base/debug/stack_trace_unittest.cc - chromium/src - Git at Google

 // Copyright (c) 2011 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include <stddef.h>

 #include <limits>
 #include <sstream>
 #include <string>

 #include "base/debug/debugging_buildflags.h"
 #include "base/debug/stack_trace.h"
 #include "base/logging.h"
 #include "base/process/kill.h"
 #include "base/process/process_handle.h"
 #include "base/test/test_timeouts.h"
 #include "build/build_config.h"
 #include "testing/gtest/include/gtest/gtest.h"
 #include "testing/multiprocess_func_list.h"

 #if defined(OS_POSIX) && !defined(OS_ANDROID) && !defined(OS_IOS)
 #include "base/test/multiprocess_test.h"
 #endif

 namespace base {
 namespace debug {

 #if defined(OS_POSIX) && !defined(OS_ANDROID) && !defined(OS_IOS)
 typedef MultiProcessTest StackTraceTest;
 #else
 typedef testing::Test StackTraceTest;
 #endif

 #if !defined(__UCLIBC__) && !defined(_AIX)
 // StackTrace::OutputToStream() is not implemented under uclibc, nor AIX.
 // See https://crbug.com/706728

 TEST_F(StackTraceTest, OutputToStream) {
   StackTrace trace;

   // Dump the trace into a string.
   std::ostringstream os;
   trace.OutputToStream(&os);
   std::string backtrace_message = os.str();

   // ToString() should produce the same output.
   EXPECT_EQ(backtrace_message, trace.ToString());

   size_t frames_found = 0;
   const void* const* addresses = trace.Addresses(&frames_found);

 #if defined(OFFICIAL_BUILD) && \
     ((defined(OS_POSIX) && !defined(OS_MACOSX)) || defined(OS_FUCHSIA))
   // Stack traces require an extra data table that bloats our binaries,
   // so they're turned off for official builds. Stop the test here, so
   // it at least verifies that StackTrace calls don't crash.
   return;
 #endif  // defined(OFFICIAL_BUILD) &&
         // ((defined(OS_POSIX) && !defined(OS_MACOSX)) || defined(OS_FUCHSIA))

   ASSERT_TRUE(addresses);
   ASSERT_GT(frames_found, 5u) << "Too few frames found.";

 #if defined(OFFICIAL_BUILD) && defined(OS_MACOSX)
   // Official Mac OS X builds contain enough information to unwind the stack,
   // but not enough to symbolize the output.
   return;
 #endif  // defined(OFFICIAL_BUILD) && defined(OS_MACOSX)

 #if defined(OS_FUCHSIA) || defined(OS_ANDROID)
   // Under Fuchsia and Android, StackTrace emits executable build-Ids and
   // address offsets which are symbolized on the test host system, rather than
   // being symbolized in-process.
   return;
 #endif  // defined(OS_FUCHSIA) || defined(OS_ANDROID)

 #if defined(ADDRESS_SANITIZER) || defined(THREAD_SANITIZER) || \
     defined(MEMORY_SANITIZER)
   // Sanitizer configurations (ASan, TSan, MSan) emit unsymbolized stacks.
   return;
 #endif  // defined(ADDRESS_SANITIZER) || defined(THREAD_SANITIZER) ||
         // defined(MEMORY_SANITIZER)

   // Check if the output has symbol initialization warning.  If it does, fail.
   ASSERT_EQ(backtrace_message.find("Dumping unresolved backtrace"),
             std::string::npos)
       << "Unable to resolve symbols.";

   // Expect a demangled symbol.
   // Note that Windows Release builds omit the function parameters from the
   // demangled stack output, otherwise this could be "testing::Test::Run()".
   EXPECT_TRUE(backtrace_message.find("testing::Test::Run") != std::string::npos)
       << "Expected a demangled symbol in backtrace:\n"
       << backtrace_message;

   // Expect to at least find main.
   EXPECT_TRUE(backtrace_message.find("main") != std::string::npos)
       << "Expected to find main in backtrace:\n"
       << backtrace_message;

   // Expect to find this function as well.
   // Note: This will fail if not linked with -rdynamic (aka -export_dynamic)
   EXPECT_TRUE(backtrace_message.find(__func__) != std::string::npos)
       << "Expected to find " << __func__ << " in backtrace:\n"
       << backtrace_message;
 }

