#include "windows_timer_utils_test.h" #include "pbd/windows_timer_utils.h" #include #include using namespace std; CPPUNIT_TEST_SUITE_REGISTRATION (WindowsTimerUtilsTest); void WindowsTimerUtilsTest::testQPC () { // performs basically the same test CPPUNIT_ASSERT (PBD::QPC::check_timer_valid()); int64_t last_timer_val = PBD::QPC::get_microseconds (); CPPUNIT_ASSERT (last_timer_val >= 0); int64_t min_interval = 1000000; int64_t max_interval = 0; for (int i = 0; i < 10000; ++i) { int64_t timer_val = PBD::QPC::get_microseconds (); CPPUNIT_ASSERT (timer_val >= 0); // try and test for non-syncronized TSC(AMD K8/etc) CPPUNIT_ASSERT (timer_val >= last_timer_val); min_interval = std::min (min_interval, timer_val - last_timer_val); // We may get swapped out so a max interval is not so informative max_interval = std::max (max_interval, timer_val - last_timer_val); last_timer_val = timer_val; } cout << endl; cout << "Min QPC interval = " << min_interval << endl; cout << "Max QPC interval = " << max_interval << endl; } namespace { void get_tgt_granularity(uint32_t& min_elapsed, uint32_t& max_elapsed, uint32_t& avg_elapsed) { min_elapsed = 1000; max_elapsed = 0; uint32_t count = 64; uint32_t total_elapsed = 0; uint32_t last_time_ms = timeGetTime(); for (uint32_t i = 0; i < count;) { uint32_t current_time_ms = timeGetTime(); if (current_time_ms == last_time_ms) continue; uint32_t elapsed = current_time_ms - last_time_ms; cout << "TGT elapsed = " << elapsed << endl; min_elapsed = std::min (min_elapsed, elapsed); max_elapsed = std::max (max_elapsed, elapsed); total_elapsed += elapsed; last_time_ms = current_time_ms; ++i; } avg_elapsed = total_elapsed / count; } void get_sleep_granularity(uint32_t& min_elapsed, uint32_t& max_elapsed, uint32_t& avg_elapsed) { min_elapsed = 1000; max_elapsed = 0; uint32_t count = 64; uint32_t total_elapsed = 0; uint32_t last_time_ms = timeGetTime(); for (uint32_t i = 0; i < count; ++i) { Sleep(1); uint32_t current_time_ms = timeGetTime(); uint32_t elapsed = current_time_ms - last_time_ms; cout << "Sleep elapsed = " << elapsed << endl; min_elapsed = std::min (min_elapsed, elapsed); max_elapsed = std::max (max_elapsed, elapsed); total_elapsed += elapsed; last_time_ms = current_time_ms; } // the rounding here doesn't matter, we aren't interested in // accurate measurements avg_elapsed = total_elapsed / count; } void test_tgt_granularity (const std::string& test_name, uint32_t& tgt_avg_elapsed) { uint32_t tgt_min_elapsed = 0; uint32_t tgt_max_elapsed = 0; get_tgt_granularity( tgt_min_elapsed, tgt_max_elapsed, tgt_avg_elapsed); cout << endl; cout << "TGT " << test_name << " min elapsed = " << tgt_min_elapsed << endl; cout << "TGT " << test_name << " max elapsed = " << tgt_max_elapsed << endl; cout << "TGT " << test_name << " avg elapsed = " << tgt_avg_elapsed << endl; } void test_sleep_granularity (const std::string& test_name, uint32_t& sleep_avg_elapsed) { uint32_t sleep_min_elapsed = 0; uint32_t sleep_max_elapsed = 0; get_sleep_granularity( sleep_min_elapsed, sleep_max_elapsed, sleep_avg_elapsed); cout << endl; cout << "Sleep " << test_name << " min elapsed = " << sleep_min_elapsed << endl; cout << "Sleep " << test_name << " max elapsed = " << sleep_max_elapsed << endl; cout << "Sleep " << test_name << " avg elapsed = " << sleep_avg_elapsed << endl; } } // namespace void WindowsTimerUtilsTest::testMMTimers () { uint32_t min_timer_res = 0; CPPUNIT_ASSERT (PBD::MMTIMERS::get_min_resolution (min_timer_res)); CPPUNIT_ASSERT (min_timer_res == 1); uint32_t avg_orig_res_tgt_elapsed = 0; test_tgt_granularity ("Original Timer Resolution", avg_orig_res_tgt_elapsed); uint32_t avg_orig_res_sleep_elapsed = 0; test_sleep_granularity ("Original Timer Resolution", avg_orig_res_sleep_elapsed); // set the min timer resolution CPPUNIT_ASSERT (PBD::MMTIMERS::set_min_resolution ()); uint32_t avg_min_res_tgt_elapsed = 0; test_tgt_granularity ("Minimum Timer Resolution", avg_min_res_tgt_elapsed); // In a heavily loaded system and without running this test with raised // scheduling priority we can't assume that the granularity is the same as // the minimum timer resolution so give it a few ms of slack, if it is // greater than that then there likely is a problem that needs investigating. CPPUNIT_ASSERT (avg_min_res_tgt_elapsed <= 5); uint32_t avg_min_res_sleep_elapsed = 0; // This should have roughly the same granularity as the tgt test above test_sleep_granularity ("Minimum Timer Resolution", avg_min_res_sleep_elapsed); CPPUNIT_ASSERT (avg_min_res_sleep_elapsed <= 5); CPPUNIT_ASSERT (PBD::MMTIMERS::reset_resolution()); // You can't test setting the max timer resolution because AFAIR Windows // will use the minimum requested resolution of all the applications on the // system. }