blob: cecfe224eceb1f3f541e186f9cca1cf42dd0c326 [file] [log] [blame]
// Copyright 2015 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 "base/profiler/win32_stack_frame_unwinder.h"
#include <memory>
#include <utility>
#include <vector>
#include "base/compiler_specific.h"
#include "base/macros.h"
#include "base/memory/ptr_util.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace base {
namespace {
class TestUnwindFunctions : public Win32StackFrameUnwinder::UnwindFunctions {
public:
TestUnwindFunctions();
PRUNTIME_FUNCTION LookupFunctionEntry(DWORD64 program_counter,
PDWORD64 image_base) override;
void VirtualUnwind(DWORD64 image_base,
DWORD64 program_counter,
PRUNTIME_FUNCTION runtime_function,
CONTEXT* context) override;
ScopedModuleHandle GetModuleForProgramCounter(
DWORD64 program_counter) override;
// Instructs GetModuleForProgramCounter to return null on the next call.
void SetUnloadedModule();
// These functions set whether the next frame will have a RUNTIME_FUNCTION.
void SetHasRuntimeFunction(CONTEXT* context);
void SetNoRuntimeFunction(CONTEXT* context);
private:
enum { kImageBaseIncrement = 1 << 20 };
static RUNTIME_FUNCTION* const kInvalidRuntimeFunction;
bool module_is_loaded_;
DWORD64 expected_program_counter_;
DWORD64 next_image_base_;
DWORD64 expected_image_base_;
RUNTIME_FUNCTION* next_runtime_function_;
std::vector<RUNTIME_FUNCTION> runtime_functions_;
DISALLOW_COPY_AND_ASSIGN(TestUnwindFunctions);
};
RUNTIME_FUNCTION* const TestUnwindFunctions::kInvalidRuntimeFunction =
reinterpret_cast<RUNTIME_FUNCTION*>(static_cast<uintptr_t>(-1));
TestUnwindFunctions::TestUnwindFunctions()
: module_is_loaded_(true),
expected_program_counter_(0),
next_image_base_(kImageBaseIncrement),
expected_image_base_(0),
next_runtime_function_(kInvalidRuntimeFunction) {
}
PRUNTIME_FUNCTION TestUnwindFunctions::LookupFunctionEntry(
DWORD64 program_counter,
PDWORD64 image_base) {
EXPECT_EQ(expected_program_counter_, program_counter);
*image_base = expected_image_base_ = next_image_base_;
next_image_base_ += kImageBaseIncrement;
RUNTIME_FUNCTION* return_value = next_runtime_function_;
next_runtime_function_ = kInvalidRuntimeFunction;
return return_value;
}
void TestUnwindFunctions::VirtualUnwind(DWORD64 image_base,
DWORD64 program_counter,
PRUNTIME_FUNCTION runtime_function,
CONTEXT* context) {
ASSERT_NE(kInvalidRuntimeFunction, runtime_function)
<< "expected call to SetHasRuntimeFunction() or SetNoRuntimeFunction() "
<< "before invoking TryUnwind()";
EXPECT_EQ(expected_image_base_, image_base);
expected_image_base_ = 0;
EXPECT_EQ(expected_program_counter_, program_counter);
expected_program_counter_ = 0;
// This function should only be called when LookupFunctionEntry returns
// a RUNTIME_FUNCTION.
EXPECT_EQ(&runtime_functions_.back(), runtime_function);
}
ScopedModuleHandle TestUnwindFunctions::GetModuleForProgramCounter(
DWORD64 program_counter) {
bool return_non_null_value = module_is_loaded_;
module_is_loaded_ = true;
return ScopedModuleHandle(return_non_null_value ?
ModuleHandleTraits::kNonNullModuleForTesting :
nullptr);
}
void TestUnwindFunctions::SetUnloadedModule() {
module_is_loaded_ = false;
}
void TestUnwindFunctions::SetHasRuntimeFunction(CONTEXT* context) {
RUNTIME_FUNCTION runtime_function = {};
runtime_function.BeginAddress = 16;
runtime_function.EndAddress = runtime_function.BeginAddress + 256;
runtime_functions_.push_back(runtime_function);
next_runtime_function_ = &runtime_functions_.back();
expected_program_counter_ = context->Rip =
next_image_base_ + runtime_function.BeginAddress + 8;
}
void TestUnwindFunctions::SetNoRuntimeFunction(CONTEXT* context) {
expected_program_counter_ = context->Rip = 100;
next_runtime_function_ = nullptr;
}
} // namespace
class Win32StackFrameUnwinderTest : public testing::Test {
protected:
Win32StackFrameUnwinderTest() {}
// This exists so that Win32StackFrameUnwinder's constructor can be private
// with a single friend declaration of this test fixture.
std::unique_ptr<Win32StackFrameUnwinder> CreateUnwinder();
// Weak pointer to the unwind functions used by last created unwinder.
