From c7f5f8508d98d5952d42ed7648c2a8f30a4da156 Mon Sep 17 00:00:00 2001 From: Patrick Scott Date: Thu, 4 Feb 2010 10:37:17 -0500 Subject: Initial source checkin. The source files were determined by building net_unittests in chromium's source tree. Some of the obvious libraries were left out (v8, gmock, gtest). The Android.mk file has all the sources (minus unittests and tools) that were used during net_unittests compilation. Nothing builds yet because of STL but that is the next task. The .cpp files will most likely not compile anyways because of the LOCAL_CPP_EXTENSION mod. I will have to break this into multiple projects to get around that limitation. --- base/time_win_unittest.cc | 204 ++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 204 insertions(+) create mode 100644 base/time_win_unittest.cc (limited to 'base/time_win_unittest.cc') diff --git a/base/time_win_unittest.cc b/base/time_win_unittest.cc new file mode 100644 index 0000000..9dd8a23 --- /dev/null +++ b/base/time_win_unittest.cc @@ -0,0 +1,204 @@ +// Copyright (c) 2006-2008 The Chromium Authors. All rights reserved. +// Use of this source code is governed by a BSD-style license that can be +// found in the LICENSE file. + +#include +#include +#include + +#include "base/time.h" +#include "testing/gtest/include/gtest/gtest.h" + +using base::Time; +using base::TimeDelta; +using base::TimeTicks; + +namespace { + +class MockTimeTicks : public TimeTicks { + public: + static DWORD Ticker() { + return static_cast(InterlockedIncrement(&ticker_)); + } + + static void InstallTicker() { + old_tick_function_ = SetMockTickFunction(&Ticker); + ticker_ = -5; + } + + static void UninstallTicker() { + SetMockTickFunction(old_tick_function_); + } + + private: + static volatile LONG ticker_; + static TickFunctionType old_tick_function_; +}; + +volatile LONG MockTimeTicks::ticker_; +MockTimeTicks::TickFunctionType MockTimeTicks::old_tick_function_; + +HANDLE g_rollover_test_start; + +unsigned __stdcall RolloverTestThreadMain(void* param) { + int64 counter = reinterpret_cast(param); + DWORD rv = WaitForSingleObject(g_rollover_test_start, INFINITE); + EXPECT_EQ(rv, WAIT_OBJECT_0); + + TimeTicks last = TimeTicks::Now(); + for (int index = 0; index < counter; index++) { + TimeTicks now = TimeTicks::Now(); + int64 milliseconds = (now - last).InMilliseconds(); + // This is a tight loop; we could have looped faster than our + // measurements, so the time might be 0 millis. + EXPECT_GE(milliseconds, 0); + EXPECT_LT(milliseconds, 250); + last = now; + } + return 0; +} + +} // namespace + +TEST(TimeTicks, WinRollover) { + // The internal counter rolls over at ~49days. We'll use a mock + // timer to test this case. + // Basic test algorithm: + // 1) Set clock to rollover - N + // 2) Create N threads + // 3) Start the threads + // 4) Each thread loops through TimeTicks() N times + // 5) Each thread verifies integrity of result. + + const int kThreads = 8; + // Use int64 so we can cast into a void* without a compiler warning. + const int64 kChecks = 10; + + // It takes a lot of iterations to reproduce the bug! + // (See bug 1081395) + for (int loop = 0; loop < 4096; loop++) { + // Setup + MockTimeTicks::InstallTicker(); + g_rollover_test_start = CreateEvent(0, TRUE, FALSE, 0); + HANDLE threads[kThreads]; + + for (int index = 0; index < kThreads; index++) { + void* argument = reinterpret_cast(kChecks); + unsigned thread_id; + threads[index] = reinterpret_cast( + _beginthreadex(NULL, 0, RolloverTestThreadMain, argument, 0, + &thread_id)); + EXPECT_NE((HANDLE)NULL, threads[index]); + } + + // Start! + SetEvent(g_rollover_test_start); + + // Wait for threads to finish + for (int index = 0; index < kThreads; index++) { + DWORD