// Copyright 2018-2020 the Deno authors. All rights reserved. MIT license. import { testPerm, assert, assertEquals } from "./test_util.ts"; testPerm({ net: true }, function netTcpListenClose(): void { const listener = Deno.listen({ hostname: "127.0.0.1", port: 4500 }); assertEquals(listener.addr.transport, "tcp"); assertEquals(listener.addr.hostname, "127.0.0.1"); assertEquals(listener.addr.port, 4500); listener.close(); }); testPerm({ net: true }, function netUdpListenClose(): void { if (Deno.build.os === "win") return; // TODO const socket = Deno.listen({ hostname: "127.0.0.1", port: 4500, transport: "udp" }); assertEquals(socket.addr.transport, "udp"); assertEquals(socket.addr.hostname, "127.0.0.1"); assertEquals(socket.addr.port, 4500); socket.close(); }); testPerm({ net: true }, async function netTcpCloseWhileAccept(): Promise { const listener = Deno.listen({ port: 4501 }); const p = listener.accept(); listener.close(); let err; try { await p; } catch (e) { err = e; } assert(!!err); assert(err instanceof Error); assertEquals(err.message, "Listener has been closed"); }); testPerm({ net: true }, async function netTcpConcurrentAccept(): Promise { const listener = Deno.listen({ port: 4502 }); let acceptErrCount = 0; const checkErr = (e: Error): void => { if (e.message === "Listener has been closed") { assertEquals(acceptErrCount, 1); } else if (e.message === "Another accept task is ongoing") { acceptErrCount++; } else { throw new Error("Unexpected error message"); } }; const p = listener.accept().catch(checkErr); const p1 = listener.accept().catch(checkErr); await Promise.race([p, p1]); listener.close(); await Promise.all([p, p1]); assertEquals(acceptErrCount, 1); }); testPerm({ net: true }, async function netTcpDialListen(): Promise { const listener = Deno.listen({ port: 4500 }); listener.accept().then( async (conn): Promise => { assert(conn.remoteAddr != null); assertEquals(conn.localAddr.hostname, "127.0.0.1"); assertEquals(conn.localAddr.port, 4500); await conn.write(new Uint8Array([1, 2, 3])); conn.close(); } ); const conn = await Deno.connect({ hostname: "127.0.0.1", port: 4500 }); assertEquals(conn.remoteAddr.hostname, "127.0.0.1"); assertEquals(conn.remoteAddr.port, 4500); assert(conn.localAddr != null); const buf = new Uint8Array(1024); const readResult = await conn.read(buf); assertEquals(3, readResult); assertEquals(1, buf[0]); assertEquals(2, buf[1]); assertEquals(3, buf[2]); assert(conn.rid > 0); assert(readResult !== Deno.EOF); const readResult2 = await conn.read(buf); assertEquals(Deno.EOF, readResult2); listener.close(); conn.close(); }); testPerm({ net: true }, async function netUdpSendReceive(): Promise { if (Deno.build.os === "win") return; // TODO const alice = Deno.listen({ port: 4500, transport: "udp" }); assertEquals(alice.addr.port, 4500); assertEquals(alice.addr.hostname, "0.0.0.0"); assertEquals(alice.addr.transport, "udp"); const bob = Deno.listen({ port: 4501, transport: "udp" }); assertEquals(bob.addr.port, 4501); assertEquals(bob.addr.hostname, "0.0.0.0"); assertEquals(bob.addr.transport, "udp"); const sent = new Uint8Array([1, 2, 3]); await alice.send(sent, bob.addr); const [recvd, remote] = await bob.receive(); assertEquals(remote.port, 4500); assertEquals(recvd.length, 3); assertEquals(1, recvd[0]); assertEquals(2, recvd[1]); assertEquals(3, recvd[2]); alice.close(); bob.close(); }); testPerm( { net: true }, async function netTcpListenCloseWhileIterating(): Promise { const listener = Deno.listen({ port: 8000 }); const nextWhileClosing = listener[Symbol.asyncIterator]().next(); listener.close(); assertEquals(await nextWhileClosing, { value: undefined, done: true }); const nextAfterClosing = listener[Symbol.asyncIterator]().next(); assertEquals(await nextAfterClosing, { value: undefined, done: true }); } ); testPerm( { net: true }, async function netUdpListenCloseWhileIterating(): Promise { if (Deno.build.os === "win") return; // TODO const socket = Deno.listen({ port: 8000, transport: "udp" }); const