 #if !defined(OFFICIAL_BUILD) && !defined(NO_UNWIND_TABLES)
 // Disabled in Official builds, where Link-Time Optimization can result in two
 // or fewer stack frames being available, causing the test to fail.
 TEST_F(StackTraceTest, TruncatedTrace) {
   StackTrace trace;

   size_t count = 0;
   trace.Addresses(&count);
   ASSERT_LT(2u, count);

   StackTrace truncated(2);
   truncated.Addresses(&count);
   EXPECT_EQ(2u, count);
 }
 #endif  // !defined(OFFICIAL_BUILD) && !defined(NO_UNWIND_TABLES)

 // The test is used for manual testing, e.g., to see the raw output.
 TEST_F(StackTraceTest, DebugOutputToStream) {
   StackTrace trace;
   std::ostringstream os;
   trace.OutputToStream(&os);
   VLOG(1) << os.str();
 }

 // The test is used for manual testing, e.g., to see the raw output.
 TEST_F(StackTraceTest, DebugPrintBacktrace) {
   StackTrace().Print();
 }

 // The test is used for manual testing, e.g., to see the raw output.
 TEST_F(StackTraceTest, DebugPrintWithPrefixBacktrace) {
   StackTrace().PrintWithPrefix("[test]");
 }

 // Make sure nullptr prefix doesn't crash. Output not examined, much
 // like the DebugPrintBacktrace test above.
 TEST_F(StackTraceTest, DebugPrintWithNullPrefixBacktrace) {
   StackTrace().PrintWithPrefix(nullptr);
 }

 // Test OutputToStreamWithPrefix, mainly to make sure it doesn't
 // crash. Any "real" stack trace testing happens above.
 TEST_F(StackTraceTest, DebugOutputToStreamWithPrefix) {
   StackTrace trace;
   const char* prefix_string = "[test]";
   std::ostringstream os;
   trace.OutputToStreamWithPrefix(&os, prefix_string);
   std::string backtrace_message = os.str();

   // ToStringWithPrefix() should produce the same output.
   EXPECT_EQ(backtrace_message, trace.ToStringWithPrefix(prefix_string));
 }

 // Make sure nullptr prefix doesn't crash. Output not examined, much
 // like the DebugPrintBacktrace test above.
 TEST_F(StackTraceTest, DebugOutputToStreamWithNullPrefix) {
   StackTrace trace;
   std::ostringstream os;
   trace.OutputToStreamWithPrefix(&os, nullptr);
   trace.ToStringWithPrefix(nullptr);
 }

 #endif  // !defined(__UCLIBC__) && !defined(_AIX)

 #if defined(OS_POSIX) && !defined(OS_ANDROID)
 #if !defined(OS_IOS)
 static char* newArray() {
   // Clang warns about the mismatched new[]/delete if they occur in the same
   // function.
   return new char[10];
 }

 MULTIPROCESS_TEST_MAIN(MismatchedMallocChildProcess) {
   char* pointer = newArray();
   delete pointer;
   return 2;
 }

 // Regression test for StackDumpingSignalHandler async-signal unsafety.
 // Combined with tcmalloc's debugallocation, that signal handler
 // and e.g. mismatched new[]/delete would cause a hang because
 // of re-entering malloc.
 TEST_F(StackTraceTest, AsyncSignalUnsafeSignalHandlerHang) {
   Process child = SpawnChild("MismatchedMallocChildProcess");
   ASSERT_TRUE(child.IsValid());
   int exit_code;
   ASSERT_TRUE(
       child.WaitForExitWithTimeout(TestTimeouts::action_timeout(), &exit_code));
 }
 #endif  // !defined(OS_IOS)

 namespace {

 std::string itoa_r_wrapper(intptr_t i, size_t sz, int base, size_t padding) {
   char buffer[1024];
   CHECK_LE(sz, sizeof(buffer));

   char* result = internal::itoa_r(i, buffer, sz, base, padding);
   EXPECT_TRUE(result);
   return std::string(buffer);
 }

 }  // namespace

 TEST_F(StackTraceTest, itoa_r) {
   EXPECT_EQ("0", itoa_r_wrapper(0, 128, 10, 0));
   EXPECT_EQ("-1", itoa_r_wrapper(-1, 128, 10, 0));

