// Copyright 2013 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 "base/process/process_metrics.h" #include #include #include #include #include #include "base/bind.h" #include "base/command_line.h" #include "base/files/file.h" #include "base/files/file_util.h" #include "base/files/scoped_temp_dir.h" #include "base/macros.h" #include "base/memory/shared_memory.h" #include "base/strings/string_number_conversions.h" #include "base/sys_info.h" #include "base/test/multiprocess_test.h" #include "base/threading/thread.h" #include "build/build_config.h" #include "testing/gtest/include/gtest/gtest.h" #include "testing/multiprocess_func_list.h" #if defined(OS_MACOSX) #include #endif namespace base { namespace debug { #if defined(OS_LINUX) || defined(OS_CHROMEOS) || defined(OS_WIN) namespace { void BusyWork(std::vector* vec) { int64_t test_value = 0; for (int i = 0; i < 100000; ++i) { ++test_value; vec->push_back(Int64ToString(test_value)); } } } // namespace #endif // defined(OS_LINUX) || defined(OS_CHROMEOS) // Tests for SystemMetrics. // Exists as a class so it can be a friend of SystemMetrics. class SystemMetricsTest : public testing::Test { public: SystemMetricsTest() = default; private: DISALLOW_COPY_AND_ASSIGN(SystemMetricsTest); }; #if defined(OS_LINUX) || defined(OS_ANDROID) TEST_F(SystemMetricsTest, IsValidDiskName) { const char invalid_input1[] = ""; const char invalid_input2[] = "s"; const char invalid_input3[] = "sdz+"; const char invalid_input4[] = "hda0"; const char invalid_input5[] = "mmcbl"; const char invalid_input6[] = "mmcblka"; const char invalid_input7[] = "mmcblkb"; const char invalid_input8[] = "mmmblk0"; EXPECT_FALSE(IsValidDiskName(invalid_input1)); EXPECT_FALSE(IsValidDiskName(invalid_input2)); EXPECT_FALSE(IsValidDiskName(invalid_input3)); EXPECT_FALSE(IsValidDiskName(invalid_input4)); EXPECT_FALSE(IsValidDiskName(invalid_input5)); EXPECT_FALSE(IsValidDiskName(invalid_input6)); EXPECT_FALSE(IsValidDiskName(invalid_input7)); EXPECT_FALSE(IsValidDiskName(invalid_input8)); const char valid_input1[] = "sda"; const char valid_input2[] = "sdaaaa"; const char valid_input3[] = "hdz"; const char valid_input4[] = "mmcblk0"; const char valid_input5[] = "mmcblk999"; EXPECT_TRUE(IsValidDiskName(valid_input1)); EXPECT_TRUE(IsValidDiskName(valid_input2)); EXPECT_TRUE(IsValidDiskName(valid_input3)); EXPECT_TRUE(IsValidDiskName(valid_input4)); EXPECT_TRUE(IsValidDiskName(valid_input5)); } TEST_F(SystemMetricsTest, ParseMeminfo) { SystemMemoryInfoKB meminfo; const char invalid_input1[] = "abc"; const char invalid_input2[] = "MemTotal:"; // Partial file with no MemTotal const char invalid_input3[] = "MemFree: 3913968 kB\n" "Buffers: 2348340 kB\n" "Cached: 49071596 kB\n" "SwapCached: 12 kB\n" "Active: 36393900 kB\n" "Inactive: 21221496 kB\n" "Active(anon): 5674352 kB\n" "Inactive(anon): 633992 kB\n"; EXPECT_FALSE(ParseProcMeminfo(invalid_input1, &meminfo)); EXPECT_FALSE(ParseProcMeminfo(invalid_input2, &meminfo)); EXPECT_FALSE(ParseProcMeminfo(invalid_input3, &meminfo)); const char valid_input1[] = "MemTotal: 3981504 kB\n" "MemFree: 140764 kB\n" "MemAvailable: 535413 kB\n" "Buffers: 116480 kB\n" "Cached: 406160 kB\n" "SwapCached: 21304 kB\n" "Active: 3152040 kB\n" "Inactive: 472856 kB\n" "Active(anon): 2972352 kB\n" "Inactive(anon): 270108 