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// Copyright 2017 The Abseil Authors.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// https://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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#include "absl/synchronization/internal/per_thread_sem.h"
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#include <atomic>
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#include <condition_variable> // NOLINT(build/c++11)
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#include <functional>
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#include <limits>
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#include <mutex> // NOLINT(build/c++11)
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#include <string>
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#include <thread> // NOLINT(build/c++11)
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#include "gtest/gtest.h"
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#include "absl/base/config.h"
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#include "absl/base/internal/cycleclock.h"
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#include "absl/base/internal/thread_identity.h"
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#include "absl/strings/str_cat.h"
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#include "absl/time/clock.h"
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#include "absl/time/time.h"
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// In this test we explicitly avoid the use of synchronization
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// primitives which might use PerThreadSem, most notably absl::Mutex.
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namespace absl {
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ABSL_NAMESPACE_BEGIN
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namespace synchronization_internal {
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class SimpleSemaphore {
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public:
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SimpleSemaphore() : count_(0) {}
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// Decrements (locks) the semaphore. If the semaphore's value is
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// greater than zero, then the decrement proceeds, and the function
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// returns, immediately. If the semaphore currently has the value
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// zero, then the call blocks until it becomes possible to perform
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// the decrement.
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void Wait() {
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std::unique_lock<std::mutex> lock(mu_);
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cv_.wait(lock, [this]() { return count_ > 0; });
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--count_;
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cv_.notify_one();
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}
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// Increments (unlocks) the semaphore. If the semaphore's value
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// consequently becomes greater than zero, then another thread
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// blocked Wait() call will be woken up and proceed to lock the
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// semaphore.
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void Post() {
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std::lock_guard<std::mutex> lock(mu_);
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++count_;
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cv_.notify_one();
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}
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private:
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std::mutex mu_;
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std::condition_variable cv_;
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int count_;
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};
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struct ThreadData {
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int num_iterations; // Number of replies to send.
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SimpleSemaphore identity2_written; // Posted by thread writing identity2.
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base_internal::ThreadIdentity *identity1; // First Post()-er.
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base_internal::ThreadIdentity *identity2; // First Wait()-er.
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KernelTimeout timeout;
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};
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// Need friendship with PerThreadSem.
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class PerThreadSemTest : public testing::Test {
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public:
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static void TimingThread(ThreadData* t) {
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t->identity2 = GetOrCreateCurrentThreadIdentity();
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t->identity2_written.Post();
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while (t->num_iterations--) {
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Wait(t->timeout);
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Post(t->identity1);
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}
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}
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void TestTiming(const char *msg, bool timeout) {
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static const int kNumIterations = 100;
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ThreadData t;
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t.num_iterations = kNumIterations;
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t.timeout = timeout ?
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KernelTimeout(absl::Now() + absl::Seconds(10000)) // far in the future
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: KernelTimeout::Never();
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t.identity1 = GetOrCreateCurrentThreadIdentity();
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// We can't use the Thread class here because it uses the Mutex
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// class which will invoke PerThreadSem, so we use std::thread instead.
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std::thread partner_thread(std::bind(TimingThread, &t));
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// Wait for our partner thread to register their identity.
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t.identity2_written.Wait();
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int64_t min_cycles = std::numeric_limits<int64_t>::max();
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int64_t total_cycles = 0;
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for (int i = 0; i < kNumIterations; ++i) {
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absl::SleepFor(absl::Milliseconds(20));
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int64_t cycles = base_internal::CycleClock::Now();
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Post(t.identity2);
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Wait(t.timeout);
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cycles = base_internal::CycleClock::Now() - cycles;
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min_cycles = std::min(min_cycles, cycles);
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total_cycles += cycles;
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}
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std::string out = StrCat(
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msg, "min cycle count=", min_cycles, " avg cycle count=",
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absl::SixDigits(static_cast<double>(total_cycles) / kNumIterations));
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printf("%s\n", out.c_str());
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partner_thread.join();
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}
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protected:
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static void Post(base_internal::ThreadIdentity *id) {
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PerThreadSem::Post(id);
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}
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static bool Wait(KernelTimeout t) {
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return PerThreadSem::Wait(t);
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}
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// convenience overload
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static bool Wait(absl::Time t) {
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return Wait(KernelTimeout(t));
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}
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static void Tick(base_internal::ThreadIdentity *identity) {
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PerThreadSem::Tick(identity);
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}
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};
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namespace {
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TEST_F(PerThreadSemTest, WithoutTimeout) {
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PerThreadSemTest::TestTiming("Without timeout: ", false);
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}
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TEST_F(PerThreadSemTest, WithTimeout) {
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PerThreadSemTest::TestTiming("With timeout: ", true);
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}
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TEST_F(PerThreadSemTest, Timeouts) {
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const absl::Duration delay = absl::Milliseconds(50);
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const absl::Time start = absl::Now();
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EXPECT_FALSE(Wait(start + delay));
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const absl::Duration elapsed = absl::Now() - start;
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// Allow for a slight early return, to account for quality of implementation
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// issues on various platforms.
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const absl::Duration slop = absl::Milliseconds(1);
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EXPECT_LE(delay - slop, elapsed)
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<< "Wait returned " << delay - elapsed
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<< " early (with " << slop << " slop), start time was " << start;
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absl::Time negative_timeout = absl::UnixEpoch() - absl::Milliseconds(100);
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EXPECT_FALSE(Wait(negative_timeout));
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EXPECT_LE(negative_timeout, absl::Now() + slop); // trivially true :)
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Post(GetOrCreateCurrentThreadIdentity());
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// The wait here has an expired timeout, but we have a wake to consume,
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// so this should succeed
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EXPECT_TRUE(Wait(negative_timeout));
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}
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TEST_F(PerThreadSemTest, ThreadIdentityReuse) {
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// Create a base_internal::ThreadIdentity object and keep reusing it. There
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// should be no memory or resource leaks.
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for (int i = 0; i < 10000; i++) {
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std::thread t([]() { GetOrCreateCurrentThreadIdentity(); });
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t.join();
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}
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}
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} // namespace
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} // namespace synchronization_internal
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ABSL_NAMESPACE_END
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} // namespace absl
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