [$first:tt $($rest:tt)*]) => {
        $crate::VerifiedFields!(@reject_packed_inner [$($rest)*]);
    };
    (@reject_packed_inner []) => {};
 }
 #[cfg(test)]
 mod tests {
    use super::*;
    #[derive(VerifiedFields!)]
    #[repr(C)]
    #[derive(Default, Clone)]
    pub struct MyStruct<T> {
        pub field1: String,
        pub field2: T,
    }
    fn verify<T>(t: T) -> Verified<T> {
        Verified {
            inner: t,
            origin: core::marker::PhantomData,
        }
    }
    // --- inherit_ref ---
    // Verifies that `inherit_ref` returns a reference to the same memory
    // address, confirming that no copy is made and the cast is purely a
    // reinterpretation.
    #[test]
    fn inherit_ref_is_same_address() {
        let v = verify(MyStruct {
            field1: "hello".into(),
            field2: 42u32,
        });
        let fields = v.inherit_ref();
        assert_eq!(
            &v as *const _ as *const u8, fields as *const _ as *const u8,
            "inherit_ref must return a pointer to the same memory, not a copy"
        );
    }
    // Verifies that field values are correctly accessible after `inherit_ref`.
    #[test]
    fn inherit_ref_field_values() {
        let v = verify(MyStruct {
            field1: "hello".into(),
            field2: 99u32,
        });
        let fields = v.inherit_ref();
        assert_eq!(*fields.field1, "hello");
        assert_eq!(*fields.field2, 99u32);
    }
    // Verifies that casting the counterpart back to `Verified<T>` via a raw
    // pointer lands on the original address — confirms the round-trip is a
    // pure reinterpretation.
    #[test]
    fn inherit_ref_cast_roundtrip() {
        let v = verify(MyStruct {
            field1: "x".into(),
            field2: 7u32,
        });
        let fields: &VerifiedMyStruct<u32, Root> = v.inherit_ref();
        let back_ptr =
            fields as *const VerifiedMyStruct<u32, Root> as *const Verified<MyStruct<u32>>;
        assert_eq!(
            back_ptr as *const u8, &v as *const _ as *const u8,
            "cast of counterpart must point back to the same Verified<T>"
        );
    }
    // ZST fields must still produce a counterpart with identical layout — the
    // const asserts in `reinterpret_layout_ref` guard this at monomorphization.
    #[test]
    fn inherit_ref_with_zst_field() {
        #[derive(VerifiedFields!)]
        #[repr(C)]
        struct WithZst {
            pub unit: (),
            pub val: u64,
        }
        let v = Verified::<WithZst>::new_unchecked(WithZst { unit: (), val: 777 });
        let fields = v.inherit_ref();
        assert_eq!(*fields.val, 777);
        assert_eq!(*fields.unit, ());
    }
    // --- inherit ---
    // Verifies that `inherit` preserves field values in the owned counterpart.
    #[test]
    fn inherit_field_values() {
        let v = verify(MyStruct {
            field1: "world".into(),
            field2: 1234u64,
        });
        let VerifiedMyStruct { field1, field2 } = v.inherit();
        assert_eq!(*field1, "world");
        assert_eq!(*field2, 1234u64);
    }
    // Verifies that `inherit` does not double-drop the inner value.
    // If `ManuallyDrop` handling is wrong, running under Miri or with a drop
    // counter catches a double-free.
    #[test]
    fn inherit_no_double_drop() {
        use std::sync::atomic::{AtomicUsize, Ordering};
        static DROP_COUNT: AtomicUsize = AtomicUsize::new(0);
        struct DropCounter;
        impl Drop for DropCounter {
            fn drop(&mut self) {
                DROP_COUNT.fetch_add(1, Ordering::Relaxed);
            }
        }
        #[derive(VerifiedFields!)]
        #[repr(C)]
        struct WithDrop {
            pub val: DropCounter,
        }
        DROP_COUNT.store(0, Ordering::Relaxed);
        {
            let v = Verified::<WithDrop>::new_unchecked(WithDrop { val: DropCounter });
            let _ = v.inherit();
        }
        assert_eq!(
            DROP_COUNT.load(Ordering::Relaxed),
            1,
            "DropCounter must be dropped exactly once"
        );
    }
    // --- Verified::from_ref ---
    #[test]
    fn from_ref_is_same_address() {
        let val = 42u32;
        let verified: &Verified<u32> = Verified::from_ref(&val);
        assert_eq!(
            &val as *const u32 as *const u8, verified as *const _ as *const u8,
            "from_ref must alias the original reference, not copy the value"
        );
    }
    #[test]
    fn from_ref_value_preserved() {
        let val = String::from("test");
        let verified: &Verified<String> = Verified::from_ref(&val);
        assert_eq!(**verified, "test");
    }
    // --- AsRef<Verified<T>> for Verified<&T> ---
    #[test]
    fn verified_ref_as_ref_is_same_address() {
        let val = 99u32;
        let vref: Verified<&u32> = Verified::new_unchecked(&val);
        let v: &Verified<u32> = vref.as_ref();
        assert_eq!(
            &val as *const u32 as *const u8, v as *const _ as *const u8,
            "AsRef<Verified<T>> for Verified<&T> must alias the referent, not copy it"
        );
    }
 }
--- a/server/crates/arbiter-server/src/crypto/mod.rs
+++ b/server/crates/arbiter-server/src/crypto/mod.rs
@@ -1,5 +1,4 @@
-use arbiter_crypto::safecell::{SafeCell, SafeCellHandle as _};
+use std::ops::Deref as _;
 use encryption::v1::{Nonce, Salt};
 use argon2::{Algorithm, Argon2};
 use chacha20poly1305::{
@@ -10,11 +9,14 @@ use rand::{
    Rng as _, SeedableRng as _,
    rngs::{StdRng, SysRng},
 };
-use std::ops::Deref as _;
+
 use crate::safe_cell::{SafeCell, SafeCellHandle as _};
 pub mod encryption;
 pub mod integrity;
 use encryption::v1::{Nonce, Salt};
 pub struct KeyCell(pub SafeCell<Key>);
 impl From<SafeCell<Key>> for KeyCell {
    fn from(value: SafeCell<Key>) -> Self {
@@ -139,10 +141,10 @@ mod tests {
        derive_key,
        encryption::v1::{Nonce, generate_salt},
    };
-    use arbiter_crypto::safecell::{SafeCell, SafeCellHandle as _};
+    use crate::safe_cell::{SafeCell, SafeCellHandle as _};
    #[test]
-    fn encrypt_decrypt() {
+    pub fn encrypt_decrypt() {
        static PASSWORD: &[u8] = b"password";
        let password = SafeCell::new(PASSWORD.to_vec());
        let salt = generate_salt();
--- a/server/crates/arbiter-server/src/db/mod.rs
+++ b/server/crates/arbiter-server/src/db/mod.rs
@@ -5,6 +5,7 @@ use diesel_async::{
    sync_connection_wrapper::SyncConnectionWrapper,
 };
 use diesel_migrations::{EmbeddedMigrations, MigrationHarness, embed_migrations};
 use thiserror::Error;
 use tracing::info;
--- a/server/crates/arbiter-server/src/db/models.rs
+++ b/server/crates/arbiter-server/src/db/models.rs
@@ -1,12 +1,12 @@
 #![allow(unused)]
 #![allow(clippy::all)]
 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,
    integrity_envelope, root_key_history, tls_history,
 };
 use chrono::{DateTime, Utc};
 use diesel::{prelude::*, sqlite::Sqlite};
 use restructed::Models;
@@ -72,6 +72,40 @@ 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::*;
@@ -195,6 +229,7 @@ pub struct ProgramClientMetadataHistory {
 #[diesel(table_name = schema::program_client, check_for_backend(Sqlite))]
 pub struct ProgramClient {
    pub id: i32,
    pub nonce: i32,
    pub public_key: Vec<u8>,
    pub metadata_id: i32,
    pub created_at: SqliteTimestamp,
@@ -205,9 +240,11 @@ pub struct ProgramClient {
 #[diesel(table_name = schema::useragent_client, check_for_backend(Sqlite))]
 pub struct UseragentClient {
    pub id: i32,
    pub nonce: i32,
    pub public_key: Vec<u8>,
    pub created_at: SqliteTimestamp,
    pub updated_at: SqliteTimestamp,
    pub key_type: KeyType,
 }
 #[derive(Models, Queryable, Debug, Insertable, Selectable)]
--- a/server/crates/arbiter-server/src/db/schema.rs
+++ b/server/crates/arbiter-server/src/db/schema.rs
@@ -155,6 +155,7 @@ diesel::table! {
 diesel::table! {
    program_client (id) {
        id -> Integer,
        nonce -> Integer,
        public_key -> Binary,
        metadata_id -> Integer,
        created_at -> Integer,
@@ -188,7 +189,9 @@ diesel::table! {
 diesel::table! {
    useragent_client (id) {
        id -> Integer,
        nonce -> Integer,
        public_key -> Binary,
        key_type -> Integer,
        created_at -> Integer,
        updated_at -> Integer,
    }
--- a/server/crates/arbiter-server/src/evm/mod.rs
+++ b/server/crates/arbiter-server/src/evm/mod.rs
@@ -1,6 +1,18 @@
 pub mod abi;
 pub mod safe_signer;
 use alloy::{
    consensus::TxEip1559,
    primitives::{TxKind, U256},
 };
 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,
+    actors::keyholder::KeyHolder,
-    crypto::integrity,
+    crypto::integrity::{self, Verified, VerifiedEntity, verified::VerifiedFieldsAccessor},
    db::{
        self, DatabaseError,
        models::{
@@ -15,18 +27,6 @@ use crate::{
    },
 };
 use alloy::{
    consensus::TxEip1559,
    primitives::{TxKind, U256},
 };
 use chrono::Utc;
 use diesel::{ExpressionMethods as _, QueryDsl as _, QueryResult, insert_into, sqlite::Sqlite};
 use diesel_async::{AsyncConnection, RunQueryDsl};
 use kameo::actor::ActorRef;
 pub mod abi;
 pub mod safe_signer;
 pub mod policies;
 mod utils;
@@ -138,7 +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>,
+    keyholder: ActorRef<KeyHolder>,
 }
 impl Engine {
@@ -153,12 +153,39 @@ impl Engine {
    {
        let mut conn = self.db.get().await.map_err(DatabaseError::from)?;
-        let grant = P::try_find_grant(&context, &mut conn)
+        let verified_settings =
            match integrity::lookup_verified_from_query(&mut conn, &self.keyholder, |conn| {
                let context = context.clone();
                Box::pin(async move {
                    let grant = P::try_find_grant(&context, conn)
                        .await
                        .map_err(DatabaseError::from)?
                        .ok_or_else(|| DatabaseError::from(diesel::result::Error::NotFound))?;
                    Ok::<_, DatabaseError>((grant.common_settings_id, grant.settings))
                })
            })
            .await
            {
                Ok(verified) => verified,
                Err(integrity::Error::Database(DatabaseError::Connection(
                    diesel::result::Error::NotFound,
                ))) => return Err(PolicyError::NoMatchingGrant),
                Err(err) => return Err(PolicyError::Integrity(err)),
            };
        let mut grant = P::try_find_grant(&context, &mut conn)
            .await
            .map_err(DatabaseError::from)?
