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fix(ext/node): shared global buffer unlock correctness fix (#20314)

The fix for #20188 was not entirely correct -- we were unlocking the
global buffer incorrectly. This PR introduces a lock state that ensures
we only unlock a lock we have taken out.
This commit is contained in:
Matt Mastracci 2023-08-28 15:28:39 -06:00 committed by Bartek Iwańczuk
parent f03ffaf540
commit 9320f37d6b
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2 changed files with 73 additions and 38 deletions

View file

@ -5,7 +5,7 @@ import {
assert, assert,
assertEquals, assertEquals,
} from "../../../test_util/std/testing/asserts.ts"; } from "../../../test_util/std/testing/asserts.ts";
import { deferred } from "../../../test_util/std/async/deferred.ts"; import { Deferred, deferred } from "../../../test_util/std/async/deferred.ts";
import * as path from "../../../test_util/std/path/mod.ts"; import * as path from "../../../test_util/std/path/mod.ts";
import * as http from "node:http"; import * as http from "node:http";
@ -131,17 +131,18 @@ Deno.test("[node/net] connection event has socket value", async () => {
await Promise.all([p, p2]); await Promise.all([p, p2]);
}); });
/// We need to make sure that any shared buffers are never used concurrently by two reads.
// https://github.com/denoland/deno/issues/20188 // https://github.com/denoland/deno/issues/20188
Deno.test("[node/net] multiple Sockets should get correct server data", async () => { Deno.test("[node/net] multiple Sockets should get correct server data", async () => {
const p = deferred(); const socketCount = 9;
const p2 = deferred();
const dataReceived1 = deferred(); class TestSocket {
const dataReceived2 = deferred(); dataReceived: Deferred<undefined> = deferred();
events: string[] = [];
const events1: string[] = []; socket: net.Socket | undefined;
const events2: string[] = []; }
const finished = deferred();
const server = net.createServer(); const server = net.createServer();
server.on("connection", (socket) => { server.on("connection", (socket) => {
assert(socket !== undefined); assert(socket !== undefined);
@ -150,40 +151,47 @@ Deno.test("[node/net] multiple Sockets should get correct server data", async ()
}); });
}); });
const sockets: TestSocket[] = [];
for (let i = 0; i < socketCount; i++) {
sockets[i] = new TestSocket();
}
server.listen(async () => { server.listen(async () => {
// deno-lint-ignore no-explicit-any // deno-lint-ignore no-explicit-any
const { port } = server.address() as any; const { port } = server.address() as any;
const socket1 = net.createConnection(port); for (let i = 0; i < socketCount; i++) {
const socket2 = net.createConnection(port); const socket = sockets[i].socket = net.createConnection(port);
socket.on("data", (data) => {
socket1.on("data", (data) => { const count = sockets[i].events.length;
events1.push(new TextDecoder().decode(data)); sockets[i].events.push(new TextDecoder().decode(data));
dataReceived1.resolve(); if (count === 0) {
// Trigger an immediate second write
sockets[i].socket?.write(`${i}`.repeat(3));
} else {
sockets[i].dataReceived.resolve();
}
}); });
}
socket2.on("data", (data) => { for (let i = 0; i < socketCount; i++) {
events2.push(new TextDecoder().decode(data)); sockets[i].socket?.write(`${i}`.repeat(3));
dataReceived2.resolve(); }
});
socket1.write("111"); await Promise.all(sockets.map((socket) => socket.dataReceived));
socket2.write("222");
await Promise.all([dataReceived1, dataReceived2]); for (let i = 0; i < socketCount; i++) {
sockets[i].socket?.end();
socket1.end(); }
socket2.end();
server.close(() => { server.close(() => {
p.resolve(); finished.resolve();
});
}); });
p2.resolve(); await finished;
});
await Promise.all([p, p2]); for (let i = 0; i < socketCount; i++) {
assertEquals(sockets[i].events, [`${i}`.repeat(3), `${i}`.repeat(3)]);
assertEquals(events1, ["111"]); }
assertEquals(events2, ["222"]);
}); });

View file

@ -311,21 +311,37 @@ export class LibuvStreamWrap extends HandleWrap {
/** Internal method for reading from the attached stream. */ /** Internal method for reading from the attached stream. */
async #read() { async #read() {
const isOwnedBuf = bufLocked; // Lock safety: We must hold this lock until we are certain that buf is no longer used
let buf = bufLocked ? new Uint8Array(SUGGESTED_SIZE) : BUF; // This setup code is a little verbose, but we need to be careful about buffer management
bufLocked = true; let buf, locked = false;
if (bufLocked) {
// Already locked, allocate
buf = new Uint8Array(SUGGESTED_SIZE);
} else {
// Not locked, take the buffer + lock
buf = BUF;
locked = bufLocked = true;
}
try { try {
let nread: number | null; let nread: number | null;
const ridBefore = this[kStreamBaseField]!.rid; const ridBefore = this[kStreamBaseField]!.rid;
try { try {
nread = await this[kStreamBaseField]!.read(buf); nread = await this[kStreamBaseField]!.read(buf);
} catch (e) { } catch (e) {
// Lock safety: we know that the buffer will not be used in this function again
// All exits from this block either return or re-assign buf to a different value
if (locked) {
bufLocked = locked = false;
}
// Try to read again if the underlying stream resource // Try to read again if the underlying stream resource
// changed. This can happen during TLS upgrades (eg. STARTTLS) // changed. This can happen during TLS upgrades (eg. STARTTLS)
if (ridBefore != this[kStreamBaseField]!.rid) { if (ridBefore != this[kStreamBaseField]!.rid) {
return this.#read(); return this.#read();
} }
buf = new Uint8Array(0);
if ( if (
e instanceof Deno.errors.Interrupted || e instanceof Deno.errors.Interrupted ||
e instanceof Deno.errors.BadResource e instanceof Deno.errors.BadResource
@ -339,8 +355,6 @@ export class LibuvStreamWrap extends HandleWrap {
} else { } else {
nread = codeMap.get("UNKNOWN")!; nread = codeMap.get("UNKNOWN")!;
} }
buf = new Uint8Array(0);
} }
nread ??= codeMap.get("EOF")!; nread ??= codeMap.get("EOF")!;
@ -351,7 +365,17 @@ export class LibuvStreamWrap extends HandleWrap {
this.bytesRead += nread; this.bytesRead += nread;
} }
buf = isOwnedBuf ? buf.subarray(0, nread) : buf.slice(0, nread); // We release the lock early so a re-entrant read can make use of the shared buffer, but
// we need to make a copy of the data in the shared buffer.
if (locked) {
// Lock safety: we know that the buffer will not be used in this function again
// We're making a copy of data that lives in the shared buffer
buf = buf.slice(0, nread);
bufLocked = locked = false;
} else {
// The buffer isn't owned, so let's create a subarray view
buf = buf.subarray(0, nread);
}
streamBaseState[kArrayBufferOffset] = 0; streamBaseState[kArrayBufferOffset] = 0;
@ -365,7 +389,10 @@ export class LibuvStreamWrap extends HandleWrap {
this.#read(); this.#read();
} }
} finally { } finally {
bufLocked = false; // Lock safety: we know that the buffer will not be used in this function again
if (locked) {
bufLocked = locked = false;
}
} }
} }