   // Test edge cases.
   if (sizeof(intptr_t) == 4) {
     EXPECT_EQ("ffffffff", itoa_r_wrapper(-1, 128, 16, 0));
     EXPECT_EQ("-2147483648",
               itoa_r_wrapper(std::numeric_limits<intptr_t>::min(), 128, 10, 0));
     EXPECT_EQ("2147483647",
               itoa_r_wrapper(std::numeric_limits<intptr_t>::max(), 128, 10, 0));

     EXPECT_EQ("80000000",
               itoa_r_wrapper(std::numeric_limits<intptr_t>::min(), 128, 16, 0));
     EXPECT_EQ("7fffffff",
               itoa_r_wrapper(std::numeric_limits<intptr_t>::max(), 128, 16, 0));
   } else if (sizeof(intptr_t) == 8) {
     EXPECT_EQ("ffffffffffffffff", itoa_r_wrapper(-1, 128, 16, 0));
     EXPECT_EQ("-9223372036854775808",
               itoa_r_wrapper(std::numeric_limits<intptr_t>::min(), 128, 10, 0));
     EXPECT_EQ("9223372036854775807",
               itoa_r_wrapper(std::numeric_limits<intptr_t>::max(), 128, 10, 0));

     EXPECT_EQ("8000000000000000",
               itoa_r_wrapper(std::numeric_limits<intptr_t>::min(), 128, 16, 0));
     EXPECT_EQ("7fffffffffffffff",
               itoa_r_wrapper(std::numeric_limits<intptr_t>::max(), 128, 16, 0));
   } else {
     ADD_FAILURE() << "Missing test case for your size of intptr_t ("
                   << sizeof(intptr_t) << ")";
   }

   // Test hex output.
   EXPECT_EQ("688", itoa_r_wrapper(0x688, 128, 16, 0));
   EXPECT_EQ("deadbeef", itoa_r_wrapper(0xdeadbeef, 128, 16, 0));

   // Check that itoa_r respects passed buffer size limit.
   char buffer[1024];
   EXPECT_TRUE(internal::itoa_r(0xdeadbeef, buffer, 10, 16, 0));
   EXPECT_TRUE(internal::itoa_r(0xdeadbeef, buffer, 9, 16, 0));
   EXPECT_FALSE(internal::itoa_r(0xdeadbeef, buffer, 8, 16, 0));
   EXPECT_FALSE(internal::itoa_r(0xdeadbeef, buffer, 7, 16, 0));
   EXPECT_TRUE(internal::itoa_r(0xbeef, buffer, 5, 16, 4));
   EXPECT_FALSE(internal::itoa_r(0xbeef, buffer, 5, 16, 5));
   EXPECT_FALSE(internal::itoa_r(0xbeef, buffer, 5, 16, 6));

   // Test padding.
   EXPECT_EQ("1", itoa_r_wrapper(1, 128, 10, 0));
   EXPECT_EQ("1", itoa_r_wrapper(1, 128, 10, 1));
   EXPECT_EQ("01", itoa_r_wrapper(1, 128, 10, 2));
   EXPECT_EQ("001", itoa_r_wrapper(1, 128, 10, 3));
   EXPECT_EQ("0001", itoa_r_wrapper(1, 128, 10, 4));
   EXPECT_EQ("00001", itoa_r_wrapper(1, 128, 10, 5));
   EXPECT_EQ("688", itoa_r_wrapper(0x688, 128, 16, 0));
   EXPECT_EQ("688", itoa_r_wrapper(0x688, 128, 16, 1));
   EXPECT_EQ("688", itoa_r_wrapper(0x688, 128, 16, 2));
   EXPECT_EQ("688", itoa_r_wrapper(0x688, 128, 16, 3));
   EXPECT_EQ("0688", itoa_r_wrapper(0x688, 128, 16, 4));
   EXPECT_EQ("00688", itoa_r_wrapper(0x688, 128, 16, 5));
 }
 #endif  // defined(OS_POSIX) && !defined(OS_ANDROID)

