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19e56613cf
Extend test_runner VMOptions support with an ability to specify paths relative to temporary compilation directory. // VMOptions=--foo=$TEST_COMPILATION_DIR/foo.file The same directory will also be passed as an environment variable to execution command. Migrate most of the tests which used to write stuff into the SDK root to use this feature. I am leaving vm/dart/causal/* tests unmigrated because migrating requires time consuming manual update of expectations (which encode raw line numbers). I have a follow up CL which changes how these tests are written which will make migration trivial. Change-Id: Id53008be66de8ff18623efac27ff15750f407749 Reviewed-on: https://dart-review.googlesource.com/c/sdk/+/300600 Reviewed-by: William Hesse <whesse@google.com> Commit-Queue: Slava Egorov <vegorov@google.com>
286 lines
9.2 KiB
Dart
286 lines
9.2 KiB
Dart
// Copyright (c) 2017, the Dart project authors. Please see the AUTHORS file
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// for details. All rights reserved. Use of this source code is governed by a
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// BSD-style license that can be found in the LICENSE file.
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/// VMOptions=--dwarf-stack-traces --save-debugging-info=$TEST_COMPILATION_DIR/dwarf.so
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import 'dart:convert';
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import 'dart:io';
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import 'package:native_stack_traces/native_stack_traces.dart';
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import 'package:path/path.dart' as path;
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import 'package:expect/expect.dart';
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@pragma("vm:prefer-inline")
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bar() {
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// Keep the 'throw' and its argument on separate lines.
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throw // force linebreak with dart format
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"Hello, Dwarf!";
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}
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@pragma("vm:never-inline")
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foo() {
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bar();
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}
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Future<void> main() async {
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String rawStack = "";
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try {
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foo();
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} catch (e, st) {
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rawStack = st.toString();
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}
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if (path.basenameWithoutExtension(Platform.executable) !=
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"dart_precompiled_runtime") {
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return; // Not running from an AOT compiled snapshot.
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}
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if (Platform.isAndroid) {
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return; // Generated dwarf.so not available on the test device.
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}
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final dwarf = Dwarf.fromFile(
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path.join(Platform.environment["TEST_COMPILATION_DIR"]!, "dwarf.so"))!;
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await checkStackTrace(rawStack, dwarf, expectedCallsInfo);
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}
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Future<void> checkStackTrace(String rawStack, Dwarf dwarf,
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List<List<DartCallInfo>> expectedCallsInfo) async {
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print("");
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print("Raw stack trace:");
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print(rawStack);
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final rawLines =
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await Stream.value(rawStack).transform(const LineSplitter()).toList();
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final pcOffsets = collectPCOffsets(rawLines).toList();
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Expect.isNotEmpty(pcOffsets);
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print('PCOffsets:');
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for (final offset in pcOffsets) {
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print('* $offset');
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}
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print('');
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// We should have at least enough PC addresses to cover the frames we'll be
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// checking.
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Expect.isTrue(pcOffsets.length >= expectedCallsInfo.length);
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final isolateStart = dwarf.isolateStartAddress(pcOffsets.first.architecture);
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Expect.isNotNull(isolateStart);
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print('Isolate start offset: 0x${isolateStart!.toRadixString(16)}');
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// The addresses of the stack frames in the separate DWARF debugging info.
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final virtualAddresses =
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pcOffsets.map((o) => dwarf.virtualAddressOf(o)).toList();
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print('Virtual addresses from PCOffsets:');
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for (final address in virtualAddresses) {
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print('* 0x${address.toRadixString(16)}');
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}
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print('');
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// Some double-checks using other information in the non-symbolic stack trace.
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final dsoBase = dsoBaseAddresses(rawLines).single;
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print('DSO base address: 0x${dsoBase.toRadixString(16)}');
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final absoluteIsolateStart = isolateStartAddresses(rawLines).single;
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print('Absolute isolate start address: '
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'0x${absoluteIsolateStart.toRadixString(16)}');
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final absolutes = absoluteAddresses(rawLines);
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// The relocated addresses of the stack frames in the loaded DSO. These is
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// only guaranteed to be the same as virtualAddresses if the built-in ELF
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// generator was used to create the snapshot.
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final relocatedAddresses = absolutes.map((a) => a - dsoBase);
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print('Relocated absolute addresses:');
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for (final address in relocatedAddresses) {
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print('* 0x${address.toRadixString(16)}');
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}
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print('');
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// Explicits will be empty if not generating ELF snapshots directly, which
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// means we can't depend on virtual addresses in the snapshot lining up with
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// those in the separate debugging information.
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final explicits = explicitVirtualAddresses(rawLines);
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if (explicits.isNotEmpty) {
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print('Explicit virtual addresses:');
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for (final address in explicits) {
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print('* 0x${address.toRadixString(16)}');
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}
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print('');
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// Direct-to-ELF snapshots should have a build ID.
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Expect.isNotNull(dwarf.buildId);
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Expect.deepEquals(explicits, virtualAddresses);
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// This is an ELF snapshot, so check that these two are the same.