            .ok_or(PolicyError::NoMatchingGrant)?;
-        integrity::verify_entity(&mut conn, &self.vault, &grant.settings, grant.id).await?;
+        // IMPORTANT: policy evaluation uses extra non-integrity fields from Grant
        // (e.g., per-policy ids), so we currently reload Grant after the query-native
        // integrity check over canonicalized settings.
        grant.settings = verified_settings
            .inherit()
            .entity
            .drop_verification_provenance();
        let mut violations = check_shared_constraints(
            &context,
@@ -207,19 +234,19 @@ impl Engine {
 }
 impl Engine {
-    pub fn new(db: db::DatabasePool, vault: ActorRef<Vault>) -> Self {
+    pub fn new(db: db::DatabasePool, keyholder: ActorRef<KeyHolder>) -> Self {
-        Self { db, vault }
+        Self { db, keyholder }
    }
    pub async fn create_grant<P: Policy>(
        &self,
        full_grant: CombinedSettings<P::Settings>,
-    ) -> Result<i32, DatabaseError>
+    ) -> Result<Verified<i32>, DatabaseError>
    where
        P::Settings: Clone,
    {
        let mut conn = self.db.get().await?;
-        let vault = self.vault.clone();
+        let keyholder = self.keyholder.clone();
        let id = conn
            .transaction(|conn| {
@@ -258,22 +285,23 @@ impl Engine {
                    P::create_grant(&basic_grant, &full_grant.specific, conn).await?;
-                    integrity::sign_entity(conn, &vault, &full_grant, basic_grant.id)
+                    let verified_entity_id =
                        integrity::sign_entity(conn, &keyholder, &full_grant, basic_grant.id)
                            .await
                            .map_err(|_| diesel::result::Error::RollbackTransaction)?;
-                    QueryResult::Ok(basic_grant.id)
+                    QueryResult::Ok(verified_entity_id)
                })
            })
            .await?;
-        Ok(id)
+        Ok(id.unqualify_origin())
    }
    async fn list_one_kind<Kind: Policy, Y>(
        &self,
        conn: &mut impl AsyncConnection<Backend = Sqlite>,
-    ) -> Result<impl Iterator<Item = Grant<Y>>, ListError>
+    ) -> Result<Vec<Grant<Y>>, ListError>
    where
        Y: From<Kind::Settings>,
    {
@@ -281,16 +309,32 @@ impl Engine {
            .await
            .map_err(DatabaseError::from)?;
-        // Verify integrity of all grants before returning any results
+        let mut verified_grants = Vec::with_capacity(all_grants.len());
-        for grant in &all_grants {
+
-            integrity::verify_entity(conn, &self.vault, &grant.settings, grant.id).await?;
+        // Verify integrity of all grants before returning any results.
        for grant in all_grants {
            let VerifiedEntity {
                entity: verified_settings,
                entity_id: _,
            } = integrity::verify_entity(
                conn,
                &self.keyholder,
                grant.settings,
                grant.common_settings_id,
            )
            .await?
            .inherit();
            verified_grants.push(Grant {
                id: grant.id,
                common_settings_id: grant.common_settings_id,
                settings: verified_settings
                    .drop_verification_provenance()
                    .generalize(),
            });
        }
-        Ok(all_grants.into_iter().map(|g| Grant {
+        Ok(verified_grants)
            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> {
--- a/server/crates/arbiter-server/src/evm/policies.rs
+++ b/server/crates/arbiter-server/src/evm/policies.rs
@@ -1,8 +1,4 @@
-use crate::{
+use std::fmt::Display;
    crypto::integrity::v1::Integrable,
    db::models::{self, EvmBasicGrant, EvmWalletAccess},
    evm::utils,
 };
 use alloy::primitives::{Address, Bytes, ChainId, U256};
 use chrono::{DateTime, Duration, Utc};
@@ -10,9 +6,15 @@ use diesel::{
    ExpressionMethods as _, QueryDsl, SelectableHelper, result::QueryResult, sqlite::Sqlite,
 };
 use diesel_async::{AsyncConnection, RunQueryDsl};
-use std::fmt::Display;
+
 use thiserror::Error;
 use crate::{
    crypto::integrity::v1::Integrable,
    db::models::{self, EvmBasicGrant, EvmWalletAccess},
    evm::utils,
 };
 pub mod ether_transfer;
 pub mod token_transfers;
@@ -125,19 +127,19 @@ pub enum SpecificMeaning {
    TokenTransfer(token_transfers::Meaning),
 }
-#[derive(Clone, Debug, PartialEq, Eq, Hash, PartialOrd, Ord, arbiter_macros::Hashable)]
+#[derive(Clone, Debug, PartialEq, Eq, Hash, PartialOrd, Ord)]
 pub struct TransactionRateLimit {
    pub count: u32,
    pub window: Duration,
 }
-#[derive(Clone, Debug, PartialEq, Eq, Hash, PartialOrd, Ord, arbiter_macros::Hashable)]
+#[derive(Clone, Debug, PartialEq, Eq, Hash, PartialOrd, Ord)]
 pub struct VolumeRateLimit {
    pub max_volume: U256,
    pub window: Duration,
 }
-#[derive(Clone, Debug, PartialEq, Eq, Hash, arbiter_macros::Hashable)]
+#[derive(Clone, Debug, PartialEq, Eq, Hash)]
 pub struct SharedGrantSettings {
    pub wallet_access_id: i32,
    pub chain: ChainId,
@@ -198,7 +200,7 @@ pub enum SpecificGrant {
    TokenTransfer(token_transfers::Settings),
 }
-#[derive(Debug, arbiter_macros::Hashable)]
+#[derive(Debug, Clone)]
 pub struct CombinedSettings<PolicyGrant> {
    pub shared: SharedGrantSettings,
    pub specific: PolicyGrant,
@@ -217,3 +219,38 @@ 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
@@ -1,33 +1,30 @@
-use super::{DatabaseID, EvalContext, EvalViolation};
+use std::collections::HashMap;
-use crate::{
+use std::fmt::Display;
-    crypto::integrity::v1::Integrable,
+
-    db::models::{
+use alloy::primitives::{Address, U256};
 use chrono::{DateTime, Duration, Utc};
 use diesel::dsl::{auto_type, insert_into};
 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,
-    },
+};
-    db::schema::{evm_basic_grant, evm_ether_transfer_limit, evm_transaction_log},
+use crate::db::schema::{evm_basic_grant, evm_ether_transfer_limit, evm_transaction_log};
 use crate::evm::policies::{
    CombinedSettings, Grant, SharedGrantSettings, SpecificGrant, SpecificMeaning, VolumeRateLimit,
 };
 use crate::{
    db::{
        models::{self, NewEvmEtherTransferGrant, NewEvmEtherTransferGrantTarget},
        schema::{evm_ether_transfer_grant, evm_ether_transfer_grant_target},
    },
    evm::policies::{
        CombinedSettings, Grant, SharedGrantSettings, SpecificGrant, SpecificMeaning,
        VolumeRateLimit,
    },
    evm::{policies::Policy, utils},
 };
 use alloy::primitives::{Address, U256};
 use chrono::{DateTime, Duration, Utc};
 use diesel::{
    ExpressionMethods, JoinOnDsl,
    dsl::{auto_type, insert_into},
    prelude::*,
    sqlite::Sqlite,
 };
 use diesel_async::{AsyncConnection, RunQueryDsl};
 use std::{collections::HashMap, fmt::Display};
 #[auto_type]
 fn grant_join() -> _ {
    evm_ether_transfer_grant::table.inner_join(
@@ -35,6 +32,8 @@ fn grant_join() -> _ {
    )
 }
 use super::{DatabaseID, EvalContext, EvalViolation};
 // Plain ether transfer
 #[derive(Clone, Debug, PartialEq, Eq, Hash)]
 pub struct Meaning {
@@ -53,7 +52,7 @@ impl From<Meaning> for SpecificMeaning {
 }
 // A grant for ether transfers, which can be scoped to specific target addresses and volume limits
-#[derive(Debug, Clone, arbiter_macros::Hashable)]
+#[derive(Debug, Clone)]
 pub struct Settings {
    pub target: Vec<Address>,
    pub limit: VolumeRateLimit,
@@ -62,6 +61,15 @@ 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 {
        SpecificGrant::EtherTransfer(val)
@@ -102,7 +110,8 @@ async fn check_rate_limits(
    let mut violations = Vec::new();
    let window = grant.settings.specific.limit.window;
-    let past_transaction = query_relevant_past_transaction(grant.id, window, db).await?;
+    let past_transaction =
        query_relevant_past_transaction(grant.common_settings_id, window, db).await?;
    let window_start = chrono::Utc::now() - grant.settings.specific.limit.window;
    let prospective_cumulative_volume: U256 = past_transaction
@@ -241,21 +250,20 @@ impl Policy for EtherTransfer {
            })
            .collect();
        let settings = Settings {
            target: targets,
            limit: VolumeRateLimit {
                max_volume: utils::try_bytes_to_u256(&limit.max_volume)
                    .map_err(|err| diesel::result::Error::DeserializationError(Box::new(err)))?,
                window: chrono::Duration::seconds(limit.window_secs as i64),
            },
        };
        Ok(Some(Grant {
            id: grant.id,
            common_settings_id: grant.basic_grant_id,
            settings: CombinedSettings {
                shared: SharedGrantSettings::try_from_model(basic_grant)?,
-                specific: settings,
+                specific: Settings {
                    target: targets,
                    limit: VolumeRateLimit {
                        max_volume: utils::try_bytes_to_u256(&limit.max_volume).map_err(|err| {
                            diesel::result::Error::DeserializationError(Box::new(err))
                        })?,
                        window: chrono::Duration::seconds(limit.window_secs as i64),
                    },
                },
            },
        }))
    }
--- a/server/crates/arbiter-server/src/evm/policies/ether_transfer/tests.rs
+++ b/server/crates/arbiter-server/src/evm/policies/ether_transfer/tests.rs
@@ -1,25 +1,24 @@
-use super::{EtherTransfer, Settings};
+use alloy::primitives::{Address, Bytes, U256, address};
-use crate::{
+use chrono::{Duration, Utc};
-    db::{
+use diesel::{SelectableHelper, insert_into};
 use diesel_async::RunQueryDsl;
 use crate::db::{
    self, DatabaseConnection,
    models::{
        EvmBasicGrant, EvmWalletAccess, NewEvmBasicGrant, NewEvmTransactionLog, SqliteTimestamp,
    },
    schema::{evm_basic_grant, evm_transaction_log},
-    },
+};
-    evm::{
+use crate::evm::{
    policies::{
        CombinedSettings, EvalContext, EvalViolation, Grant, Policy, SharedGrantSettings,
        VolumeRateLimit,
    },
    utils,
    },
 };
-use alloy::primitives::{Address, Bytes, U256, address};
+use super::{EtherTransfer, Settings};
 use chrono::{Duration, Utc};
 use diesel::{SelectableHelper, insert_into};
 use diesel_async::RunQueryDsl;
 const WALLET_ACCESS_ID: i32 = 1;
 const CHAIN_ID: u64 = 1;
@@ -341,7 +340,7 @@ proptest::proptest! {
    ) {
        use rand::{SeedableRng, seq::SliceRandom};
        use sha2::Digest;
-        use arbiter_crypto::hashing::Hashable;
+        use crate::crypto::integrity::hashing::Hashable;
        let addrs: Vec<Address> = raw_addrs.iter().map(|b| Address::from(*b)).collect();
        let mut shuffled = addrs.clone();
--- a/server/crates/arbiter-server/src/evm/policies/token_transfers/mod.rs
+++ b/server/crates/arbiter-server/src/evm/policies/token_transfers/mod.rs
@@ -1,4 +1,16 @@
-use super::{DatabaseID, EvalContext, EvalViolation};
+use std::collections::HashMap;
 use crate::db::schema::{
    evm_basic_grant, evm_token_transfer_grant, evm_token_transfer_log,
    evm_token_transfer_volume_limit,
 };
 use crate::evm::{
    abi::IERC20::transferCall,
    policies::{
        Grant, Policy, SharedGrantSettings, SpecificGrant, SpecificMeaning, VolumeRateLimit,
    },
    utils,
 };
 use crate::{
    crypto::integrity::Integrable,
    db::models::{
@@ -6,34 +18,20 @@ use crate::{
        NewEvmTokenTransferGrant, NewEvmTokenTransferLog, NewEvmTokenTransferVolumeLimit,
        SqliteTimestamp,
    },
    db::schema::{
        evm_basic_grant, evm_token_transfer_grant, evm_token_transfer_log,
        evm_token_transfer_volume_limit,
    },
    evm::policies::CombinedSettings,
    evm::{
        abi::IERC20::transferCall,
        policies::{
            Grant, Policy, SharedGrantSettings, SpecificGrant, SpecificMeaning, VolumeRateLimit,
        },
        utils,
    },
 };
 use arbiter_tokens_registry::evm::nonfungible::{self, TokenInfo};
 use alloy::{
    primitives::{Address, U256},
    sol_types::SolCall,
 };
 use arbiter_tokens_registry::evm::nonfungible::{self, TokenInfo};
 use chrono::{DateTime, Duration, Utc};
-use diesel::{
+use diesel::dsl::{auto_type, insert_into};
-    ExpressionMethods,
+use diesel::sqlite::Sqlite;
-    dsl::{auto_type, insert_into},
+use diesel::{ExpressionMethods, prelude::*};
    prelude::*,
    sqlite::Sqlite,
 };
 use diesel_async::{AsyncConnection, RunQueryDsl};
-use std::collections::HashMap;
+
 use super::{DatabaseID, EvalContext, EvalViolation};
 #[auto_type]
 fn grant_join() -> _ {
@@ -64,7 +62,7 @@ impl From<Meaning> for SpecificMeaning {
 }
 // A grant for token transfers, which can be scoped to specific target addresses and volume limits
-#[derive(Debug, Clone, arbiter_macros::Hashable)]
+#[derive(Debug, Clone)]
 pub struct Settings {
    pub token_contract: Address,
    pub target: Option<Address>,
@@ -74,6 +72,16 @@ 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)
@@ -278,18 +286,16 @@ impl Policy for TokenTransfer {
            }
        };
        let settings = Settings {
            token_contract: Address::from(token_contract),
            target,
            volume_limits,
        };
        Ok(Some(Grant {
            id: token_grant.id,
            common_settings_id: token_grant.basic_grant_id,
            settings: CombinedSettings {
                shared: SharedGrantSettings::try_from_model(basic_grant)?,
-                specific: settings,
+                specific: Settings {
                    token_contract: Address::from(token_contract),
                    target,
                    volume_limits,
                },
            },
        }))
    }
--- a/server/crates/arbiter-server/src/evm/policies/token_transfers/tests.rs
+++ b/server/crates/arbiter-server/src/evm/policies/token_transfers/tests.rs
@@ -1,27 +1,24 @@
-use super::{Settings, TokenTransfer};
+use alloy::primitives::{Address, Bytes, U256, address};
-use crate::{
+use alloy::sol_types::SolCall;
-    db::{
+use chrono::{Duration, Utc};
 use diesel::{SelectableHelper, insert_into};
 use diesel_async::RunQueryDsl;
 use crate::db::{
    self, DatabaseConnection,
    models::{EvmBasicGrant, EvmWalletAccess, NewEvmBasicGrant, SqliteTimestamp},
    schema::evm_basic_grant,
-    },
+};
-    evm::{
+use crate::evm::{
    abi::IERC20::transferCall,
    policies::{
        CombinedSettings, EvalContext, EvalViolation, Grant, Policy, SharedGrantSettings,
        VolumeRateLimit,
    },
    utils,
    },
 };
-use alloy::{
+use super::{Settings, TokenTransfer};
    primitives::{Address, Bytes, U256, address},
    sol_types::SolCall,
 };
 use chrono::{Duration, Utc};
 use diesel::{SelectableHelper, insert_into};
 use diesel_async::RunQueryDsl;
 // DAI on Ethereum mainnet — present in the static token registry
 const CHAIN_ID: u64 = 1;
@@ -422,7 +419,7 @@ proptest::proptest! {
    ) {
        use rand::{SeedableRng, seq::SliceRandom};
        use sha2::Digest;
-        use arbiter_crypto::hashing::Hashable;
+        use crate::crypto::integrity::hashing::Hashable;
        let limits: Vec<VolumeRateLimit> = raw_limits
            .iter()
--- a/server/crates/arbiter-server/src/evm/safe_signer.rs
+++ b/server/crates/arbiter-server/src/evm/safe_signer.rs
@@ -1,5 +1,6 @@
-use arbiter_crypto::safecell::{SafeCell, SafeCellHandle as _};
+use std::sync::Mutex;
 use crate::safe_cell::{SafeCell, SafeCellHandle as _};
 use alloy::{
    consensus::SignableTransaction,
    network::{TxSigner, TxSignerSync},
@@ -8,7 +9,6 @@ use alloy::{
 };
 use async_trait::async_trait;
 use k256::ecdsa::{self, RecoveryId, SigningKey, signature::hazmat::PrehashSigner};
 use std::sync::Mutex;
 /// An Ethereum signer that stores its secp256k1 secret key inside a
 /// hardware-protected [`MemSafe`] cell.
