// Copyright 2020 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. utils.load('test/inspector/wasm-inspector-test.js'); let {session, contextGroup, Protocol} = InspectorTest.start('Tests stepping through wasm scripts by byte offsets'); session.setupScriptMap(); var builder = new WasmModuleBuilder(); var func_a_idx = builder.addFunction('wasm_A', kSig_v_i).addBody([kExprNop, kExprNop]).index; // wasm_B calls wasm_A times. var func_b = builder.addFunction('wasm_B', kSig_v_i) .addBody([ // clang-format off kExprLoop, kWasmVoid, // while kExprLocalGet, 0, // - kExprIf, kWasmVoid, // if != 0 kExprLocalGet, 0, // - kExprI32Const, 1, // - kExprI32Sub, // - kExprLocalSet, 0, // decrease ...wasmI32Const(1024), // some longer i32 const (2 byte imm) kExprCallFunction, func_a_idx, // - kExprBr, 1, // continue kExprEnd, // - kExprEnd, // break // clang-format on ]) .exportAs('main'); let fact = builder.addFunction('fact', kSig_i_i) .addLocals(kWasmI32, 1) .addBody([ // clang-format off kExprLocalGet, 0, kExprIf, kWasmI32, // if != 0 kExprLocalGet, 0, kExprI32Const, 1, kExprI32Sub, kExprCallFunction, 2, kExprLocalGet, 0, kExprI32Mul, // return fact( - 1) * kExprElse, // else kExprI32Const, 1, // return 1 kExprEnd, // clang-format on ]) .exportAs('fact'); var module_bytes = builder.toArray(); InspectorTest.runAsyncTestSuite([ async function test() { for (const action of ['stepInto', 'stepOver', 'stepOut', 'resume']) InspectorTest.logProtocolCommandCalls('Debugger.' + action); await Protocol.Runtime.enable(); await Protocol.Debugger.enable(); InspectorTest.log('Setting up global instance variable.'); WasmInspectorTest.instantiate(module_bytes); const [, {params: wasmScript}] = await Protocol.Debugger.onceScriptParsed(2); InspectorTest.log('Got wasm script: ' + wasmScript.url); // Set the breakpoint on a non-breakable position. This should resolve to the // next instruction. var offset = func_b.body_offset + 15; InspectorTest.log( `Setting breakpoint on offset ` + offset + ` (should be propagated to ` + (offset + 1) + `, the offset of the call), url ${wasmScript.url}`); let bpmsg = await Protocol.Debugger.setBreakpoint({ location: {scriptId: wasmScript.scriptId, lineNumber: 0, columnNumber: offset} }); InspectorTest.logMessage(bpmsg.result.actualLocation); Protocol.Runtime.evaluate({ expression: 'instance.exports.main(4)' }); await waitForPauseAndStep('stepInto'); // into call to wasm_A await waitForPauseAndStep('stepOver'); // over first nop await waitForPauseAndStep('stepOut'); // out of wasm_A await waitForPauseAndStep('stepOut'); // out of wasm_B, stop on breakpoint await waitForPauseAndStep('stepOver'); // over call await waitForPauseAndStep('stepInto'); // == stepOver br await waitForPauseAndStep('resume'); // to next breakpoint (3rd iteration) await waitForPauseAndStep('stepInto'); // into wasm_A await waitForPauseAndStep('stepOut'); // out to wasm_B // Now step 10 times, until we are in wasm_A again. for (let i = 0; i < 10; ++i) await waitForPauseAndStep('stepInto'); // 3 more times, back to wasm_B. for (let i = 0; i < 3; ++i) await waitForPauseAndStep('stepInto'); // Then just resume. await waitForPauseAndStep('resume'); InspectorTest.log('exports.main returned!'); InspectorTest.log('Test stepping over a recursive call'); // Set a breakpoint at the recursive call and run. offset = fact.body_offset + 9; // Offset of the recursive call instruction. InspectorTest.log( `Setting breakpoint on the recursive call instruction @+` + offset + `, url ${wasmScript.url}`); bpmsg = await Protocol.Debugger.setBreakpoint({ location: {scriptId: wasmScript.scriptId, lineNumber: 0, columnNumber: offset} }); actualLocation = bpmsg.result.actualLocation; InspectorTest.logMessage(actualLocation); Protocol.Runtime.evaluate({ expression: 'instance.exports.fact(4)' }); await waitForPause(); // Remove the breakpoint before stepping over. InspectorTest.log('Removing breakpoint'); let breakpointId = bpmsg.result.breakpointId; await Protocol.Debugger.removeBreakpoint({breakpointId}); await Protocol.Debugger.stepOver(); await waitForPauseAndStep('resume'); } ]); async function waitForPauseAndStep(stepAction) { await waitForPause(); Protocol.Debugger[stepAction](); } async function waitForPause() { const {params: {callFrames}} = await Protocol.Debugger.oncePaused(); await session.logSourceLocation(callFrames[0].location); }