webgpu-cts/test_runner.js - dawn - Git at Google

 // Copyright 2022 The Dawn Authors
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 import { globalTestConfig } from '../third_party/webgpu-cts/src/common/framework/test_config.js';
 import { dataCache } from '../third_party/webgpu-cts/src/common/framework/data_cache.js';
 import { DefaultTestFileLoader } from '../third_party/webgpu-cts/src/common/internal/file_loader.js';
 import { prettyPrintLog } from '../third_party/webgpu-cts/src/common/internal/logging/log_message.js';
 import { Logger } from '../third_party/webgpu-cts/src/common/internal/logging/logger.js';
 import { parseQuery } from '../third_party/webgpu-cts/src/common/internal/query/parseQuery.js';

 import { TestWorker } from '../third_party/webgpu-cts/src/common/runtime/helper/test_worker.js';

 // The Python-side websockets library has a max payload size of 72638. Set the
 // max allowable logs size in a single payload to a bit less than that.
 const LOGS_MAX_BYTES = 72000;

 var socket;

 // Returns a wrapper around `fn` which gets called at most once every `intervalMs`.
 // If the wrapper is called when `fn` was called too recently, `fn` is scheduled to
 // be called later in the future after the interval passes.
 // Returns [ wrappedFn, {start, stop}] where wrappedFn is the rate-limited function,
 // and start/stop control whether or not the function is enabled. If it is stopped, calls
 // to the fn will no-op. If it is started, calls will be rate-limited, starting from
 // the time `start` is called.
 function rateLimited(fn, intervalMs) {
   let last = undefined;
   let timer = undefined;
   const wrappedFn = (...args) => {
     if (last === undefined) {
       // If the function is not enabled, return.
       return;
     }
     // Get the current time as a number.
     const now = +new Date();
     const diff = now - last;
     if (diff >= intervalMs) {
       // Clear the timer, if there was one. This could happen if a timer
       // is scheduled, but it never runs due to long-running synchronous
       // code.
       if (timer) {
         clearTimeout(timer);
         timer = undefined;
       }

       // Call the function.
       last = now;
       fn(...args);
     } else if (timer === undefined) {
       // Otherwise, we have called `fn` too recently.
       // Schedule a future call.
       timer = setTimeout(() => {
         // Clear the timer to indicate nothing is scheduled.
         timer = undefined;
         last = +new Date();
         fn(...args);
       }, intervalMs - diff + 1);
     }
   };
   return [
     wrappedFn,
     {
       start: () => {
         last = +new Date();
       },
       stop: () => {
         last = undefined;
         if (timer) {
           clearTimeout(timer);
           timer = undefined;
         }
       },
     }
   ];
 }

 function byteSize(s) {
   return new Blob([s]).size;
 }

 async function setupWebsocket(port) {
   socket = new WebSocket('ws://127.0.0.1:' + port)
   socket.addEventListener('message', runCtsTestViaSocket);
 }

 async function runCtsTestViaSocket(event) {
   let input = JSON.parse(event.data);
   runCtsTest(input['q'], input['w']);
 }

 dataCache.setStore({
   load: async (path) => {
     return await (await fetch(`/third_party/webgpu-cts/cache/data/${path}`)).text();
   }
 });

 // Make a rate-limited version `sendMessageTestHeartbeat` that executes
 // at most once every 500 ms.
 const [sendHeartbeat, {
   start: beginHeartbeatScope,
   stop: endHeartbeatScope
 }] = rateLimited(sendMessageTestHeartbeat, 500);

 function wrapPromiseWithHeartbeat(prototype, key) {
   const old = prototype[key];
   prototype[key] = function (...args) {
     return new Promise((resolve, reject) => {
       // Send the heartbeat both before and after resolve/reject
       // so that the heartbeat is sent ahead of any potentially
       // long-running synchronous code awaiting the Promise.
       old.call(this, ...args)
         .then(val => { sendHeartbeat(); resolve(val) })
         .catch(err => { sendHeartbeat(); reject(err) })
         .finally(sendHeartbeat);
     });
   }
 }

 wrapPromiseWithHeartbeat(GPU.prototype, 'requestAdapter');
 wrapPromiseWithHeartbeat(GPUAdapter.prototype, 'requestAdapterInfo');
 wrapPromiseWithHeartbeat(GPUAdapter.prototype, 'requestDevice');
 wrapPromiseWithHeartbeat(GPUDevice.prototype, 'createRenderPipelineAsync');
 wrapPromiseWithHeartbeat(GPUDevice.prototype, 'createComputePipelineAsync');
 wrapPromiseWithHeartbeat(GPUDevice.prototype, 'popErrorScope');
 wrapPromiseWithHeartbeat(GPUQueue.prototype, 'onSubmittedWorkDone');
 wrapPromiseWithHeartbeat(GPUBuffer.prototype, 'mapAsync');
 wrapPromiseWithHeartbeat(GPUShaderModule.prototype, 'compilationInfo');

 globalTestConfig.testHeartbeatCallback = sendHeartbeat;
 globalTestConfig.noRaceWithRejectOnTimeout = true;

