Document the three-tier registry model (core/session/promotion) and the
self-improving agent workflow where agents write their own operations in
a quickjs sandbox. The POC at /workspace/toolEnv demonstrated the sandbox
mechanism (quickjs in Deno web workers, proxy-based env bridge via
postMessage) but exposed the full registry to the sandbox — the security
gap that OQ-18's scoped composition env addresses.
The call protocol doesn't need changes: the OperationEnv trait is the
composition point, and a session-scoped env wraps the global env (session
registry first, fall through to global). The one-way door this OQ guards
against: making OperationEnv concrete instead of a trait, or hardcoding
the global registry into the dispatch path, would close the session-overlay
pattern. Session-scoped operations are always Internal, run under the
handler's identity, and are ephemeral. Promotion to core requires curation
review (architect role with promote scope).
The abort cascade and privilege model are call protocol semantics that
every consumer inherits — NAPI adapter, Python adapter, agent service, and
any future service speaking the EventEnvelope wire format. Framing them as
'needs agent crate in view' let a single consumer's timeline gate a
protocol-level decision. The agent use case is a useful test case for edge
cases, but the decisions belong to the call protocol.
The 'trusted' flag on OperationContext was the wrong word — it implies a
trust decision was made, but what actually happens is the call originated
internally (from composition) not externally (from the wire). Renamed to
'internal' with clarified semantics: internal calls switch authority
context to the handler's identity, not skip ACL. This prevents the
privilege escalation vector where composition with 'trusted: true' bypassed
all access control (buggy handler + parameterized dispatch).
- Rename trusted -> internal across operation-registry.md, ADR-014
- Update OperationContext field description and LocalOperationEnv code
- Add OQ-17: abort cascade for nested calls (call.aborted cascades to
descendants, default abort-dependents, continue-running opt-in). One-way
door on the protocol event schema; mechanism is a two-way door.
- Add OQ-18: privilege model and authority context (internal = authority
switch not ACL skip, External/Internal operation visibility, scoped
composition env + handler identity). Needs agent crate in view.
- Add abort cascade section and constraint to call-protocol.md
- Update crates/call/README.md with OQ-17, OQ-18, and two new design principles
- Update architecture README.md with OQ-17, OQ-18
Resolve the contradiction between ADR-008's "capability source" model
and operation-registry.md showing vault operations on the wire. ADR-014
establishes: vault is assembly-layer only, capabilities carry outbound
credentials (distinct from inbound identity), call protocol carries no
secret material, adapters take credential sources not static tokens.
- Add ADR-014 (Secret Material Flow and Capability Injection)
- Remove vault/derive, vault/unlock, vault/decrypt from call protocol
registration examples and all spec examples
- Add Capabilities field to OperationContext, propagate through
LocalOperationEnv nested calls
- Add Capability Injection section to operation-registry.md
- Add no-secret-material wire constraint to call-protocol.md
- Add streaming subscribe example (LLM chat with Vercel UI chunks)
- Add Security Model section to overview.md (identity vs capabilities)
- Trim WASM treatment from ~20 lines to a design-constraint note
- Add OQ-16 (resolved: no vault ops on wire), update OQ-08, OQ-15
- Update ADR-003, ADR-008, ADR-013 to remove stale "via call protocol"
vault references
- Rewrite OQ-12: separate two distinct TLS identity use cases (RFC 7250
raw keys as default for P2P, X.509 for domain-hosted/browsers) instead
of conflating them as 'file paths now, ACME later'. ACME is a proven
pattern from the reverse-proxy project, not speculative future work.
- Resolve OQ-13 and OQ-14: remove 'Phase 1' framing from core crate
specs. /{service}/{op} is the correct design for alknet-call, not a
simplification. Batch as correlated call.requested events is the correct
protocol design. Core crates need to be done right from the start.
- Add ADR-013: Rust as canonical implementation language. TypeScript
@alkdev/operations is a reference that informed the design, not a
parallel implementation. The only JS use case is browser SDK adaptation.
Five reasons: memory safety, LLM competence, supply chain attacks,
performance, browser-only JS.
- Add alknet-agent crate to the crate graph (depends on alknet-call, not
alknet-core). Agent service uses call protocol client for tool dispatch
and vault/derive for provider keys — no env vars for secrets. ALPN
alknet/agent added to the registry.
- Add OQ-15: call protocol client and adapter contract. alknet-call needs
both server (CallAdapter) and client (remote invocation over QUIC), plus
the adapter traits (from_*, to_*) that enable composition.
- Clarify alknet-napi as thin NAPI projection layer, not business logic.
- Fix bugs: ProtocolController → ProtocolHandler typo, OperationEnv
invoke() path format inconsistency, RateLimitConfig comment confusion.
