/* * 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 "command.h" #include "environment.h" #include "event_selection_set.h" #include "record.h" #include "record_file.h" #include "test_util.h" using namespace PerfFileFormat; static std::unique_ptr RecordCmd() { return CreateCommandInstance("record"); } TEST(record_cmd, no_options) { ASSERT_TRUE(RecordCmd()->Run({"sleep", "1"})); } TEST(record_cmd, system_wide_option) { ASSERT_TRUE(RecordCmd()->Run({"-a", "sleep", "1"})); } TEST(record_cmd, sample_period_option) { ASSERT_TRUE(RecordCmd()->Run({"-c", "100000", "sleep", "1"})); } TEST(record_cmd, event_option) { ASSERT_TRUE(RecordCmd()->Run({"-e", "cpu-clock", "sleep", "1"})); } TEST(record_cmd, freq_option) { ASSERT_TRUE(RecordCmd()->Run({"-f", "99", "sleep", "1"})); ASSERT_TRUE(RecordCmd()->Run({"-F", "99", "sleep", "1"})); } TEST(record_cmd, output_file_option) { ASSERT_TRUE(RecordCmd()->Run({"-o", "perf2.data", "sleep", "1"})); } TEST(record_cmd, dump_kernel_mmap) { ASSERT_TRUE(RecordCmd()->Run({"sleep", "1"})); std::unique_ptr reader = RecordFileReader::CreateInstance("perf.data"); ASSERT_TRUE(reader != nullptr); std::vector> records = reader->DataSection(); ASSERT_GT(records.size(), 0U); bool have_kernel_mmap = false; for (auto& record : records) { if (record->header.type == PERF_RECORD_MMAP) { const MmapRecord* mmap_record = static_cast(record.get()); if (mmap_record->filename == DEFAULT_KERNEL_MMAP_NAME) { have_kernel_mmap = true; break; } } } ASSERT_TRUE(have_kernel_mmap); } TEST(record_cmd, dump_build_id_feature) { ASSERT_TRUE(RecordCmd()->Run({"sleep", "1"})); std::unique_ptr reader = RecordFileReader::CreateInstance("perf.data"); ASSERT_TRUE(reader != nullptr); const FileHeader& file_header = reader->FileHeader(); ASSERT_TRUE(file_header.features[FEAT_BUILD_ID / 8] & (1 << (FEAT_BUILD_ID % 8))); ASSERT_GT(reader->FeatureSectionDescriptors().size(), 0u); } TEST(record_cmd, tracepoint_event) { ASSERT_TRUE(RecordCmd()->Run({"-a", "-e", "sched:sched_switch", "sleep", "1"})); } TEST(record_cmd, branch_sampling) { if (IsBranchSamplingSupported()) { ASSERT_TRUE(RecordCmd()->Run({"-a", "-b", "sleep", "1"})); ASSERT_TRUE(RecordCmd()->Run({"-j", "any,any_call,any_ret,ind_call", "sleep", "1"})); ASSERT_TRUE(RecordCmd()->Run({"-j", "any,k", "sleep", "1"})); ASSERT_TRUE(RecordCmd()->Run({"-j", "any,u", "sleep", "1"})); ASSERT_FALSE(RecordCmd()->Run({"-j", "u", "sleep", "1"})); } else { GTEST_LOG_(INFO) << "This test does nothing as branch stack sampling is not supported on this device."; } } TEST(record_cmd, event_modifier) { ASSERT_TRUE(RecordCmd()->Run({"-e", "cpu-cycles:u", "sleep", "1"})); } TEST(record_cmd, fp_callchain_sampling) { ASSERT_TRUE(RecordCmd()->Run({"--call-graph", "fp", "sleep", "1"})); } TEST(record_cmd, dwarf_callchain_sampling) { if (IsDwarfCallChainSamplingSupported()) { ASSERT_TRUE(RecordCmd()->Run({"--call-graph", "dwarf", "sleep", "1"})); ASSERT_TRUE(RecordCmd()->Run({"--call-graph", "dwarf,16384", "sleep", "1"})); ASSERT_TRUE(RecordCmd()->Run({"-g", "sleep", "1"})); } else { GTEST_LOG_(INFO) << "This test does nothing as dwarf callchain sampling is not supported on this device."; } } TEST(record_cmd, no_unwind_option) { if (IsDwarfCallChainSamplingSupported()) { ASSERT_TRUE(RecordCmd()->Run({"--call-graph", "dwarf", "--no-unwind", "sleep", "1"})); } else { GTEST_LOG_(INFO) << "This test does nothing as dwarf callchain sampling is not supported on this device."; } ASSERT_FALSE(RecordCmd()->Run({"--no-unwind", "sleep", "1"})); } TEST(record_cmd, post_unwind_option) { if (IsDwarfCallChainSamplingSupported()) { ASSERT_TRUE(RecordCmd()->Run({"--call-graph", "dwarf", "--post-unwind", "sleep", "1"})); } else { GTEST_LOG_(INFO) << "This test does nothing as dwarf callchain sampling is not supported on this device."; } ASSERT_FALSE(RecordCmd()->Run({"--post-unwind", "sleep", "1"})); ASSERT_FALSE( RecordCmd()->Run({"--call-graph", "dwarf", "--no-unwind", "--post-unwind", "sleep", "1"})); } TEST(record_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(RecordCmd()->Run({"-p", pid_list})); } TEST(record_cmd, existing_threads) { std::vector> workloads; CreateProcesses(2, &workloads); // Process id can also be used as thread id in linux. std::string tid_list = android::base::StringPrintf("%d,%d", workloads[0]->GetPid(), workloads[1]->GetPid()); ASSERT_TRUE(RecordCmd()->Run({"-t", tid_list})); } TEST(record_cmd, no_monitored_threads) { ASSERT_FALSE(RecordCmd()->Run({""})); } TEST(record_cmd, more_than_one_event_types) { ASSERT_TRUE(RecordCmd()->Run({"-e", "cpu-cycles,cpu-clock", "sleep", "1"})); ASSERT_TRUE(RecordCmd()->Run({"-e", "cpu-cycles", "-e", "cpu-clock", "sleep", "1"})); } TEST(record_cmd, cpu_option) { ASSERT_TRUE(RecordCmd()->Run({"--cpu", "0", "sleep", "1"})); ASSERT_TRUE(RecordCmd()->Run({"--cpu", "0", "-a", "sleep", "1"})); } TEST(record_cmd, mmap_page_option) { ASSERT_TRUE(RecordCmd()->Run({"-m", "1", "sleep", "1"})); ASSERT_FALSE(RecordCmd()->Run({"-m", "0", "sleep", "1"})); ASSERT_FALSE(RecordCmd()->Run({"-m", "7", "sleep", "1"})); }