ADR-017 locks the client/adapter architecture: - CallClient opens QUIC connections, shares dispatch loop with CallAdapter - Connection direction independent of call direction (both sides can call) - from_call adapter: discovers remote ops via services/list + services/schema, registers with forwarding handlers (same pattern as from_openapi/from_mcp) - to_openapi/to_mcp: project local ops to external protocols - OperationAdapter trait: produces (OperationSpec, Handler) pairs - Cross-node call tree: abort cascade propagates through from_call handlers - Credentials from capabilities (ADR-014), adapter ops Internal by default (ADR-015) The dispatch POC at /workspace/@alkdev/dispatch demonstrated head/worker over SSH+axum; under the call protocol it's cross-node composition via from_call. Connection topology (who advertises, who opens) is independent of call direction — runner pattern, dispatch pattern, and P2P all work.
14 KiB
ADR-017: Call Protocol Client and Adapter Contract
Status
Accepted
Context
The call protocol spec (ADR-012) defined the stream model as bidirectional —
"both sides can initiate calls." But the spec only described the server side:
CallAdapter implements ProtocolHandler, accepts incoming QUIC connections,
and dispatches to the operation registry. The client side — who opens the
connection, how calls are sent, how remote operations are discovered and
imported — was left as OQ-15.
The need for the client side is concrete and immediate:
- Head/worker dispatch: a head node manages worker nodes (Vast.ai, RunPod,
local Docker). The head needs to call operations on workers (exec, sync,
status) and workers need to call back (report status, request work). The
POC at
/workspace/@alkdev/dispatchdemonstrated this over SSH+axum; under the call protocol, it's cross-node composition. - NAPI/Python adapters: Node.js and Python clients need to call operations on an alknet node. They speak the EventEnvelope wire format over a QUIC connection.
- Agent tool dispatch: an agent handler needs to call operations on remote
nodes (tools, services) the same way it calls local operations — through
OperationEnv::invoke(). Thefrom_calladapter makes remote operations appear in the local registry. - Cross-protocol interop: external systems (HTTP APIs, MCP servers) are
imported via
from_openapiandfrom_mcp. The reverse direction — exposing local operations to external systems — needsto_openapiandto_mcp.
The @alkdev/operations TypeScript package demonstrated the adapter patterns
(from_openapi, from_mcp) and the buildEnv composition mechanism. The Rust
implementation defines the canonical traits (ADR-013).
OQ-15 was constrained by ADR-014 (adapters take credential sources, not static
tokens) and ADR-015 (adapter-registered operations are Internal by default).
This ADR locks the remaining one-way door: the client/adapter contract
architecture.
Decision
1. CallClient opens connections and shares the dispatch loop
CallClient opens a QUIC connection to a remote node with ALPN alknet/call.
Once connected, the connection is symmetric — both sides can send and receive
call.requested. The CallClient is not just a caller; it is also a callee.
It has its own operation registry to dispatch incoming calls from the remote
side.
pub struct CallClient {
registry: Arc<OperationRegistry>,
identity_provider: Arc<dyn IdentityProvider>,
}
impl CallClient {
pub async fn connect(&self, addr: SocketAddr, credentials: CallCredentials) -> Result<CallConnection>;
}
The dispatch loop is shared between CallAdapter and CallClient. Once a
connection is established (whether accepted by the adapter or opened by the
client), the same logic applies: read EventEnvelope frames, dispatch to the
operation registry, write responses, and send outgoing call.requested events
for calls initiated on this side. The only difference is who opened the
connection.
CallConnection provides:
call(operation_id, input) -> ResponseEnvelope— sendcall.requested, awaitcall.responded(one result)subscribe(operation_id, input) -> Stream<ResponseEnvelope>— sendcall.requested, yield eachcall.respondeduntilcall.completedorcall.abortedabort(request_id)— sendcall.aborted, cascade to descendants (ADR-016)services_list() -> Vec<OperationSpec>— callservices/listservices_schema(name) -> OperationSpec— callservices/schema
2. Connection direction is independent of call direction
Who opens the QUIC connection (who has the public IP, who uses a relay, who connects out reverse-runner style) is a connection-layer concern, not a protocol-layer concern. Once connected, both sides can call each other.
| Topology | Who advertises | Who opens connection | Who can call whom |
|---|---|---|---|
| Public service | Server (public IP/domain) | Client | Both directions |
| P2P (iroh relay) | Both (relay-assisted) | Either | Both directions |
| Reverse (runner pattern) | Head (public IP) | Worker connects out | Both directions |
| Reverse (dispatch pattern) | Worker (public SSH port) | Head connects out | Both directions |
The protocol does not distinguish "server" and "client" after connection
establishment. The CallAdapter accepts connections; the CallClient opens
connections. Both dispatch incoming and outgoing calls through the same
mechanism.