 #if BUILDFLAG(CAN_UNWIND_WITH_FRAME_POINTERS)

 template <size_t Depth>
 void NOINLINE ExpectStackFramePointers(const void** frames,
                                        size_t max_depth) {
   code_start:
   // Calling __builtin_frame_address() forces compiler to emit
   // frame pointers, even if they are not enabled.
   EXPECT_NE(nullptr, __builtin_frame_address(0));
   ExpectStackFramePointers<Depth - 1>(frames, max_depth);

   constexpr size_t frame_index = Depth - 1;
   const void* frame = frames[frame_index];
   EXPECT_GE(frame, &&code_start) << "For frame at index " << frame_index;
   EXPECT_LE(frame, &&code_end) << "For frame at index " << frame_index;
   code_end: return;
 }

 template <>
 void NOINLINE ExpectStackFramePointers<1>(const void** frames,
                                           size_t max_depth) {
   code_start:
   // Calling __builtin_frame_address() forces compiler to emit
   // frame pointers, even if they are not enabled.
   EXPECT_NE(nullptr, __builtin_frame_address(0));
   size_t count = TraceStackFramePointers(frames, max_depth, 0);
   ASSERT_EQ(max_depth, count);

   const void* frame = frames[0];
   EXPECT_GE(frame, &&code_start) << "For the top frame";
   EXPECT_LE(frame, &&code_end) << "For the top frame";
   code_end: return;
 }

 #if defined(MEMORY_SANITIZER)
 // The test triggers use-of-uninitialized-value errors on MSan bots.
 // This is expected because we're walking and reading the stack, and
 // sometimes we read fp / pc from the place that previously held
 // uninitialized value.
 #define MAYBE_TraceStackFramePointers DISABLED_TraceStackFramePointers
 #else
 #define MAYBE_TraceStackFramePointers TraceStackFramePointers
 #endif
 TEST_F(StackTraceTest, MAYBE_TraceStackFramePointers) {
   constexpr size_t kDepth = 5;
   const void* frames[kDepth];
   ExpectStackFramePointers<kDepth>(frames, kDepth);
 }

 #if defined(OS_ANDROID) || defined(OS_MACOSX)
 #define MAYBE_StackEnd StackEnd
 #else
 #define MAYBE_StackEnd DISABLED_StackEnd
 #endif

 TEST_F(StackTraceTest, MAYBE_StackEnd) {
   EXPECT_NE(0u, GetStackEnd());
 }

 #endif  // BUILDFLAG(CAN_UNWIND_WITH_FRAME_POINTERS)

 }  // namespace debug
 }  // namespace base
	// Copyright (c) 2011 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include <stddef.h>

	#include <limits>
	#include <sstream>
	#include <string>

	#include "base/debug/debugging_buildflags.h"
	#include "base/debug/stack_trace.h"
	#include "base/logging.h"
	#include "base/process/kill.h"
	#include "base/process/process_handle.h"
	#include "base/test/test_timeouts.h"
	#include "build/build_config.h"
	#include "testing/gtest/include/gtest/gtest.h"
	#include "testing/multiprocess_func_list.h"

	#if defined(OS_POSIX) && !defined(OS_ANDROID) && !defined(OS_IOS)
	#include "base/test/multiprocess_test.h"
	#endif

	namespace base {
	namespace debug {

	#if defined(OS_POSIX) && !defined(OS_ANDROID) && !defined(OS_IOS)
	typedef MultiProcessTest StackTraceTest;
	#else
	typedef testing::Test StackTraceTest;
	#endif

	#if !defined(__UCLIBC__) && !defined(_AIX)
	// StackTrace::OutputToStream() is not implemented under uclibc, nor AIX.
	// See https://crbug.com/706728

	TEST_F(StackTraceTest, OutputToStream) {
	StackTrace trace;

	// Dump the trace into a string.
	std::ostringstream os;
	trace.OutputToStream(&os);
	std::string backtrace_message = os.str();

	// ToString() should produce the same output.
	EXPECT_EQ(backtrace_message, trace.ToString());

	size_t frames_found = 0;
	const void* const* addresses = trace.Addresses(&frames_found);

	#if defined(OFFICIAL_BUILD) && \
	((defined(OS_POSIX) && !defined(OS_MACOSX)) \|\| defined(OS_FUCHSIA))
	// Stack traces require an extra data table that bloats our binaries,
	// so they're turned off for official builds. Stop the test here, so
	// it at least verifies that StackTrace calls don't crash.
	return;
	#endif // defined(OFFICIAL_BUILD) &&
	// ((defined(OS_POSIX) && !defined(OS_MACOSX)) \|\| defined(OS_FUCHSIA))

	ASSERT_TRUE(addresses);
	ASSERT_GT(frames_found, 5u) << "Too few frames found.";

