ui/src/engine/wasm_bridge.ts - third_party/perfetto - Git at Google

 // Copyright (C) 2018 The Android Open Source Project
 //
 // 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 {defer} from '../base/deferred';
 import {assertExists, assertTrue} from '../base/logging';
 import initTraceProcessor from '../gen/trace_processor';

 // The Initialize() call will allocate a buffer of REQ_BUF_SIZE bytes which
 // will be used to copy the input request data. This is to avoid passing the
 // input data on the stack, which has a limited (~1MB) size.
 // The buffer will be allocated by the C++ side and reachable at
 // HEAPU8[reqBufferAddr, +REQ_BUFFER_SIZE].
 const REQ_BUF_SIZE = 32 * 1024 * 1024;

 // The end-to-end interaction between JS and Wasm is as follows:
 // - [JS] Inbound data received by the worker (onmessage() in engine/index.ts).
 //   - [JS] onRpcDataReceived() (this file)
 //     - [C++] trace_processor_on_rpc_request (wasm_bridge.cc)
 //       - [C++] some TraceProcessor::method()
 //         for (batch in result_rows)
 //           - [C++] RpcResponseFunction(bytes) (wasm_bridge.cc)
 //             - [JS] onReply() (this file)
 //               - [JS] postMessage() (this file)
 export class WasmBridge {
   // When this promise has resolved it is safe to call callWasm.
   whenInitialized: Promise<void>;

   private aborted: boolean;
   private connection: initTraceProcessor.Module;
   private reqBufferAddr = 0;
   private lastStderr: string[] = [];
   private messagePort?: MessagePort;

   constructor() {
     this.aborted = false;
     const deferredRuntimeInitialized = defer<void>();
     this.connection = initTraceProcessor({
       locateFile: (s: string) => s,
       print: (line: string) => console.log(line),
       printErr: (line: string) => this.appendAndLogErr(line),
       onRuntimeInitialized: () => deferredRuntimeInitialized.resolve(),
     });
     this.whenInitialized = deferredRuntimeInitialized.then(() => {
       const fn = this.connection.addFunction(this.onReply.bind(this), 'vii');
       this.reqBufferAddr = this.connection.ccall(
           'trace_processor_rpc_init',
           /* return=*/ 'number',
           /* args=*/['number', 'number'],
           [fn, REQ_BUF_SIZE]);
     });
   }

   initialize(port: MessagePort) {
     // Ensure that initialize() is called only once.
     assertTrue(this.messagePort === undefined);
     this.messagePort = port;
     // Note: setting .onmessage implicitly calls port.start() and dispatches the
     // queued messages. addEventListener('message') doesn't.
     this.messagePort.onmessage = this.onMessage.bind(this);
   }

   onMessage(msg: MessageEvent) {
     if (this.aborted) {
       throw new Error('Wasm module crashed');
     }
     assertTrue(msg.data instanceof Uint8Array);
     const data = msg.data as Uint8Array;
     let wrSize = 0;
     // If the request data is larger than our JS<>Wasm interop buffer, split it
     // into multiple writes. The RPC channel is byte-oriented and is designed to
     // deal with arbitrary fragmentations.
     while (wrSize < data.length) {
       const sliceLen = Math.min(data.length - wrSize, REQ_BUF_SIZE);
       const dataSlice = data.subarray(wrSize, wrSize + sliceLen);
       this.connection.HEAPU8.set(dataSlice, this.reqBufferAddr);
       wrSize += sliceLen;
       try {
         this.connection.ccall(
             'trace_processor_on_rpc_request',  // C function name.
             'void',                            // Return type.
             ['number'],                        // Arg types.
             [sliceLen],                        // Args.
         );
       } catch (err) {
         this.aborted = true;
         let abortReason = `${err}`;
         if (err instanceof Error) {
           abortReason = `${err.name}: ${err.message}\n${err.stack}`;
         }
         abortReason += '\n\nstderr: \n' + this.lastStderr.join('\n');
         throw new Error(abortReason);
       }
     }  // while(wrSize < data.length)
   }

   // This function is bound and passed to Initialize and is called by the C++
   // code while in the ccall(trace_processor_on_rpc_request).
   private onReply(heapPtr: number, size: number) {
     const data = this.connection.HEAPU8.slice(heapPtr, heapPtr + size);
     assertExists(this.messagePort).postMessage(data, [data.buffer]);
   }

   private appendAndLogErr(line: string) {
     console.warn(line);
     // Keep the last N lines in the |lastStderr| buffer.
     this.lastStderr.push(line);
     if (this.lastStderr.length > 512) {
       this.lastStderr.shift();
     }
   }
 }
	// Copyright (C) 2018 The Android Open Source Project
	//
	// 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 {defer} from '../base/deferred';
	import {assertExists, assertTrue} from '../base/logging';
	import initTraceProcessor from '../gen/trace_processor';

