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https://fuchsia.googlesource.com/third_party/pigweed.googlesource.com/pigweed/pigweed
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959b883061
Adds a helper function for legibility to SystemClock to invoke std::chrono::ceil for us where the return type is fixed to a SystemClock::duration type. Also migrates the existing uses of std::chrono::ceil to this. Change-Id: I1234ab3dfaf1d3ec22b0daa9d7666f66e0ce3310 Reviewed-on: https://pigweed-review.googlesource.com/c/pigweed/pigweed/+/37321 Reviewed-by: Wyatt Hepler <hepler@google.com> Commit-Queue: Auto-Submit <auto-submit@pigweed.google.com.iam.gserviceaccount.com> Pigweed-Auto-Submit: Ewout van Bekkum <ewout@google.com>
203 lines
6.8 KiB
C++
203 lines
6.8 KiB
C++
// Copyright 2020 The Pigweed Authors
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//
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// Licensed under the Apache License, Version 2.0 (the "License"); you may not
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// use this file except in compliance with the License. You may obtain a copy of
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// 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, WITHOUT
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// WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
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// License for the specific language governing permissions and limitations under
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// the License.
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#include <chrono>
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#include "gtest/gtest.h"
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#include "pw_chrono/system_clock.h"
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#include "pw_sync/counting_semaphore.h"
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using pw::chrono::SystemClock;
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using namespace std::chrono_literals;
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namespace pw::sync {
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namespace {
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extern "C" {
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// Functions defined in counting_semaphore_facade_test_c.c which call the API
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// from C.
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void pw_sync_CountingSemaphore_CallRelease(
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pw_sync_CountingSemaphore* semaphore);
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void pw_sync_CountingSemaphore_CallReleaseNum(
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pw_sync_CountingSemaphore* semaphore, ptrdiff_t update);
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void pw_sync_CountingSemaphore_CallAcquire(
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pw_sync_CountingSemaphore* semaphore);
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bool pw_sync_CountingSemaphore_CallTryAcquire(
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pw_sync_CountingSemaphore* semaphore);
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bool pw_sync_CountingSemaphore_CallTryAcquireFor(
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pw_sync_CountingSemaphore* semaphore,
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pw_chrono_SystemClock_Duration for_at_least);
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bool pw_sync_CountingSemaphore_CallTryAcquireUntil(
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pw_sync_CountingSemaphore* semaphore,
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pw_chrono_SystemClock_TimePoint until_at_least);
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ptrdiff_t pw_sync_CountingSemaphore_CallMax(void);
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} // extern "C"
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// We can't control the SystemClock's period configuration, so just in case
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// duration cannot be accurately expressed in integer ticks, round the
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// duration up.
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constexpr SystemClock::duration kRoundedArbitraryDuration =
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SystemClock::for_at_least(42ms);
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constexpr pw_chrono_SystemClock_Duration kRoundedArbitraryDurationInC =
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PW_SYSTEM_CLOCK_MS(42);
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TEST(CountingSemaphore, EmptyInitialState) {
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CountingSemaphore semaphore;
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EXPECT_FALSE(semaphore.try_acquire());
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}
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// TODO(pwbug/291): Add real concurrency tests once we have pw::thread.
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TEST(CountingSemaphore, SingleRelease) {
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CountingSemaphore semaphore;
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semaphore.release();
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semaphore.release();
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semaphore.acquire();
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semaphore.acquire();
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// Ensure it fails when empty.
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EXPECT_FALSE(semaphore.try_acquire());
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}
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CountingSemaphore empty_initial_semaphore;
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TEST(CountingSemaphore, EmptyInitialStateStatic) {
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EXPECT_FALSE(empty_initial_semaphore.try_acquire());
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}
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CountingSemaphore release_semaphore;
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TEST(CountingSemaphore, ReleaseStatic) {
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release_semaphore.release();
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release_semaphore.release();
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release_semaphore.acquire();
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release_semaphore.acquire();
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// Ensure it fails when empty.
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EXPECT_FALSE(release_semaphore.try_acquire());
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}
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TEST(CountingSemaphore, MultiRelease) {
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CountingSemaphore semaphore;
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semaphore.release(2);
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semaphore.release(1);
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semaphore.acquire();
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semaphore.acquire();
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semaphore.acquire();
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// Ensure it fails when empty.
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EXPECT_FALSE(semaphore.try_acquire());
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}
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TEST(CountingSemaphore, TryAcquireFor) {
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CountingSemaphore semaphore;
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semaphore.release();
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SystemClock::time_point before = SystemClock::now();
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EXPECT_TRUE(semaphore.try_acquire_for(kRoundedArbitraryDuration));
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SystemClock::duration time_elapsed = SystemClock::now() - before;
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EXPECT_LT(time_elapsed, kRoundedArbitraryDuration);
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// Ensure it blocks and fails when empty.