	#if defined(OFFICIAL_BUILD) && defined(OS_MACOSX)
	// Official Mac OS X builds contain enough information to unwind the stack,
	// but not enough to symbolize the output.
	return;
	#endif // defined(OFFICIAL_BUILD) && defined(OS_MACOSX)

	#if defined(OS_FUCHSIA) \|\| defined(OS_ANDROID)
	// Under Fuchsia and Android, StackTrace emits executable build-Ids and
	// address offsets which are symbolized on the test host system, rather than
	// being symbolized in-process.
	return;
	#endif // defined(OS_FUCHSIA) \|\| defined(OS_ANDROID)

	#if defined(ADDRESS_SANITIZER) \|\| defined(THREAD_SANITIZER) \|\| \
	defined(MEMORY_SANITIZER)
	// Sanitizer configurations (ASan, TSan, MSan) emit unsymbolized stacks.
	return;
	#endif // defined(ADDRESS_SANITIZER) \|\| defined(THREAD_SANITIZER) \|\|
	// defined(MEMORY_SANITIZER)

	// Check if the output has symbol initialization warning. If it does, fail.
	ASSERT_EQ(backtrace_message.find("Dumping unresolved backtrace"),
	std::string::npos)
	<< "Unable to resolve symbols.";

	// Expect a demangled symbol.
	// Note that Windows Release builds omit the function parameters from the
	// demangled stack output, otherwise this could be "testing::Test::Run()".
	EXPECT_TRUE(backtrace_message.find("testing::Test::Run") != std::string::npos)
	<< "Expected a demangled symbol in backtrace:\n"
	<< backtrace_message;

	// Expect to at least find main.
	EXPECT_TRUE(backtrace_message.find("main") != std::string::npos)
	<< "Expected to find main in backtrace:\n"
	<< backtrace_message;

	// Expect to find this function as well.
	// Note: This will fail if not linked with -rdynamic (aka -export_dynamic)
	EXPECT_TRUE(backtrace_message.find(__func__) != std::string::npos)
	<< "Expected to find " << __func__ << " in backtrace:\n"
	<< backtrace_message;
	}

	#if !defined(OFFICIAL_BUILD) && !defined(NO_UNWIND_TABLES)
	// Disabled in Official builds, where Link-Time Optimization can result in two
	// or fewer stack frames being available, causing the test to fail.
	TEST_F(StackTraceTest, TruncatedTrace) {
	StackTrace trace;

	size_t count = 0;
	trace.Addresses(&count);
	ASSERT_LT(2u, count);

	StackTrace truncated(2);
	truncated.Addresses(&count);
	EXPECT_EQ(2u, count);
	}
	#endif // !defined(OFFICIAL_BUILD) && !defined(NO_UNWIND_TABLES)

	// The test is used for manual testing, e.g., to see the raw output.
	TEST_F(StackTraceTest, DebugOutputToStream) {
	StackTrace trace;
	std::ostringstream os;
	trace.OutputToStream(&os);
	VLOG(1) << os.str();
	}

	// The test is used for manual testing, e.g., to see the raw output.
	TEST_F(StackTraceTest, DebugPrintBacktrace) {
	StackTrace().Print();
	}

	// The test is used for manual testing, e.g., to see the raw output.
	TEST_F(StackTraceTest, DebugPrintWithPrefixBacktrace) {
	StackTrace().PrintWithPrefix("[test]");
	}

	// Make sure nullptr prefix doesn't crash. Output not examined, much
	// like the DebugPrintBacktrace test above.
	TEST_F(StackTraceTest, DebugPrintWithNullPrefixBacktrace) {
	StackTrace().PrintWithPrefix(nullptr);
	}

	// Test OutputToStreamWithPrefix, mainly to make sure it doesn't
	// crash. Any "real" stack trace testing happens above.
	TEST_F(StackTraceTest, DebugOutputToStreamWithPrefix) {
	StackTrace trace;
	const char* prefix_string = "[test]";
	std::ostringstream os;
	trace.OutputToStreamWithPrefix(&os, prefix_string);
	std::string backtrace_message = os.str();

	// ToStringWithPrefix() should produce the same output.
	EXPECT_EQ(backtrace_message, trace.ToStringWithPrefix(prefix_string));
	}

