Break the alknet-http architecture spec into atomic, dependency-ordered
tasks in tasks/http/, following the taskgraph frontmatter conventions
used by the call/core/vault crates.
Tasks span 7 phases across 5 module subdirectories (server/, gateway/,
client/, adapters/, websocket/):
- Phase 0: crate-init (foundation)
- Phase 1: gateway-dispatch-spine, error-mapping, shared-http-client
(shared infrastructure)
- Phase 2: http-adapter, bearer-auth-middleware, gateway-endpoints,
healthz-decoy (HTTP server surface)
- Phase 3: to-openapi (OpenAPI gateway projection)
- Phase 4: from-openapi (OpenAPI adapter, reqwest forwarding)
- Phase 5: dispatcher-transport-abstraction, upgrade-handler,
connection-overlay (WebSocket browser bidirectional path)
- Phase 6: from-mcp, to-mcp (MCP adapters, feature-gated)
- Phase 7: review-http, review-websocket, review-mcp, review-http-final
(quality checkpoints)
The gateway-dispatch-spine task implements the thin shared core
recommended by the gateway-factoring research (concrete struct, not a
trait). The dispatcher-transport-abstraction task is a cross-crate
change to alknet-call (exposes EventEnvelope-level dispatch API for
non-QUIC transports) — the highest-risk task. WebTransport/h3 is
deferred per ADR-044 and has no tasks; from_wss is out of scope.
Validated: 19 tasks, no cycles, 8 parallel generations, critical path
length 8 (through the WebSocket strand).
The #2 gap in alknet-call: discovers the remote peer's External operations
via services/list + services/schema and registers them in the connection's
Layer 2 overlay as FromCall-provenance leaves with forwarding handlers. The
discovery mechanism was already implemented in registry/discovery.rs;
from_call is the client-side consumer of that API.
src/client/from_call.rs:
- from_call(connection, FromCallConfig) -> Result<Vec<HandlerRegistration>,
AdapterError>. Calls services/list then services/schema for each op,
rebuilds OperationSpec from the schema JSON (parsing op_type, visibility,
error_schemas, access_control), constructs a forwarding handler that calls
the remote op via CallConnection::call(), and returns FromCall-provenance
bundles (composition_authority: None, scoped_env: None, empty capabilities,
remote_safe: false per ADR-028 §4).
- FromCallConfig { namespace_prefix: Option<String>, operation_filter:
Option<HashSet<String>> } with builder methods.
- v1 defaults (two-way doors recorded in client-and-adapters.md):
- error-on-collision (DC-3/OQ-28): applying the (possibly empty) prefix
produces a name already seen -> AdapterError::Conflict, not silent
overwrite.
- auto-on-reconnect (DC-2/OQ-27): the overlay is per-connection (Layer 2,
ADR-024), so re-import on reconnect is naturally scoped; the assembly
layer calls from_call immediately after connect().
- Forwarding handler captures an Arc<CallConnection> and, on invocation,
calls the remote op and returns its ResponseEnvelope. The
parent_request_id participates in the cross-node abort cascade
(ADR-016 §6) — if the parent is aborted, the cascade reaches this handler
which sends call.aborted to the remote node; cross-node abort is
transparent.
- Trust is transitive (recorded in spec): a from_call-imported op executes
the remote node's code; scoped_env bounds which ops are reachable, not
what they do.
OperationContext.internal is now pub (was pub(crate)) so downstream
consumers (assembly layer, integration tests) can construct contexts for
overlay-env dispatch.
Tests (207 lib + 2 integration):
- Unit: rebuild_spec name/prefix/op_type/visibility/error_schemas/acl;
unknown op_type -> SchemaParse; missing op_type -> SchemaParse;
FromCallConfig builder; from_call against a mock connection returns
DiscoveryFailed (no transport); FromCall provenance + leaf fields + remote_safe false.
- Integration (tests/two_node_call.rs): from_call over a real QUIC loopback
— CallClient connects, from_call discovers server/echo, registers the
bundle in the overlay, and the forwarding handler round-trips an input
through the overlay env to the remote op and back.
clippy + fmt + test all green.
