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channel.ts
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channel.ts
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import { Queue } from "./queue.ts";
import { jsonSerializer } from "./serializers.ts";
export interface Channel<T> {
closed: Promise<void>;
signal: AbortSignal;
close(): void;
send(value: T): Promise<void>;
recv(signal?: AbortSignal): AsyncIterableIterator<T>;
}
export const link = (...signals: AbortSignal[]): AbortSignal => {
const ctrl = new AbortController();
for (const signal of signals) {
signal.addEventListener("abort", (evt) => {
if (!ctrl.signal.aborted) {
ctrl.abort(evt);
}
});
}
return ctrl.signal;
};
export class ClosedChannelError extends Error {
constructor() {
super("Channel is closed");
}
}
export const ifClosedChannel =
(cb: () => Promise<void> | void) => (err: unknown) => {
if (err instanceof ClosedChannelError) {
return cb();
}
throw err;
};
export const ignoreIfClosed = ifClosedChannel(() => {});
export const makeChan = <T>(capacity = 0): Channel<T> => {
let currentCapacity = capacity;
const queue: Queue<{ value: T; resolve: () => void }> = new Queue();
const ctrl = new AbortController();
const abortPromise = Promise.withResolvers<void>();
ctrl.signal.onabort = () => {
abortPromise.resolve();
};
const send = (value: T): Promise<void> => {
return new Promise((resolve, reject) => {
if (ctrl.signal.aborted) reject(new ClosedChannelError());
let mResolve = resolve;
if (currentCapacity > 0) {
currentCapacity--;
mResolve = () => {
currentCapacity++;
};
resolve();
}
queue.push({ value, resolve: mResolve });
});
};
const close = () => {
ctrl.abort();
};
const recv = async function* (
signal?: AbortSignal,
): AsyncIterableIterator<T> {
const linked = signal ? link(ctrl.signal, signal) : ctrl.signal;
while (true) {
if (linked.aborted) {
return;
}
try {
const next = await queue.pop({ signal: linked });
next.resolve();
yield next.value;
} catch (_err) {
if (linked.aborted) {
return;
}
throw _err;
}
}
};
return {
send,
recv,
close,
signal: ctrl.signal,
closed: abortPromise.promise,
};
};
export interface DuplexChannel<TSend, TReceive> {
in: Channel<TReceive>;
out: Channel<TSend>;
}
// deno-lint-ignore no-explicit-any
export type Message<TMessageProperties = any> = TMessageProperties & {
chunk?: Uint8Array;
};
export interface MessageSerializer<
TSend,
TReceive,
TRawFormat extends string | ArrayBufferLike | ArrayBufferView | Blob,
> {
binaryType?: BinaryType;
serialize: (
msg: Message<TSend>,
) => TRawFormat;
deserialize: (str: TRawFormat) => Message<TReceive>;
}
export const makeWebSocket = <
TSend,
TReceive,
TMessageFormat extends string | ArrayBufferLike | ArrayBufferView | Blob =
| string
| ArrayBufferLike
| ArrayBufferView
| Blob,
>(
socket: WebSocket,
_serializer?: MessageSerializer<TSend, TReceive, TMessageFormat>,
): Promise<DuplexChannel<Message<TSend>, Message<TReceive>>> => {
const serializer = _serializer ??
jsonSerializer<Message<TSend>, Message<TReceive>>();
const sendChan = makeChan<Message<TSend>>();
const recvChan = makeChan<Message<TReceive>>();
const ch = Promise.withResolvers<
DuplexChannel<Message<TSend>, Message<TReceive>>
>();
socket.binaryType = serializer.binaryType ?? "blob";
socket.onclose = () => {
sendChan.close();
recvChan.close();
};
socket.onerror = (err) => {
socket.close();
ch.reject(err);
};
socket.onmessage = async (msg) => {
if (recvChan.signal.aborted) {
return;
}
await recvChan.send(serializer.deserialize(msg.data));
};
socket.onopen = async () => {
ch.resolve({ in: recvChan, out: sendChan });
for await (const message of sendChan.recv()) {
try {
socket.send(
serializer.serialize(message),
);
} catch (_err) {
console.error("error sending message through socket", message);
}
}
socket.close();
};
return ch.promise;
};
export const makeReadableStream = (
ch: Channel<Uint8Array>,
signal?: AbortSignal,
): ReadableStream<Uint8Array> => {
return new ReadableStream({
async start(controller) {
for await (const content of ch.recv(signal)) {
controller.enqueue(content);
}
// Uncomment if necessary. this will send a signal to the controller
// if (signal?.aborted) {
// controller.error(new Error("aborted"));
// }
controller.close();
},
cancel() {
ch.close();
},
});
};
export const makeChanStream = (
stream: ReadableStream,
): Channel<Uint8Array> => {
const chan = makeChan<Uint8Array>(0); // capacity
// Consume the transformed stream to trigger the pipeline
const reader = stream.getReader();
const processStream = async () => {
while (true) {
const { done, value } = await reader.read();
if (done) break;
await chan.send(value);
}
chan.close();
};
processStream().catch((err) => {
if (!err?.target?.aborted) {
console.error("error processing stream", err);
}
});
return chan;
};