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// Copyright 2022 The Chromium Authors
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "base/sampling_heap_profiler/poisson_allocation_sampler.h"
#include <stdlib.h>
#include <array>
#include <atomic>
#include <bitset>
#include <memory>
#include <utility>
#include <vector>
#include "base/barrier_closure.h"
#include "base/containers/extend.h"
#include "base/functional/bind.h"
#include "base/functional/callback.h"
#include "base/memory/scoped_refptr.h"
#include "base/run_loop.h"
#include "base/task/bind_post_task.h"
#include "base/task/single_thread_task_runner.h"
#include "base/task/single_thread_task_runner_thread_mode.h"
#include "base/task/thread_pool.h"
#include "base/test/task_environment.h"
#include "testing/gmock/include/gmock/gmock.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace base {
namespace {
using ::testing::AssertionFailure;
using ::testing::AssertionResult;
using ::testing::AssertionSuccess;
class DummySamplesObserver : public PoissonAllocationSampler::SamplesObserver {
public:
void SampleAdded(void* address,
size_t size,
size_t total,
base::allocator::dispatcher::AllocationSubsystem type,
const char* context) final {}
void SampleRemoved(void* address) final {}
};
class AddRemoveObserversTester {
public:
AddRemoveObserversTester() = default;
~AddRemoveObserversTester() = default;
// Posts tasks to add and remove observers to `task_runner_`. Invokes
// `barrier_closure` if a task fails or after `num_repetitions`.
void Start(base::RepeatingClosure* barrier_closure, int num_repetitions);
// Gives the caller ownership of the observers so that they can be safely
// deleted in single-threaded context once the PoissonAllocationSampler is not
// running.
std::vector<std::unique_ptr<DummySamplesObserver>> DetachObservers() {
std::vector<std::unique_ptr<DummySamplesObserver>> observers;
observers.push_back(std::move(observer1_));
observers.push_back(std::move(observer2_));
return observers;
}
private:
// Posts tasks to add and remove observers to `task_runner_`. If they fail or
// if this is the last repetition, invokes `barrier_closure`, otherwise
// schedules another repetition.
void TestAddRemoveObservers(base::RepeatingClosure* barrier_closure,
int remaining_repetitions);
// These observers must live until all threads are destroyed, because the
// profiler might call into them racily after they're removed. (See the
// comment on PoissonAllocationSampler::RemoveSamplesObserver().) They can
// safely be destroyed on the main thread after the test is back in a
// single-threaded context.
std::unique_ptr<DummySamplesObserver> observer1_ =
std::make_unique<DummySamplesObserver>();
std::unique_ptr<DummySamplesObserver> observer2_ =
std::make_unique<DummySamplesObserver>();
scoped_refptr<base::SequencedTaskRunner> task_runner_ =
base::ThreadPool::CreateSingleThreadTaskRunner(
{},
base::SingleThreadTaskRunnerThreadMode::DEDICATED);
};
class MuteHookedSamplesTester {
public:
MuteHookedSamplesTester() = default;
~MuteHookedSamplesTester() = default;
// Posts tasks to mute and unmute samples to `task_runner_`. Invokes
// `barrier_closure` if a task fails or after `num_repetitions`.
void Start(base::RepeatingClosure* barrier_closure, int num_repetitions);
private:
// Posts tasks to mute and unmute samples to `task_runner_`. If they fail or
// if this is the last repetition, invokes `barrier_closure`, otherwise
// schedules another repetition.
void TestMuteUnmuteSamples(base::RepeatingClosure* barrier_closure,
int remaining_repetitions);
base::OnceClosure unmute_samples_closure_;
scoped_refptr<base::SequencedTaskRunner> task_runner_ =
base::ThreadPool::CreateSingleThreadTaskRunner(
{},
base::SingleThreadTaskRunnerThreadMode::DEDICATED);
};
} // namespace
// PoissonAllocationSamplerStateTest has access to read the state of
// PoissonAllocationSampler.
class PoissonAllocationSamplerStateTest : public ::testing::Test {
public:
static void AddSamplesObservers(DummySamplesObserver* observer1,
DummySamplesObserver* observer2);
static void RemoveSamplesObservers(DummySamplesObserver* observer1,
DummySamplesObserver* observer2);
// Creates a ScopedMuteHookedSamplesForTesting object and returns a closure
// that will destroy it.