kB\n" "Active(file): 179688 kB\n" "Inactive(file): 202748 kB\n" "Unevictable: 0 kB\n" "Mlocked: 0 kB\n" "SwapTotal: 5832280 kB\n" "SwapFree: 3672368 kB\n" "Dirty: 184 kB\n" "Writeback: 0 kB\n" "AnonPages: 3101224 kB\n" "Mapped: 142296 kB\n" "Shmem: 140204 kB\n" "Slab: 54212 kB\n" "SReclaimable: 30936 kB\n" "SUnreclaim: 23276 kB\n" "KernelStack: 2464 kB\n" "PageTables: 24812 kB\n" "NFS_Unstable: 0 kB\n" "Bounce: 0 kB\n" "WritebackTmp: 0 kB\n" "CommitLimit: 7823032 kB\n" "Committed_AS: 7973536 kB\n" "VmallocTotal: 34359738367 kB\n" "VmallocUsed: 375940 kB\n" "VmallocChunk: 34359361127 kB\n" "DirectMap4k: 72448 kB\n" "DirectMap2M: 4061184 kB\n"; // output from a much older kernel where the Active and Inactive aren't // broken down into anon and file and Huge Pages are enabled const char valid_input2[] = "MemTotal: 255908 kB\n" "MemFree: 69936 kB\n" "Buffers: 15812 kB\n" "Cached: 115124 kB\n" "SwapCached: 0 kB\n" "Active: 92700 kB\n" "Inactive: 63792 kB\n" "HighTotal: 0 kB\n" "HighFree: 0 kB\n" "LowTotal: 255908 kB\n" "LowFree: 69936 kB\n" "SwapTotal: 524280 kB\n" "SwapFree: 524200 kB\n" "Dirty: 4 kB\n" "Writeback: 0 kB\n" "Mapped: 42236 kB\n" "Slab: 25912 kB\n" "Committed_AS: 118680 kB\n" "PageTables: 1236 kB\n" "VmallocTotal: 3874808 kB\n" "VmallocUsed: 1416 kB\n" "VmallocChunk: 3872908 kB\n" "HugePages_Total: 0\n" "HugePages_Free: 0\n" "Hugepagesize: 4096 kB\n"; EXPECT_TRUE(ParseProcMeminfo(valid_input1, &meminfo)); EXPECT_EQ(meminfo.total, 3981504); EXPECT_EQ(meminfo.free, 140764); EXPECT_EQ(meminfo.available, 535413); EXPECT_EQ(meminfo.buffers, 116480); EXPECT_EQ(meminfo.cached, 406160); EXPECT_EQ(meminfo.active_anon, 2972352); EXPECT_EQ(meminfo.active_file, 179688); EXPECT_EQ(meminfo.inactive_anon, 270108); EXPECT_EQ(meminfo.inactive_file, 202748); EXPECT_EQ(meminfo.swap_total, 5832280); EXPECT_EQ(meminfo.swap_free, 3672368); EXPECT_EQ(meminfo.dirty, 184); EXPECT_EQ(meminfo.reclaimable, 30936); #if defined(OS_CHROMEOS) EXPECT_EQ(meminfo.shmem, 140204); EXPECT_EQ(meminfo.slab, 54212); #endif EXPECT_EQ(355725, base::SysInfo::AmountOfAvailablePhysicalMemory(meminfo) / 1024); // Simulate as if there is no MemAvailable. meminfo.available = 0; EXPECT_EQ(374448, base::SysInfo::AmountOfAvailablePhysicalMemory(meminfo) / 1024); meminfo = {}; EXPECT_TRUE(ParseProcMeminfo(valid_input2, &meminfo)); EXPECT_EQ(meminfo.total, 255908); EXPECT_EQ(meminfo.free, 69936); EXPECT_EQ(meminfo.available, 0); EXPECT_EQ(meminfo.buffers, 15812); EXPECT_EQ(meminfo.cached, 115124); EXPECT_EQ(meminfo.swap_total, 524280); EXPECT_EQ(meminfo.swap_free, 524200); EXPECT_EQ(meminfo.dirty, 4); EXPECT_EQ(69936, base::SysInfo::AmountOfAvailablePhysicalMemory(meminfo) / 1024); } TEST_F(SystemMetricsTest, ParseVmstat) { VmStatInfo vmstat; // part of vmstat from a 3.2 kernel with numa enabled const char valid_input1[] = "nr_free_pages 905104\n" "nr_inactive_anon 142478" "nr_active_anon 1520046\n" "nr_inactive_file 4481001\n" "nr_active_file 8313439\n" "nr_unevictable 5044\n" "nr_mlock 5044\n" "nr_anon_pages 1633780\n" "nr_mapped 104742\n" "nr_file_pages 12828218\n" "nr_dirty 245\n" "nr_writeback 0\n" "nr_slab_reclaimable 831609\n" "nr_slab_unreclaimable 41164\n" "nr_page_table_pages 31470\n" "nr_kernel_stack 1735\n" "nr_unstable 0\n" "nr_bounce 0\n" "nr_vmscan_write 406\n" "nr_vmscan_immediate_reclaim 