--- a/server/crates/arbiter-server/src/evm/utils.rs
+++ b/server/crates/arbiter-server/src/evm/utils.rs
@@ -2,20 +2,20 @@ use alloy::primitives::U256;
 #[derive(thiserror::Error, Debug)]
 #[error("Expected {expected} bytes but got {actual} bytes")]
-pub(super) struct LengthError {
+pub struct LengthError {
-    pub(super) expected: usize,
+    pub expected: usize,
-    pub(super) actual: usize,
+    pub actual: usize,
 }
-pub(super) fn u256_to_bytes(value: U256) -> [u8; 32] {
+pub fn u256_to_bytes(value: U256) -> [u8; 32] {
    value.to_le_bytes()
 }
-pub(super) fn bytes_to_u256(bytes: &[u8]) -> Option<U256> {
+pub fn bytes_to_u256(bytes: &[u8]) -> Option<U256> {
    let bytes: [u8; 32] = bytes.try_into().ok()?;
    Some(U256::from_le_bytes(bytes))
 }
-pub(super) fn try_bytes_to_u256(bytes: &[u8]) -> diesel::result::QueryResult<U256> {
+pub fn try_bytes_to_u256(bytes: &[u8]) -> diesel::result::QueryResult<U256> {
    let bytes: [u8; 32] = bytes.try_into().map_err(|_| {
        diesel::result::Error::DeserializationError(Box::new(LengthError {
            expected: 32,
--- a/server/crates/arbiter-server/src/grpc/client.rs
+++ b/server/crates/arbiter-server/src/grpc/client.rs
@@ -1,7 +1,3 @@
 use crate::{
    grpc::request_tracker::RequestTracker,
    peers::client::{ClientConnection, session::ClientSession},
 };
 use arbiter_proto::{
    proto::client::{
        ClientRequest, ClientResponse, client_request::Payload as ClientRequestPayload,
@@ -9,11 +5,15 @@ use arbiter_proto::{
    },
    transport::{Receiver, Sender, grpc::GrpcBi},
 };
 use kameo::actor::{ActorRef, Spawn as _};
 use tonic::Status;
 use tracing::{info, warn};
 use crate::{
    actors::client::{ClientConnection, session::ClientSession},
    grpc::request_tracker::RequestTracker,
 };
 mod auth;
 mod evm;
 mod inbound;
--- a/server/crates/arbiter-server/src/grpc/client/auth.rs
+++ b/server/crates/arbiter-server/src/grpc/client/auth.rs
@@ -1,8 +1,3 @@
 use crate::{
    grpc::request_tracker::RequestTracker,
    peers::client::{self, ClientConnection, auth},
 };
 use arbiter_crypto::authn;
 use arbiter_proto::{
    ClientMetadata,
    proto::{
@@ -21,18 +16,23 @@ use arbiter_proto::{
    },
    transport::{Bi, Error as TransportError, Receiver, Sender, grpc::GrpcBi},
 };
 use async_trait::async_trait;
 use tonic::Status;
 use tracing::warn;
-pub(super) struct AuthTransportAdapter<'a> {
+use crate::{
    actors::client::{self, ClientConnection, auth},
    crypto::integrity::Verified,
    grpc::request_tracker::RequestTracker,
 };
 pub struct AuthTransportAdapter<'a> {
    bi: &'a mut GrpcBi<ClientRequest, ClientResponse>,
    request_tracker: &'a mut RequestTracker,
 }
 impl<'a> AuthTransportAdapter<'a> {
-    pub(super) fn new(
+    pub fn new(
        bi: &'a mut GrpcBi<ClientRequest, ClientResponse>,
        request_tracker: &'a mut RequestTracker,
    ) -> Self {
@@ -44,14 +44,10 @@ impl<'a> AuthTransportAdapter<'a> {
    fn response_to_proto(response: auth::Outbound) -> AuthResponsePayload {
        match response {
-            auth::Outbound::AuthChallenge { challenge } => {
+            auth::Outbound::AuthChallenge { pubkey, nonce } => {
                AuthResponsePayload::Challenge(ProtoAuthChallenge {
-                    timestamp_nanos: challenge
+                    pubkey: pubkey.to_bytes().to_vec(),
-                        .timestamp
+                    nonce,
                        .timestamp_nanos_opt()
                        .expect("timestamp within range")
                        as u64,
                    random: challenge.nonce.to_vec(),
                })
            }
            auth::Outbound::AuthSuccess => {
@@ -165,7 +161,11 @@ impl Receiver<auth::Inbound> for AuthTransportAdapter<'_> {
                        .await;
                    return None;
                };
-                let Ok(pubkey) = authn::PublicKey::try_from(pubkey.as_slice()) else {
+                let Ok(pubkey) = <[u8; 32]>::try_from(pubkey) 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;
                };
@@ -175,7 +175,7 @@ impl Receiver<auth::Inbound> for AuthTransportAdapter<'_> {
                })
            }
            AuthRequestPayload::ChallengeSolution(ProtoAuthChallengeSolution { 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;
@@ -197,11 +197,11 @@ fn client_metadata_from_proto(metadata: ProtoClientInfo) -> ClientMetadata {
    }
 }
-pub(super) async fn start(
+pub async fn start(
    conn: &mut ClientConnection,
    bi: &mut GrpcBi<ClientRequest, ClientResponse>,
    request_tracker: &mut RequestTracker,
-) -> Result<i32, auth::Error> {
+) -> Result<Verified<i32>, auth::Error> {
    let mut transport = AuthTransportAdapter::new(bi, request_tracker);
    client::auth::authenticate(conn, &mut transport).await
 }
--- a/server/crates/arbiter-server/src/grpc/client/evm.rs
+++ b/server/crates/arbiter-server/src/grpc/client/evm.rs
@@ -1,10 +1,3 @@
 use crate::{
    grpc::{
        Convert, TryConvert,
        common::inbound::{RawEvmAddress, RawEvmTransaction},
    },
    peers::client::session::{ClientSession, HandleSignTransaction, SignTransactionRpcError},
 };
 use arbiter_proto::proto::{
    client::{
        client_response::Payload as ClientResponsePayload,
@@ -18,11 +11,18 @@ use arbiter_proto::proto::{
        evm_sign_transaction_response::Result as EvmSignTransactionResult,
    },
 };
 use kameo::actor::ActorRef;
 use tonic::Status;
 use tracing::warn;
 use crate::{
    actors::client::session::{ClientSession, HandleSignTransaction, SignTransactionRpcError},
    grpc::{
        Convert, TryConvert,
        common::inbound::{RawEvmAddress, RawEvmTransaction},
    },
 };
 fn wrap_response(payload: EvmResponsePayload) -> ClientResponsePayload {
    ClientResponsePayload::Evm(proto_evm::Response {
        payload: Some(payload),
--- a/server/crates/arbiter-server/src/grpc/client/vault.rs
+++ b/server/crates/arbiter-server/src/grpc/client/vault.rs
@@ -1,7 +1,3 @@
 use crate::{
    actors::vault::VaultState,
    peers::client::session::{ClientSession, Error, HandleQueryVaultState},
 };
 use arbiter_proto::proto::{
    client::{
        client_response::Payload as ClientResponsePayload,
@@ -12,11 +8,15 @@ use arbiter_proto::proto::{
    },
    shared::VaultState as ProtoVaultState,
 };
 use kameo::{actor::ActorRef, error::SendError};
 use tonic::Status;
 use tracing::warn;
 use crate::actors::{
    client::session::{ClientSession, Error, HandleQueryVaultState},
    keyholder::KeyHolderState,
 };
 pub(super) async fn dispatch(
    actor: &ActorRef<ClientSession>,
    req: proto_vault::Request,
@@ -30,9 +30,9 @@ pub(super) async fn dispatch(
    match payload {
        VaultRequestPayload::QueryState(_) => {
            let state = match actor.ask(HandleQueryVaultState {}).await {
-                Ok(VaultState::Unbootstrapped) => ProtoVaultState::Unbootstrapped,
+                Ok(KeyHolderState::Unbootstrapped) => ProtoVaultState::Unbootstrapped,
-                Ok(VaultState::Sealed) => ProtoVaultState::Sealed,
+                Ok(KeyHolderState::Sealed) => ProtoVaultState::Sealed,
-                Ok(VaultState::Unsealed) => ProtoVaultState::Unsealed,
+                Ok(KeyHolderState::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.rs
+++ b/server/crates/arbiter-server/src/grpc/common.rs
@@ -1,2 +1,2 @@
-pub(super) mod inbound;
+pub mod inbound;
-pub(super) mod outbound;
+pub mod outbound;
--- a/server/crates/arbiter-server/src/grpc/common/inbound.rs
+++ b/server/crates/arbiter-server/src/grpc/common/inbound.rs
@@ -1,8 +1,8 @@
 use crate::grpc::TryConvert;
 use alloy::{consensus::TxEip1559, primitives::Address, rlp::Decodable as _};
-pub(in crate::grpc) struct RawEvmAddress(pub(in crate::grpc) Vec<u8>);
+use crate::grpc::TryConvert;
 pub struct RawEvmAddress(pub Vec<u8>);
 impl TryConvert for RawEvmAddress {
    type Output = Address;
@@ -21,7 +21,7 @@ impl TryConvert for RawEvmAddress {
    }
 }
-pub(in crate::grpc) struct RawEvmTransaction(pub(in crate::grpc) Vec<u8>);
+pub struct RawEvmTransaction(pub Vec<u8>);
 impl TryConvert for RawEvmTransaction {
    type Output = TxEip1559;
--- a/server/crates/arbiter-server/src/grpc/common/outbound.rs
+++ b/server/crates/arbiter-server/src/grpc/common/outbound.rs
@@ -1,10 +1,4 @@
-use crate::{
+use alloy::primitives::U256;
    evm::{
        PolicyError, VetError,
        policies::{EvalViolation, SpecificMeaning},
    },
    grpc::Convert,
 };
 use arbiter_proto::proto::{
    evm::{
        EvmError as ProtoEvmError,
@@ -20,7 +14,13 @@ use arbiter_proto::proto::{
    },
 };
-use alloy::primitives::U256;
+use crate::{
    evm::{
        PolicyError, VetError,
        policies::{EvalViolation, SpecificMeaning},
    },
    grpc::Convert,
 };
 fn u256_to_proto_bytes(value: U256) -> Vec<u8> {
    value.to_be_bytes::<32>().to_vec()
--- a/server/crates/arbiter-server/src/grpc/mod.rs
+++ b/server/crates/arbiter-server/src/grpc/mod.rs
@@ -1,4 +1,3 @@
 use crate::peers::{client::ClientConnection, user_agent::UserAgentConnection};
 use arbiter_proto::{
    proto::{
        client::{ClientRequest, ClientResponse},
@@ -6,11 +5,15 @@ use arbiter_proto::{
    },
    transport::grpc::GrpcBi,
 };
 use tokio_stream::wrappers::ReceiverStream;
 use tonic::{Request, Response, Status, async_trait};
 use tracing::info;
 use crate::{
    actors::{client::ClientConnection, user_agent::UserAgentConnection},
    grpc::user_agent::start,
 };
 mod request_tracker;
 pub mod client;
@@ -60,7 +63,7 @@ impl arbiter_proto::proto::arbiter_service_server::ArbiterService for super::Ser
        let (bi, rx) = GrpcBi::from_bi_stream(req_stream);
-        tokio::spawn(user_agent::start(
+        tokio::spawn(start(
            UserAgentConnection {
                db: self.context.db.clone(),
                actors: self.context.actors.clone(),
--- a/server/crates/arbiter-server/src/grpc/request_tracker.rs
+++ b/server/crates/arbiter-server/src/grpc/request_tracker.rs
@@ -1,12 +1,12 @@
 use tonic::Status;
 #[derive(Default)]
-pub(super) struct RequestTracker {
+pub struct RequestTracker {
    next_request_id: i32,
 }
 impl RequestTracker {
-    pub(super) fn request(&mut self, id: i32) -> Result<i32, Status> {
+    pub fn request(&mut self, id: i32) -> Result<i32, Status> {
        if id < self.next_request_id {
            return Err(Status::invalid_argument("Duplicate request id"));
        }
@@ -20,7 +20,7 @@ impl RequestTracker {
    // This is used to set the response id for auth responses, which need to match the request id of the auth challenge request.
