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libcamera/test/timer.cpp
Laurent Pinchart 93e72b695e libcamera: Move internal headers to include/libcamera/internal/ 
The libcamera internal headers are located in src/libcamera/include/.
The directory is added to the compiler headers search path with a meson
include_directories() directive, and internal headers are included with
(e.g. for the internal semaphore.h header)

  #include "semaphore.h"

All was well, until libcxx decided to implement the C++20
synchronization library. The __threading_support header gained a

  #include <semaphore.h>

to include the pthread's semaphore support. As include_directories()
adds src/libcamera/include/ to the compiler search path with -I, the
internal semaphore.h is included instead of the pthread version.
Needless to say, the compiler isn't happy.

Three options have been considered to fix this issue:

- Use -iquote instead of -I. The -iquote option instructs gcc to only
  consider the header search path for headers included with the ""
  version. Meson unfortunately doesn't support this option.

- Rename the internal semaphore.h header. This was deemed to be the
  beginning of a long whack-a-mole game, where namespace clashes with
  system libraries would appear over time (possibly dependent on
  particular system configurations) and would need to be constantly
  fixed.

- Move the internal headers to another directory to create a unique
  namespace through path components. This causes lots of churn in all
  the existing source files through the all project.

The first option would be best, but isn't available to us due to missing
support in meson. Even if -iquote support was added, we would need to
fix the problem before a new version of meson containing the required
support would be released.

The third option is thus the only practical solution available. Bite the
bullet, and do it, moving headers to include/libcamera/internal/.

Signed-off-by: Laurent Pinchart <laurent.pinchart@ideasonboard.com>
Acked-by: Jacopo Mondi <jacopo@jmondi.org>
2020-05-16 03:38:11 +03:00

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/* SPDX-License-Identifier: GPL-2.0-or-later */
/*
* Copyright (C) 2019, Google Inc.
*
* timer.cpp - Timer test
*/
#include <chrono>
#include <iostream>
#include <libcamera/event_dispatcher.h>
#include <libcamera/timer.h>
#include "libcamera/internal/thread.h"
#include "test.h"
using namespace std;
using namespace libcamera;
class ManagedTimer : public Timer
{
public:
ManagedTimer()
: Timer(), count_(0)
{
timeout.connect(this, &ManagedTimer::timeoutHandler);
}
void start(int msec)
{
count_ = 0;
start_ = std::chrono::steady_clock::now();
expiration_ = std::chrono::steady_clock::time_point();
Timer::start(msec);
}
void start(std::chrono::steady_clock::time_point deadline)
{
count_ = 0;
start_ = std::chrono::steady_clock::now();
expiration_ = std::chrono::steady_clock::time_point();
Timer::start(deadline);
}
int jitter()
{
std::chrono::steady_clock::duration duration = expiration_ - deadline();
return abs(std::chrono::duration_cast<std::chrono::milliseconds>(duration).count());
}
bool hasFailed()
{
return isRunning() || count_ != 1 || jitter() > 50;
}
private:
void timeoutHandler(Timer *timer)
{
expiration_ = std::chrono::steady_clock::now();
count_++;
}
unsigned int count_;
std::chrono::steady_clock::time_point start_;
std::chrono::steady_clock::time_point expiration_;
};
class TimerTest : public Test
{
protected:
int init()
{
return 0;
}
int run()
{
EventDispatcher *dispatcher = Thread::current()->eventDispatcher();
ManagedTimer timer;
ManagedTimer timer2;
/* Timer expiration. */
timer.start(1000);
if (!timer.isRunning()) {
cout << "Timer expiration test failed" << endl;
return TestFail;
}
dispatcher->processEvents();
if (timer.hasFailed()) {
cout << "Timer expiration test failed" << endl;
return TestFail;
}
/*
* 32 bit wrap test
* Nanosecond resolution in a 32 bit value wraps at 4.294967
* seconds (0xFFFFFFFF / 1000000)
*/
timer.start(4295);
dispatcher->processEvents();
if (timer.hasFailed()) {
cout << "Timer expiration test failed" << endl;
return TestFail;
}
/* Timer restart. */
timer.start(500);
if (!timer.isRunning()) {
cout << "Timer restart test failed" << endl;
return TestFail;
}
dispatcher->processEvents();
if (timer.hasFailed()) {
cout << "Timer restart test failed" << endl;
return TestFail;
}
/* Timer restart before expiration. */
timer.start(50);
timer.start(100);
timer.start(150);
dispatcher->processEvents();
if (timer.hasFailed()) {
cout << "Timer restart before expiration test failed" << endl;
return TestFail;
}
/* Timer with absolute deadline. */
timer.start(std::chrono::steady_clock::now() + std::chrono::milliseconds(200));
dispatcher->processEvents();
if (timer.hasFailed()) {
cout << "Absolute deadline test failed" << endl;
return TestFail;
}
/* Two timers. */
timer.start(1000);
timer2.start(300);
dispatcher->processEvents();
if (!timer.isRunning()) {
cout << "Two timers test failed" << endl;
return TestFail;
}
if (timer2.jitter() > 50) {
cout << "Two timers test failed" << endl;
return TestFail;
}
dispatcher->processEvents();
if (timer.jitter() > 50) {
cout << "Two timers test failed" << endl;
return TestFail;
}
/* Restart timer before expiration. */
timer.start(1000);
timer2.start(300);
dispatcher->processEvents();
if (timer2.jitter() > 50) {
cout << "Two timers test failed" << endl;
return TestFail;
}
timer.start(1000);
dispatcher->processEvents();
if (timer.jitter() > 50) {
cout << "Two timers test failed" << endl;
return TestFail;
}
/*
* Test that dynamically allocated timers are stopped when
* deleted. This will result in a crash on failure.
*/
ManagedTimer *dyntimer = new ManagedTimer();
dyntimer->start(100);
delete dyntimer;
timer.start(200);
dispatcher->processEvents();
return TestPass;
}
void cleanup()
{
}
};
TEST_REGISTER(TimerTest)
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