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RedBear-OS/local/recipes/qt/qtbase/source/util/wasm/batchedtestrunner/emrunadapter.js
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vasilito f31522130f fix: comprehensive boot warnings and exceptions — fixable silenced, unfixable diagnosed 
Build system (5 gaps hardened):
- COOKBOOK_OFFLINE defaults to true (fork-mode)
- normalize_patch handles diff -ruN format
- New 'repo validate-patches' command (25/25 relibc patches)
- 14 patched Qt/Wayland/display recipes added to protected list
- relibc archive regenerated with current patch chain

Boot fixes (fixable):
- Full ISO EFI partition: 16 MiB → 1 MiB (matches mini, BIOS hardcoded 2 MiB offset)
- D-Bus system bus: absolute /usr/bin/dbus-daemon path (was skipped)
- redbear-sessiond: absolute /usr/bin/redbear-sessiond path (was skipped)
- daemon framework: silenced spurious INIT_NOTIFY warnings for oneshot_async services (P0-daemon-silence-init-notify.patch)
- udev-shim: demoted INIT_NOTIFY warning to INFO (expected for oneshot_async)
- relibc: comprehensive named semaphores (sem_open/close/unlink) replacing upstream todo!() stubs
- greeterd: Wayland socket timeout 15s → 30s (compositor DRM wait)
- greeter-ui: built and linked (header guard unification, sem_compat stubs removed)
- mc: un-ignored in both configs, fixed glib/libiconv/pcre2 transitive deps
- greeter config: removed stale keymapd dependency from display/greeter services
- prefix toolchain: relibc headers synced, _RELIBC_STDLIB_H guard unified

Unfixable (diagnosed, upstream):
- i2c-hidd: abort on no-I2C-hardware (QEMU) — process::exit → relibc abort
- kded6/greeter-ui: page fault 0x8 — Qt library null deref
- Thread panics fd != -1 — Rust std library on Redox
- DHCP timeout / eth0 MAC — QEMU user-mode networking
- hwrngd/thermald — no hardware RNG/thermal in VM
- live preload allocation — BIOS memory fragmentation, continues on demand
2026-05-05 20:20:37 +01:00

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4.7 KiB
JavaScript
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// Copyright (C) 2022 The Qt Company Ltd.
// SPDX-License-Identifier: LicenseRef-Qt-Commercial OR GPL-3.0-only WITH Qt-GPL-exception-1.0
import { RunnerStatus, TestStatus } from './batchedtestrunner.js';
// Sends messages to the running emrun instance via POST requests.
export class EmrunCommunication {
static #BATCHING_DELAY = 300;
#indexOfMessage = 0;
#postOutputPromise;
// Accumulate output in a batch that gets sent with a delay so that the emrun http server
// does not get pounded with requests.
#nextOutputBatch = null;
#post(body) {
return fetch('stdio.html', {
method: 'POST',
body
});
}
// Waits for the output sending to finish, if any output transfer is still in progress.
async waitUntilAllSent()
{
if (this.#postOutputPromise)
await this.#postOutputPromise;
}
// Posts the exit status to the running emrun instance. Emrun will drop connection unless it is
// run with --serve_after_exit, therefore this method will throw most of the times.
postExit(status) {
return this.#post(`^exit^${status}`);
}
// Posts an indexed output chunk to the running emrun instance. Each consecutive call to this
// method increments the output index by 1.
postOutput(output)
{
output += "\n";
if (this.#nextOutputBatch) {
this.#nextOutputBatch += output;
} else {
this.#nextOutputBatch = output;
this.#postOutputPromise = new Promise(resolve =>
{
window.setTimeout(() =>
{
const toSend = this.#nextOutputBatch.replace(/\n$/, '');
this.#nextOutputBatch = null;
this.#post(`^out^${this.#indexOfMessage++}^${toSend}`)
.finally(resolve);
}, EmrunCommunication.#BATCHING_DELAY);
});
}
return this.#postOutputPromise;
}
}
// Wraps a test module runner; forwards its output and resolution state to the running emrun
// instance.
export class EmrunAdapter {
#communication;
#batchedTestRunner;
#sentLines = 0;
#onExitSent;
constructor(communication, batchedTestRunner, onExitSent) {
this.#communication = communication;
this.#batchedTestRunner = batchedTestRunner;
this.#onExitSent = onExitSent;
}
// Starts listening to test module runner's state changes. When the test module runner finishes
// or reports output, sends suitable messages to the emrun instance.
run() {
this.#batchedTestRunner.onStatusChanged.addEventListener(
status => this.#onRunnerStatusChanged(status));
this.#batchedTestRunner.onTestStatusChanged.addEventListener(
(test, status) => this.#onTestStatusChanged(test, status));
this.#batchedTestRunner.onTestOutputChanged.addEventListener(
(test, output) => this.#onTestOutputChanged(test, output));
const currentTest = [...this.#batchedTestRunner.results.entries()].find(
entry => entry[1].status === TestStatus.Running)?.[0];
const output = this.#batchedTestRunner.results.get(currentTest)?.output;
if (output)
this.#onTestOutputChanged(testName, output);
this.#onRunnerStatusChanged(this.#batchedTestRunner.status);
}
#toExitCode(status) {
switch (status) {
case RunnerStatus.Error:
return -1;
case RunnerStatus.Passed:
return 0;
case RunnerStatus.Running:
throw new Error('No exit code when still running');
case RunnerStatus.TestCrashed:
return -2;
case RunnerStatus.TestsFailed:
return this.#batchedTestRunner.numberOfFailed;
}
}
async #onRunnerStatusChanged(status) {
if (RunnerStatus.Running === status)
return;
const exit = this.#toExitCode(status);
if (RunnerStatus.Error === status)
this.#communication.postOutput(this.#batchedTestRunner.errorDetails);
await this.#communication.waitUntilAllSent();
try {
await this.#communication.postExit(exit);
} catch {
// no-op: The remote end will drop connection on exit.
} finally {
this.#onExitSent?.();
}
}
async #onTestOutputChanged(_, output) {
const notSent = output.slice(this.#sentLines);
for (const out of notSent)
this.#communication.postOutput(out);
this.#sentLines = output.length;
}
async #onTestStatusChanged(_, status) {
if (status === TestStatus.Running)
this.#sentLines = 0;
}
}
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