    // -1 offset is needed because request() increments the next_request_id after returning the current request id.
-    pub(super) fn current_request_id(&self) -> i32 {
+    pub fn current_request_id(&self) -> i32 {
        self.next_request_id - 1
    }
 }
--- a/server/crates/arbiter-server/src/grpc/user_agent.rs
+++ b/server/crates/arbiter-server/src/grpc/user_agent.rs
@@ -1,7 +1,5 @@
-use crate::{
+use tokio::sync::mpsc;
-    grpc::request_tracker::RequestTracker,
+
    peers::user_agent::{OutOfBand, UserAgentConnection, UserAgentSession},
 };
 use arbiter_proto::{
    proto::user_agent::{
        UserAgentRequest, UserAgentResponse,
@@ -10,20 +8,22 @@ use arbiter_proto::{
    },
    transport::{Error as TransportError, Receiver, Sender, grpc::GrpcBi},
 };
 use async_trait::async_trait;
-use kameo::actor::ActorRef;
+use kameo::actor::{ActorRef, Spawn as _};
 use tokio::sync::mpsc;
 use tonic::Status;
 use tracing::{error, info, warn};
 use crate::{
    actors::user_agent::{OutOfBand, UserAgentConnection, UserAgentSession},
    grpc::request_tracker::RequestTracker,
 };
 mod auth;
 mod evm;
 mod inbound;
 mod outbound;
 mod sdk_client;
 mod vault;
 mod vault_gate;
 pub struct OutOfBandAdapter(mpsc::Sender<OutOfBand>);
@@ -124,22 +124,21 @@ pub async fn start(
 ) {
    let mut request_tracker = RequestTracker::default();
-    let (oob_sender, oob_receiver) = mpsc::channel(16);
+    let pubkey = match auth::start(&mut conn, &mut bi, &mut request_tracker).await {
-    let oob_adapter = OutOfBandAdapter(oob_sender);
+        Ok(pubkey) => pubkey,
    let actor = {
        let transport = auth::AuthTransportAdapter::new(&mut bi, &mut request_tracker);
        match crate::peers::user_agent::start(&mut conn, transport, Box::new(oob_adapter)).await {
            Ok(actor) => actor,
        Err(e) => {
-                warn!(error = ?e, "User agent connection failed");
+            warn!(error = ?e, "Authentication failed");
            return;
        }
        }
    };
-    info!("User agent session established");
+    let (oob_sender, oob_receiver) = mpsc::channel(16);
    let oob_adapter = OutOfBandAdapter(oob_sender);
-    dispatch_loop(bi, actor.clone(), oob_receiver, request_tracker).await;
+    let actor = UserAgentSession::spawn(UserAgentSession::new(conn, Box::new(oob_adapter)));
-    actor.kill();
+    let actor_for_cleanup = actor.clone();
    info!(?pubkey, "User authenticated successfully");
    dispatch_loop(bi, actor, oob_receiver, request_tracker).await;
    actor_for_cleanup.kill();
 }
--- a/server/crates/arbiter-server/src/grpc/user_agent/auth.rs
+++ b/server/crates/arbiter-server/src/grpc/user_agent/auth.rs
@@ -1,5 +1,3 @@
 use crate::{grpc::request_tracker::RequestTracker, peers::user_agent::auth};
 use arbiter_crypto::authn;
 use arbiter_proto::{
    proto::user_agent::{
        UserAgentRequest, UserAgentResponse,
@@ -7,25 +5,31 @@ use arbiter_proto::{
            self as proto_auth, AuthChallenge as ProtoAuthChallenge,
            AuthChallengeRequest as ProtoAuthChallengeRequest,
            AuthChallengeSolution as ProtoAuthChallengeSolution, AuthResult as ProtoAuthResult,
-            request::Payload as AuthRequestPayload, response::Payload as AuthResponsePayload,
+            KeyType as ProtoKeyType, request::Payload as AuthRequestPayload,
            response::Payload as AuthResponsePayload,
        },
        user_agent_request::Payload as UserAgentRequestPayload,
        user_agent_response::Payload as UserAgentResponsePayload,
    },
    transport::{Bi, Error as TransportError, Receiver, Sender, grpc::GrpcBi},
 };
 use async_trait::async_trait;
 use tonic::Status;
 use tracing::warn;
-pub(super) struct AuthTransportAdapter<'a> {
+use crate::{
-    pub(super) bi: &'a mut GrpcBi<UserAgentRequest, UserAgentResponse>,
+    actors::user_agent::{AuthPublicKey, UserAgentConnection, auth},
-    pub(super) request_tracker: &'a mut RequestTracker,
+    db::models::KeyType,
    grpc::request_tracker::RequestTracker,
 };
 pub struct AuthTransportAdapter<'a> {
    bi: &'a mut GrpcBi<UserAgentRequest, UserAgentResponse>,
    request_tracker: &'a mut RequestTracker,
 }
 impl<'a> AuthTransportAdapter<'a> {
-    pub(super) fn new(
+    pub fn new(
        bi: &'a mut GrpcBi<UserAgentRequest, UserAgentResponse>,
        request_tracker: &'a mut RequestTracker,
    ) -> Self {
@@ -35,32 +39,16 @@ impl<'a> AuthTransportAdapter<'a> {
        }
    }
    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: UserAgentResponsePayload,
    ) -> Result<(), TransportError> {
        self.bi
            .send(Ok(UserAgentResponse {
                id: Some(self.request_tracker.current_request_id()),
                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 {
+        self.bi
            .send(Ok(UserAgentResponse {
                id: Some(self.request_tracker.current_request_id()),
                payload: Some(UserAgentResponsePayload::Auth(proto_auth::Response {
                    payload: Some(payload),
                })),
            }))
            .await
    }
@@ -74,15 +62,8 @@ impl Sender<Result<auth::Outbound, auth::Error>> for AuthTransportAdapter<'_> {
    ) -> Result<(), TransportError> {
        use auth::{Error, Outbound};
        let payload = match item {
-            Ok(Outbound::AuthChallenge { challenge }) => {
+            Ok(Outbound::AuthChallenge { nonce }) => {
-                AuthResponsePayload::Challenge(ProtoAuthChallenge {
+                AuthResponsePayload::Challenge(ProtoAuthChallenge { nonce })
                    timestamp_nanos: challenge
                        .timestamp
                        .timestamp_nanos_opt()
                        .expect("timestamp within range")
                        as u64,
                    random: challenge.nonce.to_vec(),
                })
            }
            Ok(Outbound::AuthSuccess) => {
                AuthResponsePayload::Result(ProtoAuthResult::Success.into())
@@ -160,8 +141,28 @@ impl Receiver<auth::Inbound> for AuthTransportAdapter<'_> {
            AuthRequestPayload::ChallengeRequest(ProtoAuthChallengeRequest {
                pubkey,
                bootstrap_token,
                key_type,
            }) => {
-                let Ok(pubkey) = authn::PublicKey::try_from(pubkey.as_slice()) else {
+                let Ok(key_type) = ProtoKeyType::try_from(key_type) 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"
@@ -182,3 +183,12 @@ impl Receiver<auth::Inbound> for AuthTransportAdapter<'_> {
 }
 impl Bi<auth::Inbound, Result<auth::Outbound, auth::Error>> for AuthTransportAdapter<'_> {}
 pub async fn start(
    conn: &mut UserAgentConnection,
    bi: &mut GrpcBi<UserAgentRequest, UserAgentResponse>,
    request_tracker: &mut RequestTracker,
 ) -> Result<AuthPublicKey, auth::Error> {
    let transport = AuthTransportAdapter::new(bi, request_tracker);
    auth::authenticate(conn, transport).await
 }
--- a/server/crates/arbiter-server/src/grpc/user_agent/evm.rs
+++ b/server/crates/arbiter-server/src/grpc/user_agent/evm.rs
@@ -1,17 +1,3 @@
 use crate::{
    grpc::{
        Convert, TryConvert,
        common::inbound::{RawEvmAddress, RawEvmTransaction},
    },
    peers::user_agent::{
        UserAgentSession,
        session::handlers::{
            GrantMutationError, HandleEvmWalletCreate, HandleEvmWalletList, HandleGrantCreate,
            HandleGrantDelete, HandleGrantList, HandleSignTransaction,
            SignTransactionError as SessionSignTransactionError,
        },
    },
 };
 use arbiter_proto::proto::{
    evm::{
        EvmError as ProtoEvmError, EvmGrantCreateRequest, EvmGrantCreateResponse,
@@ -32,11 +18,25 @@ use arbiter_proto::proto::{
        user_agent_response::Payload as UserAgentResponsePayload,
    },
 };
 use kameo::actor::ActorRef;
 use tonic::Status;
 use tracing::warn;
 use crate::{
    actors::user_agent::{
        UserAgentSession,
        session::connection::{
            GrantMutationError, HandleEvmWalletCreate, HandleEvmWalletList, HandleGrantCreate,
            HandleGrantDelete, HandleGrantList, HandleSignTransaction,
            SignTransactionError as SessionSignTransactionError,
        },
    },
    grpc::{
        Convert, TryConvert,
        common::inbound::{RawEvmAddress, RawEvmTransaction},
    },
 };
 fn wrap_evm_response(payload: EvmResponsePayload) -> UserAgentResponsePayload {
    UserAgentResponsePayload::Evm(proto_evm::Response {
        payload: Some(payload),
@@ -66,7 +66,7 @@ async fn handle_wallet_create(
 ) -> Result<Option<UserAgentResponsePayload>, Status> {
    let result = match actor.ask(HandleEvmWalletCreate {}).await {
        Ok((wallet_id, address)) => WalletCreateResult::Wallet(WalletEntry {
-            id: wallet_id,
+            id: wallet_id.drop_verification_provenance(),
            address: address.to_vec(),
        }),
        Err(err) => {
@@ -121,6 +121,9 @@ async fn handle_grant_list(
                })
                .collect(),
        }),
        Err(kameo::error::SendError::HandlerError(GrantMutationError::VaultSealed)) => {
            EvmGrantListResult::Error(ProtoEvmError::VaultSealed.into())
        }
        Err(err) => {
            warn!(error = ?err, "Failed to list EVM grants");
            EvmGrantListResult::Error(ProtoEvmError::Internal.into())
@@ -147,7 +150,7 @@ async fn handle_grant_create(
        .try_convert()?;
    let result = match actor.ask(HandleGrantCreate { basic, grant }).await {
-        Ok(grant_id) => EvmGrantCreateResult::GrantId(grant_id),
+        Ok(grant_id) => EvmGrantCreateResult::GrantId(grant_id.drop_verification_provenance()),
        Err(kameo::error::SendError::HandlerError(GrantMutationError::VaultSealed)) => {
            EvmGrantCreateResult::Error(ProtoEvmError::VaultSealed.into())
        }
--- a/server/crates/arbiter-server/src/grpc/user_agent/inbound.rs
+++ b/server/crates/arbiter-server/src/grpc/user_agent/inbound.rs
@@ -1,27 +1,27 @@
-use crate::{
+use alloy::primitives::{Address, U256};
-    db::models::{CoreEvmWalletAccess, NewEvmWalletAccess},
+use arbiter_proto::proto::evm::{
