// Copyright 2018 the V8 project authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. d8.file.execute("test/mjsunit/wasm/wasm-module-builder.js"); const kSequenceLength = 8192; const kNumberOfWorkers = 4; const kBitMask = kNumberOfWorkers - 1; const kMemoryAddress = 0; const kSequenceStartAddress = 32; function makeWorkerCodeForOpcode(compareExchangeOpcode, size, functionName, builder) { let loadMemOpcode = kTrapUnreachable; switch (size) { case 64: loadMemOpcode = kExprI64LoadMem; break; case 32: loadMemOpcode = kExprI64LoadMem32U; break; case 16: loadMemOpcode = kExprI64LoadMem16U; break; case 8: loadMemOpcode = kExprI64LoadMem8U; break; default: throw "!"; } const kArgMemoryCell = 0; // target for atomic ops const kArgSequencePtr = 1; // address of sequence const kArgSeqenceLength = 2; // lenght of sequence const kArgWorkerId = 3; // id of this worker const kArgBitMask = 4; // mask to extract worker id from value const kLocalCurrentOffset = 5; // current position in sequence in bytes const kLocalExpectedValue = 6; // the value we are waiting for const kLocalNextValue = 7; // the value to write in the update let body = [ // Turn sequence length to equivalent in bytes. kExprLocalGet, kArgSeqenceLength, kExprI32Const, size / 8, kExprI32Mul, kExprLocalSet, kArgSeqenceLength, // Outer block so we have something to jump for return. ...[kExprBlock, kWasmVoid, // Set counter to 0. kExprI32Const, 0, kExprLocalSet, kLocalCurrentOffset, // Outer loop until maxcount. ...[kExprLoop, kWasmVoid, // Find the next value to wait for. ...[kExprLoop, kWasmVoid, // Check end of sequence. kExprLocalGet, kLocalCurrentOffset, kExprLocalGet, kArgSeqenceLength, kExprI32Eq, kExprBrIf, 2, // return ...[kExprBlock, kWasmVoid, // Load next value. kExprLocalGet, kArgSequencePtr, kExprLocalGet, kLocalCurrentOffset, kExprI32Add, loadMemOpcode, 0, 0, // Mask off bits. kExprLocalGet, kArgBitMask, kExprI64UConvertI32, kExprI64And, // Compare with worker id. kExprLocalGet, kArgWorkerId, kExprI64UConvertI32, kExprI64Eq, kExprBrIf, 0, // Not found, increment position. kExprLocalGet, kLocalCurrentOffset, kExprI32Const, size / 8, kExprI32Add, kExprLocalSet, kLocalCurrentOffset, kExprBr, 1, kExprEnd ], // Found, end loop. kExprEnd ], // Load expected value to local. kExprLocalGet, kArgSequencePtr, kExprLocalGet, kLocalCurrentOffset, kExprI32Add, loadMemOpcode, 0, 0, kExprLocalSet, kLocalExpectedValue, // Load value after expected one. kExprLocalGet, kArgSequencePtr, kExprLocalGet, kLocalCurrentOffset, kExprI32Add, kExprI32Const, size / 8, kExprI32Add, loadMemOpcode, 0, 0, kExprLocalSet, kLocalNextValue, // Hammer on memory until value found. ...[kExprLoop, kWasmVoid, // Load address. kExprLocalGet, kArgMemoryCell, // Load expected value. kExprLocalGet, kLocalExpectedValue, // Load updated value. kExprLocalGet, kLocalNextValue, // Try update. kAtomicPrefix, compareExchangeOpcode, 0, 0, // Load expected value. kExprLocalGet, kLocalExpectedValue, // Spin if not what expected. kExprI64Ne, kExprBrIf, 0, kExprEnd ], // Next iteration of loop. kExprLocalGet, kLocalCurrentOffset, kExprI32Const, size / 8, kExprI32Add, kExprLocalSet, kLocalCurrentOffset, kExprBr, 0, kExprEnd ], // outer loop kExprEnd ], // the block kExprReturn ]; builder.addFunction(functionName, makeSig([kWasmI32, kWasmI32, kWasmI32, kWasmI32, kWasmI32 ], [])) .addLocals(kWasmI32, 1).addLocals(kWasmI64, 2) .addBody(body) .exportAs(functionName); } function generateSequence(typedarray, start, count) { let end = count + start; for (let i = start; i < end; i++) { typedarray[i] = Math.floor(Math.random() * 256); } } function spawnWorker(module, memory, address, sequence) { let workers = []; for (let i = 0; i < kNumberOfWorkers; i++) { let worker = new Worker( `onmessage = function(msg) { this.instance = new WebAssembly.Instance(msg.module, {m: {imported_mem: msg.memory}}); instance.exports.worker(msg.address, msg.sequence, msg.sequenceLength, msg.workerId, msg.bitMask); postMessage({workerId: msg.workerId}); }`, {type: 'string'} ); workers.push(worker); worker.postMessage({ module: module, memory: memory, address: address, sequence: sequence, sequenceLength: kSequenceLength, workerId: i, bitMask: kBitMask }); } return workers; } function waitForWorkers(workers) { for (let worker of workers) { worker.getMessage(); worker.terminate(); } } function testOpcode(opcode, opcodeSize) { print("Testing I64AtomicCompareExchange" + opcodeSize); let builder = new WasmModuleBuilder(); builder.addImportedMemory("m", "imported_mem", 0, 2, "shared"); makeWorkerCodeForOpcode(opcode, opcodeSize, "worker", builder); let memory = new WebAssembly.Memory({ initial: 2, maximum: 2, shared: true }); let memoryView = new Uint8Array(memory.buffer); let numBytes = opcodeSize / 8; generateSequence( memoryView, kSequenceStartAddress, kSequenceLength * numBytes); // Write the first element of the sequence to memory, such that the workers // can start running as soon as they are spawned. memoryView.copyWithin( kMemoryAddress, kSequenceStartAddress, kSequenceStartAddress + numBytes); let module = new WebAssembly.Module(builder.toBuffer()); let workers = spawnWorker(module, memory, kMemoryAddress, kSequenceStartAddress); waitForWorkers(workers); print("DONE"); } testOpcode(kExprI64AtomicCompareExchange, 64); testOpcode(kExprI64AtomicCompareExchange32U, 32); testOpcode(kExprI64AtomicCompareExchange16U, 16); testOpcode(kExprI64AtomicCompareExchange8U, 8);