Files
openclaw/scripts/deadcode-knip-runner.mjs
Peter Steinberger a425807c31 ci(deadcode): replace broken export report lanes with enforced knip exports ratchet (#105595)
* chore(deadcode): add generated knip unused-export baseline

* ci(deadcode): replace broken export report lanes with enforced knip exports ratchet

* chore(deadcode): regenerate unused-export baseline on current main

* chore(deadcode): regenerate unused-export baseline on current main
2026-07-12 11:36:42 -07:00

271 lines
8.4 KiB
JavaScript

import { spawn } from "node:child_process";
import { createPnpmRunnerSpawnSpec } from "./pnpm-runner.mjs";
const KNIP_VERSION = "6.8.0";
const KNIP_TIMEOUT_MS = 10 * 60 * 1000;
const KNIP_KILL_GRACE_MS = 5_000;
const KNIP_PROCESS_TREE_EXIT_POLL_MS = 25;
const KNIP_POST_FORCE_KILL_WAIT_MS = 1_000;
const KNIP_HEARTBEAT_MS = 60_000;
/** Maximum buffered Knip output retained for diagnostics. */
export const KNIP_MAX_BUFFER_BYTES = 16 * 1024 * 1024;
export function normalizeRepoPath(value) {
return value.replaceAll("\\", "/").replace(/^\.\//u, "");
}
export function uniqueSorted(values) {
return [...new Set(values.map(normalizeRepoPath))].toSorted((left, right) =>
left.localeCompare(right),
);
}
export function isLikelyRepoFilePath(value) {
return /^(apps|docs|extensions|packages|scripts|src|test|ui)\//u.test(normalizeRepoPath(value));
}
/** Compares a detected string list with required and optional baseline entries. */
export function compareStringListToAllowlist(actualValues, allowlistValues, optionalValues = []) {
const actual = uniqueSorted(actualValues);
const allowed = uniqueSorted(allowlistValues);
const optionalAllowed = uniqueSorted(optionalValues);
const allowedOrOptionalSet = new Set([...allowed, ...optionalAllowed]);
const actualSet = new Set(actual);
return {
actual,
allowed,
unexpected: actual.filter((value) => !allowedOrOptionalSet.has(value)),
stale: allowed.filter((value) => !actualSet.has(value)),
duplicateAllowedCount: allowlistValues.length - new Set(allowlistValues).size,
allowlistIsSorted:
JSON.stringify(allowlistValues.map(normalizeRepoPath)) === JSON.stringify(allowed),
};
}
function spawnErrorCode(error) {
return error && typeof error === "object" && "code" in error ? String(error.code) : undefined;
}
function signalProcessTree(child, signal) {
if (!child.pid) {
return;
}
try {
if (process.platform === "win32") {
process.kill(child.pid, signal);
} else {
process.kill(-child.pid, signal);
}
} catch {
// The child may have exited between the timeout and signal delivery.
}
}
function processTreeAlive(child) {
if (!child.pid) {
return false;
}
if (process.platform === "win32") {
return child.exitCode === null && child.signalCode === null;
}
try {
process.kill(-child.pid, 0);
return true;
} catch (error) {
return error?.code === "EPERM";
}
}
async function waitForProcessTreeExit(child, timeoutMs) {
const deadlineAt = Date.now() + timeoutMs;
while (Date.now() < deadlineAt) {
if (!processTreeAlive(child)) {
return true;
}
await new Promise((resolvePoll) => {
setTimeout(resolvePoll, KNIP_PROCESS_TREE_EXIT_POLL_MS);
});
}
return !processTreeAlive(child);
}
/** Runs pinned Knip with the supplied CLI arguments. */
export async function runKnip(knipArgs, params = {}) {
const run = params.spawnCommand ?? spawn;
const timeoutMs = params.timeoutMs ?? KNIP_TIMEOUT_MS;
const heartbeatMs = params.heartbeatMs ?? KNIP_HEARTBEAT_MS;
const maxBufferBytes = params.maxBufferBytes ?? KNIP_MAX_BUFFER_BYTES;
const killGraceMs = params.killGraceMs ?? KNIP_KILL_GRACE_MS;
const scanName = params.scanName ?? "scan";
const writeStatus = params.writeStatus ?? ((message) => process.stderr.write(`${message}\n`));
const args = [
"--config.minimum-release-age=0",
"dlx",
"--package",
`knip@${KNIP_VERSION}`,
"knip",
...knipArgs,
];
return await new Promise((resolve) => {
const startedAt = Date.now();
let settled = false;
let timedOut = false;
let bufferExceeded = false;
let outputBytes = 0;
const output = [];
