/* * Copyright (C) 2020 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 "perfetto/base/logging.h" #include "perfetto/tracing/core/data_source_config.h" #include "src/base/test/test_task_runner.h" #include "test/cts/utils.h" #include "test/gtest_and_gmock.h" #include "test/test_helper.h" #include "protos/perfetto/config/profiling/perf_event_config.gen.h" #include "protos/perfetto/trace/profiling/profile_common.gen.h" #include "protos/perfetto/trace/profiling/profile_packet.gen.h" #include "protos/perfetto/trace/trace_packet.gen.h" namespace perfetto { namespace { // Skip these tests if the device in question doesn't have the necessary kernel // LSM hooks in perf_event_open. This comes up when a device with an older // kernel upgrades to R. bool HasPerfLsmHooks() { char buf[PROP_VALUE_MAX + 1] = {}; int ret = __system_property_get("sys.init.perf_lsm_hooks", buf); PERFETTO_CHECK(ret >= 0); return std::string(buf) == "1"; } std::vector ProfileSystemWide(std::string app_name) { base::TestTaskRunner task_runner; // (re)start the target app's main activity if (IsAppRunning(app_name)) { StopApp(app_name, "old.app.stopped", &task_runner); task_runner.RunUntilCheckpoint("old.app.stopped", 1000 /*ms*/); } StartAppActivity(app_name, "BusyWaitActivity", "target.app.running", &task_runner, /*delay_ms=*/100); task_runner.RunUntilCheckpoint("target.app.running", 1000 /*ms*/); // set up tracing TestHelper helper(&task_runner); helper.ConnectConsumer(); helper.WaitForConsumerConnect(); TraceConfig trace_config; trace_config.add_buffers()->set_size_kb(20 * 1024); trace_config.set_duration_ms(3000); trace_config.set_data_source_stop_timeout_ms(8000); auto* ds_config = trace_config.add_data_sources()->mutable_config(); ds_config->set_name("linux.perf"); ds_config->set_target_buffer(0); protos::gen::PerfEventConfig perf_config; perf_config.set_all_cpus(true); perf_config.set_sampling_frequency(10); // Hz ds_config->set_perf_event_config_raw(perf_config.SerializeAsString()); // start tracing helper.StartTracing(trace_config); helper.WaitForTracingDisabled(15000 /*ms*/); helper.ReadData(); helper.WaitForReadData(); return helper.trace(); } void AssertHasSampledStacksForPid(std::vector packets, int pid) { uint32_t target_pid = static_cast(pid); ASSERT_GT(packets.size(), 0u); int total_perf_packets = 0; int lost_records_packets = 0; int full_samples = 0; int target_samples = 0; int target_skipped_samples = 0; for (const auto& packet : packets) { if (!packet.has_perf_sample()) continue; total_perf_packets++; EXPECT_GT(packet.timestamp(), 0u) << "all packets should have a timestamp"; const auto& sample = packet.perf_sample(); if (sample.has_kernel_records_lost()) { lost_records_packets++; continue; } if (sample.has_sample_skipped_reason()) { if (sample.pid() == target_pid) target_skipped_samples++; continue; } full_samples++; EXPECT_GT(sample.tid(), 0u); EXPECT_GT(sample.callstack_iid(), 0u); if (sample.pid() == target_pid) target_samples++; } EXPECT_GT(target_samples, 0) << "target_pid: " << target_pid << ", packets.size(): " << packets.size() << ", total_perf_packets: " << total_perf_packets << ", full_samples: " << full_samples << ", lost_records_packets: " << lost_records_packets << ", target_skipped_samples: " << target_skipped_samples << "\n"; } void AssertNoStacksForPid(std::vector packets, int pid) { uint32_t target_pid = static_cast(pid); // The process can still be sampled, but the stacks should be discarded // without unwinding. for (const auto& packet : packets) { if (packet.perf_sample().pid() == target_pid) { EXPECT_EQ(packet.perf_sample().callstack_iid(), 0u); EXPECT_TRUE(packet.perf_sample().has_sample_skipped_reason()); } } } TEST(TracedPerfCtsTest, SystemWideDebuggableApp) { if (!HasPerfLsmHooks()) GTEST_SKIP() << "skipped due to lack of perf_event_open LSM hooks"; std::string app_name = "android.perfetto.cts.app.debuggable"; const auto& packets = ProfileSystemWide(app_name); int app_pid = PidForProcessName(app_name); ASSERT_GT(app_pid, 0) << "failed to find pid for target process"; AssertHasSampledStacksForPid(packets, app_pid); PERFETTO_CHECK(IsAppRunning(app_name)); StopApp(app_name); } TEST(TracedPerfCtsTest, SystemWideProfileableApp) { if (!HasPerfLsmHooks()) GTEST_SKIP() << "skipped due to lack of perf_event_open LSM hooks"; std::string app_name = "android.perfetto.cts.app.profileable"; const auto& packets = ProfileSystemWide(app_name); int app_pid = PidForProcessName(app_name); ASSERT_GT(app_pid, 0) << "failed to find pid for target process"; AssertHasSampledStacksForPid(packets, app_pid); PERFETTO_CHECK(IsAppRunning(app_name)); StopApp(app_name); } TEST(TracedPerfCtsTest, SystemWideReleaseApp) { if (!HasPerfLsmHooks()) GTEST_SKIP() << "skipped due to lack of perf_event_open LSM hooks"; std::string app_name = "android.perfetto.cts.app.release"; const auto& packets = ProfileSystemWide(app_name); int app_pid = PidForProcessName(app_name); ASSERT_GT(app_pid, 0) << "failed to find pid for target process"; if (IsDebuggableBuild()) AssertHasSampledStacksForPid(packets, app_pid); else AssertNoStacksForPid(packets, app_pid); PERFETTO_CHECK(IsAppRunning(app_name)); StopApp(app_name); } } // namespace } // namespace perfetto