281\n" "nr_writeback_temp 0\n" "nr_isolated_anon 0\n" "nr_isolated_file 0\n" "nr_shmem 28820\n" "nr_dirtied 84674644\n" "nr_written 75307109\n" "nr_anon_transparent_hugepages 0\n" "nr_dirty_threshold 1536206\n" "nr_dirty_background_threshold 768103\n" "pgpgin 30777108\n" "pgpgout 319023278\n" "pswpin 179\n" "pswpout 406\n" "pgalloc_dma 0\n" "pgalloc_dma32 20833399\n" "pgalloc_normal 1622609290\n" "pgalloc_movable 0\n" "pgfree 1644355583\n" "pgactivate 75391882\n" "pgdeactivate 4121019\n" "pgfault 2542879679\n" "pgmajfault 487192\n"; const char valid_input2[] = "nr_free_pages 180125\n" "nr_inactive_anon 51\n" "nr_active_anon 38832\n" "nr_inactive_file 50171\n" "nr_active_file 47510\n" "nr_unevictable 0\n" "nr_mlock 0\n" "nr_anon_pages 38825\n" "nr_mapped 24043\n" "nr_file_pages 97733\n" "nr_dirty 0\n" "nr_writeback 0\n" "nr_slab_reclaimable 4032\n" "nr_slab_unreclaimable 2848\n" "nr_page_table_pages 1505\n" "nr_kernel_stack 626\n" "nr_unstable 0\n" "nr_bounce 0\n" "nr_vmscan_write 0\n" "nr_vmscan_immediate_reclaim 0\n" "nr_writeback_temp 0\n" "nr_isolated_anon 0\n" "nr_isolated_file 0\n" "nr_shmem 58\n" "nr_dirtied 435358\n" "nr_written 401258\n" "nr_anon_transparent_hugepages 0\n" "nr_dirty_threshold 18566\n" "nr_dirty_background_threshold 4641\n" "pgpgin 299464\n" "pgpgout 2437788\n" "pswpin 12\n" "pswpout 901\n" "pgalloc_normal 144213030\n" "pgalloc_high 164501274\n" "pgalloc_movable 0\n" "pgfree 308894908\n" "pgactivate 239320\n" "pgdeactivate 1\n" "pgfault 716044601\n" "pgmajfault 2023\n" "pgrefill_normal 0\n" "pgrefill_high 0\n" "pgrefill_movable 0\n"; EXPECT_TRUE(ParseProcVmstat(valid_input1, &vmstat)); EXPECT_EQ(179LU, vmstat.pswpin); EXPECT_EQ(406LU, vmstat.pswpout); EXPECT_EQ(487192LU, vmstat.pgmajfault); EXPECT_TRUE(ParseProcVmstat(valid_input2, &vmstat)); EXPECT_EQ(12LU, vmstat.pswpin); EXPECT_EQ(901LU, vmstat.pswpout); EXPECT_EQ(2023LU, vmstat.pgmajfault); const char missing_pgmajfault_input[] = "pswpin 12\n" "pswpout 901\n"; EXPECT_FALSE(ParseProcVmstat(missing_pgmajfault_input, &vmstat)); const char empty_input[] = ""; EXPECT_FALSE(ParseProcVmstat(empty_input, &vmstat)); } #endif // defined(OS_LINUX) || defined(OS_ANDROID) #if defined(OS_LINUX) || defined(OS_CHROMEOS) || defined(OS_WIN) // Test that ProcessMetrics::GetPlatformIndependentCPUUsage() doesn't return // negative values when the number of threads running on the process decreases // between two successive calls to it. TEST_F(SystemMetricsTest, TestNoNegativeCpuUsage) { ProcessHandle handle = GetCurrentProcessHandle(); std::unique_ptr metrics( ProcessMetrics::CreateProcessMetrics(handle)); EXPECT_GE(metrics->GetPlatformIndependentCPUUsage(), 0.0); Thread thread1("thread1"); Thread thread2("thread2"); Thread thread3("thread3"); thread1.StartAndWaitForTesting(); thread2.StartAndWaitForTesting(); thread3.StartAndWaitForTesting(); ASSERT_TRUE(thread1.IsRunning()); ASSERT_TRUE(thread2.IsRunning()); ASSERT_TRUE(thread3.IsRunning()); std::vector vec1; std::vector vec2; std::vector vec3; thread1.task_runner()->PostTask(FROM_HERE, BindOnce(&BusyWork, &vec1)); thread2.task_runner()->PostTask(FROM_HERE, BindOnce(&BusyWork, &vec2)); thread3.task_runner()->PostTask(FROM_HERE, BindOnce(&BusyWork, &vec3)); TimeDelta prev_cpu_usage = metrics->GetCumulativeCPUUsage(); EXPECT_GE(prev_cpu_usage, TimeDelta()); EXPECT_GE(metrics->GetPlatformIndependentCPUUsage(), 0.0); thread1.Stop(); TimeDelta current_cpu_usage = metrics->GetCumulativeCPUUsage(); EXPECT_GE(current_cpu_usage, prev_cpu_usage); prev_cpu_usage = current_cpu_usage; EXPECT_GE(metrics->GetPlatformIndependentCPUUsage(), 0.0); thread2.Stop(); current_cpu_usage = metrics->GetCumulativeCPUUsage(); EXPECT_GE(current_cpu_usage, prev_cpu_usage); prev_cpu_usage = current_cpu_usage; EXPECT_GE(metrics->GetPlatformIndependentCPUUsage(), 0.0); thread3.Stop(); current_cpu_usage = metrics->GetCumulativeCPUUsage(); EXPECT_GE(current_cpu_usage, prev_cpu_usage); EXPECT_GE(metrics->GetPlatformIndependentCPUUsage(), 0.0); } #endif // defined(OS_LINUX) || defined(OS_CHROMEOS) #if defined(OS_CHROMEOS) TEST_F(SystemMetricsTest, ParseZramMmStat) { SwapInfo swapinfo; const char invalid_input1[] = "aaa"; const char invalid_input2[] = "1 2 3 4 5 6"; const char invalid_input3[] = "a 2 3 4 5 6 7"; EXPECT_FALSE(ParseZramMmStat(invalid_input1, &swapinfo)); EXPECT_FALSE(ParseZramMmStat(invalid_input2, &swapinfo)); EXPECT_FALSE(ParseZramMmStat(invalid_input3, &swapinfo)); const char valid_input1[] = "17715200 5008166 566062 0 1225715712 127 183842"; EXPECT_TRUE(ParseZramMmStat(valid_input1, &swapinfo)); EXPECT_EQ(17715200ULL, swapinfo.orig_data_size); EXPECT_EQ(5008166ULL, swapinfo.compr_data_size); EXPECT_EQ(566062ULL, swapinfo.mem_used_total); } TEST_F(SystemMetricsTest, ParseZramStat) { SwapInfo swapinfo; const char invalid_input1[] = "aaa"; const char invalid_input2[] = "1 2 3 4 5 6 7 8 9 10"; const char invalid_input3[] = "a 2 3 4 5 6 7 8 9 10 11"; EXPECT_FALSE(ParseZramStat(invalid_input1, &swapinfo)); EXPECT_FALSE(ParseZramStat(invalid_input2, &swapinfo)); EXPECT_FALSE(ParseZramStat(invalid_input3, &swapinfo)); const char valid_input1[] = "299 0 2392 0 1 0 8 0 0 0 0"; EXPECT_TRUE(ParseZramStat(valid_input1, &swapinfo)); EXPECT_EQ(299ULL, swapinfo.num_reads); EXPECT_EQ(1ULL, swapinfo.num_writes); } #endif // defined(OS_CHROMEOS) #if defined(OS_WIN) || defined(OS_MACOSX) || defined(OS_LINUX) || \ defined(OS_ANDROID) TEST(SystemMetrics2Test, GetSystemMemoryInfo) { SystemMemoryInfoKB info; EXPECT_TRUE(GetSystemMemoryInfo(&info)); // Ensure each field received a value. EXPECT_GT(info.total, 0); #if defined(OS_WIN) EXPECT_GT(info.avail_phys, 0); #else EXPECT_GT(info.free, 0); #endif #if defined(OS_LINUX) || defined(OS_ANDROID) EXPECT_GT(info.buffers, 0); EXPECT_GT(info.cached, 0); EXPECT_GT(info.active_anon, 0); EXPECT_GT(info.inactive_anon, 0); EXPECT_GT(info.active_file, 0); EXPECT_GT(info.inactive_file, 0); #endif // defined(OS_LINUX) || defined(OS_ANDROID) // All the values should be less than the total amount of memory. #if !defined(OS_WIN) && !defined(OS_IOS) // TODO(crbug.com/711450): re-enable the following assertion on iOS. EXPECT_LT(info.free, info.total); #endif #if defined(OS_LINUX) || defined(OS_ANDROID) EXPECT_LT(info.buffers, info.total); EXPECT_LT(info.cached, info.total); EXPECT_LT(info.active_anon, info.total); EXPECT_LT(info.inactive_anon, info.total); EXPECT_LT(info.active_file, info.total); EXPECT_LT(info.inactive_file, info.total); #endif // defined(OS_LINUX) || defined(OS_ANDROID) #if defined(OS_MACOSX) || defined(OS_IOS) EXPECT_GT(info.file_backed, 0); #endif #if defined(OS_CHROMEOS) // Chrome