static base::OnceClosure MuteHookedSamples();
static void UnmuteHookedSamples(base::OnceClosure unmute_closure);
protected:
using ProfilingStateFlag = PoissonAllocationSampler::ProfilingStateFlag;
using ProfilingStateFlagMask =
PoissonAllocationSampler::ProfilingStateFlagMask;
static AssertionResult HasAllStateFlags(ProfilingStateFlagMask flags) {
const ProfilingStateFlagMask state =
PoissonAllocationSampler::profiling_state_.load(
std::memory_order_relaxed);
AssertionResult result =
(state & flags) == flags ? AssertionSuccess() : AssertionFailure();
return result << "Expected all of " << std::bitset<4>(flags) << ", got "
<< std::bitset<4>(state);
}
static AssertionResult HasAnyStateFlags(ProfilingStateFlagMask flags) {
const ProfilingStateFlagMask state =
PoissonAllocationSampler::profiling_state_.load(
std::memory_order_relaxed);
AssertionResult result =
(state & flags) != 0 ? AssertionSuccess() : AssertionFailure();
return result << "Expected any of " << std::bitset<4>(flags) << ", got "
<< std::bitset<4>(state);
}
// This must come before `task_environment_` do that it's deleted afterward,
// since DummySamplesObserver objects must be deleted in single-threaded
// context.
std::vector<std::unique_ptr<DummySamplesObserver>> observers_to_delete_;
base::test::TaskEnvironment task_environment_;
};
void AddRemoveObserversTester::Start(base::RepeatingClosure* barrier_closure,
int num_repetitions) {
// Unretained is safe because `this` isn't deleted until the
// `barrier_closure` is invoked often enough to quit the main RunLoop.
task_runner_->PostTask(
FROM_HERE,
base::BindOnce(&AddRemoveObserversTester::TestAddRemoveObservers,
base::Unretained(this), barrier_closure, num_repetitions));
}
void AddRemoveObserversTester::TestAddRemoveObservers(
base::RepeatingClosure* barrier_closure,
int remaining_repetitions) {
if (!remaining_repetitions || ::testing::Test::HasFailure()) {
barrier_closure->Run();
return;
}
auto add_observers =
base::BindOnce(&PoissonAllocationSamplerStateTest::AddSamplesObservers,
observer1_.get(), observer2_.get());
auto remove_observers = base::BindPostTask(
task_runner_,
base::BindOnce(&PoissonAllocationSamplerStateTest::RemoveSamplesObservers,
observer1_.get(), observer2_.get()));
// Unretained is safe because `this` isn't deleted until the
// `barrier_closure` is invoked often enough to quit the main RunLoop.
auto next_repetition = base::BindPostTask(
task_runner_,
base::BindOnce(&AddRemoveObserversTester::TestAddRemoveObservers,
base::Unretained(this), barrier_closure,
remaining_repetitions - 1));
task_runner_->PostTask(FROM_HERE, std::move(add_observers)
.Then(std::move(remove_observers))
.Then(std::move(next_repetition)));
}
void MuteHookedSamplesTester::Start(base::RepeatingClosure* barrier_closure,
int num_repetitions) {
// Unretained is safe because `this` isn't deleted until the
// `barrier_closure` is invoked often enough to quit the main RunLoop.
task_runner_->PostTask(
FROM_HERE,
base::BindOnce(&MuteHookedSamplesTester::TestMuteUnmuteSamples,
base::Unretained(this), barrier_closure, num_repetitions));
}
void MuteHookedSamplesTester::TestMuteUnmuteSamples(
base::RepeatingClosure* barrier_closure,
int remaining_repetitions) {
if (!remaining_repetitions || ::testing::Test::HasFailure()) {
barrier_closure->Run();
return;
}
auto mute_samples =
base::BindOnce(&PoissonAllocationSamplerStateTest::MuteHookedSamples);
auto unmute_samples = base::BindPostTask(
task_runner_,
base::BindOnce(&PoissonAllocationSamplerStateTest::UnmuteHookedSamples));
// Unretained is safe because `this` isn't deleted until the
// `barrier_closure` is invoked often enough to quit the main RunLoop.
auto next_repetition = base::BindPostTask(
task_runner_,
base::BindOnce(&MuteHookedSamplesTester::TestMuteUnmuteSamples,
base::Unretained(this), barrier_closure,
remaining_repetitions - 1));
task_runner_->PostTask(FROM_HERE, std::move(mute_samples)
.Then(std::move(unmute_samples))
.Then(std::move(next_repetition)));
}
// static
void PoissonAllocationSamplerStateTest::AddSamplesObservers(
DummySamplesObserver* observer1,
DummySamplesObserver* observer2) {
// The first observer should start the profiler running if it isn't already.
// The second should not change the state.
PoissonAllocationSampler::Get()->AddSamplesObserver(observer1);
EXPECT_TRUE(HasAllStateFlags(ProfilingStateFlag::kIsRunning |
ProfilingStateFlag::kWasStarted));
PoissonAllocationSampler::Get()->AddSamplesObserver(observer2);
EXPECT_TRUE(HasAllStateFlags(ProfilingStateFlag::kIsRunning |
ProfilingStateFlag::kWasStarted));
}
// static
void PoissonAllocationSamplerStateTest::RemoveSamplesObservers(
DummySamplesObserver* observer1,
DummySamplesObserver* observer2) {
// Removing the first observer should leave the profiler running. Removing the
// second might leave it running, or might stop it. It should never remove the
// kWasStarted flag.