	// Make sure nullptr prefix doesn't crash. Output not examined, much
	// like the DebugPrintBacktrace test above.
	TEST_F(StackTraceTest, DebugOutputToStreamWithNullPrefix) {
	StackTrace trace;
	std::ostringstream os;
	trace.OutputToStreamWithPrefix(&os, nullptr);
	trace.ToStringWithPrefix(nullptr);
	}

	#endif // !defined(__UCLIBC__) && !defined(_AIX)

	#if defined(OS_POSIX) && !defined(OS_ANDROID)
	#if !defined(OS_IOS)
	static char* newArray() {
	// Clang warns about the mismatched new[]/delete if they occur in the same
	// function.
	return new char[10];
	}

	MULTIPROCESS_TEST_MAIN(MismatchedMallocChildProcess) {
	char* pointer = newArray();
	delete pointer;
	return 2;
	}

	// Regression test for StackDumpingSignalHandler async-signal unsafety.
	// Combined with tcmalloc's debugallocation, that signal handler
	// and e.g. mismatched new[]/delete would cause a hang because
	// of re-entering malloc.
	TEST_F(StackTraceTest, AsyncSignalUnsafeSignalHandlerHang) {
	Process child = SpawnChild("MismatchedMallocChildProcess");
	ASSERT_TRUE(child.IsValid());
	int exit_code;
	ASSERT_TRUE(
	child.WaitForExitWithTimeout(TestTimeouts::action_timeout(), &exit_code));
	}
	#endif // !defined(OS_IOS)

	namespace {

	std::string itoa_r_wrapper(intptr_t i, size_t sz, int base, size_t padding) {
	char buffer[1024];
	CHECK_LE(sz, sizeof(buffer));

	char* result = internal::itoa_r(i, buffer, sz, base, padding);
	EXPECT_TRUE(result);
	return std::string(buffer);
	}

	} // namespace

	TEST_F(StackTraceTest, itoa_r) {
	EXPECT_EQ("0", itoa_r_wrapper(0, 128, 10, 0));
	EXPECT_EQ("-1", itoa_r_wrapper(-1, 128, 10, 0));

	// Test edge cases.
	if (sizeof(intptr_t) == 4) {
	EXPECT_EQ("ffffffff", itoa_r_wrapper(-1, 128, 16, 0));
	EXPECT_EQ("-2147483648",
	itoa_r_wrapper(std::numeric_limits<intptr_t>::min(), 128, 10, 0));
	EXPECT_EQ("2147483647",
	itoa_r_wrapper(std::numeric_limits<intptr_t>::max(), 128, 10, 0));

	EXPECT_EQ("80000000",
	itoa_r_wrapper(std::numeric_limits<intptr_t>::min(), 128, 16, 0));
	EXPECT_EQ("7fffffff",
	itoa_r_wrapper(std::numeric_limits<intptr_t>::max(), 128, 16, 0));
	} else if (sizeof(intptr_t) == 8) {
	EXPECT_EQ("ffffffffffffffff", itoa_r_wrapper(-1, 128, 16, 0));
	EXPECT_EQ("-9223372036854775808",
	itoa_r_wrapper(std::numeric_limits<intptr_t>::min(), 128, 10, 0));
	EXPECT_EQ("9223372036854775807",
	itoa_r_wrapper(std::numeric_limits<intptr_t>::max(), 128, 10, 0));

	EXPECT_EQ("8000000000000000",
	itoa_r_wrapper(std::numeric_limits<intptr_t>::min(), 128, 16, 0));
	EXPECT_EQ("7fffffffffffffff",
	itoa_r_wrapper(std::numeric_limits<intptr_t>::max(), 128, 16, 0));
	} else {
	ADD_FAILURE() << "Missing test case for your size of intptr_t ("
	<< sizeof(intptr_t) << ")";
	}

	// Test hex output.
	EXPECT_EQ("688", itoa_r_wrapper(0x688, 128, 16, 0));
	EXPECT_EQ("deadbeef", itoa_r_wrapper(0xdeadbeef, 128, 16, 0));

