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denoland-deno/cli/tests/unit/metrics_test.ts
Aaron O'Mullan fec1b2a5a4
refactor: new optimized op-layer using serde_v8 (#9843)
- Improves op performance.
- Handle op-metadata (errors, promise IDs) explicitly in the op-layer vs
  per op-encoding (aka: out-of-payload).
- Remove shared queue & custom "asyncHandlers", all async values are
  returned in batches via js_recv_cb.
- The op-layer should be thought of as simple function calls with little
  indirection or translation besides the conceptually straightforward
  serde_v8 bijections.
- Preserve concepts of json/bin/min as semantic groups of their
  inputs/outputs instead of their op-encoding strategy, preserving these
  groups will also facilitate partial transitions over to v8 Fast API for the
  "min" and "bin" groups
2021-03-31 10:37:38 -04:00

71 lines
2.6 KiB
TypeScript

// Copyright 2018-2021 the Deno authors. All rights reserved. MIT license.
import { assert, unitTest } from "./test_util.ts";
unitTest(async function metrics(): Promise<void> {
// Write to stdout to ensure a "data" message gets sent instead of just
// control messages.
const dataMsg = new Uint8Array([13, 13, 13]); // "\r\r\r",
await Deno.stdout.write(dataMsg);
// WARNING: bytesReceived & bytesSentControl are now always zero
// following https://github.com/denoland/deno/pull/9843
const m1 = Deno.metrics();
assert(m1.opsDispatched > 0);
assert(m1.opsCompleted > 0);
assert(m1.bytesSentControl === 0);
assert(m1.bytesSentData >= 0);
assert(m1.bytesReceived === 0);
const m1OpWrite = m1.ops["op_write_async"];
assert(m1OpWrite.opsDispatchedAsync > 0);
assert(m1OpWrite.opsCompletedAsync > 0);
assert(m1OpWrite.bytesSentControl === 0);
assert(m1OpWrite.bytesSentData >= 0);
assert(m1OpWrite.bytesReceived === 0);
await Deno.stdout.write(dataMsg);
const m2 = Deno.metrics();
assert(m2.opsDispatchedAsync > m1.opsDispatchedAsync);
assert(m2.opsCompletedAsync > m1.opsCompletedAsync);
assert(m2.bytesSentControl === m1.bytesSentControl);
assert(m2.bytesSentData >= m1.bytesSentData + dataMsg.byteLength);
assert(m2.bytesReceived === m1.bytesReceived);
const m2OpWrite = m2.ops["op_write_async"];
assert(m2OpWrite.opsDispatchedAsync > m1OpWrite.opsDispatchedAsync);
assert(m2OpWrite.opsCompletedAsync > m1OpWrite.opsCompletedAsync);
assert(m2OpWrite.bytesSentControl === m1OpWrite.bytesSentControl);
assert(
m2OpWrite.bytesSentData >= m1OpWrite.bytesSentData + dataMsg.byteLength,
);
assert(m2OpWrite.bytesReceived === m1OpWrite.bytesReceived);
});
unitTest(
{ perms: { write: true } },
function metricsUpdatedIfNoResponseSync(): void {
const filename = Deno.makeTempDirSync() + "/test.txt";
const data = new Uint8Array([41, 42, 43]);
Deno.writeFileSync(filename, data, { mode: 0o666 });
const metrics = Deno.metrics();
assert(metrics.opsDispatched === metrics.opsCompleted);
assert(metrics.opsDispatchedSync === metrics.opsCompletedSync);
},
);
unitTest(
{ perms: { write: true } },
async function metricsUpdatedIfNoResponseAsync(): Promise<void> {
const filename = Deno.makeTempDirSync() + "/test.txt";
const data = new Uint8Array([41, 42, 43]);
await Deno.writeFile(filename, data, { mode: 0o666 });
const metrics = Deno.metrics();
assert(metrics.opsDispatched === metrics.opsCompleted);
assert(metrics.opsDispatchedSync === metrics.opsCompletedSync);
assert(metrics.opsDispatchedAsync === metrics.opsCompletedAsync);
},
);