3. from_call adapter imports remote operations
from_call does for call protocol endpoints what from_openapi does for HTTP
APIs: discovers operations and registers them in the local registry with
forwarding handlers.
pub async fn from_call(
connection: &CallConnection,
config: FromCallConfig,
) -> Vec<(OperationSpec, Handler)>
The adapter:
- Calls
services/liston the remote node → gets the list ofExternaloperations - Calls
services/schemafor each → gets the input/output JSON Schemas - For each discovered operation, constructs an
(OperationSpec, Handler)pair:- The spec mirrors the remote operation's name, namespace, type, schemas, and access control
- The handler sends
call.requestedthrough theCallConnectionand awaitscall.responded(or streams for subscriptions)
- The caller registers these pairs in their local registry
from_call-registered operations are Internal by default (ADR-015) — they
are composition material, not directly callable from the wire. The handler
that composes them is External.
The FromCallConfig includes:
- The credential source for the outbound connection (ADR-014) — TLS identity, auth token, or capability-provided credentials
- An optional namespace prefix (to avoid collisions when importing from multiple remote nodes)
- An optional operation filter (to import only specific operations)
4. to_openapi and to_mcp adapters export local operations
The reverse direction — exposing local operations to external systems:
to_openapi: generates an OpenAPI spec from the local registry'sExternaloperations. External systems (HTTP clients, API gateways) can discover and call alknet operations through a standard HTTP interface.to_mcp: exposes local operations as MCP tools. MCP clients (editors, AI tools) can discover and call alknet operations through the MCP protocol.
These adapters are outbound bridges — they translate the call protocol's operation model into external protocol formats. They do not modify the local registry; they project it.
5. The adapter contract trait
The adapter patterns share a common shape: they produce (OperationSpec, Handler) pairs that register in the local registry. The trait:
pub trait OperationAdapter: Send + Sync {
fn import(&self) -> Vec<(OperationSpec, Handler)>;
}
Implementations:
FromOpenAPI— imports from an OpenAPI spec (HTTP-backed handlers)FromMCP— imports from an MCP server (MCP-backed handlers)FromCall— imports from a remote call protocol endpoint (call-protocol-backed handlers)FromJsonSchema— imports from a JSON Schema definition (schema-only, no handler — used for validation or client generation)
The to_* adapters are outbound projections, not OperationAdapter
implementations — they consume the registry, they don't produce entries for it.
The specific trait signatures (async vs sync, error types, configuration
parameters) are two-way doors for implementation. The one-way door is the
architectural commitment that adapters produce (OperationSpec, Handler)
pairs and live in alknet-call.
6. Cross-node call tree and abort cascade
When a from_call handler sends call.requested to a remote node, the call
participates in the local call tree via parent_request_id. If the parent is
aborted, the cascade (ADR-016) reaches the from_call handler, which sends
call.aborted to the remote node. The remote node cascades to its own
descendants. The abort crosses the node boundary transparently.
Head node Worker node
r1: /dispatch/run_training
r1-a: worker/exec (from_call handler)
→ call.requested { id: r1-a } ────────→ receives, dispatches to exec
r1-a-1: exec spawns child
user aborts r1
cascade to r1-a
from_call handler sends:
call.aborted { id: r1-a } ───────────→ receives, cascades to r1-a-1
aborts exec and children
7. Credential sources for connections
The CallClient needs credentials to authenticate to the remote node. These
come from capabilities (ADR-014), not environment variables. The credential
types:
- TLS identity: the local node's Ed25519 key (RFC 7250 raw key) or X.509 cert, derived from the vault at startup
- Auth token: an opaque token for call-protocol-level authentication, decrypted from the vault or derived from a shared secret
- Remote identity verification: the expected fingerprint or cert of the remote node, stored as a capability (not an env var or config file)
The from_call adapter receives these credentials at registration time,
same as from_openapi receives HTTP credentials.