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Expect.deepEquals(virtualAddresses, relocatedAddresses);
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}
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final gotCallsInfo = <List<DartCallInfo>>[];
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for (final offset in pcOffsets) {
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final externalCallInfo = dwarf.callInfoForPCOffset(offset);
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Expect.isNotNull(externalCallInfo);
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final allCallInfo =
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dwarf.callInfoForPCOffset(offset, includeInternalFrames: true);
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Expect.isNotNull(allCallInfo);
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for (final call in externalCallInfo!) {
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Expect.isTrue(call is DartCallInfo, "got non-Dart call info ${call}");
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Expect.isFalse(call.isInternal);
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Expect.isTrue(allCallInfo!.contains(call),
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"External call info ${call} is not among all calls");
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}
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for (final call in allCallInfo!) {
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if (!call.isInternal) {
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Expect.isTrue(externalCallInfo.contains(call),
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"External call info ${call} is not among external calls");
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}
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}
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gotCallsInfo.add(externalCallInfo.cast<DartCallInfo>().toList());
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}
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print("");
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print("Call information for PC addresses:");
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for (var i = 0; i < virtualAddresses.length; i++) {
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print("For PC 0x${virtualAddresses[i].toRadixString(16)}:");
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print(" Calls corresponding to user or library code:");
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gotCallsInfo[i].forEach((frame) => print(" ${frame}"));
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}
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// Remove empty entries which correspond to skipped internal frames.
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gotCallsInfo.removeWhere((calls) => calls.isEmpty);
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checkFrames(gotCallsInfo, expectedCallsInfo);
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final gotSymbolizedLines = await Stream.fromIterable(rawLines)
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.transform(DwarfStackTraceDecoder(dwarf, includeInternalFrames: false))
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.toList();
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final gotSymbolizedCalls =
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gotSymbolizedLines.where((s) => s.startsWith('#')).toList();
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print("");
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print("Symbolized stack trace:");
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gotSymbolizedLines.forEach(print);
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print("");
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print("Extracted calls:");
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gotSymbolizedCalls.forEach(print);
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final expectedStrings = extractCallStrings(expectedCallsInfo);
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// There are two strings in the list for each line in the output.
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final expectedCallCount = expectedStrings.length ~/ 2;
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Expect.isTrue(gotSymbolizedCalls.length >= expectedCallCount);
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// Strip off any unexpected lines, so we can also make sure we didn't get
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// unexpected calls prior to those calls we expect.
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final gotCallsTrace =
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gotSymbolizedCalls.sublist(0, expectedCallCount).join('\n');
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Expect.stringContainsInOrder(gotCallsTrace, expectedStrings);
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}
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final expectedCallsInfo = <List<DartCallInfo>>[
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// The first frame should correspond to the throw in bar, which was inlined
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// into foo (so we'll get information for two calls for that PC address).
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[
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DartCallInfo(
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function: "bar",
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filename: "dwarf_stack_trace_test.dart",
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line: 17,
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column: 3,
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inlined: true),
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DartCallInfo(
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function: "foo",
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filename: "dwarf_stack_trace_test.dart",
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line: 23,
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column: 3,
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inlined: false)
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],
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// The second frame corresponds to call to foo in main.
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[
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DartCallInfo(
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function: "main",
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filename: "dwarf_stack_trace_test.dart",
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line: 29,
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column: 5,
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inlined: false)
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],
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// Don't assume anything about any of the frames below the call to foo
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// in main, as this makes the test too brittle.
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];
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void checkFrames(
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List<List<DartCallInfo>> gotInfo, List<List<DartCallInfo>> expectedInfo) {
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// There may be frames below those we check.
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Expect.isTrue(gotInfo.length >= expectedInfo.length);
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// We can't just use deep equality, since we only have the filenames in the
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// expected version, not the whole path, and we don't really care if
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// non-positive line numbers match, as long as they're both non-positive.
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for (var i = 0; i < expectedInfo.length; i++) {
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for (var j = 0; j < expectedInfo[i].length; j++) {
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final got = gotInfo[i][j];
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final expected = expectedInfo[i][j];
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Expect.equals(expected.function, got.function);
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Expect.equals(expected.inlined, got.inlined);
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Expect.equals(expected.filename, path.basename(got.filename));
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if (expected.isInternal) {
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Expect.isTrue(got.isInternal);
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} else {
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Expect.equals(expected.line, got.line);
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}
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}
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}
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}
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List<String> extractCallStrings(List<List<CallInfo>> expectedCalls) {
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var ret = <String>[];
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for (final frame in expectedCalls) {
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for (final call in frame) {
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if (call is DartCallInfo) {
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ret.add(call.function);
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if (call.isInternal) {
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ret.add("${call.filename}:??");
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} else {
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ret.add("${call.filename}:${call.line}");
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}
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}
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}
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}
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return ret;
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}
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Iterable<int> parseUsingAddressRegExp(RegExp re, Iterable<String> lines) sync* {
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for (final line in lines) {
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final match = re.firstMatch(line);
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if (match == null) continue;
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final s = match.group(1);
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if (s == null) continue;
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yield int.parse(s, radix: 16);
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}
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}
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final _absRE = RegExp(r'abs ([a-f\d]+)');
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Iterable<int> absoluteAddresses(Iterable<String> lines) =>
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parseUsingAddressRegExp(_absRE, lines);
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final _virtRE = RegExp(r'virt ([a-f\d]+)');
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Iterable<int> explicitVirtualAddresses(Iterable<String> lines) =>
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parseUsingAddressRegExp(_virtRE, lines);
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final _dsoBaseRE = RegExp(r'isolate_dso_base: ([a-f\d]+)');
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Iterable<int> dsoBaseAddresses(Iterable<String> lines) =>
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parseUsingAddressRegExp(_dsoBaseRE, lines);
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final _isolateStartRE = RegExp(r'isolate_instructions: ([a-f\d]+)');
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Iterable<int> isolateStartAddresses(Iterable<String> lines) =>
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parseUsingAddressRegExp(_isolateStartRE, lines);
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