EXPECT_TRUE(HasAllStateFlags(ProfilingStateFlag::kIsRunning |
ProfilingStateFlag::kWasStarted));
PoissonAllocationSampler::Get()->RemoveSamplesObserver(observer1);
EXPECT_TRUE(HasAllStateFlags(ProfilingStateFlag::kIsRunning |
ProfilingStateFlag::kWasStarted));
PoissonAllocationSampler::Get()->RemoveSamplesObserver(observer2);
EXPECT_TRUE(HasAllStateFlags(ProfilingStateFlag::kWasStarted));
}
// static
base::OnceClosure PoissonAllocationSamplerStateTest::MuteHookedSamples() {
using ScopedMuteHookedSamplesForTesting =
PoissonAllocationSampler::ScopedMuteHookedSamplesForTesting;
EXPECT_FALSE(
HasAllStateFlags(ProfilingStateFlag::kHookedSamplesMutedForTesting));
auto scoped_mute_hooked_samples =
std::make_unique<ScopedMuteHookedSamplesForTesting>();
EXPECT_TRUE(
HasAllStateFlags(ProfilingStateFlag::kHookedSamplesMutedForTesting));
auto unmute_closure = base::BindOnce(
[](std::unique_ptr<ScopedMuteHookedSamplesForTesting> p) { p.reset(); },
std::move(scoped_mute_hooked_samples));
return unmute_closure;
}
// static
void PoissonAllocationSamplerStateTest::UnmuteHookedSamples(
base::OnceClosure unmute_closure) {
EXPECT_TRUE(
HasAllStateFlags(ProfilingStateFlag::kHookedSamplesMutedForTesting));
std::move(unmute_closure).Run();
EXPECT_FALSE(
HasAllStateFlags(ProfilingStateFlag::kHookedSamplesMutedForTesting));
}
TEST(PoissonAllocationSamplerTest, MuteHooksWithoutInit) {
// Make sure it's safe to create a ScopedMuteHookedSamplesForTesting from
// tests that might not call PoissonAllocationSampler::Get() to initialize the
// rest of the PoissonAllocationSampler.
EXPECT_FALSE(PoissonAllocationSampler::AreHookedSamplesMuted());
void* volatile p = nullptr;
{
PoissonAllocationSampler::ScopedMuteHookedSamplesForTesting mute_hooks;
EXPECT_TRUE(PoissonAllocationSampler::AreHookedSamplesMuted());
p = malloc(10000);
}
EXPECT_FALSE(PoissonAllocationSampler::AreHookedSamplesMuted());
free(p);
}
TEST_F(PoissonAllocationSamplerStateTest, UpdateProfilingState) {
constexpr int kNumObserverThreads = 100;
constexpr int kNumRepetitions = 100;
base::RunLoop run_loop;
// Quit the run loop once all AddRemoveObserversTesters and the
// MuteUnmuteSamplesTester signal that they're done.
auto barrier_closure =
base::BarrierClosure(kNumObserverThreads + 1, run_loop.QuitClosure());
// No observers or ScopedMuteHookedSamplesForTesting objects exist.
// The kWasStarted flag may or may not be set depending on whether other tests
// have changed the singleton state.
ASSERT_FALSE(
HasAnyStateFlags(ProfilingStateFlag::kIsRunning |
ProfilingStateFlag::kHookedSamplesMutedForTesting));
std::array<std::unique_ptr<AddRemoveObserversTester>, kNumObserverThreads>
observer_testers;
for (int i = 0; i < kNumObserverThreads; ++i) {
// Start a thread to add and remove observers, toggling the kIsRunning and
// kHookedSamplesMutedForTesting state flags.
observer_testers[i] = std::make_unique<AddRemoveObserversTester>();
observer_testers[i]->Start(&barrier_closure, kNumRepetitions);
}
// There can only be one ScopedMuteHookedSamplesForTesting object at a time so
// test them on only one thread.
MuteHookedSamplesTester mute_samples_tester;
mute_samples_tester.Start(&barrier_closure, kNumRepetitions);
run_loop.Run();
// No observers or ScopedMuteHookedSamplesForTesting objects exist again.
EXPECT_FALSE(
HasAnyStateFlags(ProfilingStateFlag::kIsRunning |
ProfilingStateFlag::kHookedSamplesMutedForTesting));
// Move the observers into `observers_to_delete_` to be destroyed during
// teardown, in single-threaded context.
for (int i = 0; i < kNumObserverThreads; ++i) {
base::Extend(observers_to_delete_, observer_testers[i]->DetachObservers());
}
}
} // namespace base
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