 async function runCtsTest(query, use_worker) {
   const workerEnabled = use_worker;
   const worker = workerEnabled ? new TestWorker(false) : undefined;

   const loader = new DefaultTestFileLoader();
   const filterQuery = parseQuery(query);
   const testcases = await loader.loadCases(filterQuery);

   const expectations = [];

   const log = new Logger();

   for (const testcase of testcases) {
     const name = testcase.query.toString();

     const wpt_fn = async () => {
       sendMessageTestStarted();
       const [rec, res] = log.record(name);

       beginHeartbeatScope();
       if (worker) {
         await worker.run(rec, name, expectations);
       } else {
         await testcase.run(rec, expectations);
       }
       endHeartbeatScope();

       sendMessageTestStatus(res.status, res.timems);
       sendMessageTestLog(res.logs);
       sendMessageTestFinished();
     };
     await wpt_fn();
   }
 }

 function splitLogsForPayload(fullLogs) {
   let logPieces = [fullLogs]
   // Split the log pieces until they all are guaranteed to fit into a
   // websocket payload.
   while (true) {
     let tempLogPieces = []
     for (const piece of logPieces) {
       if (byteSize(piece) > LOGS_MAX_BYTES) {
         let midpoint = Math.floor(piece.length / 2);
         tempLogPieces.push(piece.substring(0, midpoint));
         tempLogPieces.push(piece.substring(midpoint));
       } else {
         tempLogPieces.push(piece)
       }
     }
     // Didn't make any changes - all pieces are under the size limit.
     if (logPieces.every((value, index) => value == tempLogPieces[index])) {
       break;
     }
     logPieces = tempLogPieces;
   }
   return logPieces
 }

 function sendMessageTestStarted() {
   socket.send('{"type":"TEST_STARTED"}');
 }

 function sendMessageTestHeartbeat() {
   socket.send('{"type":"TEST_HEARTBEAT"}');
 }

 function sendMessageTestStatus(status, jsDurationMs) {
   socket.send(JSON.stringify({'type': 'TEST_STATUS',
                               'status': status,
                               'js_duration_ms': jsDurationMs}));
 }

 function sendMessageTestLog(logs) {
   splitLogsForPayload((logs ?? []).map(prettyPrintLog).join('\n\n'))
     .forEach((piece) => {
       socket.send(JSON.stringify({
         'type': 'TEST_LOG',
         'log': piece
       }));
     });
 }

 function sendMessageTestFinished() {
   socket.send('{"type":"TEST_FINISHED"}');
 }

 window.runCtsTest = runCtsTest;
 window.setupWebsocket = setupWebsocket
	// Copyright 2022 The Dawn Authors
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	import { globalTestConfig } from '../third_party/webgpu-cts/src/common/framework/test_config.js';
	import { dataCache } from '../third_party/webgpu-cts/src/common/framework/data_cache.js';
	import { DefaultTestFileLoader } from '../third_party/webgpu-cts/src/common/internal/file_loader.js';
	import { prettyPrintLog } from '../third_party/webgpu-cts/src/common/internal/logging/log_message.js';
	import { Logger } from '../third_party/webgpu-cts/src/common/internal/logging/logger.js';
	import { parseQuery } from '../third_party/webgpu-cts/src/common/internal/query/parseQuery.js';

	import { TestWorker } from '../third_party/webgpu-cts/src/common/runtime/helper/test_worker.js';

	// The Python-side websockets library has a max payload size of 72638. Set the
	// max allowable logs size in a single payload to a bit less than that.
	const LOGS_MAX_BYTES = 72000;

	var socket;

	// Returns a wrapper around `fn` which gets called at most once every `intervalMs`.
	// If the wrapper is called when `fn` was called too recently, `fn` is scheduled to
	// be called later in the future after the interval passes.
	// Returns [ wrappedFn, {start, stop}] where wrappedFn is the rate-limited function,
	// and start/stop control whether or not the function is enabled. If it is stopped, calls
	// to the fn will no-op. If it is started, calls will be rate-limited, starting from
	// the time `start` is called.
	function rateLimited(fn, intervalMs) {
	let last = undefined;
	let timer = undefined;
	const wrappedFn = (...args) => {
	if (last === undefined) {
	// If the function is not enabled, return.
	return;
	}
	// Get the current time as a number.
	const now = +new Date();
	const diff = now - last;
	if (diff >= intervalMs) {
	// Clear the timer, if there was one. This could happen if a timer
	// is scheduled, but it never runs due to long-running synchronous
	// code.
	if (timer) {
	clearTimeout(timer);
	timer = undefined;
	}