    evm::policies::{
        SharedGrantSettings, SpecificGrant, TransactionRateLimit, VolumeRateLimit, ether_transfer,
        token_transfers,
    },
    grpc::Convert,
    grpc::TryConvert,
 };
 use arbiter_proto::{
    proto::evm::{
    EtherTransferSettings as ProtoEtherTransferSettings, SharedSettings as ProtoSharedSettings,
    SpecificGrant as ProtoSpecificGrant, TokenTransferSettings as ProtoTokenTransferSettings,
    TransactionRateLimit as ProtoTransactionRateLimit, VolumeRateLimit as ProtoVolumeRateLimit,
    specific_grant::Grant as ProtoSpecificGrantType,
    },
    proto::user_agent::sdk_client::{WalletAccess, WalletAccessEntry as SdkClientWalletAccess},
 };
-
+use arbiter_proto::proto::user_agent::sdk_client::{
-use alloy::primitives::{Address, U256};
+    WalletAccess, WalletAccessEntry as SdkClientWalletAccess,
 };
 use chrono::{DateTime, TimeZone, Utc};
 use prost_types::Timestamp as ProtoTimestamp;
 use tonic::Status;
 use crate::db::models::{CoreEvmWalletAccess, NewEvmWalletAccess};
 use crate::grpc::Convert;
 use crate::{
    evm::policies::{
        SharedGrantSettings, SpecificGrant, TransactionRateLimit, VolumeRateLimit, ether_transfer,
        token_transfers,
    },
    grpc::TryConvert,
 };
 fn address_from_bytes(bytes: Vec<u8>) -> Result<Address, Status> {
    if bytes.len() != 20 {
        return Err(Status::invalid_argument("Invalid EVM address"));
--- a/server/crates/arbiter-server/src/grpc/user_agent/outbound.rs
+++ b/server/crates/arbiter-server/src/grpc/user_agent/outbound.rs
@@ -1,8 +1,3 @@
 use crate::{
    db::models::EvmWalletAccess,
    evm::policies::{SharedGrantSettings, SpecificGrant, TransactionRateLimit, VolumeRateLimit},
    grpc::Convert,
 };
 use arbiter_proto::proto::{
    evm::{
        EtherTransferSettings as ProtoEtherTransferSettings, SharedSettings as ProtoSharedSettings,
@@ -12,10 +7,15 @@ use arbiter_proto::proto::{
    },
    user_agent::sdk_client::{WalletAccess, WalletAccessEntry as ProtoSdkClientWalletAccess},
 };
 use chrono::{DateTime, Utc};
 use prost_types::Timestamp as ProtoTimestamp;
 use crate::{
    db::models::EvmWalletAccess,
    evm::policies::{SharedGrantSettings, SpecificGrant, TransactionRateLimit, VolumeRateLimit},
    grpc::Convert,
 };
 impl Convert for DateTime<Utc> {
    type Output = 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
@@ -1,15 +1,3 @@
 use crate::{
    db::models::NewEvmWalletAccess,
    grpc::Convert,
    peers::user_agent::{
        OutOfBand, UserAgentSession,
        session::handlers::{
            HandleGrantEvmWalletAccess, HandleListWalletAccess, HandleNewClientApprove,
            HandleRevokeEvmWalletAccess, HandleSdkClientList,
        },
    },
 };
 use arbiter_crypto::authn;
 use arbiter_proto::proto::{
    shared::ClientInfo as ProtoClientMetadata,
    user_agent::{
@@ -27,11 +15,22 @@ use arbiter_proto::proto::{
        user_agent_response::Payload as UserAgentResponsePayload,
    },
 };
 use kameo::actor::ActorRef;
 use tonic::Status;
 use tracing::{info, warn};
 use crate::{
    actors::user_agent::{
        OutOfBand, UserAgentSession,
        session::connection::{
            HandleGrantEvmWalletAccess, HandleListWalletAccess, HandleNewClientApprove,
            HandleRevokeEvmWalletAccess, HandleSdkClientList,
        },
    },
    db::models::NewEvmWalletAccess,
    grpc::Convert,
 };
 fn wrap_sdk_client_response(payload: SdkClientResponsePayload) -> UserAgentResponsePayload {
    UserAgentResponsePayload::SdkClient(proto_sdk_client::Response {
        payload: Some(payload),
@@ -42,7 +41,7 @@ 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(),
+                pubkey: profile.pubkey.to_bytes().to_vec(),
                info: Some(ProtoClientMetadata {
                    name: profile.metadata.name,
                    description: profile.metadata.description,
@@ -52,7 +51,7 @@ pub(super) fn out_of_band_payload(oob: OutOfBand) -> UserAgentResponsePayload {
        ),
        OutOfBand::ClientConnectionCancel { pubkey } => wrap_sdk_client_response(
            SdkClientResponsePayload::ConnectionCancel(ProtoSdkClientConnectionCancel {
-                pubkey: pubkey.to_bytes(),
+                pubkey: pubkey.to_bytes().to_vec(),
            }),
        ),
    }
@@ -90,8 +89,10 @@ async fn handle_connection_response(
    actor: &ActorRef<UserAgentSession>,
    resp: ProtoSdkClientConnectionResponse,
 ) -> Result<Option<UserAgentResponsePayload>, Status> {
-    let pubkey = authn::PublicKey::try_from(resp.pubkey.as_slice())
+    let pubkey_bytes = <[u8; 32]>::try_from(resp.pubkey)
-        .map_err(|_| Status::invalid_argument("Invalid ML-DSA public key"))?;
+        .map_err(|_| Status::invalid_argument("Invalid Ed25519 public key length"))?;
    let pubkey = ed25519_dalek::VerifyingKey::from_bytes(&pubkey_bytes)
        .map_err(|_| Status::invalid_argument("Invalid Ed25519 public key"))?;
    actor
        .ask(HandleNewClientApprove {
@@ -116,7 +117,7 @@ async fn handle_list(
                .into_iter()
                .map(|(client, metadata)| ProtoSdkClientEntry {
                    id: client.id,
-                    pubkey: client.public_key.to_vec(),
+                    pubkey: client.public_key,
                    info: Some(ProtoClientMetadata {
                        name: metadata.name,
                        description: metadata.description,
--- a/server/crates/arbiter-server/src/grpc/user_agent/vault.rs
+++ b/server/crates/arbiter-server/src/grpc/user_agent/vault.rs
@@ -1,28 +1,54 @@
-use crate::{
+use arbiter_proto::proto::shared::VaultState as ProtoVaultState;
-    actors::vault::VaultState,
+use arbiter_proto::proto::user_agent::{
    peers::user_agent::{UserAgentSession, session::handlers::HandleQueryVaultState},
 };
 use arbiter_proto::{
    proto::shared::VaultState as ProtoVaultState,
    proto::user_agent::{
    user_agent_response::Payload as UserAgentResponsePayload,
    vault::{
-            self as proto_vault, request::Payload as VaultRequestPayload,
+        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 kameo::{actor::ActorRef, error::SendError};
 use kameo::actor::ActorRef;
 use tonic::Status;
 use tracing::warn;
 use crate::actors::{
    keyholder::KeyHolderState,
    user_agent::{
        UserAgentSession,
        session::connection::{
            BootstrapError, HandleBootstrapEncryptedKey, HandleQueryVaultState,
            HandleUnsealEncryptedKey, HandleUnsealRequest, UnsealError,
        },
    },
 };
 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(),
    }))
 }
 pub(super) async fn dispatch(
    actor: &ActorRef<UserAgentSession>,
    req: proto_vault::Request,
@@ -33,21 +59,116 @@ pub(super) async fn dispatch(
    match payload {
        VaultRequestPayload::QueryState(_) => handle_query_vault_state(actor).await,
-        VaultRequestPayload::Unseal(_) | VaultRequestPayload::Bootstrap(_) => {
+        VaultRequestPayload::Unseal(req) => dispatch_unseal_request(actor, req).await,
-            Err(Status::permission_denied(
+        VaultRequestPayload::Bootstrap(req) => handle_bootstrap_request(actor, req).await,
                "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(VaultState::Unbootstrapped) => ProtoVaultState::Unbootstrapped,
+        Ok(KeyHolderState::Unbootstrapped) => ProtoVaultState::Unbootstrapped,
-        Ok(VaultState::Sealed) => ProtoVaultState::Sealed,
+        Ok(KeyHolderState::Sealed) => ProtoVaultState::Sealed,
-        Ok(VaultState::Unsealed) => ProtoVaultState::Unsealed,
+        Ok(KeyHolderState::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
@@ -1,81 +0,0 @@
 use super::auth::AuthTransportAdapter;
 use crate::{
    grpc::TryConvert,
    peers::user_agent::vault_gate::{self as vault_gate},
 };
 use arbiter_proto::transport::{Bi, Error as TransportError, Receiver, Sender};
 use async_trait::async_trait;
 use tonic::Status;
 use tracing::warn;
 mod inbound;
 mod outbound;
 #[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;
            };
            match payload.try_convert() {
                Ok(inbound) => return Some(inbound),
                Err(status) => {
                    let _ = self.bi_mut().send(Err(status)).await;
                    return None;
                }
            }
        }
    }
 }
 #[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;
            }
        };
        match outbound.try_convert() {
            Ok(payload) => self.send_response_payload(payload).await,
            Err(status) => self.bi_mut().send(Err(status)).await,
        }
    }
 }
 impl Bi<vault_gate::Inbound, Result<vault_gate::Outbound, vault_gate::Error>>
    for AuthTransportAdapter<'_>
 {
 }
--- a/server/crates/arbiter-server/src/grpc/user_agent/vault_gate/inbound.rs
+++ b/server/crates/arbiter-server/src/grpc/user_agent/vault_gate/inbound.rs
@@ -1,129 +0,0 @@
 use crate::{
    grpc::{Convert, TryConvert},
    peers::user_agent::vault_gate::{
        self as vault_gate, HandleBootstrapEncryptedKey, HandleHandshake, HandleUnsealEncryptedKey,
    },
 };
 use arbiter_proto::proto::user_agent::{
    user_agent_request::Payload as UserAgentRequestPayload,
    vault::{
        self as proto_vault,
        bootstrap::{self as proto_bootstrap},
        request::Payload as VaultRequestPayload,
        unseal::{self as proto_unseal, request::Payload as UnsealRequestPayload},
    },
 };
 use tonic::Status;
 impl TryConvert for UserAgentRequestPayload {
    type Output = vault_gate::Inbound;
    type Error = Status;
    fn try_convert(self) -> Result<vault_gate::Inbound, Status> {
        match self {
            UserAgentRequestPayload::Vault(req) => req.try_convert(),
            _ => Err(Status::permission_denied(
                "Only vault operations are permitted before unsealing",
            )),
        }
    }
 }
 impl TryConvert for proto_vault::Request {
    type Output = vault_gate::Inbound;
    type Error = Status;
    fn try_convert(self) -> Result<vault_gate::Inbound, Status> {
        self.payload
            .ok_or_else(|| Status::invalid_argument("Missing vault request payload"))?