OS exposes shmem. EXPECT_GT(info.shmem, 0); EXPECT_LT(info.shmem, info.total); // Chrome unit tests are not run on actual Chrome OS hardware, so gem_objects // and gem_size cannot be tested here. #endif } #endif // defined(OS_WIN) || defined(OS_MACOSX) || defined(OS_LINUX) || // defined(OS_ANDROID) #if defined(OS_LINUX) || defined(OS_ANDROID) TEST(ProcessMetricsTest, ParseProcStatCPU) { // /proc/self/stat for a process running "top". const char kTopStat[] = "960 (top) S 16230 960 16230 34818 960 " "4202496 471 0 0 0 " "12 16 0 0 " // <- These are the goods. "20 0 1 0 121946157 15077376 314 18446744073709551615 4194304 " "4246868 140733983044336 18446744073709551615 140244213071219 " "0 0 0 138047495 0 0 0 17 1 0 0 0 0 0"; EXPECT_EQ(12 + 16, ParseProcStatCPU(kTopStat)); // cat /proc/self/stat on a random other machine I have. const char kSelfStat[] = "5364 (cat) R 5354 5364 5354 34819 5364 " "0 142 0 0 0 " "0 0 0 0 " // <- No CPU, apparently. "16 0 1 0 1676099790 2957312 114 4294967295 134512640 134528148 " "3221224832 3221224344 3086339742 0 0 0 0 0 0 0 17 0 0 0"; EXPECT_EQ(0, ParseProcStatCPU(kSelfStat)); // Some weird long-running process with a weird name that I created for the // purposes of this test. const char kWeirdNameStat[] = "26115 (Hello) You ())) ) R 24614 26115 24614" " 34839 26115 4218880 227 0 0 0 " "5186 11 0 0 " "20 0 1 0 36933953 4296704 90 18446744073709551615 4194304 4196116 " "140735857761568 140735857761160 4195644 0 0 0 0 0 0 0 17 14 0 0 0 0 0 " "6295056 6295616 16519168 140735857770710 140735857770737 " "140735857770737 140735857774557 0"; EXPECT_EQ(5186 + 11, ParseProcStatCPU(kWeirdNameStat)); } #endif // defined(OS_LINUX) || defined(OS_ANDROID) // Disable on Android because base_unittests runs inside a Dalvik VM that // starts and stop threads (crbug.com/175563). #if defined(OS_LINUX) // http://crbug.com/396455 TEST(ProcessMetricsTest, DISABLED_GetNumberOfThreads) { const ProcessHandle current = GetCurrentProcessHandle(); const int initial_threads = GetNumberOfThreads(current); ASSERT_GT(initial_threads, 0); const int kNumAdditionalThreads = 10; { std::unique_ptr my_threads[kNumAdditionalThreads]; for (int i = 0; i < kNumAdditionalThreads; ++i) { my_threads[i].reset(new Thread("GetNumberOfThreadsTest")); my_threads[i]->Start(); ASSERT_EQ(GetNumberOfThreads(current), initial_threads + 1 + i); } } // The Thread destructor will stop them. ASSERT_EQ(initial_threads, GetNumberOfThreads(current)); } #endif // defined(OS_LINUX) #if defined(OS_LINUX) namespace { // Keep these in sync so the GetChildOpenFdCount test can refer to correct test // main. #define ChildMain ChildFdCount #define ChildMainString "ChildFdCount" // Command line flag name and file name used for synchronization. const char kTempDirFlag[] = "temp-dir"; const char kSignalClosed[] = "closed"; bool SignalEvent(const FilePath& signal_dir, const char* signal_file) { File file(signal_dir.AppendASCII(signal_file), File::FLAG_CREATE | File::FLAG_WRITE); return file.IsValid(); } // Check whether an event was signaled. bool CheckEvent(const FilePath& signal_dir, const char* signal_file) { File file(signal_dir.AppendASCII(signal_file), File::FLAG_OPEN | File::FLAG_READ); return file.IsValid(); } // Busy-wait for an event to be signaled. void WaitForEvent(const