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silverbullet/plugos/lib/mq.datastore.ts
Zef Hemel 0313565610
Complete redo of content indexing and querying (#517)
Complete redo of data store
Introduces live queries and live templates
2023-10-03 14:16:33 +02:00

277 lines
7.4 KiB
TypeScript

import { KV, MQMessage, MQStats, MQSubscribeOptions } from "$sb/types.ts";
import { MessageQueue } from "./mq.ts";
import { DataStore } from "./datastore.ts";
export type ProcessingMessage = MQMessage & {
ts: number;
};
const queuedPrefix = ["mq", "queued"];
const processingPrefix = ["mq", "processing"];
const dlqPrefix = ["mq", "dlq"];
export class DataStoreMQ implements MessageQueue {
// queue -> set of run() functions
localSubscriptions = new Map<string, Set<() => void>>();
constructor(
private ds: DataStore,
) {
}
// Internal sequencer for messages, only really necessary when batch sending tons of messages within a millisecond
seq = 0;
async batchSend(queue: string, bodies: any[]): Promise<void> {
const messages: KV<MQMessage>[] = bodies.map((body) => {
const id = `${Date.now()}-${String(++this.seq).padStart(6, "0")}`;
const key = [...queuedPrefix, queue, id];
return {
key,
value: { id, queue, body },
};
});
await this.ds.batchSet(messages);
// See if we can immediately process the message with a local subscription
const localSubscriptions = this.localSubscriptions.get(queue);
if (localSubscriptions) {
for (const run of localSubscriptions) {
run();
}
}
}
send(queue: string, body: any): Promise<void> {
return this.batchSend(queue, [body]);
}
async poll(queue: string, maxItems: number): Promise<MQMessage[]> {
// Note: this is not happening in a transactional way, so we may get duplicate message delivery
// Retrieve a batch of messages
const messages = await this.ds.query<MQMessage>({
prefix: [...queuedPrefix, queue],
limit: ["number", maxItems],
});
// Put them in the processing queue
await this.ds.batchSet(
messages.map((m) => ({
key: [...processingPrefix, queue, m.value.id],
value: {
...m.value,
ts: Date.now(),
},
})),
);
// Delete them from the queued queue
await this.ds.batchDelete(messages.map((m) => m.key));
// Return them
return messages.map((m) => m.value);
}
/**
* @param queue
* @param batchSize
* @param callback
* @returns a function to be called to unsubscribe
*/
subscribe(
queue: string,
options: MQSubscribeOptions,
callback: (messages: MQMessage[]) => Promise<void> | void,
): () => void {
let running = true;
let timeout: number | undefined;
const batchSize = options.batchSize || 1;
const run = async () => {
try {
if (!running) {
return;
}
const messages = await this.poll(queue, batchSize);
if (messages.length > 0) {
await callback(messages);
}
// If we got exactly the batch size, there might be more messages
if (messages.length === batchSize) {
await run();
}
if (timeout) {
clearTimeout(timeout);
}
timeout = setTimeout(run, options.pollInterval || 5000);
} catch (e: any) {
console.error("Error in MQ subscription handler", e);
}
};
// Register as a local subscription handler
const localSubscriptions = this.localSubscriptions.get(queue);
if (!localSubscriptions) {
this.localSubscriptions.set(queue, new Set([run]));
} else {
localSubscriptions.add(run);
}
// Run the first time (which will schedule subsequent polling intervals)
run();
// And return an unsubscribe function
return () => {
running = false;
if (timeout) {
clearTimeout(timeout);
}
// Remove the subscription from localSubscriptions
const queueSubscriptions = this.localSubscriptions.get(queue);
if (queueSubscriptions) {
queueSubscriptions.delete(run);
}
};
}
ack(queue: string, id: string) {
return this.batchAck(queue, [id]);
}
async batchAck(queue: string, ids: string[]) {
await this.ds.batchDelete(
ids.map((id) => [...processingPrefix, queue, id]),
);
}
async requeueTimeouts(
timeout: number,
maxRetries?: number,
disableDLQ?: boolean,
) {
const now = Date.now();
const messages = await this.ds.query<ProcessingMessage>({
prefix: processingPrefix,
filter: ["<", ["attr", "ts"], ["number", now - timeout]],
});
await this.ds.batchDelete(messages.map((m) => m.key));
const newMessages: KV<ProcessingMessage>[] = [];
for (const { value: m } of messages) {
const retries = (m.retries || 0) + 1;
if (maxRetries && retries > maxRetries) {
if (disableDLQ) {
console.warn(
"[mq]",
"Message exceeded max retries, flushing message",
m,
);
} else {
console.warn(
"[mq]",
"Message exceeded max retries, moving to DLQ",
m,
);
newMessages.push({
key: [...dlqPrefix, m.queue, m.id],
value: {
queue: m.queue,
id: m.id,
body: m.body,
ts: Date.now(),
retries,
},
});
}
} else {
console.info("[mq]", "Message ack timed out, requeueing", m);
newMessages.push({
key: [...queuedPrefix, m.queue, m.id],
value: {
...m,
retries,
},
});
}
}
await this.ds.batchSet(newMessages);
}
async fetchDLQMessages(): Promise<ProcessingMessage[]> {
return (await this.ds.query<ProcessingMessage>({ prefix: dlqPrefix })).map((
{ value },
) => value);
}
async fetchProcessingMessages(): Promise<ProcessingMessage[]> {
return (await this.ds.query<ProcessingMessage>({
prefix: processingPrefix,
})).map((
{ value },
) => value);
}
flushDLQ(): Promise<void> {
return this.ds.queryDelete({ prefix: dlqPrefix });
}
async getQueueStats(queue: string): Promise<MQStats> {
const queued =
(await (this.ds.query({ prefix: [...queuedPrefix, queue] }))).length;
const processing =
(await (this.ds.query({ prefix: [...processingPrefix, queue] }))).length;
const dlq =
(await (this.ds.query({ prefix: [...dlqPrefix, queue] }))).length;
return {
queued,
processing,
dlq,
};
}
async getAllQueueStats(): Promise<Record<string, MQStats>> {
const allStatus: Record<string, MQStats> = {};
for (
const { value: message } of await this.ds.query<MQMessage>({
prefix: queuedPrefix,
})
) {
if (!allStatus[message.queue]) {
allStatus[message.queue] = {
queued: 0,
processing: 0,
dlq: 0,
};
}
allStatus[message.queue].queued++;
}
for (
const { value: message } of await this.ds.query<MQMessage>({
prefix: processingPrefix,
})
) {
if (!allStatus[message.queue]) {
allStatus[message.queue] = {
queued: 0,
processing: 0,
dlq: 0,
};
}
allStatus[message.queue].processing++;
}
for (
const { value: message } of await this.ds.query<MQMessage>({
prefix: dlqPrefix,
})
) {
if (!allStatus[message.queue]) {
allStatus[message.queue] = {
queued: 0,
processing: 0,
dlq: 0,
};
}
allStatus[message.queue].dlq++;
}
return allStatus;
}
}