- Update endpoint.md TLS section: comprehensive identity model comparison
table, RFC 7250 as default mode, ACME as proven pattern.
Add architecture specs for the alknet-call crate:
- call-protocol.md: CallAdapter, EventEnvelope wire format, bidirectional
stream model with ID-based correlation, PendingRequestMap, protocol
operations (call/subscribe/batch/schema), per-request identity resolution,
connection/stream lifecycle, error codes
- operation-registry.md: OperationSpec, async Handler type, OperationRegistry,
AccessControl with trusted call bypass, OperationEnv with context
propagation (parent_request_id, identity inheritance), service discovery,
irpc integration layering, naming convention (no leading slash in names)
- ADR-012: Call protocol uses bidirectional QUIC streams with EventEnvelope
framing and ID-based correlation. Protocol is stream-agnostic and symmetric.
Resolves OQ-07.
Key design decisions:
- Handler type is async (Fn returning Pin<Box<dyn Future>>)
- OperationEnv::invoke propagates parent context (identity, metadata,
parent_request_id)
- Identity resolution is per-request, not per-connection
- Operation names without leading slash (fs/readFile, not /fs/readFile)
- Batch is a client-side pattern, not a protocol primitive (OQ-14)
- Phase 1 uses service/op paths, node prefix added later (OQ-13)
Also: promote ADR-010 and ADR-011 from Proposed to Accepted, add OQ-13
and OQ-14 to open-questions.md.
iroh uses RFC 7250 raw Ed25519 public keys for TLS instead of X.509
certificates. rustls already supports this. This means the quinn
endpoint can also use raw public keys — same key-based identity model
as iroh, but with direct QUIC over UDP. X.509 is optional, needed
only for domain-facing identity (browser/WebTransport clients).
Update StaticConfig with TlsIdentity enum (X509, RawKey, SelfSigned)
and add iroh_relay field. Remove 'iroh deferred' language — iroh is
a first-class connectivity mode.
iroh's Endpoint natively supports ALPN negotiation and set_alpns(). Our
HandlerRegistry dispatches exactly like iroh's own ProtocolMap/Router
pattern, but shared across both quinn and iroh connection sources. We
use iroh::Endpoint directly (not iroh::Router) because our HandlerRegistry
and AuthContext are shared across sources.
Correct the conflation of quinn/TLS/iroh as interchangeable transports.
They are complementary connectivity modes serving different deployment
contexts: quinn (public IP + TLS), iroh (NAT traversal via relay), TCP
(handler-specific, not core). Clarify that TLS cert = network identity,
not auth identity. Map stealth mode to HTTP handler on standard ALPNs
instead of byte-peeking. Resolve OQ-05 as one-way door. SendStream/
RecvStream now use internal enum dispatch for both quinn and iroh
streams.
Rename the crate from alknet-secret to alknet-vault to better reflect its
purpose as a local key vault (seed management, key derivation, encryption)
rather than a network service.
Symbol renames:
- SecretService → VaultService
- SecretServiceHandle → VaultServiceHandle
- SecretServiceActor → VaultServiceActor
- SecretServiceError → VaultServiceError
- SecretProtocol → VaultProtocol
- SecretMessage → VaultMessage
- ServiceLocked → VaultLocked
- alknet_secret → alknet_vault (crate name)
Update ADR-008 with vault access pattern: the vault is a capability source,
not a service endpoint. The CLI injects derived/decrypted material into
operation contexts — handlers never hold vault references.
Phase 5 now references the architect role and SDD process from
docs/sdd_process.md instead of creating ad-hoc spec stubs. Added
key new ADRs and architecture docs the architect will need to produce.
Updated gitserver reference note (MPL concern, archive it).
Kept rudolfs reference (MIT/Apache, fork candidate).
Also removed 'needs-update' status from the lifecycle states since
it's not part of the SDD process — stale docs get annotated with a
note and existing status, not a new status.
The Unlock variant had a single field used as the
mnemonic, with no way to convey the BIP39 password extension (25th word).
The actor handler silently passed for the passphrase, making it
impossible to unlock with a BIP39 passphrase via irpc.
Split into + to match
the spec and SecretServiceHandle::unlock() signature.