	// The Initialize() call will allocate a buffer of REQ_BUF_SIZE bytes which
	// will be used to copy the input request data. This is to avoid passing the
	// input data on the stack, which has a limited (~1MB) size.
	// The buffer will be allocated by the C++ side and reachable at
	// HEAPU8[reqBufferAddr, +REQ_BUFFER_SIZE].
	const REQ_BUF_SIZE = 32 * 1024 * 1024;

	// The end-to-end interaction between JS and Wasm is as follows:
	// - [JS] Inbound data received by the worker (onmessage() in engine/index.ts).
	// - [JS] onRpcDataReceived() (this file)
	// - [C++] trace_processor_on_rpc_request (wasm_bridge.cc)
	// - [C++] some TraceProcessor::method()
	// for (batch in result_rows)
	// - [C++] RpcResponseFunction(bytes) (wasm_bridge.cc)
	// - [JS] onReply() (this file)
	// - [JS] postMessage() (this file)
	export class WasmBridge {
	// When this promise has resolved it is safe to call callWasm.
	whenInitialized: Promise<void>;

	private aborted: boolean;
	private connection: initTraceProcessor.Module;
	private reqBufferAddr = 0;
	private lastStderr: string[] = [];
	private messagePort?: MessagePort;

	constructor() {
	this.aborted = false;
	const deferredRuntimeInitialized = defer<void>();
	this.connection = initTraceProcessor({
	locateFile: (s: string) => s,
	print: (line: string) => console.log(line),
	printErr: (line: string) => this.appendAndLogErr(line),
	onRuntimeInitialized: () => deferredRuntimeInitialized.resolve(),
	});
	this.whenInitialized = deferredRuntimeInitialized.then(() => {
	const fn = this.connection.addFunction(this.onReply.bind(this), 'vii');
	this.reqBufferAddr = this.connection.ccall(
	'trace_processor_rpc_init',
	/* return=*/ 'number',
	/* args=*/['number', 'number'],
	[fn, REQ_BUF_SIZE]);
	});
	}

	initialize(port: MessagePort) {
	// Ensure that initialize() is called only once.
	assertTrue(this.messagePort === undefined);
	this.messagePort = port;
	// Note: setting .onmessage implicitly calls port.start() and dispatches the
	// queued messages. addEventListener('message') doesn't.
	this.messagePort.onmessage = this.onMessage.bind(this);
	}

	onMessage(msg: MessageEvent) {
	if (this.aborted) {
	throw new Error('Wasm module crashed');
	}
	assertTrue(msg.data instanceof Uint8Array);
	const data = msg.data as Uint8Array;
	let wrSize = 0;
	// If the request data is larger than our JS<>Wasm interop buffer, split it
	// into multiple writes. The RPC channel is byte-oriented and is designed to
	// deal with arbitrary fragmentations.
	while (wrSize < data.length) {
	const sliceLen = Math.min(data.length - wrSize, REQ_BUF_SIZE);
	const dataSlice = data.subarray(wrSize, wrSize + sliceLen);
	this.connection.HEAPU8.set(dataSlice, this.reqBufferAddr);
	wrSize += sliceLen;
	try {
	this.connection.ccall(
	'trace_processor_on_rpc_request', // C function name.
	'void', // Return type.
	['number'], // Arg types.
	[sliceLen], // Args.
	);
	} catch (err) {
	this.aborted = true;
	let abortReason = `${err}`;
	if (err instanceof Error) {
	abortReason = `${err.name}: ${err.message}\n${err.stack}`;
	}
	abortReason += '\n\nstderr: \n' + this.lastStderr.join('\n');
	throw new Error(abortReason);
	}
	} // while(wrSize < data.length)
	}

	// This function is bound and passed to Initialize and is called by the C++
	// code while in the ccall(trace_processor_on_rpc_request).
	private onReply(heapPtr: number, size: number) {
	const data = this.connection.HEAPU8.slice(heapPtr, heapPtr + size);
	assertExists(this.messagePort).postMessage(data, [data.buffer]);
	}

	private appendAndLogErr(line: string) {
	console.warn(line);
	// Keep the last N lines in the \|lastStderr\| buffer.
	this.lastStderr.push(line);
	if (this.lastStderr.length > 512) {
	this.lastStderr.shift();
	}
	}
	}