Refs: tasks/call/client/from-call.md
Refs: docs/architecture/decisions/017-call-protocol-client-and-adapter-contract.md §3, §6
Refs: docs/architecture/crates/call/client-and-adapters.md §from_call
The #1 gap in alknet-call: the outbound connection opener. Every downstream
consumer (runner, container service, bilateral exchange, NAPI, agent
cross-node dispatch) is blocked on it.
Shared dispatch loop (ADR-017 §1 — the architectural commitment that keeps
CallClient from becoming a parallel protocol implementation):
- Extracts the accept-path dispatch (sweeper, accept_bi loop, handle_stream,
dispatch_requested, build_root_context, compose_root_env, fail_all on
close) out of CallAdapter into a new protocol/dispatch.rs Dispatcher struct.
Both CallAdapter::handle and CallClient::connect produce a CallConnection
and hand it to Dispatcher::run_loop — the loop is genuinely shared
(refactored, not duplicated).
- CallAdapter keeps its public API and test-facing wrappers (pub(crate),
#[cfg(test)]-gated) that delegate to the Dispatcher.
Peer-scoped default-deny (ADR-028 — the one-way-door security dimension):
- RemoteFilter { trusted_peer: bool } on the Dispatcher. In default-deny
mode (CallClient::new), an incoming call to an op with remote_safe: false
returns NOT_FOUND *before* any capability material reaches the handler —
a remote peer's call must not populate OperationContext.capabilities from
the local registration bundle unless the op is explicitly remote-safe
(ADR-028 Context). Trusted-peer mode (CallClient::trusted_peer, explicit
opt-in) bypasses the filter.
- The accept path (CallAdapter) uses RemoteFilter::trusted() by convention: a
direct QUIC client is not a filtered CallClient peer in the ADR-028 sense.
- OperationRegistry::list_operations_peer_scoped(trusted_peer) +
services_list_handler_peer_scoped for the CallClient's services/list
serving path (ADR-028 Assumption 2: a peer should not see ops it cannot
call, so discovery and dispatch filters agree).
CallClient (src/client/call_client.rs):
- CallClient { registry, identity_provider, trusted_peer: bool }.
- new() default-deny; trusted_peer() explicit opt-in (ADR-028 §3).
- connect(addr, CallCredentials) dials QUIC on ALPN alknet/call (quinn
feature), spawns Dispatcher::run_loop, returns a live CallConnection.
- spawn_dispatch(connection) shared path for connect + tests.
- CallCredentials { tls_identity, auth_token, remote_identity } — all from
Capabilities (ADR-014), never env vars (no-env-vars invariant). v1
connects without client-auth TLS identity (server uses
AcceptAnyCertVerifier); RawKey client-auth is a two-way-door remainder.
- RemoteIdentity { fingerprint } — concrete shape is a two-way door (OQ-25
remainder); the one-way constraint is it comes from Capabilities.
- ClientError { Transport, TlsSetup, ConnectionClosed }.
- CallConnection is now Clone (shares the inner Arcs) so connect can hand
the caller a live clone while the dispatcher task keeps its clone.
Tests (199 lib + 1 integration):
- Unit: default-deny NOT_FOUND for non-remote-safe; remote_safe dispatches;
trusted-peer dispatches all External; default-deny does NOT populate
capabilities (the load-bearing security assertion — verified by a handler
that inspects context.capabilities and the fact that the handler is never
reached for non-remote-safe ops); remote_safe op populates capabilities;
services/list peer-scoped hide/trusted variants; CallClient constructors;
CallCredentials builder; Send+Sync.
- Integration (tests/two_node_call.rs): real QUIC loopback — CallAdapter
server (self-signed cert via rcgen) accepts, CallClient connects,
client.call() round-trips to server/echo. Proves the connect path +
shared dispatch loop work end-to-end.
clippy + fmt + test all green.