TestUnwindFunctions* unwind_functions_;
private:
DISALLOW_COPY_AND_ASSIGN(Win32StackFrameUnwinderTest);
};
std::unique_ptr<Win32StackFrameUnwinder>
Win32StackFrameUnwinderTest::CreateUnwinder() {
std::unique_ptr<TestUnwindFunctions> unwind_functions(
new TestUnwindFunctions);
unwind_functions_ = unwind_functions.get();
return WrapUnique(
new Win32StackFrameUnwinder(std::move(unwind_functions)));
}
// Checks the case where all frames have unwind information.
TEST_F(Win32StackFrameUnwinderTest, FramesWithUnwindInfo) {
std::unique_ptr<Win32StackFrameUnwinder> unwinder = CreateUnwinder();
CONTEXT context = {0};
ScopedModuleHandle module;
unwind_functions_->SetHasRuntimeFunction(&context);
EXPECT_TRUE(unwinder->TryUnwind(&context, &module));
EXPECT_TRUE(module.IsValid());
unwind_functions_->SetHasRuntimeFunction(&context);
module.Set(nullptr);
EXPECT_TRUE(unwinder->TryUnwind(&context, &module));
EXPECT_TRUE(module.IsValid());
unwind_functions_->SetHasRuntimeFunction(&context);
module.Set(nullptr);
EXPECT_TRUE(unwinder->TryUnwind(&context, &module));
EXPECT_TRUE(module.IsValid());
}
// Checks that an instruction pointer in an unloaded module fails to unwind.
TEST_F(Win32StackFrameUnwinderTest, UnloadedModule) {
std::unique_ptr<Win32StackFrameUnwinder> unwinder = CreateUnwinder();
CONTEXT context = {0};
ScopedModuleHandle module;
unwind_functions_->SetUnloadedModule();
EXPECT_FALSE(unwinder->TryUnwind(&context, &module));
}
// Checks that the CONTEXT's stack pointer gets popped when the top frame has no
// unwind information.
TEST_F(Win32StackFrameUnwinderTest, FrameAtTopWithoutUnwindInfo) {
std::unique_ptr<Win32StackFrameUnwinder> unwinder = CreateUnwinder();
CONTEXT context = {0};
ScopedModuleHandle module;
DWORD64 next_ip = 0x0123456789abcdef;
DWORD64 original_rsp = reinterpret_cast<DWORD64>(&next_ip);
context.Rsp = original_rsp;
unwind_functions_->SetNoRuntimeFunction(&context);
EXPECT_TRUE(unwinder->TryUnwind(&context, &module));
EXPECT_EQ(next_ip, context.Rip);
EXPECT_EQ(original_rsp + 8, context.Rsp);
EXPECT_TRUE(module.IsValid());
unwind_functions_->SetHasRuntimeFunction(&context);
module.Set(nullptr);
EXPECT_TRUE(unwinder->TryUnwind(&context, &module));
EXPECT_TRUE(module.IsValid());
unwind_functions_->SetHasRuntimeFunction(&context);
module.Set(nullptr);
EXPECT_TRUE(unwinder->TryUnwind(&context, &module));
EXPECT_TRUE(module.IsValid());
}
// Checks that a frame below the top of the stack with missing unwind info
// terminates the unwinding.
TEST_F(Win32StackFrameUnwinderTest, FrameBelowTopWithoutUnwindInfo) {
{
// First stack, with a bad function below the top of the stack.
std::unique_ptr<Win32StackFrameUnwinder> unwinder = CreateUnwinder();
CONTEXT context = {0};
ScopedModuleHandle module;
unwind_functions_->SetHasRuntimeFunction(&context);
EXPECT_TRUE(unwinder->TryUnwind(&context, &module));
EXPECT_TRUE(module.IsValid());
unwind_functions_->SetNoRuntimeFunction(&context);
EXPECT_FALSE(unwinder->TryUnwind(&context, &module));
}
}
} // namespace base