let killTimer;
let exitStatus = null;
let exitSignal = null;
const pnpm = createPnpmRunnerSpawnSpec({
detached: process.platform !== "win32",
env: params.env,
nodeExecPath: params.nodeExecPath,
npmExecPath: params.npmExecPath,
platform: params.platform,
pnpmArgs: args,
stdio: ["ignore", "pipe", "pipe"],
});
const child = run(pnpm.command, pnpm.args, {
...pnpm.options,
detached: process.platform !== "win32",
stdio: ["ignore", "pipe", "pipe"],
});
const parentSignalHandlers = [];
const cleanupParentSignalHandlers = () => {
for (const { signal, handler } of parentSignalHandlers) {
process.off(signal, handler);
}
parentSignalHandlers.length = 0;
};
const relayParentSignal = (signal) => {
const handler = () => {
signalProcessTree(child, signal);
signalProcessTree(child, "SIGKILL");
cleanupParentSignalHandlers();
process.kill(process.pid, signal);
};
parentSignalHandlers.push({ signal, handler });
process.once(signal, handler);
};
if (process.platform !== "win32") {
relayParentSignal("SIGINT");
relayParentSignal("SIGTERM");
relayParentSignal("SIGHUP");
}
const heartbeatTimer = setInterval(() => {
writeStatus(
`[deadcode] Knip ${scanName} still running after ${Math.round((Date.now() - startedAt) / 1000)}s.`,
);
}, heartbeatMs);
const timeoutTimer = setTimeout(() => {
timedOut = true;
clearInterval(heartbeatTimer);
writeStatus(
`[deadcode] Knip ${scanName} timed out after ${Math.round(timeoutMs / 1000)}s; terminating.`,
);
signalProcessTree(child, "SIGTERM");
killTimer = setTimeout(() => signalProcessTree(child, "SIGKILL"), killGraceMs);
}, timeoutMs);
const finish = (result) => {
if (settled) {
return;
}
settled = true;
clearTimeout(timeoutTimer);
clearInterval(heartbeatTimer);
clearTimeout(killTimer);
cleanupParentSignalHandlers();
resolve({ ...result, output: output.join("") });
};
const finishAfterProcessTreeCleanup = async (result) => {
if (processTreeAlive(child)) {
await waitForProcessTreeExit(child, killGraceMs);
}
if (processTreeAlive(child)) {
signalProcessTree(child, "SIGKILL");
await waitForProcessTreeExit(child, KNIP_POST_FORCE_KILL_WAIT_MS);
}
finish(result);
};
const appendOutput = (chunk) => {
if (settled || bufferExceeded) {
return;
}
const buffer = Buffer.isBuffer(chunk) ? chunk : Buffer.from(String(chunk));
const remainingBytes = maxBufferBytes - outputBytes;
if (buffer.length <= remainingBytes) {
output.push(buffer.toString("utf8"));
outputBytes += buffer.length;
return;
}
if (remainingBytes > 0) {
output.push(buffer.subarray(0, remainingBytes).toString("utf8"));
outputBytes = maxBufferBytes;
}
bufferExceeded = true;
writeStatus(
`[deadcode] Knip ${scanName} exceeded ${maxBufferBytes} output bytes; terminating.`,
);
child.stdout?.off?.("data", appendOutput);
child.stderr?.off?.("data", appendOutput);
child.stdout?.destroy?.();
child.stderr?.destroy?.();
clearInterval(heartbeatTimer);
signalProcessTree(child, "SIGTERM");
killTimer = setTimeout(() => signalProcessTree(child, "SIGKILL"), killGraceMs);
};
child.stdout?.on("data", appendOutput);
child.stderr?.on("data", appendOutput);
child.on("error", (error) =>
finish({
errorCode: spawnErrorCode(error),
errorMessage: error.message,
signal: null,
status: null,
}),
);
child.on("exit", (status, signal) => {
exitStatus = status;
exitSignal = signal;
});
child.on("close", (status, signal) => {
exitStatus = exitStatus ?? status;
exitSignal = exitSignal ?? signal;
const elapsedSeconds = Math.round((Date.now() - startedAt) / 1000);
if (timedOut) {
void finishAfterProcessTreeCleanup({
errorCode: "ETIMEDOUT",
errorMessage: `Knip ${scanName} timed out after ${elapsedSeconds}s`,
signal: exitSignal,
status: exitStatus,
});
return;
}
if (bufferExceeded) {
void finishAfterProcessTreeCleanup({
errorCode: "ENOBUFS",
errorMessage: `Knip ${scanName} exceeded ${maxBufferBytes} output bytes`,
signal: exitSignal,
status: exitStatus,
});
return;
}
finish({
errorCode: undefined,
errorMessage: undefined,
signal: exitSignal,
status: exitStatus,
});
});
});
}