Refs: tasks/call/client/call-client.md
Refs: docs/architecture/decisions/017-call-protocol-client-and-adapter-contract.md §1, §2, §7
Refs: docs/architecture/decisions/028-callclient-peer-scoped-registry-filtering.md
Refs: docs/architecture/crates/call/client-and-adapters.md
Adds the v1 data shape for peer-scoped default-deny registry filtering,
the one-way-door piece of the call-completion batch (ADR-028):
- HandlerRegistration gains pub remote_safe: bool, defaulting false across
all provenance (Local, Session, FromOpenAPI, FromMCP, FromCall,
FromJsonSchema) per ADR-028 §4. HandlerRegistration::new() keeps its
existing 6-arg signature (defaults remote_safe: false), so all current
call sites compile unchanged.
- Chainable HandlerRegistration::remote_safe(bool) setter + a
OperationRegistryBuilder::remote_safe() helper that marks the
most-recently-registered op (tracked via last_name, not HashMap
iteration order which is unspecified).
- Field is data-only here — the filtering behavior (dispatch path +
services/list hide) is wired in call/client/call-client, not this task.
services/list is unchanged.
- Tests: default false, setter flips field, all six provenance variants
default false, builder setter marks last op, existing call sites
unchanged. 178 tests pass, clippy clean.
Refs: tasks/call/registry/remote-safe-marking.md
Refs: docs/architecture/decisions/028-callclient-peer-scoped-registry-filtering.md
Resolves the four gap-analysis decisions (DC-1..4) blocking the alknet-call
client/adapter surface specced in ADR-017:
- ADR-028 (new): locks the one-way door for DC-1 — CallClient registry is
default-deny (remote_safe: bool on HandlerRegistration, default false across
all provenance); share-global is an explicit trusted-peer opt-in; filtering
is a dispatch-time read over the single Layer-0 registry, not a copy.
- client-and-adapters.md (new spec): operationally fills the gap ADR-017 left
to implementation — CallClient, from_call, from_jsonschema, OperationAdapter
trait, adapter location map, no-env-vars invariant, exchange-of-operations
pattern. Keeps call-protocol.md and operation-registry.md under the
700-line split threshold.
- ADR-017 amended: records DC-2/3/4 v1 defaults (auto-on-reconnect,
error-on-collision, Result error type) and points DC-1 at ADR-028.
- OQ-25..28 (new): two-way-door remainders (remote_safe shape, AdapterError
variants, re-import trigger, namespace collision) with v1 defaults recorded.
- Index/cross-ref updates across READMEs and the two existing call specs.
Tasks: 6 task files under tasks/call/ decomposing the completion work along
the gap-analysis priority order — remote-safe-marking (one-way door, first)
→ call-client (phase-risk) → from-call → operation-adapter-trait →
from-jsonschema (parallel with call-client) → review-completion. Graph
validated with taskgraph; parallelism designed in (from-jsonschema runs
concurrent with call-client/from-call once the trait lands).
Three tasks implementing ADR-027:
1. core/rawkey-decouple-from-iroh: TlsIdentity::RawKey now uses
Ed25519SecretKey (alknet-core-owned wrapper over ed25519_dalek)
instead of iroh::SecretKey. RawKeyCertResolver and Ed25519SigningKey
un-gated from #[cfg(all(quinn, iroh))] to #[cfg(quinn)] only.
Quinn-only builds (default) now support RFC 7250 raw-key identity.
iroh transport converts via iroh::SecretKey::from_bytes.
2. core/endpoint-request-client-cert: replaced with_no_client_auth()
with AcceptAnyCertVerifier — a custom ClientCertVerifier that
requests client certs but doesn't require them or verify against
a CA. alknet's identity model is fingerprint-based (the
authorized_fingerprints set is the trust anchor), not PKI-based.
Peer certs are extracted at the TLS layer for fingerprinting;
peers without certs connect normally.