	// Check that itoa_r respects passed buffer size limit.
	char buffer[1024];
	EXPECT_TRUE(internal::itoa_r(0xdeadbeef, buffer, 10, 16, 0));
	EXPECT_TRUE(internal::itoa_r(0xdeadbeef, buffer, 9, 16, 0));
	EXPECT_FALSE(internal::itoa_r(0xdeadbeef, buffer, 8, 16, 0));
	EXPECT_FALSE(internal::itoa_r(0xdeadbeef, buffer, 7, 16, 0));
	EXPECT_TRUE(internal::itoa_r(0xbeef, buffer, 5, 16, 4));
	EXPECT_FALSE(internal::itoa_r(0xbeef, buffer, 5, 16, 5));
	EXPECT_FALSE(internal::itoa_r(0xbeef, buffer, 5, 16, 6));

	// Test padding.
	EXPECT_EQ("1", itoa_r_wrapper(1, 128, 10, 0));
	EXPECT_EQ("1", itoa_r_wrapper(1, 128, 10, 1));
	EXPECT_EQ("01", itoa_r_wrapper(1, 128, 10, 2));
	EXPECT_EQ("001", itoa_r_wrapper(1, 128, 10, 3));
	EXPECT_EQ("0001", itoa_r_wrapper(1, 128, 10, 4));
	EXPECT_EQ("00001", itoa_r_wrapper(1, 128, 10, 5));
	EXPECT_EQ("688", itoa_r_wrapper(0x688, 128, 16, 0));
	EXPECT_EQ("688", itoa_r_wrapper(0x688, 128, 16, 1));
	EXPECT_EQ("688", itoa_r_wrapper(0x688, 128, 16, 2));
	EXPECT_EQ("688", itoa_r_wrapper(0x688, 128, 16, 3));
	EXPECT_EQ("0688", itoa_r_wrapper(0x688, 128, 16, 4));
	EXPECT_EQ("00688", itoa_r_wrapper(0x688, 128, 16, 5));
	}
	#endif // defined(OS_POSIX) && !defined(OS_ANDROID)

	#if BUILDFLAG(CAN_UNWIND_WITH_FRAME_POINTERS)

	template <size_t Depth>
	void NOINLINE ExpectStackFramePointers(const void** frames,
	size_t max_depth) {
	code_start:
	// Calling __builtin_frame_address() forces compiler to emit
	// frame pointers, even if they are not enabled.
	EXPECT_NE(nullptr, __builtin_frame_address(0));
	ExpectStackFramePointers<Depth - 1>(frames, max_depth);

	constexpr size_t frame_index = Depth - 1;
	const void* frame = frames[frame_index];
	EXPECT_GE(frame, &&code_start) << "For frame at index " << frame_index;
	EXPECT_LE(frame, &&code_end) << "For frame at index " << frame_index;
	code_end: return;
	}

	template <>
	void NOINLINE ExpectStackFramePointers<1>(const void** frames,
	size_t max_depth) {
	code_start:
	// Calling __builtin_frame_address() forces compiler to emit
	// frame pointers, even if they are not enabled.
	EXPECT_NE(nullptr, __builtin_frame_address(0));
	size_t count = TraceStackFramePointers(frames, max_depth, 0);
	ASSERT_EQ(max_depth, count);

	const void* frame = frames[0];
	EXPECT_GE(frame, &&code_start) << "For the top frame";
	EXPECT_LE(frame, &&code_end) << "For the top frame";
	code_end: return;
	}

	#if defined(MEMORY_SANITIZER)
	// The test triggers use-of-uninitialized-value errors on MSan bots.
	// This is expected because we're walking and reading the stack, and
	// sometimes we read fp / pc from the place that previously held
	// uninitialized value.
	#define MAYBE_TraceStackFramePointers DISABLED_TraceStackFramePointers
	#else
	#define MAYBE_TraceStackFramePointers TraceStackFramePointers
	#endif
	TEST_F(StackTraceTest, MAYBE_TraceStackFramePointers) {
	constexpr size_t kDepth = 5;
	const void* frames[kDepth];
	ExpectStackFramePointers<kDepth>(frames, kDepth);
	}

	#if defined(OS_ANDROID) \|\| defined(OS_MACOSX)
	#define MAYBE_StackEnd StackEnd
	#else
	#define MAYBE_StackEnd DISABLED_StackEnd
	#endif

	TEST_F(StackTraceTest, MAYBE_StackEnd) {
	EXPECT_NE(0u, GetStackEnd());
	}

	#endif // BUILDFLAG(CAN_UNWIND_WITH_FRAME_POINTERS)

	} // namespace debug
	} // namespace base