nextWhileClosing = socket[Symbol.asyncIterator]().next(); socket.close(); assertEquals(await nextWhileClosing, { value: undefined, done: true }); const nextAfterClosing = socket[Symbol.asyncIterator]().next(); assertEquals(await nextAfterClosing, { value: undefined, done: true }); } ); /* TODO(ry) Re-enable this test. testPerm({ net: true }, async function netListenAsyncIterator(): Promise { const listener = Deno.listen(":4500"); const runAsyncIterator = async (): Promise => { for await (let conn of listener) { await conn.write(new Uint8Array([1, 2, 3])); conn.close(); } }; runAsyncIterator(); const conn = await Deno.connect("127.0.0.1:4500"); const buf = new Uint8Array(1024); const readResult = await conn.read(buf); assertEquals(3, readResult); assertEquals(1, buf[0]); assertEquals(2, buf[1]); assertEquals(3, buf[2]); assert(conn.rid > 0); assert(readResult !== Deno.EOF); const readResult2 = await conn.read(buf); assertEquals(Deno.EOF, readResult2); listener.close(); conn.close(); }); */ /* TODO Fix broken test. testPerm({ net: true }, async function netCloseReadSuccess() { const addr = "127.0.0.1:4500"; const listener = Deno.listen(addr); const closeDeferred = deferred(); const closeReadDeferred = deferred(); listener.accept().then(async conn => { await closeReadDeferred.promise; await conn.write(new Uint8Array([1, 2, 3])); const buf = new Uint8Array(1024); const readResult = await conn.read(buf); assertEquals(3, readResult); assertEquals(4, buf[0]); assertEquals(5, buf[1]); assertEquals(6, buf[2]); conn.close(); closeDeferred.resolve(); }); const conn = await Deno.connect(addr); conn.closeRead(); // closing read closeReadDeferred.resolve(); const buf = new Uint8Array(1024); const readResult = await conn.read(buf); assertEquals(Deno.EOF, readResult); // with immediate EOF // Ensure closeRead does not impact write await conn.write(new Uint8Array([4, 5, 6])); await closeDeferred.promise; listener.close(); conn.close(); }); */ /* TODO Fix broken test. testPerm({ net: true }, async function netDoubleCloseRead() { const addr = "127.0.0.1:4500"; const listener = Deno.listen(addr); const closeDeferred = deferred(); listener.accept().then(async conn => { await conn.write(new Uint8Array([1, 2, 3])); await closeDeferred.promise; conn.close(); }); const conn = await Deno.connect(addr); conn.closeRead(); // closing read let err; try { // Duplicated close should throw error conn.closeRead(); } catch (e) { err = e; } assert(!!err); assert(err instanceof Deno.errors.NotConnected); closeDeferred.resolve(); listener.close(); conn.close(); }); */ /* TODO Fix broken test. testPerm({ net: true }, async function netCloseWriteSuccess() { const addr = "127.0.0.1:4500"; const listener = Deno.listen(addr); const closeDeferred = deferred(); listener.accept().then(async conn => { await conn.write(new Uint8Array([1, 2, 3])); await closeDeferred.promise; conn.close(); }); const conn = await Deno.connect(addr); conn.closeWrite(); // closing write const buf = new Uint8Array(1024); // Check read not impacted const readResult = await conn.read(buf); assertEquals(3, readResult); assertEquals(1, buf[0]); assertEquals(2, buf[1]); assertEquals(3, buf[2]); // Check write should be closed let err; try { await conn.write(new Uint8Array([1, 2, 3])); } catch (e) { err = e; } assert(!!err); assert(err instanceof Deno.errors.BrokenPipe); closeDeferred.resolve(); listener.close(); conn.close(); }); */ /* TODO Fix broken test. testPerm({ net: true }, async function netDoubleCloseWrite() { const addr = "127.0.0.1:4500"; const listener = Deno.listen(addr); const closeDeferred = deferred(); listener.accept().then(async conn => { await closeDeferred.promise; conn.close(); }); const conn = await Deno.connect(addr); conn.closeWrite(); // closing write let err; try { // Duplicated close should throw error conn.closeWrite(); } catch (e) { err = e; } assert(!!err); assert(err instanceof Deno.errors.NotConnected); closeDeferred.resolve(); listener.close(); conn.close(); }); */