Update secret-service.md to reflect the actual alknet-secret implementation:
- Fix dependency names/versions: secp256k1 (not libsecp256k1), version 0.29,
add tokio/irpc-derive/hmac/rand, use workspace refs
- Add SecretServiceActor and CacheConfig to public API
- Add ethereum.rs module to crate structure, fix test_vectors.rs filename
- DerivedKey is move-only (not Clone), matching the stronger security impl
- Update BIP39 pseudocode to actual derive_path_from_seed() API
- Document derive_password_string() convenience method
- Document SecretServiceActor::spawn() in irpc integration model
- Update Unlock variant to target state: { mnemonic, passphrase: Option }
- Add implementation gap note pointing to unlock-passphrase-gap task
Add tasks/integration/phase3/secret-service/unlock-passphrase-gap.md:
- Fix Unlock protocol variant to carry both mnemonic and BIP39 passphrase
- Currently the irpc message only has passphrase: String (used as mnemonic)
- The handle supports both parameters but the protocol can't convey them
Apply #[rpc_requests(message = SecretMessage)] to SecretProtocol enum with
#[rpc(tx=oneshot::Sender<Result<T, SecretServiceError>>)] and #[wrap] attributes
on each variant. Add SecretServiceActor that wraps SecretServiceHandle and
processes SecretMessage variants via mpsc channel. Update DerivedKey
serialization to use is_human_readable() so postcard preserves private_key
bytes while JSON redacts them. Add Serialize/Deserialize to SecretServiceError
for irpc wire format compatibility. Add tokio dependency for actor runtime.
Implement KeyCache in cache.rs with CachedKey (Zeroize-protected),
CacheConfig (TTL + max_entries), and lazy eviction. Wire cache into
SecretServiceInner: derive_* methods check cache before re-deriving,
Lock clears and zeroizes all cache entries, encrypt/decrypt use
cached encryption key. Per ADR-038 and OQ-SVC-04.
Implements deterministic password derivation using SLIP-0010 at the
given path. derive_password returns raw truncated key bytes;
derive_password_string returns Base64url-encoded (no padding) string.
Both require unlocked state (ServiceLocked if locked). Includes unit
tests for determinism, different paths, length truncation, locked
error, and Base64url encoding.
Per ADR-038, DerivedKey.private_key now derives Zeroize with #[zeroize(drop)]
ensuring sensitive key material is zeroized before deallocation. DerivedKey
is now move-only (no Clone), and JSON/debug output redacts private_key as
"[REDACTED]". Deserialization still works for postcard/irpc wire format.
Also fixes clippy needless_borrows_for_generic_args in encryption.rs and
applies cargo fmt to existing code.
Add module-level documentation explaining that the salt field is reserved
for Phase B KDF-based key rotation. Add doc comment on the salt field
clarifying it is not used in v1 key derivation. Add TODO(Phase B) comment
on salt generation in encrypt().
- Add irpc (0.16) and irpc-derive (0.16) as workspace dependencies
- Add irpc, irpc-derive, and secp256k1 (optional) to alknet-secret Cargo.toml
- Clarify encryption-salt-kdf task: Option B (document salt as reserved) is the
chosen path per spec update, removing Option A acceptance criteria
- Update irpc-secret-protocol-integration task with concrete irpc crate details:
real crate on crates.io v0.16, #[rpc_requests] macro, workspace config,
AuthProtocol pattern reference, DerivedKey serialization considerations
- Fix secp256k1-ethereum-derivation task: correct crate name is secp256k1
(not libsecp256k1), add version pin 0.29
9 atomic tasks for alknet-secret spec conformance and gap closure,
derived from architect's implementation review. Dependencies form
a 5-generation graph starting with spec update, then parallel
implementation tasks, ending with a review gate.
Tasks address: DerivedKey zeroize security, key caching with TTL,
irpc protocol integration, password derivation, secp256k1/Ethereum
derivation, encryption salt/KDF, crypto test vectors, and final
spec conformance review.
Create the alknet-secret crate with BIP39 mnemonic generation, SLIP-0010
Ed25519 HD key derivation, AES-256-GCM encryption, and SecretProtocol
irpc service definition. This is Phase 3.1 from the integration plan.
Architecture changes:
- Promote secret-service.md to reviewed status with full spec format
(crate structure, public API, security model, phase progression,
ADR/OQ cross-references, wire format compatibility section)
- Add ADR-038 (seed lifecycle and memory security): zeroize for v1,
mlock deferred to Phase B
- Add OQ-SEC-01 (mlock/VirtualLock for seed RAM) to open-questions.md
- Update README.md with ADR-038 and secret-service status
Crate structure:
- src/mnemonic.rs: BIP39 phrase generation, validation, seed derivation
- src/derivation.rs: SLIP-0010 HD key derivation, path constants (74')
- src/encryption.rs: AES-256-GCM encrypt/decrypt, EncryptedData type
- src/protocol.rs: SecretProtocol irpc enum, DerivedKey, KeyType
- src/service.rs: SecretServiceHandle with Unlock/Lock lifecycle
- 40 passing tests (unit + integration + doc)