dbda6c3d4f
Most control structures in WebAssembly do not have a clear execution semantics, they are more like markers. Hence the execute state, and the change in the state, when breaking on them and stepping over them is unclear. Hence this CL just makes them non-breakable. If the user tries to set a breakpoint on them, this breakpoint will automatically be propagated to the first instruction after the respective control opcode (this is tested for other cases in existing tests). R=thibaudm@chromium.org Bug: v8:10326 Change-Id: Iaf540a94789c9cbc87d23ddfb794e4b01776b49f Reviewed-on: https://chromium-review.googlesource.com/c/v8/v8/+/2122017 Reviewed-by: Thibaud Michaud <thibaudm@chromium.org> Commit-Queue: Clemens Backes <clemensb@chromium.org> Cr-Commit-Position: refs/heads/master@{#66876}
127 lines
5.2 KiB
JavaScript
127 lines
5.2 KiB
JavaScript
// Copyright 2018 the V8 project authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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let {session, contextGroup, Protocol} =
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InspectorTest.start('Tests stepping through wasm scripts with source maps');
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session.setupScriptMap();
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utils.load('test/mjsunit/wasm/wasm-module-builder.js');
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var builder = new WasmModuleBuilder();
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var func_a_idx =
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builder.addFunction('wasm_A', kSig_v_v).addBody([kExprNop, kExprNop]).index;
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// wasm_B calls wasm_A <param0> times.
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builder.addFunction('wasm_B', kSig_v_i)
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.addBody([
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// clang-format off
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kExprLoop, kWasmStmt, // while
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kExprLocalGet, 0, // -
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kExprIf, kWasmStmt, // if <param0> != 0
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kExprLocalGet, 0, // -
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kExprI32Const, 1, // -
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kExprI32Sub, // -
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kExprLocalSet, 0, // decrease <param0>
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kExprCallFunction, func_a_idx, // -
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kExprBr, 1, // continue
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kExprEnd, // -
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kExprEnd, // break
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// clang-format on
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])
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.exportAs('main');
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builder.addCustomSection('sourceMappingURL', [3, 97, 98, 99]);
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var module_bytes = builder.toArray();
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function instantiate(bytes) {
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var buffer = new ArrayBuffer(bytes.length);
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var view = new Uint8Array(buffer);
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for (var i = 0; i < bytes.length; ++i) {
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view[i] = bytes[i] | 0;
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}
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var module = new WebAssembly.Module(buffer);
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// Set global variable.
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instance = new WebAssembly.Instance(module);
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}
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(async function test() {
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for (const action of ['stepInto', 'stepOver', 'stepOut', 'resume'])
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InspectorTest.logProtocolCommandCalls('Debugger.' + action);
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await Protocol.Debugger.enable();
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InspectorTest.log('Installing code an global variable and instantiate.');
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Protocol.Runtime.evaluate({
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expression: `var instance;(${instantiate.toString()})(${JSON.stringify(module_bytes)})`});
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const [, {params: wasmScript}] = await Protocol.Debugger.onceScriptParsed(2);
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InspectorTest.log('Got wasm script: ' + wasmScript.url);
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InspectorTest.log('Script sourceMapURL: ' + wasmScript.sourceMapURL);
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InspectorTest.log('Requesting source for ' + wasmScript.url + '...');
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const msg =
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await Protocol.Debugger.getScriptSource({scriptId: wasmScript.scriptId});
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InspectorTest.log(`Source retrieved without error: ${!msg.error}`);
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InspectorTest.log(
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`Setting breakpoint on offset 54 (on the setlocal before the call), url ${wasmScript.url}`);
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const {result: {actualLocation}} = await Protocol.Debugger.setBreakpoint({
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location:{scriptId: wasmScript.scriptId, lineNumber: 0, columnNumber: 54}});
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InspectorTest.logMessage(actualLocation);
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Protocol.Runtime.evaluate({expression: 'instance.exports.main(4)'});
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await waitForPauseAndStep('stepInto'); // == stepOver, to call instruction
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await waitForPauseAndStep('stepInto'); // into call to wasm_A
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await waitForPauseAndStep('stepOver'); // over first nop
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await waitForPauseAndStep('stepOut'); // out of wasm_A
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await waitForPauseAndStep('stepOut'); // out of wasm_B, stop on breakpoint again
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await waitForPauseAndStep('stepOver'); // to call
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await waitForPauseAndStep('stepOver'); // over call
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await waitForPauseAndStep('resume'); // to next breakpoint (third iteration)
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await waitForPauseAndStep('stepInto'); // to call
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await waitForPauseAndStep('stepInto'); // into wasm_A
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await waitForPauseAndStep('stepOut'); // out to wasm_B
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// Now step 8 times, until we are in wasm_A again.
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for (let i = 0; i < 8; ++i) await waitForPauseAndStep('stepInto');
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// 3 more times, back to wasm_B.
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for (let i = 0; i < 3; ++i) await waitForPauseAndStep('stepInto');
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// then just resume.
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await waitForPauseAndStep('resume');
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InspectorTest.log('exports.main returned!');
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InspectorTest.log('Finished!');
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InspectorTest.completeTest();
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})();
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async function waitForPauseAndStep(stepAction) {
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const {params: {callFrames}} = await Protocol.Debugger.oncePaused();
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await session.logSourceLocation(callFrames[0].location);
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for (var frame of callFrames) {
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const functionName = frame.functionName || '(anonymous)';
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const lineNumber = frame.location.lineNumber;
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const columnNumber = frame.location.columnNumber;
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InspectorTest.log(`at ${functionName} (${lineNumber}:${columnNumber}):`);
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for (var scope of frame.scopeChain) {
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InspectorTest.logObject(' - scope (' + scope.type + '):');
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if (scope.type === 'global') {
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InspectorTest.logObject(' -- skipped');
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} else {
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const {result: {result: {value}}} =
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await Protocol.Runtime.callFunctionOn({
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objectId: scope.object.objectId,
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functionDeclaration: 'function() { return this; }',
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returnByValue: true
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});
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if (scope.type === 'local') {
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if (value.locals)
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InspectorTest.log(` locals: ${JSON.stringify(value.locals)}`);
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InspectorTest.log(` stack: ${JSON.stringify(value.stack)}`);
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} else {
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InspectorTest.log(` ${JSON.stringify(value)}`);
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}
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}
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}
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}
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Protocol.Debugger[stepAction]();
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}
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