            .try_convert()
    }
 }
 impl TryConvert for VaultRequestPayload {
    type Output = vault_gate::Inbound;
    type Error = Status;
    fn try_convert(self) -> Result<vault_gate::Inbound, Status> {
        match self {
            VaultRequestPayload::QueryState(_) => Ok(vault_gate::Inbound::HandleVaultState),
            VaultRequestPayload::Unseal(req) => req.try_convert(),
            VaultRequestPayload::Bootstrap(req) => req.try_convert(),
        }
    }
 }
 impl TryConvert for proto_unseal::Request {
    type Output = vault_gate::Inbound;
    type Error = Status;
    fn try_convert(self) -> Result<vault_gate::Inbound, Status> {
        self.payload
            .ok_or_else(|| Status::invalid_argument("Missing unseal request payload"))?
            .try_convert()
    }
 }
 impl TryConvert for UnsealRequestPayload {
    type Output = vault_gate::Inbound;
    type Error = Status;
    fn try_convert(self) -> Result<vault_gate::Inbound, Status> {
        match self {
            UnsealRequestPayload::Start(start) => start.try_convert(),
            UnsealRequestPayload::EncryptedKey(key) => Ok(key.convert()),
        }
    }
 }
 impl TryConvert for proto_unseal::UnsealStart {
    type Output = vault_gate::Inbound;
    type Error = Status;
    fn try_convert(self) -> Result<vault_gate::Inbound, Status> {
        let bytes = <[u8; 32]>::try_from(self.client_pubkey)
            .map_err(|_| Status::invalid_argument("Invalid X25519 public key"))?;
        Ok(vault_gate::Inbound::HandleHandshake(HandleHandshake {
            client_pubkey: x25519_dalek::PublicKey::from(bytes),
        }))
    }
 }
 impl Convert for proto_unseal::UnsealEncryptedKey {
    type Output = vault_gate::Inbound;
    fn convert(self) -> vault_gate::Inbound {
        vault_gate::Inbound::HandleUnsealEncryptedKey(HandleUnsealEncryptedKey {
            nonce: self.nonce,
            ciphertext: self.ciphertext,
            associated_data: self.associated_data,
        })
    }
 }
 impl TryConvert for proto_bootstrap::Request {
    type Output = vault_gate::Inbound;
    type Error = Status;
    fn try_convert(self) -> Result<vault_gate::Inbound, Status> {
        self.encrypted_key
            .ok_or_else(|| Status::invalid_argument("Missing bootstrap encrypted key"))?
            .try_convert()
    }
 }
 impl TryConvert for proto_bootstrap::BootstrapEncryptedKey {
    type Output = vault_gate::Inbound;
    type Error = Status;
    fn try_convert(self) -> Result<vault_gate::Inbound, Status> {
        Ok(vault_gate::Inbound::HandleBootstrapEncryptedKey(
            HandleBootstrapEncryptedKey {
                nonce: self.nonce,
                ciphertext: self.ciphertext,
                associated_data: self.associated_data,
            },
        ))
    }
 }
--- a/server/crates/arbiter-server/src/grpc/user_agent/vault_gate/outbound.rs
+++ b/server/crates/arbiter-server/src/grpc/user_agent/vault_gate/outbound.rs
@@ -1,115 +0,0 @@
 use crate::{
    actors::vault::VaultState,
    grpc::{Convert, TryConvert},
    peers::user_agent::vault_gate::{self as vault_gate},
 };
 use arbiter_proto::proto::{
    shared::VaultState as ProtoVaultState,
    user_agent::{
        user_agent_response::Payload as UserAgentResponsePayload,
        vault::{
            self as proto_vault,
            bootstrap::{self as proto_bootstrap, BootstrapResult as ProtoBootstrapResult},
            response::Payload as VaultResponsePayload,
            unseal::{
                self as proto_unseal, UnsealResult as ProtoUnsealResult,
                response::Payload as UnsealResponsePayload,
            },
        },
    },
 };
 use tonic::Status;
 use tracing::warn;
 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 Convert for VaultState {
    type Output = UserAgentResponsePayload;
    fn convert(self) -> UserAgentResponsePayload {
        let proto_state = match self {
            VaultState::Unbootstrapped => ProtoVaultState::Unbootstrapped,
            VaultState::Sealed => ProtoVaultState::Sealed,
            VaultState::Unsealed => ProtoVaultState::Unsealed,
        };
        wrap_vault_response(VaultResponsePayload::State(proto_state.into()))
    }
 }
 impl Convert for vault_gate::HandshakeResponse {
    type Output = UserAgentResponsePayload;
    fn convert(self) -> UserAgentResponsePayload {
        wrap_unseal_response(UnsealResponsePayload::Start(
            proto_unseal::UnsealStartResponse {
                server_pubkey: self.server_pubkey.as_bytes().to_vec(),
            },
        ))
    }
 }
 impl TryConvert for vault_gate::Outbound {
    type Output = UserAgentResponsePayload;
    type Error = Status;
    fn try_convert(self) -> Result<UserAgentResponsePayload, Status> {
        match self {
            vault_gate::Outbound::HandleVaultState(result) => result
                .map_err(|err| {
                    warn!(?err, "vault state query failed");
                    Status::internal("Failed to query vault state")
                })
                .map(VaultState::convert),
            vault_gate::Outbound::HandleHandshake(result) => result
                .map_err(|err| {
                    warn!(?err, "handshake failed");
                    Status::internal("Failed to start unseal flow")
                })
                .map(vault_gate::HandshakeResponse::convert),
            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 Err(Status::internal("Failed to unseal vault"));
                    }
                };
                Ok(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 Err(Status::internal("Failed to bootstrap vault"));
                    }
                };
                Ok(wrap_bootstrap_response(proto_result))
            }
        }
    }
 }
--- a/server/crates/arbiter-server/src/lib.rs
+++ b/server/crates/arbiter-server/src/lib.rs
@@ -1,13 +1,15 @@
 #![forbid(unsafe_code)]
 use crate::context::ServerContext;
 #[macro_use]
 extern crate macro_rules_attribute;
 pub mod actors;
 pub mod context;
 pub mod crypto;
 pub mod db;
 pub mod evm;
 pub mod grpc;
-pub mod peers;
+pub mod safe_cell;
 pub mod utils;
 pub struct Server {
--- a/server/crates/arbiter-server/src/main.rs
+++ b/server/crates/arbiter-server/src/main.rs
@@ -1,9 +1,9 @@
-use arbiter_proto::{proto::arbiter_service_server::ArbiterServiceServer, url::ArbiterUrl};
+use std::net::SocketAddr;
 use arbiter_server::{Server, actors::bootstrap::GetToken, context::ServerContext, db};
 use anyhow::anyhow;
 use arbiter_proto::{proto::arbiter_service_server::ArbiterServiceServer, url::ArbiterUrl};
 use arbiter_server::{Server, actors::bootstrap::GetToken, context::ServerContext, db};
 use rustls::crypto::aws_lc_rs;
 use std::net::SocketAddr;
 use tonic::transport::{Identity, ServerTlsConfig};
 use tracing::info;
--- a/server/crates/arbiter-server/src/peers/mod.rs
+++ b/server/crates/arbiter-server/src/peers/mod.rs
@@ -1,2 +0,0 @@
 pub mod client;
 pub mod user_agent;
--- a/server/crates/arbiter-server/src/peers/user_agent/auth/state.rs
+++ b/server/crates/arbiter-server/src/peers/user_agent/auth/state.rs
@@ -1,198 +0,0 @@
 use super::{
    super::{Credentials, UserAgentConnection},
    Error,
 };
 use crate::{
    actors::bootstrap::ConsumeToken,
    db::{DatabasePool, schema::useragent_client},
    peers::user_agent::auth::Outbound,
 };
 use arbiter_crypto::authn::{self, AuthChallenge, USERAGENT_CONTEXT};
 use arbiter_proto::transport::Bi;
 use diesel::{ExpressionMethods as _, OptionalExtension as _, QueryDsl};
 use diesel_async::RunQueryDsl;
 use tracing::error;
 pub(super) struct ChallengeRequest {
    pub(super) pubkey: authn::PublicKey,
    pub(super) bootstrap_token: Option<String>,
 }
 pub(super) struct ChallengeContext {
    pub(super) challenge: AuthChallenge,
    pub(super) pubkey: authn::PublicKey,
    pub(super) bootstrap_token: Option<String>,
 }
 pub(super) struct ChallengeSolution {
    pub(super) solution: Vec<u8>,
 }
 smlang::statemachine!(
    name: Auth,
    custom_error: true,
    transitions: {
        *Init + AuthRequest(ChallengeRequest) / async prepare_challenge = SentChallenge(ChallengeContext),
        SentChallenge(ChallengeContext) + ReceivedSolution(ChallengeSolution) / async verify_solution = AuthOk(Credentials),
    }
 );
 async fn get_client_id(db: &DatabasePool, pubkey: &authn::PublicKey) -> Result<Option<i32>, Error> {
    let mut conn = db.get().await.map_err(|e| {
        error!(error = ?e, "Database pool error");
        Error::internal("Database unavailable")
    })?;
    useragent_client::table
        .filter(useragent_client::public_key.eq(pubkey.to_bytes()))
        .select(useragent_client::id)
        .first::<i32>(&mut conn)
        .await
        .optional()
        .map_err(|e| {
            error!(error = ?e, "Database error");
            Error::internal("Database operation failed")
        })
 }
 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),))
        .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(super) 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(super) 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,
            bootstrap_token,
        }: ChallengeRequest,
    ) -> Result<ChallengeContext, Self::Error> {
        // Verify pubkey is registered (unless bootstrapping)
        if bootstrap_token.is_none() {
            let id = get_client_id(&self.conn.db, &pubkey).await?;
            if id.is_none() {
                return Err(Error::UnregisteredPublicKey);
            }
        }
        let challenge = AuthChallenge::generate(&mut rand::rng());
        self.transport
            .send(Ok(Outbound::AuthChallenge {
                challenge: challenge.clone(),
            }))
            .await
            .map_err(|e| {
                error!(?e, "Failed to send auth challenge");
                Error::Transport
            })?;
        Ok(ChallengeContext {
            challenge,
            pubkey,
            bootstrap_token,
        })
    }
    #[allow(missing_docs)]
    #[allow(clippy::unused_unit)]
    async fn verify_solution(
        &mut self,
        ChallengeContext {
            challenge,
            pubkey,
            bootstrap_token,
        }: &ChallengeContext,
        ChallengeSolution { solution }: ChallengeSolution,
    ) -> Result<Credentials, 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 = pubkey.verify(challenge, USERAGENT_CONTEXT, &signature);
        if !valid {
            self.transport
                .send(Err(Error::InvalidChallengeSolution))
                .await
                .map_err(|_| Error::Transport)?;
            return Err(Error::InvalidChallengeSolution);
        }
        // Resolve client id: bootstrap (consume token + register) or lookup
        let id = match bootstrap_token {
            Some(token) => {
                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");
                    self.transport
                        .send(Err(Error::InvalidBootstrapToken))
                        .await
                        .map_err(|_| Error::Transport)?;
                    return Err(Error::InvalidBootstrapToken);
                }
                register_key(&self.conn.db, pubkey).await?
            }
            None => get_client_id(&self.conn.db, pubkey)
                .await?