	// Call the function.
	last = now;
	fn(...args);
	} else if (timer === undefined) {
	// Otherwise, we have called `fn` too recently.
	// Schedule a future call.
	timer = setTimeout(() => {
	// Clear the timer to indicate nothing is scheduled.
	timer = undefined;
	last = +new Date();
	fn(...args);
	}, intervalMs - diff + 1);
	}
	};
	return [
	wrappedFn,
	{
	start: () => {
	last = +new Date();
	},
	stop: () => {
	last = undefined;
	if (timer) {
	clearTimeout(timer);
	timer = undefined;
	}
	},
	}
	];
	}

	function byteSize(s) {
	return new Blob([s]).size;
	}

	async function setupWebsocket(port) {
	socket = new WebSocket('ws://127.0.0.1:' + port)
	socket.addEventListener('message', runCtsTestViaSocket);
	}

	async function runCtsTestViaSocket(event) {
	let input = JSON.parse(event.data);
	runCtsTest(input['q'], input['w']);
	}

	dataCache.setStore({
	load: async (path) => {
	return await (await fetch(`/third_party/webgpu-cts/cache/data/${path}`)).text();
	}
	});

	// Make a rate-limited version `sendMessageTestHeartbeat` that executes
	// at most once every 500 ms.
	const [sendHeartbeat, {
	start: beginHeartbeatScope,
	stop: endHeartbeatScope
	}] = rateLimited(sendMessageTestHeartbeat, 500);

	function wrapPromiseWithHeartbeat(prototype, key) {
	const old = prototype[key];
	prototype[key] = function (...args) {
	return new Promise((resolve, reject) => {
	// Send the heartbeat both before and after resolve/reject
	// so that the heartbeat is sent ahead of any potentially
	// long-running synchronous code awaiting the Promise.
	old.call(this, ...args)
	.then(val => { sendHeartbeat(); resolve(val) })
	.catch(err => { sendHeartbeat(); reject(err) })
	.finally(sendHeartbeat);
	});
	}
	}

	wrapPromiseWithHeartbeat(GPU.prototype, 'requestAdapter');
	wrapPromiseWithHeartbeat(GPUAdapter.prototype, 'requestAdapterInfo');
	wrapPromiseWithHeartbeat(GPUAdapter.prototype, 'requestDevice');
	wrapPromiseWithHeartbeat(GPUDevice.prototype, 'createRenderPipelineAsync');
	wrapPromiseWithHeartbeat(GPUDevice.prototype, 'createComputePipelineAsync');
	wrapPromiseWithHeartbeat(GPUDevice.prototype, 'popErrorScope');
	wrapPromiseWithHeartbeat(GPUQueue.prototype, 'onSubmittedWorkDone');
	wrapPromiseWithHeartbeat(GPUBuffer.prototype, 'mapAsync');
	wrapPromiseWithHeartbeat(GPUShaderModule.prototype, 'compilationInfo');

	globalTestConfig.testHeartbeatCallback = sendHeartbeat;
	globalTestConfig.noRaceWithRejectOnTimeout = true;

	async function runCtsTest(query, use_worker) {
	const workerEnabled = use_worker;
	const worker = workerEnabled ? new TestWorker(false) : undefined;

	const loader = new DefaultTestFileLoader();
	const filterQuery = parseQuery(query);
	const testcases = await loader.loadCases(filterQuery);

	const expectations = [];

	const log = new Logger();

	for (const testcase of testcases) {
	const name = testcase.query.toString();

	const wpt_fn = async () => {
	sendMessageTestStarted();
	const [rec, res] = log.record(name);

	beginHeartbeatScope();
	if (worker) {
	await worker.run(rec, name, expectations);
	} else {
	await testcase.run(rec, expectations);
	}
	endHeartbeatScope();

	sendMessageTestStatus(res.status, res.timems);
	sendMessageTestLog(res.logs);
	sendMessageTestFinished();
	};
	await wpt_fn();
	}
	}

	function splitLogsForPayload(fullLogs) {
	let logPieces = [fullLogs]
	// Split the log pieces until they all are guaranteed to fit into a
	// websocket payload.
	while (true) {
	let tempLogPieces = []
	for (const piece of logPieces) {
	if (byteSize(piece) > LOGS_MAX_BYTES) {
	let midpoint = Math.floor(piece.length / 2);
	tempLogPieces.push(piece.substring(0, midpoint));
	tempLogPieces.push(piece.substring(midpoint));
	} else {
	tempLogPieces.push(piece)
	}
	}
	// Didn't make any changes - all pieces are under the size limit.
	if (logPieces.every((value, index) => value == tempLogPieces[index])) {
	break;
	}
	logPieces = tempLogPieces;
	}
	return logPieces
	}

	function sendMessageTestStarted() {
	socket.send('{"type":"TEST_STARTED"}');
	}

	function sendMessageTestHeartbeat() {
	socket.send('{"type":"TEST_HEARTBEAT"}');
	}

	function sendMessageTestStatus(status, jsDurationMs) {
	socket.send(JSON.stringify({'type': 'TEST_STATUS',
	'status': status,
	'js_duration_ms': jsDurationMs}));
	}

	function sendMessageTestLog(logs) {
	splitLogsForPayload((logs ?? []).map(prettyPrintLog).join('\n\n'))
	.forEach((piece) => {
	socket.send(JSON.stringify({
	'type': 'TEST_LOG',
	'log': piece
	}));
	});
	}

	function sendMessageTestFinished() {
	socket.send('{"type":"TEST_FINISHED"}');
	}

	window.runCtsTest = runCtsTest;
	window.setupWebsocket = setupWebsocket