/* * Copyright (C) 2015 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include #include #include #include #include "command.h" #include "environment.h" #include "event_selection_set.h" #include "get_test_data.h" #include "test_util.h" static std::unique_ptr StatCmd() { return CreateCommandInstance("stat"); } TEST(stat_cmd, no_options) { ASSERT_TRUE(StatCmd()->Run({"sleep", "1"})); } TEST(stat_cmd, event_option) { ASSERT_TRUE(StatCmd()->Run({"-e", "cpu-clock,task-clock", "sleep", "1"})); } TEST(stat_cmd, system_wide_option) { TEST_IN_ROOT(ASSERT_TRUE(StatCmd()->Run({"-a", "sleep", "1"}))); } TEST(stat_cmd, verbose_option) { ASSERT_TRUE(StatCmd()->Run({"--verbose", "sleep", "1"})); } TEST(stat_cmd, tracepoint_event) { TEST_IN_ROOT(ASSERT_TRUE( StatCmd()->Run({"-a", "-e", "sched:sched_switch", "sleep", "1"}))); } TEST(stat_cmd, rN_event) { TEST_REQUIRE_HW_COUNTER(); OMIT_TEST_ON_NON_NATIVE_ABIS(); size_t event_number; if (GetBuildArch() == ARCH_ARM64 || GetBuildArch() == ARCH_ARM) { // As in D5.10.2 of the ARMv8 manual, ARM defines the event number space for PMU. part of the // space is for common event numbers (which will stay the same for all ARM chips), part of the // space is for implementation defined events. Here 0x08 is a common event for instructions. event_number = 0x08; } else if (GetBuildArch() == ARCH_X86_32 || GetBuildArch() == ARCH_X86_64) { // As in volume 3 chapter 19 of the Intel manual, 0x00c0 is the event number for instruction. event_number = 0x00c0; } else { GTEST_LOG_(INFO) << "Omit arch " << GetBuildArch(); return; } std::string event_name = android::base::StringPrintf("r%zx", event_number); ASSERT_TRUE(StatCmd()->Run({"-e", event_name, "sleep", "1"})); } TEST(stat_cmd, event_modifier) { TEST_REQUIRE_HW_COUNTER(); ASSERT_TRUE( StatCmd()->Run({"-e", "cpu-cycles:u,cpu-cycles:k", "sleep", "1"})); } void RunWorkloadFunction() { while (true) { for (volatile int i = 0; i < 10000; ++i); usleep(1); } } void CreateProcesses(size_t count, std::vector>* workloads) { workloads->clear(); // Create workloads run longer than profiling time. for (size_t i = 0; i < count; ++i) { std::unique_ptr workload; workload = Workload::CreateWorkload(RunWorkloadFunction); ASSERT_TRUE(workload != nullptr); ASSERT_TRUE(workload->Start()); workloads->push_back(std::move(workload)); } } TEST(stat_cmd, existing_processes) { std::vector> workloads; CreateProcesses(2, &workloads); std::string pid_list = android::base::StringPrintf( "%d,%d", workloads[0]->GetPid(), workloads[1]->GetPid()); ASSERT_TRUE(StatCmd()->Run({"-p", pid_list, "sleep", "1"})); } TEST(stat_cmd, existing_threads) { std::vector> workloads; CreateProcesses(2, &workloads); // Process id can be used as thread id in linux. std::string tid_list = android::base::StringPrintf( "%d,%d", workloads[0]->GetPid(), workloads[1]->GetPid()); ASSERT_TRUE(StatCmd()->Run({"-t", tid_list, "sleep", "1"})); } TEST(stat_cmd, no_monitored_threads) { ASSERT_FALSE(StatCmd()->Run({})); ASSERT_FALSE(StatCmd()->Run({""})); } TEST(stat_cmd, group_option) { TEST_REQUIRE_HW_COUNTER(); ASSERT_TRUE( StatCmd()->Run({"--group", "cpu-clock,page-faults", "sleep", "1"})); ASSERT_TRUE(StatCmd()->Run({"--group", "cpu-cycles,instructions", "--group", "cpu-cycles:u,instructions:u", "--group", "cpu-cycles:k,instructions:k", "sleep", "1"})); } TEST(stat_cmd, auto_generated_summary) { TEST_REQUIRE_HW_COUNTER(); TemporaryFile tmp_file; ASSERT_TRUE(StatCmd()->Run({"--group", "instructions:u,instructions:k", "-o", tmp_file.path, "sleep", "1"})); std::string s; ASSERT_TRUE(android::base::ReadFileToString(tmp_file.path, &s)); size_t pos = s.find("instructions:u"); ASSERT_NE(s.npos, pos); pos = s.find("instructions:k", pos); ASSERT_NE(s.npos, pos); pos += strlen("instructions:k"); // Check if the summary of instructions is generated. ASSERT_NE(s.npos, s.find("instructions", pos)); } TEST(stat_cmd, duration_option) { ASSERT_TRUE( StatCmd()->Run({"--duration", "1.2", "-p", std::to_string(getpid()), "--in-app"})); ASSERT_TRUE(StatCmd()->Run({"--duration", "1", "sleep", "2"})); } TEST(stat_cmd, interval_option) { TemporaryFile tmp_file; ASSERT_TRUE( StatCmd()->Run({"--interval", "500.0", "--duration", "1.2", "-o", tmp_file.path, "sleep", "2"})); std::string s; ASSERT_TRUE(android::base::ReadFileToString(tmp_file.path, &s)); size_t count = 0; size_t pos = 0; std::string subs = "statistics:"; while((pos = s.find(subs, pos)) != s.npos) { pos += subs.size(); ++count ; } ASSERT_EQ(count, 2UL); } TEST(stat_cmd, interval_option_in_system_wide) { TEST_IN_ROOT(ASSERT_TRUE(StatCmd()->Run({"-a", "--interval", "100", "--duration", "0.3"}))); } TEST(stat_cmd, interval_only_values_option) { ASSERT_TRUE(StatCmd()->Run({"--interval", "500", "--interval-only-values", "sleep", "2"})); TEST_IN_ROOT(ASSERT_TRUE(StatCmd()->Run({"-a", "--interval", "100", "--interval-only-values", "--duration", "0.3"}))); } TEST(stat_cmd, no_modifier_for_clock_events) { for (const std::string& e : {"cpu-clock", "task-clock"}) { for (const std::string& m : {"u", "k"}) { ASSERT_FALSE(StatCmd()->Run({"-e", e + ":" + m, "sleep", "0.1"})) << "event " << e << ":" << m; } } } TEST(stat_cmd, handle_SIGHUP) { std::thread thread([]() { sleep(1); kill(getpid(), SIGHUP); }); thread.detach(); ASSERT_TRUE(StatCmd()->Run({"sleep", "1000000"})); } TEST(stat_cmd, stop_when_no_more_targets) { std::atomic tid(0); std::thread thread([&]() { tid = gettid(); sleep(1); }); thread.detach(); while (tid == 0); ASSERT_TRUE(StatCmd()->Run({"-t", std::to_string(tid), "--in-app"})); } TEST(stat_cmd, sample_speed_should_be_zero) { TEST_REQUIRE_HW_COUNTER(); EventSelectionSet set(true); ASSERT_TRUE(set.AddEventType("cpu-cycles")); set.AddMonitoredProcesses({getpid()}); ASSERT_TRUE(set.OpenEventFiles({-1})); std::vector attrs = set.GetEventAttrWithId(); ASSERT_GT(attrs.size(), 0u); for (auto& attr : attrs) { ASSERT_EQ(attr.attr->sample_period, 0u); ASSERT_EQ(attr.attr->sample_freq, 0u); ASSERT_EQ(attr.attr->freq, 0u); } } TEST(stat_cmd, calculating_cpu_frequency) { TEST_REQUIRE_HW_COUNTER(); CaptureStdout capture; ASSERT_TRUE(capture.Start()); ASSERT_TRUE(StatCmd()->Run({"--csv", "--group", "task-clock,cpu-cycles", "sleep", "1"})); std::string output = capture.Finish(); double task_clock_in_ms = 0; uint64_t cpu_cycle_count = 0; double cpu_frequency = 0; for (auto& line : android::base::Split(output, "\n")) { if (line.find("task-clock") != std::string::npos) { ASSERT_EQ(sscanf(line.c_str(), "%lf(ms)", &task_clock_in_ms), 1); } else if (line.find("cpu-cycles") != std::string::npos) { ASSERT_EQ(sscanf(line.c_str(), "%" SCNu64 ",cpu-cycles,%lf", &cpu_cycle_count, &cpu_frequency), 2); } } ASSERT_NE(task_clock_in_ms, 0.0f); ASSERT_NE(cpu_cycle_count, 0u); ASSERT_NE(cpu_frequency, 0.0f); double calculated_frequency = cpu_cycle_count / task_clock_in_ms / 1e6; // Accept error up to 1e-3. Because the stat cmd print values with precision 1e-6. ASSERT_NEAR(cpu_frequency, calculated_frequency, 1e-3); } TEST(stat_cmd, set_comm_in_another_thread) { // Test a kernel bug which was fixed in 3.15. If kernel panic happens, please cherry pick kernel // patch: e041e328c4b41e perf: Fix perf_event_comm() vs. exec() assumption TEST_REQUIRE_HW_COUNTER(); for (size_t loop = 0; loop < 3; ++loop) { std::atomic child_tid(0); std::atomic stop_child(false); std::thread child([&]() { child_tid = gettid(); // stay on a cpu to make the monitored events of the child thread on that cpu. while (!stop_child) {} }); while (child_tid == 0) {} { EventSelectionSet set(true); ASSERT_TRUE(set.AddEventType("cpu-cycles")); set.AddMonitoredThreads({child_tid}); ASSERT_TRUE(set.OpenEventFiles({-1})); EventSelectionSet set2(true); ASSERT_TRUE(set2.AddEventType("instructions")); set2.AddMonitoredThreads({gettid()}); ASSERT_TRUE(set2.OpenEventFiles({-1})); // For kernels with the bug, setting comm will make the monitored events of the child thread // on the cpu of the current thread. ASSERT_TRUE(android::base::WriteStringToFile("child", "/proc/" + std::to_string(child_tid) + "/comm")); // Release monitored events. For kernels with the bug, the events still exist on the cpu of // the child thread. } stop_child = true; child.join(); // Sleep 1s to enter and exit cpu idle, which may abort the kernel. sleep(1); } } static void TestStatingApps(const std::string& app_name) { // Bring the app to foreground. ASSERT_TRUE(Workload::RunCmd({"am", "start", app_name + "/.MainActivity"})); ASSERT_TRUE(StatCmd()->Run({"--app", app_name, "--duration", "3"})); } TEST(stat_cmd, app_option_for_debuggable_app) { TEST_REQUIRE_APPS(); SetRunInAppToolForTesting(true, false); TestStatingApps("com.android.simpleperf.debuggable"); SetRunInAppToolForTesting(false, true); TestStatingApps("com.android.simpleperf.debuggable"); } TEST(stat_cmd, app_option_for_profileable_app) { TEST_REQUIRE_APPS(); SetRunInAppToolForTesting(false, true); TestStatingApps("com.android.simpleperf.profileable"); }