Files
alknet/crates/alknet-vault/tests/service_tests.rs
glm-5.2 55d356cb4e feat(vault): version-indexed encryption key paths, CURRENT_KEY_VERSION=2, rotate method (ADR-021)
- Bump CURRENT_KEY_VERSION from 1 to 2 (v1 reserved for TS PBKDF2 legacy per ADR-020)
- Add derivation::encryption_path_for_version(version) -> m/74'/2'/0'/{version-2}', returns InvalidPath for version < 2
- Add VaultServiceHandle::derive_encryption_key_for_version(version), cached by path, returns InvalidPath for version < 2
- encrypt/decrypt now derive at encryption_path_for_version(key_version) instead of fixed PATHS::ENCRYPTION
- Add VaultServiceHandle::rotate(encrypted, to_version): decrypt old, re-encrypt new
- Update existing tests to use v2; add round-trip, rotation, partial-rotation, and invalid-version tests

Task: vault/key-versioning-rotation
2026-06-23 13:35:44 +00:00

99 lines
2.8 KiB
Rust

//! Integration tests for the VaultService lifecycle.
//!
//! These tests verify the unlock/lock lifecycle, error conditions,
//! and that the vault correctly manages state transitions.
use alknet_vault::derivation::PATHS;
use alknet_vault::service::{VaultServiceError, VaultServiceHandle};
#[test]
fn test_full_lifecycle() {
let service = VaultServiceHandle::new();
// Starts locked
assert!(!service.is_unlocked());
// Can't derive while locked
let result = service.derive_ed25519(PATHS::IDENTITY);
assert!(matches!(result, Err(VaultServiceError::VaultLocked)));
// Unlock
let phrase = service.unlock_new(24).unwrap();
assert!(service.is_unlocked());
assert!(!phrase.is_empty());
// Can derive while unlocked
let key = service.derive_ed25519(PATHS::IDENTITY).unwrap();
assert!(!key.private_key.is_empty());
// Lock
service.lock();
assert!(!service.is_unlocked());
// Can't derive again
let result = service.derive_ed25519(PATHS::IDENTITY);
assert!(matches!(result, Err(VaultServiceError::VaultLocked)));
}
#[test]
fn test_unlock_with_known_phrase() {
let service = VaultServiceHandle::new();
// Generate a phrase
let phrase = service.unlock_new(24).unwrap();
service.lock();
// Re-unlock with the same phrase
service.unlock(&phrase, None).unwrap();
assert!(service.is_unlocked());
// Different passphrase produces different seed
// (tested by deriving keys with different passphrases)
}
#[test]
fn test_double_unlock_fails() {
let service = VaultServiceHandle::new();
service.unlock_new(24).unwrap();
let result = service.unlock_new(12);
assert!(matches!(result, Err(VaultServiceError::AlreadyUnlocked)));
}
#[test]
fn test_lock_when_already_locked_is_noop() {
let service = VaultServiceHandle::new();
assert!(!service.is_unlocked());
// Lock on already-locked service is a no-op
service.lock();
assert!(!service.is_unlocked());
}
#[test]
fn test_encrypt_decrypt_lifecycle() {
let service = VaultServiceHandle::new();
service.unlock_new(24).unwrap();
let plaintext = "my-api-key-12345";
let encrypted = service.encrypt(plaintext, 2).unwrap();
let decrypted = service.decrypt(&encrypted).unwrap();
assert_eq!(decrypted, plaintext);
// After lock, can't decrypt
service.lock();
let result = service.decrypt(&encrypted);
assert!(matches!(result, Err(VaultServiceError::VaultLocked)));
}
#[test]
fn test_multiple_derive_paths_succeed() {
let service = VaultServiceHandle::new();
service.unlock_new(24).unwrap();
// All standard paths should work
let _identity = service.derive_ed25519(PATHS::IDENTITY).unwrap();
let _ssh = service.derive_ed25519(PATHS::SSH_HOST).unwrap();
let _enc = service.derive_encryption_key(PATHS::ENCRYPTION).unwrap();
}