Consequences
Positive:
- Cross-node composition works the same as local composition. A handler calls
env.invoke("worker", "exec", ...)and doesn't know (or care) whetherworker/execis a local operation or afrom_call-imported remote operation. The composition is transparent. - The head/worker pattern (dispatch, runners) is a connection topology, not a protocol feature. Workers can connect to heads (runner pattern) or heads can connect to workers (dispatch pattern) — the protocol handles both.
from_callis the same pattern asfrom_openapiandfrom_mcp: discover, register, forward. The adapter contract is unified.to_openapiandto_mcpenable interop with non-alknet systems without those systems needing to speak EventEnvelope.- The abort cascade (ADR-016) crosses node boundaries transparently. No consumer needs to implement cross-node abort propagation.
- The NAPI and Python adapters can use
CallClientdirectly to call remote operations — they don't need a separate client implementation.
Negative:
CallClienthas its own operation registry (for dispatching incoming calls from the remote side). This is a second registry instance, not the global one — it needs to be populated with the operations this node wants to expose to that specific remote peer. The specific mechanism (sharing the global registry, a peer-scoped subset, or a separate registry) is a two-way door.from_call-registered operations have a latency cost: each invocation sends acall.requestedover QUIC and awaits acall.responded. This is inherent to remote calls and not specific to the adapter pattern. Caching or batching strategies are consumer concerns.- The
to_*adapters need to translate the call protocol's operation model (JSON Schema, EventEnvelope, subscribe/stream) into external formats (OpenAPI paths, MCP tools). Some semantics don't map cleanly (e.g., subscriptions in OpenAPI, bidirectional calls in MCP). The adapters handle these with best-effort mappings and document the gaps. - The
CallConnectionabstraction adds a layer between the handler and the raw QUIC stream. This is necessary for thefrom_callhandler to be transparent — it shouldn't know about QUIC streams, only about call/request semantics.
Assumptions
-
The connection is symmetric after establishment. Both sides can send and receive
call.requested. If a future use case requires one-directional connections (e.g., a fire-and-forget notification where the receiver can't call back), the model needs extension. The assumption is that bidirectional is the correct default. -
services/listandservices/schemaare the discovery mechanism forfrom_call. The remote node exposes itsExternaloperations through these built-in operations. If a remote node doesn't support service discovery (e.g., a minimal worker that only accepts specific calls),from_callneeds an alternative discovery mechanism (static config, manual spec). The assumption is that nodes participating in cross-node composition support service discovery. -
The
from_callhandler is transparent to composition. A handler that callsenv.invoke("worker", "exec", ...)doesn't know it's a remote call. If the remote node is unreachable or the connection drops, the handler gets acall.error(same as a local handler error). The assumption is that remote call failures are handled the same as local handler failures. -
from_call-registered operations mirror the remote spec. The importedOperationSpechas the same name, namespace, type, schemas, and access control as the remote operation. If the remote operation changes (new schema, renamed), the imported spec is stale until re-import. The assumption is that re-import happens on reconnection or is triggered explicitly. Hot-swapping imported specs is a two-way door. -
The
to_*adapters are projections, not live bridges.to_openapigenerates a spec; it doesn't proxy HTTP requests. An external HTTP client calling the generated OpenAPI endpoints needs an HTTP handler (alknet-http) that translates HTTP requests into call protocol operations. The assumption is thatto_*generates specs/tools, and a separate HTTP/MCP handler bridges the actual traffic.
References
- ADR-005: irpc as call protocol foundation
- ADR-012: Call protocol stream model (bidirectional streams)
- ADR-013: Rust as canonical implementation language (adapter traits in Rust)
- ADR-014: Secret material flow (credential sources, not static tokens)
- ADR-015: Privilege model (adapter ops are Internal by default)
- ADR-016: Abort cascade (cross-node abort propagation)
- OQ-15: Call protocol client and adapter contract (resolved by this ADR)
- call-protocol.md
- operation-registry.md
- TypeScript
@alkdev/operations—from_openapi,from_mcp,buildEnvprior art - POC at
/workspace/@alkdev/dispatch— head/worker dispatch over SSH+axum