                .ok_or(Error::UnregisteredPublicKey)?,
        };
        self.transport
            .send(Ok(Outbound::AuthSuccess))
            .await
            .map_err(|_| Error::Transport)?;
        Ok(Credentials {
            id,
            pubkey: pubkey.clone(),
        })
    }
 }
--- a/server/crates/arbiter-server/src/peers/user_agent/mod.rs
+++ b/server/crates/arbiter-server/src/peers/user_agent/mod.rs
@@ -1,185 +0,0 @@
 use crate::{
    actors::{
        GlobalActors,
        vault::{GetState, Vault},
    },
    crypto::integrity::{self, AttestationStatus, Integrable},
    db::{self, DatabaseError, DatabasePool},
    peers::client::ClientProfile,
 };
 use arbiter_crypto::authn;
 use arbiter_macros::Hashable;
 use arbiter_proto::transport::{Bi, Sender};
 use vault_gate::VaultGate;
 use kameo::actor::{ActorRef, Spawn as _};
 use tokio::sync::oneshot;
 use tracing::{error, warn};
 pub use auth::authenticate;
 pub use session::UserAgentSession;
 pub mod auth;
 pub mod session;
 pub mod vault_gate;
 #[derive(Debug, Clone, Hashable)]
 pub struct Credentials {
    pub id: i32,
    pub pubkey: authn::PublicKey,
 }
 impl Integrable for Credentials {
    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("database error: {0}")]
    Database(DatabaseError),
    #[error("internal: {0}")]
    Internal(String),
 }
 impl From<auth::Error> for Error {
    fn from(err: auth::Error) -> Self {
        Self::Auth(err)
    }
 }
 async fn verify_integrity(
    db: &DatabasePool,
    vault: &ActorRef<Vault>,
    credentials: &Credentials,
 ) -> Result<(), Error> {
    let mut conn = db
        .get()
        .await
        .map_err(|_| Error::Internal("DB unavailable".into()))?;
    match integrity::verify_entity(&mut conn, &vault, credentials, credentials.id).await {
        Ok(AttestationStatus::Attested) => Ok(()),
        Ok(AttestationStatus::Unavailable) => {
            Err(Error::Internal("Vault sealed during promotion".into()))
        }
        Err(e) => {
            error!(?e, "Integrity verification failed during unseal promotion");
            Err(Error::Internal("Integrity check failed".into()))
        }
    }
 }
 async fn should_run_gate(vault: &ActorRef<Vault>) -> Result<bool, Error> {
    let vault_state = vault
        .ask(GetState {})
        .await
        .map_err(|_| Error::Internal("Failed to contact the vault".into()))?;
    Ok(!matches!(
        vault_state,
        crate::actors::vault::VaultState::Unsealed
    ))
 }
 async fn run_vault_gate<T>(
    props: &UserAgentConnection,
    transport: &mut T,
    auth_creds: Credentials,
 ) -> Result<(), 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
 }
 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 creds = authenticate(props, &mut transport).await?;
    // should run vault gate only if sealed / unbootstrapped
    if should_run_gate(&props.actors.vault).await? {
        run_vault_gate(props, &mut transport, creds.clone()).await?;
    }
    // checking the integrity
    verify_integrity(&props.db, &props.actors.vault, &creds).await?;
    Ok(UserAgentSession::spawn(UserAgentSession::new(
        props.clone(),
        oob_sender,
    )))
 }
--- a/server/crates/arbiter-server/src/peers/user_agent/session/handlers.rs
+++ b/server/crates/arbiter-server/src/peers/user_agent/session/handlers.rs
@@ -1,283 +0,0 @@
 use super::{Error, UserAgentSession};
 use crate::{
    actors::evm::{
        ClientSignTransaction, Generate, ListWallets, SignTransactionError as EvmSignError,
        UseragentCreateGrant, UseragentListGrants,
    },
    actors::flow_coordinator::client_connect_approval::ClientApprovalAnswer,
    actors::vault::VaultState,
    db::models::{EvmWalletAccess, NewEvmWalletAccess, ProgramClient, ProgramClientMetadata},
    evm::policies::{Grant, SpecificGrant},
 };
 use arbiter_crypto::authn;
 use alloy::{consensus::TxEip1559, primitives::Address, signers::Signature};
 use diesel::{ExpressionMethods as _, QueryDsl as _, SelectableHelper};
 use diesel_async::{AsyncConnection, RunQueryDsl};
 use kameo::{error::SendError, messages, prelude::Context};
 use tracing::error;
 #[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/vault_gate/mod.rs
+++ b/server/crates/arbiter-server/src/peers/user_agent/vault_gate/mod.rs
@@ -1,294 +0,0 @@
 use super::Credentials;
 use crate::{
    actors::{
        GlobalActors,
        vault::{self, Bootstrap, GetState, TryUnseal, VaultState, events},
    },
    crypto::integrity::{self},
    db::DatabasePool,
 };
 use arbiter_crypto::safecell::{SafeCell, SafeCellHandle as _};
 use state::*;
 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;
 #[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: Credentials,
    pub promotion_tx: Option<oneshot::Sender<Result<(), Error>>>,
    pub state: State,
    pub actors: GlobalActors,
    pub db: DatabasePool,
 }
 impl VaultGate {
    pub fn new(
        auth_creds: Credentials,
        actors: GlobalActors,
        db: DatabasePool,
        promotion_tx: oneshot::Sender<Result<(), 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"))
            }
        }
    }
    #[message]
    pub async fn handle_vault_state(&mut self) -> Result<VaultState, Error> {
        let answer = self
            .actors
            .vault
            .ask(GetState {})
            .await
            .map_err(|_| Error::internal("failed to query vault"))?;
        Ok(answer)
    }
 }
 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.id,
            )
            .await
            .map_err(|e| {
                error!(?e, "Failed to sign integrity envelope on bootstrap");
                Error::internal("Integrity sign failed")
            })?;
            Ok(())
        }
        .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 {
        if let Some(tx) = self.promotion_tx.take() {
            let _ = tx.send(Ok(()));
        }
        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
@@ -1,11 +0,0 @@
 use x25519_dalek::{PublicKey, SharedSecret};
 #[derive(Default)]
 pub enum State {
    #[default]
    Idle,
    ReadyForExchange {
        server_key: PublicKey,
        secret: SharedSecret,
    },
 }
--- a/server/crates/arbiter-server/src/safe_cell.rs
+++ b/server/crates/arbiter-server/src/safe_cell.rs
@@ -1,9 +1,7 @@
 use std::ops::{Deref, DerefMut};
 use std::{any::type_name, fmt};
 use memsafe::MemSafe;
 use std::{
    any::type_name,
    fmt,
    ops::{Deref, DerefMut},
 };
 pub trait SafeCellHandle<T> {
    type CellRead<'a>: Deref<Target = T>
@@ -107,11 +105,6 @@ 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-server/src/utils.rs
+++ b/server/crates/arbiter-server/src/utils.rs
@@ -1,3 +1,5 @@
 use std::ops::Deref;
 struct DeferClosure<F: FnOnce()> {
    f: Option<F>,
 }
@@ -14,3 +16,19 @@ impl<F: FnOnce()> Drop for DeferClosure<F> {
 pub fn defer<F: FnOnce()>(f: F) -> impl Drop + Sized {
    DeferClosure { f: Some(f) }
 }
 /// A trait for casting between two transparently wrapped types with identical memory layouts.
 ///
 /// [`ReinterpretWrapper`] enables zero-cost conversions between two types (`Self` and `Counterpart`)
 /// that wrap the same underlying data but differ in how that data is presented. Both types must
 /// transparently wrap the same "deref target" and provide bidirectional `AsRef` conversions.
 pub trait ReinterpretWrapper<Counterpart>
 where
    Self: Deref<Target = Self::Inner> + AsRef<Counterpart>,
    Counterpart: Deref<Target = Self::Inner> + AsRef<Self>,
 {
    /// The shared target type that both `Self` and `Counterpart` transparently wrap.
    type Inner;
    /// Reinterprets `Self` as `Counterpart`.
    fn reinterpret(self) -> Counterpart;
 }
--- a/server/crates/arbiter-server/tests/client/auth.rs
+++ b/server/crates/arbiter-server/tests/client/auth.rs
@@ -1,22 +1,20 @@
-use super::common::ChannelTransport;
+use arbiter_proto::ClientMetadata;
-use arbiter_crypto::{
+use arbiter_proto::transport::{Receiver, Sender};
    authn::{self, AuthChallenge, CLIENT_CONTEXT},
    safecell::{SafeCell, SafeCellHandle as _},
 };
 use arbiter_proto::{
    ClientMetadata,
    transport::{Receiver, Sender},
 };
 use arbiter_server::{
-    actors::{GlobalActors, vault::Bootstrap},
+    actors::{
        GlobalActors,
        client::{ClientConnection, ClientCredentials, auth, connect_client},
        keyholder::Bootstrap,
    },
    crypto::integrity,
    db::{self, schema},
-    peers::client::{ClientConnection, ClientCredentials, auth, connect_client},
+    safe_cell::{SafeCell, SafeCellHandle as _},
 };
 use diesel::{ExpressionMethods as _, NullableExpressionMethods as _, QueryDsl as _, insert_into};
 use diesel_async::RunQueryDsl;
-use ml_dsa::{KeyGen, MlDsa87, SigningKey, VerifyingKey, signature::Keypair as _};
+use ed25519_dalek::Signer as _;
 use super::common::ChannelTransport;
 fn metadata(name: &str, description: Option<&str>, version: Option<&str>) -> ClientMetadata {
    ClientMetadata {
@@ -29,7 +27,7 @@ fn metadata(name: &str, description: Option<&str>, version: Option<&str>) -> Cli
 async fn insert_registered_client(
    db: &db::DatabasePool,
    actors: &GlobalActors,
-    pubkey: VerifyingKey<MlDsa87>,
+    pubkey: ed25519_dalek::VerifyingKey,
    metadata: &ClientMetadata,
 ) {
    use arbiter_server::db::schema::{client_metadata, program_client};
@@ -47,7 +45,7 @@ async fn insert_registered_client(
        .unwrap();
    let client_id: i32 = insert_into(program_client::table)
        .values((
-            program_client::public_key.eq(pubkey.encode().to_vec()),
+            program_client::public_key.eq(pubkey.to_bytes().to_vec()),
            program_client::metadata_id.eq(metadata_id),
        ))
        .returning(program_client::id)
@@ -55,35 +53,28 @@ async fn insert_registered_client(
        .await
        .unwrap();
-    integrity::sign_entity(
+    let _ = integrity::sign_entity(
        &mut conn,
-        &actors.vault,
+        &actors.key_holder,
-        &ClientCredentials {
+        &ClientCredentials { pubkey, nonce: 1 },
            pubkey: pubkey.into(),
        },
        client_id,
    )
    .await
    .unwrap();
 }
 fn sign_client_challenge(key: &SigningKey<MlDsa87>, challenge: &AuthChallenge) -> authn::Signature {
    let challenge = challenge.format();
    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())
+    let sentinel_key = ed25519_dalek::SigningKey::generate(&mut rand::rng())
        .verifying_key()
-        .encode()
+        .to_bytes()
        .to_vec();
    insert_into(schema::useragent_client::table)
-        .values((schema::useragent_client::public_key.eq(sentinel_key),))
+        .values((
            schema::useragent_client::public_key.eq(sentinel_key),
            schema::useragent_client::key_type.eq(1i32),
        ))
        .execute(&mut conn)
        .await
        .unwrap();
@@ -94,7 +85,7 @@ async fn spawn_test_actors(db: &db::DatabasePool) -> GlobalActors {
    let actors = GlobalActors::spawn(db.clone()).await.unwrap();
    actors
-        .vault
+        .key_holder
        .ask(Bootstrap {
            seal_key_raw: SafeCell::new(b"test-seal-key".to_vec()),
        })
@@ -105,7 +96,7 @@ async fn spawn_test_actors(db: &db::DatabasePool) -> GlobalActors {
 #[tokio::test]
 #[test_log::test]
-async fn test_unregistered_pubkey_rejected() {
+pub async fn test_unregistered_pubkey_rejected() {
    let db = db::create_test_pool().await;
    let (server_transport, mut test_transport) = ChannelTransport::new();
@@ -116,11 +107,11 @@ async fn test_unregistered_pubkey_rejected() {
        connect_client(props, &mut server_transport).await;
    });
-    let new_key = MlDsa87::key_gen(&mut rand::rng());
+    let new_key = ed25519_dalek::SigningKey::generate(&mut rand::rng());
    test_transport
        .send(auth::Inbound::AuthChallengeRequest {