rv = WaitForSingleObject(threads[index], INFINITE); + EXPECT_EQ(rv, WAIT_OBJECT_0); + } + + CloseHandle(g_rollover_test_start); + + // Teardown + MockTimeTicks::UninstallTicker(); + } +} + +TEST(TimeTicks, SubMillisecondTimers) { + // Loop for a bit getting timers quickly. We want to + // see at least one case where we get a new sample in + // less than one millisecond. + bool saw_submillisecond_timer = false; + int64 min_timer = 1000; + TimeTicks last_time = TimeTicks::HighResNow(); + for (int index = 0; index < 1000; index++) { + TimeTicks now = TimeTicks::HighResNow(); + TimeDelta delta = now - last_time; + if (delta.InMicroseconds() > 0 && + delta.InMicroseconds() < 1000) { + if (min_timer > delta.InMicroseconds()) + min_timer = delta.InMicroseconds(); + saw_submillisecond_timer = true; + } + last_time = now; + } + EXPECT_TRUE(saw_submillisecond_timer); + printf("Min timer is: %ldus\n", static_cast(min_timer)); +} + +TEST(TimeTicks, TimeGetTimeCaps) { + // Test some basic assumptions that we expect about how timeGetDevCaps works. + + TIMECAPS caps; + MMRESULT status = timeGetDevCaps(&caps, sizeof(caps)); + EXPECT_EQ(TIMERR_NOERROR, status); + if (status != TIMERR_NOERROR) { + printf("Could not get timeGetDevCaps\n"); + return; + } + + EXPECT_GE(static_cast(caps.wPeriodMin), 1); + EXPECT_GT(static_cast(caps.wPeriodMax), 1); + EXPECT_GE(static_cast(caps.wPeriodMin), 1); + EXPECT_GT(static_cast(caps.wPeriodMax), 1); + printf("timeGetTime range is %d to %dms\n", caps.wPeriodMin, + caps.wPeriodMax); +} + +TEST(TimeTicks, QueryPerformanceFrequency) { + // Test some basic assumptions that we expect about QPC. + + LARGE_INTEGER frequency; + BOOL rv = QueryPerformanceFrequency(&frequency); + EXPECT_EQ(TRUE, rv); + EXPECT_GT(frequency.QuadPart, 1000000); // Expect at least 1MHz + printf("QueryPerformanceFrequency is %5.2fMHz\n", + frequency.QuadPart / 1000000.0); +} + +TEST(TimeTicks, TimerPerformance) { + // Verify that various timer mechanisms can always complete quickly. + // Note: This is a somewhat arbitrary test. + const int kLoops = 10000; + // Due to the fact that these run on bbots, which are horribly slow, + // we can't really make any guarantees about minimum runtime. + // Really, we want these to finish in ~10ms, and that is generous. + const int kMaxTime = 35; // Maximum acceptible milliseconds for test. + + typedef TimeTicks (*TestFunc)(); + struct TestCase { + TestFunc func; + char *description; + }; + // Cheating a bit here: assumes sizeof(TimeTicks) == sizeof(Time) + // in order to create a single test case list. + COMPILE_ASSERT(sizeof(TimeTicks) == sizeof(Time), + test_only_works_with_same_sizes); + TestCase cases[] = { + { reinterpret_cast(Time::Now), "Time::Now" }, + { TimeTicks::Now, "TimeTicks::Now" }, + { TimeTicks::HighResNow, "TimeTicks::HighResNow" }, + { NULL, "" } + }; + + int test_case = 0; + while (cases[test_case].func) { + TimeTicks start = TimeTicks::HighResNow(); + for (int index = 0; index < kLoops; index++) + cases[test_case].func(); + TimeTicks stop = TimeTicks::HighResNow(); + // Turning off the check for acceptible delays. Without this check, + // the test really doesn't do much other than measure. But the + // measurements are still useful for testing timers on various platforms. + // The reason to remove the check is because the tests run on many + // buildbots, some of which are VMs. These machines can run horribly + // slow, and there is really no value for checking against a max timer. + //EXPECT_LT((stop - start).InMilliseconds(), kMaxTime); + printf("%s: %1.2fus per call\n", cases[test_case].description, + (stop - start).InMillisecondsF() * 1000 / kLoops); + test_case++; + } +} -- cgit v1.1