FilePath& signal_dir, const char* signal_file) { while (!CheckEvent(signal_dir, signal_file)) PlatformThread::Sleep(TimeDelta::FromMilliseconds(10)); } // Subprocess to test the number of open file descriptors. MULTIPROCESS_TEST_MAIN(ChildMain) { CommandLine* command_line = CommandLine::ForCurrentProcess(); const FilePath temp_path = command_line->GetSwitchValuePath(kTempDirFlag); CHECK(DirectoryExists(temp_path)); // Try to close all the file descriptors, so the open count goes to 0. for (size_t i = 0; i < 1000; ++i) close(i); CHECK(SignalEvent(temp_path, kSignalClosed)); // Wait to be terminated. while (true) PlatformThread::Sleep(TimeDelta::FromSeconds(1)); return 0; } } // namespace // ARC note: don't compile as SpawnMultiProcessTestChild brings in a lot of // extra dependency. #if !defined(OS_ANDROID) && !defined(__ANDROID_HOST__) TEST(ProcessMetricsTest, GetChildOpenFdCount) { ScopedTempDir temp_dir; ASSERT_TRUE(temp_dir.CreateUniqueTempDir()); const FilePath temp_path = temp_dir.GetPath(); CommandLine child_command_line(GetMultiProcessTestChildBaseCommandLine()); child_command_line.AppendSwitchPath(kTempDirFlag, temp_path); Process child = SpawnMultiProcessTestChild( ChildMainString, child_command_line, LaunchOptions()); ASSERT_TRUE(child.IsValid()); WaitForEvent(temp_path, kSignalClosed); std::unique_ptr metrics( ProcessMetrics::CreateProcessMetrics(child.Handle())); // Try a couple times to observe the child with 0 fds open. // Sometimes we've seen that the child can have 1 remaining // fd shortly after receiving the signal. Potentially this // is actually the signal file still open in the child. int open_fds = -1; for (int tries = 0; tries < 5; ++tries) { open_fds = metrics->GetOpenFdCount(); if (!open_fds) { break; } PlatformThread::Sleep(TimeDelta::FromMilliseconds(1)); } EXPECT_EQ(0, open_fds); ASSERT_TRUE(child.Terminate(0, true)); } #endif // !defined(OS_ANDROID) && !defined(__ANDROID_HOST__) #endif // defined(OS_LINUX) #if defined(OS_ANDROID) || defined(OS_LINUX) TEST(ProcessMetricsTest, GetOpenFdCount) { std::unique_ptr metrics( base::ProcessMetrics::CreateProcessMetrics( base::GetCurrentProcessHandle())); int fd_count = metrics->GetOpenFdCount(); EXPECT_GT(fd_count, 0); ScopedFILE file(fopen("/proc/self/statm", "r")); EXPECT_TRUE(file); int new_fd_count = metrics->GetOpenFdCount(); EXPECT_GT(new_fd_count, 0); EXPECT_EQ(new_fd_count, fd_count + 1); } TEST(ProcessMetricsTestLinux, GetPageFaultCounts) { std::unique_ptr process_metrics( base::ProcessMetrics::CreateProcessMetrics( base::GetCurrentProcessHandle())); PageFaultCounts counts; ASSERT_TRUE(process_metrics->GetPageFaultCounts(&counts)); ASSERT_GT(counts.minor, 0); ASSERT_GE(counts.major, 0); { // Allocate and touch memory. Touching it is required to make sure that the // page fault count goes up, as memory is typically mapped lazily. const size_t kMappedSize = 4 * (1 << 20); SharedMemory memory; ASSERT_TRUE(memory.CreateAndMapAnonymous(kMappedSize)); memset(memory.memory(), 42, kMappedSize); memory.Unmap(); } PageFaultCounts counts_after; ASSERT_TRUE(process_metrics->GetPageFaultCounts(&counts_after)); ASSERT_GT(counts_after.minor, counts.minor); ASSERT_GE(counts_after.major, counts.major); } #endif // defined(OS_ANDROID) || defined(OS_LINUX) } // namespace debug } // namespace base