-            pubkey: new_key.verifying_key().into(),
+            pubkey: new_key.verifying_key(),
            metadata: metadata("client", Some("desc"), Some("1.0.0")),
        })
        .await
@@ -132,11 +123,11 @@ async fn test_unregistered_pubkey_rejected() {
 #[tokio::test]
 #[test_log::test]
-async fn test_challenge_auth() {
+pub async fn test_challenge_auth() {
    let db = db::create_test_pool().await;
    let actors = spawn_test_actors(&db).await;
-    let new_key = MlDsa87::key_gen(&mut rand::rng());
+    let new_key = ed25519_dalek::SigningKey::generate(&mut rand::rng());
    insert_registered_client(
        &db,
@@ -156,7 +147,7 @@ async fn test_challenge_auth() {
    // Send challenge request
    test_transport
        .send(auth::Inbound::AuthChallengeRequest {
-            pubkey: new_key.verifying_key().into(),
+            pubkey: new_key.verifying_key(),
            metadata: metadata("client", Some("desc"), Some("1.0.0")),
        })
        .await
@@ -169,14 +160,15 @@ async fn test_challenge_auth() {
        .expect("should receive challenge");
    let challenge = match response {
        Ok(resp) => match resp {
-            auth::Outbound::AuthChallenge { challenge } => challenge,
+            auth::Outbound::AuthChallenge { pubkey, nonce } => (pubkey, nonce),
            other => panic!("Expected AuthChallenge, got {other:?}"),
        },
        Err(err) => panic!("Expected Ok response, got Err({err:?})"),
    };
    // Sign the challenge and send solution
-    let signature = sign_client_challenge(&new_key, &challenge);
+    let formatted_challenge = arbiter_proto::format_challenge(challenge.1, challenge.0.as_bytes());
    let signature = new_key.sign(&formatted_challenge);
    test_transport
        .send(auth::Inbound::AuthChallengeSolution { signature })
@@ -199,10 +191,10 @@ async fn test_challenge_auth() {
 #[tokio::test]
 #[test_log::test]
-async fn test_metadata_unchanged_does_not_append_history() {
+pub async fn test_metadata_unchanged_does_not_append_history() {
    let db = db::create_test_pool().await;
    let actors = spawn_test_actors(&db).await;
-    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;
@@ -217,18 +209,18 @@ async fn test_metadata_unchanged_does_not_append_history() {
    test_transport
        .send(auth::Inbound::AuthChallengeRequest {
-            pubkey: new_key.verifying_key().into(),
+            pubkey: new_key.verifying_key(),
            metadata: requested,
        })
        .await
        .unwrap();
    let response = test_transport.recv().await.unwrap().unwrap();
-    let challenge = match response {
+    let (pubkey, nonce) = match response {
-        auth::Outbound::AuthChallenge { challenge } => challenge,
+        auth::Outbound::AuthChallenge { pubkey, nonce } => (pubkey, nonce),
        other => panic!("Expected AuthChallenge, got {other:?}"),
    };
-    let signature = sign_client_challenge(&new_key, &challenge);
+    let signature = new_key.sign(&arbiter_proto::format_challenge(nonce, pubkey.as_bytes()));
    test_transport
        .send(auth::Inbound::AuthChallengeSolution { signature })
        .await
@@ -256,10 +248,10 @@ async fn test_metadata_unchanged_does_not_append_history() {
 #[tokio::test]
 #[test_log::test]
-async fn test_metadata_change_appends_history_and_repoints_binding() {
+pub async fn test_metadata_change_appends_history_and_repoints_binding() {
    let db = db::create_test_pool().await;
    let actors = spawn_test_actors(&db).await;
-    let new_key = MlDsa87::key_gen(&mut rand::rng());
+    let new_key = ed25519_dalek::SigningKey::generate(&mut rand::rng());
    insert_registered_client(
        &db,
@@ -279,18 +271,18 @@ async fn test_metadata_change_appends_history_and_repoints_binding() {
    test_transport
        .send(auth::Inbound::AuthChallengeRequest {
-            pubkey: new_key.verifying_key().into(),
+            pubkey: new_key.verifying_key(),
            metadata: metadata("client", Some("new"), Some("2.0.0")),
        })
        .await
        .unwrap();
    let response = test_transport.recv().await.unwrap().unwrap();
-    let challenge = match response {
+    let (pubkey, nonce) = match response {
-        auth::Outbound::AuthChallenge { challenge } => challenge,
+        auth::Outbound::AuthChallenge { pubkey, nonce } => (pubkey, nonce),
        other => panic!("Expected AuthChallenge, got {other:?}"),
    };
-    let signature = sign_client_challenge(&new_key, &challenge);
+    let signature = new_key.sign(&arbiter_proto::format_challenge(nonce, pubkey.as_bytes()));
    test_transport
        .send(auth::Inbound::AuthChallengeSolution { signature })
        .await
@@ -343,11 +335,11 @@ async fn test_metadata_change_appends_history_and_repoints_binding() {
 #[tokio::test]
 #[test_log::test]
-async fn test_challenge_auth_rejects_integrity_tag_mismatch() {
+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 new_key = ed25519_dalek::SigningKey::generate(&mut rand::rng());
    let requested = metadata("client", Some("desc"), Some("1.0.0"));
    {
@@ -365,7 +357,7 @@ async fn test_challenge_auth_rejects_integrity_tag_mismatch() {
            .unwrap();
        insert_into(program_client::table)
            .values((
-                program_client::public_key.eq(new_key.verifying_key().encode().to_vec()),
+                program_client::public_key.eq(new_key.verifying_key().to_bytes().to_vec()),
                program_client::metadata_id.eq(metadata_id),
            ))
            .execute(&mut conn)
@@ -382,7 +374,7 @@ async fn test_challenge_auth_rejects_integrity_tag_mismatch() {
    test_transport
        .send(auth::Inbound::AuthChallengeRequest {
-            pubkey: new_key.verifying_key().into(),
+            pubkey: new_key.verifying_key(),
            metadata: requested,
        })
        .await
--- a/server/crates/arbiter-server/tests/common/mod.rs
+++ b/server/crates/arbiter-server/tests/common/mod.rs
@@ -1,20 +1,17 @@
 use arbiter_crypto::safecell::{SafeCell, SafeCellHandle as _};
 use arbiter_proto::transport::{Bi, Error, Receiver, Sender};
 use arbiter_server::{
-    actors::{GlobalActors, vault::Vault},
+    actors::keyholder::KeyHolder,
    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(crate) async fn bootstrapped_vault(db: &db::DatabasePool) -> Vault {
+pub async fn bootstrapped_keyholder(db: &db::DatabasePool) -> KeyHolder {
-    let mut actor = Vault::new(db.clone(), GlobalActors::spawn_message_bus())
+    let mut actor = KeyHolder::new(db.clone()).await.unwrap();
        .await
        .unwrap();
    actor
        .bootstrap(SafeCell::new(b"test-seal-key".to_vec()))
        .await
@@ -23,7 +20,7 @@ pub(crate) async fn bootstrapped_vault(db: &db::DatabasePool) -> Vault {
 }
 #[allow(dead_code)]
-pub(crate) async fn root_key_history_id(db: &db::DatabasePool) -> i32 {
+pub async fn root_key_history_id(db: &db::DatabasePool) -> i32 {
    let mut conn = db.get().await.unwrap();
    let id = schema::arbiter_settings::table
        .select(schema::arbiter_settings::root_key_id)
@@ -34,14 +31,14 @@ pub(crate) async fn root_key_history_id(db: &db::DatabasePool) -> i32 {
 }
 #[allow(dead_code)]
-pub(crate) struct ChannelTransport<T, Y> {
+pub struct ChannelTransport<T, Y> {
    receiver: mpsc::Receiver<T>,
    sender: mpsc::Sender<Y>,
 }
 impl<T, Y> ChannelTransport<T, Y> {
    #[allow(dead_code)]
-    pub(crate) fn new() -> (Self, ChannelTransport<Y, T>) {
+    pub fn new() -> (Self, ChannelTransport<Y, T>) {
        let (tx1, rx1) = mpsc::channel(10);
        let (tx2, rx2) = mpsc::channel(10);
        (
--- a/server/crates/arbiter-server/tests/keyholder.rs
+++ b/server/crates/arbiter-server/tests/keyholder.rs
@@ -0,0 +1,8 @@
 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/keyholder/concurrency.rs
+++ b/server/crates/arbiter-server/tests/keyholder/concurrency.rs
@@ -1,21 +1,19 @@
-use crate::common;
+use std::collections::{HashMap, HashSet};
 use arbiter_crypto::safecell::{SafeCell, SafeCellHandle as _};
 use arbiter_server::{
    actors::{
        GlobalActors,
        vault::{CreateNew, Error, Vault},
    },
    db::{self, models, schema},
 };
 use arbiter_server::{
    actors::keyholder::{CreateNew, Error, KeyHolder},
    db::{self, models, schema},
    safe_cell::{SafeCell, SafeCellHandle as _},
 };
 use diesel::{ExpressionMethods as _, QueryDsl, SelectableHelper, dsl::sql_query};
 use diesel_async::RunQueryDsl;
 use kameo::actor::{ActorRef, Spawn as _};
 use std::collections::{HashMap, HashSet};
 use tokio::task::JoinSet;
 use crate::common;
 async fn write_concurrently(
-    actor: ActorRef<Vault>,
+    actor: ActorRef<KeyHolder>,
    prefix: &'static str,
    count: usize,
 ) -> Vec<(i32, Vec<u8>)> {
@@ -45,7 +43,7 @@ async fn write_concurrently(
 #[test_log::test]
 async fn concurrent_create_new_no_duplicate_nonces_() {
    let db = db::create_test_pool().await;
-    let actor = Vault::spawn(common::bootstrapped_vault(&db).await);
+    let actor = KeyHolder::spawn(common::bootstrapped_keyholder(&db).await);
    let writes = write_concurrently(actor, "nonce-unique", 32).await;
    assert_eq!(writes.len(), 32);
@@ -67,7 +65,7 @@ async fn concurrent_create_new_no_duplicate_nonces_() {
 #[test_log::test]
 async fn concurrent_create_new_root_nonce_never_moves_backward() {
    let db = db::create_test_pool().await;
-    let actor = Vault::spawn(common::bootstrapped_vault(&db).await);
+    let actor = KeyHolder::spawn(common::bootstrapped_keyholder(&db).await);
    write_concurrently(actor, "root-max", 24).await;
@@ -95,7 +93,7 @@ async fn concurrent_create_new_root_nonce_never_moves_backward() {
 #[test_log::test]
 async fn insert_failure_does_not_create_partial_row() {
    let db = db::create_test_pool().await;
-    let mut actor = common::bootstrapped_vault(&db).await;
+    let mut actor = common::bootstrapped_keyholder(&db).await;
    let root_key_history_id = common::root_key_history_id(&db).await;
    let mut conn = db.get().await.unwrap();
@@ -157,14 +155,12 @@ async fn insert_failure_does_not_create_partial_row() {
 #[test_log::test]
 async fn decrypt_roundtrip_after_high_concurrency() {
    let db = db::create_test_pool().await;
-    let actor = Vault::spawn(common::bootstrapped_vault(&db).await);
+    let actor = KeyHolder::spawn(common::bootstrapped_keyholder(&db).await);
    let writes = write_concurrently(actor, "roundtrip", 40).await;
    let expected: HashMap<i32, Vec<u8>> = writes.into_iter().collect();
-    let mut decryptor = Vault::new(db.clone(), GlobalActors::spawn_message_bus())
+    let mut decryptor = KeyHolder::new(db.clone()).await.unwrap();
        .await
        .unwrap();
    decryptor
        .try_unseal(SafeCell::new(b"test-seal-key".to_vec()))
        .await
--- a/Show More
+++ b/Show More
Author	SHA1	Message	Date
CleverWild	694c569c08	feat(integrity): introduce sealed provenance markers for `Verified` Some checks failed ci/woodpecker/pr/server-audit Pipeline failed 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	2026-04-15 19:45:59 +02:00
CleverWild	bec82e036e	feat(integrity): derive-like macro VerifiedFields that allows to inherit `Verified<T>` type's provenance to all fields of `T` Some checks failed ci/woodpecker/pr/server-audit Pipeline was successful Details ci/woodpecker/pr/server-lint Pipeline was successful Details ci/woodpecker/pr/server-vet Pipeline failed Details ci/woodpecker/pr/server-test Pipeline was successful Details	2026-04-11 03:53:25 +02:00
CleverWild	763058b014	feat(server): unify integrity API and propagate verified IDs through auth/EVM flows 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 was successful Details ci/woodpecker/pr/server-test Pipeline was successful Details	2026-04-07 21:12:36 +02:00
`@@ -1,2 +1,2 @@`
	`pub(super) mod inbound;`	`pub mod inbound;`
	`pub(super) mod outbound;`	`pub mod outbound;`