3. core/acme-integration: TlsIdentity::Acme variant (domains,
cache_dir, directory, contact) + AcmeDirectory enum. TlsSetup
two-phase construction: synchronous for X509/RawKey/SelfSigned,
async for Acme (spawns AcmeState event loop, builds ServerConfig
with ResolvesServerCertAcme). acme-tls/1 ALPN added when ACME is
active; dispatch_quinn guard closes challenge connections
gracefully (challenge is TLS-layer-handled). acme feature gate
keeps rustls-acme out of non-ACME builds.
Workspace: build/test/clippy green across all 3 feature configs
(quinn-only, quinn+iroh, quinn+acme, all-features). 331 tests, 0
failures, 0 warnings.
ADR-027 resolves the architectural gap surfaced when ACME integration
became a concrete target:
1. TlsIdentity::Acme variant — static config data (domains, cache_dir,
directory, contact) with async AcmeState constructed at endpoint
setup via two-phase TlsSetup (not stuffed into the Clone-able enum).
2. TlsIdentity::RawKey decoupled from the iroh feature — uses
Ed25519SecretKey (alknet-core-owned wrapper over ed25519_dalek)
instead of iroh::SecretKey. Raw-key TLS identity (RFC 7250, the
default for most alknet nodes) now works in quinn-only builds.
iroh transport converts via SecretKey::from_bytes.
3. ACME feature-gated behind new acme feature (rustls-acme optional
dep). Non-ACME builds don't compile it.
4. dispatch_quinn guard for acme-tls/1 challenge connections — TLS-ALPN-01
is handled at the rustls cert resolver layer during the handshake;
the guard closes challenge connections gracefully instead of logging
a misleading "no handler" warning.
Research confirmed QUIC (quinn) handles ACME challenges differently than
TCP (reverse-proxy): quinn gives no ClientHello peek hook, but the
challenge is fully answered at the cert resolution step before the
connection surfaces to the application. No handler registration needed.
Spec updates: config.md, endpoint.md, open-questions.md (OQ-12),
overview.md + README.md (ADR index), ADR-010 (cross-ref).
Tasks: core/rawkey-decouple-from-iroh (gen 1, no deps),
core/acme-integration (gen 2, depends on rawkey). Graph: 36 tasks.
W1 (call/protocol/abort-cascade-wiring): wire AbortCascade into
CallAdapter handle_stream for EVENT_ABORTED. Cascades with
AbortPolicy::AbortDependents, aborts root, no descendant frames on
wire (ADR-016 Decision 2). Two integration tests added.
W2 (core/endpoint-client-fingerprint): extract TLS client cert
fingerprint in dispatch_quinn (SHA256:<hex> of leaf cert DER via
peer_identity) and dispatch_iroh (ed25519:<hex> of peer NodeId).
Fingerprint format documented in auth.md. Server config change
(with_no_client_auth → request-but-don't-require) deferred to new
follow-up task core/endpoint-request-client-cert.
W3 (vault/mnemonic-debug-redaction): replace Mnemonic derive(Debug)
with manual redacting impl (phrase: "[REDACTED]"). Seed confirmed
no Debug impl. Redaction test added.
W4 (core/auth-apikey-resources): Option B — drop entry.resources from
spec. External identities (token/fingerprint) grant scopes only;
resource-scoped ACLs are composition-internal (ADR-015/022). auth.md
corrected + limitation documented. Two tests confirm empty resources.
review-post-impl-fixes: all 4 verified, workspace green (326 tests,
0 failures, 0 clippy warnings). Review #004 status → resolved.
Graph: 34 tasks, 12 gens.
W1 (call/protocol/abort-cascade-wiring): wire AbortCascade into CallAdapter
handle_stream for EVENT_ABORTED. W2 (core/endpoint-client-fingerprint):
extract TLS client cert fingerprint in dispatch_quinn/dispatch_iroh.
W3 (vault/mnemonic-debug-redaction): replace Mnemonic derive(Debug) with
redacting impl. W4 (core/auth-apikey-resources, level: research): decide
whether ApiKeyEntry should carry resources, then implement or drop from
spec. review-post-impl-fixes gates on all four. Graph: 33 tasks, 12 gens.