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before = SystemClock::now();
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EXPECT_FALSE(semaphore.try_acquire_for(kRoundedArbitraryDuration));
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time_elapsed = SystemClock::now() - before;
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EXPECT_GE(time_elapsed, kRoundedArbitraryDuration);
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}
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TEST(CountingSemaphore, TryAcquireUntil) {
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CountingSemaphore semaphore;
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semaphore.release();
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const SystemClock::time_point deadline =
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SystemClock::now() + kRoundedArbitraryDuration;
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EXPECT_TRUE(semaphore.try_acquire_until(deadline));
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EXPECT_LT(SystemClock::now(), deadline);
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// Ensure it blocks and fails when empty.
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EXPECT_FALSE(semaphore.try_acquire_until(deadline));
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EXPECT_GE(SystemClock::now(), deadline);
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}
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TEST(CountingSemaphore, EmptyInitialStateInC) {
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CountingSemaphore semaphore;
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EXPECT_FALSE(pw_sync_CountingSemaphore_CallTryAcquire(&semaphore));
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}
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TEST(CountingSemaphore, SingeReleaseInC) {
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CountingSemaphore semaphore;
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pw_sync_CountingSemaphore_CallRelease(&semaphore);
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pw_sync_CountingSemaphore_CallRelease(&semaphore);
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pw_sync_CountingSemaphore_CallAcquire(&semaphore);
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pw_sync_CountingSemaphore_CallAcquire(&semaphore);
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// Ensure it fails when empty.
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EXPECT_FALSE(pw_sync_CountingSemaphore_CallTryAcquire(&semaphore));
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}
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TEST(CountingSemaphore, MultiReleaseInC) {
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CountingSemaphore semaphore;
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pw_sync_CountingSemaphore_CallReleaseNum(&semaphore, 2);
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pw_sync_CountingSemaphore_CallReleaseNum(&semaphore, 1);
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pw_sync_CountingSemaphore_CallAcquire(&semaphore);
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pw_sync_CountingSemaphore_CallAcquire(&semaphore);
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pw_sync_CountingSemaphore_CallAcquire(&semaphore);
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// Ensure it fails when empty.
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EXPECT_FALSE(pw_sync_CountingSemaphore_CallTryAcquire(&semaphore));
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}
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TEST(CountingSemaphore, TryAcquireForInC) {
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CountingSemaphore semaphore;
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pw_sync_CountingSemaphore_CallRelease(&semaphore);
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pw_chrono_SystemClock_TimePoint before = pw_chrono_SystemClock_Now();
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ASSERT_TRUE(pw_sync_CountingSemaphore_CallTryAcquireFor(
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&semaphore, kRoundedArbitraryDurationInC));
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pw_chrono_SystemClock_Duration time_elapsed =
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pw_chrono_SystemClock_TimeElapsed(before, pw_chrono_SystemClock_Now());
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EXPECT_LT(time_elapsed.ticks, kRoundedArbitraryDurationInC.ticks);
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// Ensure it blocks and fails when empty.
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before = pw_chrono_SystemClock_Now();
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EXPECT_FALSE(pw_sync_CountingSemaphore_CallTryAcquireFor(
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&semaphore, kRoundedArbitraryDurationInC));
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time_elapsed =
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pw_chrono_SystemClock_TimeElapsed(before, pw_chrono_SystemClock_Now());
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EXPECT_GE(time_elapsed.ticks, kRoundedArbitraryDurationInC.ticks);
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}
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TEST(CountingSemaphore, TryAcquireUntilInC) {
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CountingSemaphore semaphore;
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pw_sync_CountingSemaphore_CallRelease(&semaphore);
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pw_chrono_SystemClock_TimePoint deadline;
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deadline.duration_since_epoch = {
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.ticks = pw_chrono_SystemClock_Now().duration_since_epoch.ticks +
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kRoundedArbitraryDurationInC.ticks,
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};
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ASSERT_TRUE(
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pw_sync_CountingSemaphore_CallTryAcquireUntil(&semaphore, deadline));
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EXPECT_LT(pw_chrono_SystemClock_Now().duration_since_epoch.ticks,
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deadline.duration_since_epoch.ticks);
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// Ensure it blocks and fails when empty.
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EXPECT_FALSE(
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pw_sync_CountingSemaphore_CallTryAcquireUntil(&semaphore, deadline));
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EXPECT_GE(pw_chrono_SystemClock_Now().duration_since_epoch.ticks,
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deadline.duration_since_epoch.ticks);
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}
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TEST(CountingSemaphore, MaxInC) {
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EXPECT_EQ(CountingSemaphore::max(), pw_sync_CountingSemaphore_Max());
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}
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} // namespace
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} // namespace pw::sync
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