grpc_3rd/benchmark/test/perf_counters_gtest.cc

#include <thread>

#include "../src/perf_counters.h"
#include "gtest/gtest.h"

#ifndef GTEST_SKIP
struct MsgHandler {
  void operator=(std::ostream&){}
};
#define GTEST_SKIP() return MsgHandler() = std::cout
#endif

using benchmark::internal::PerfCounters;
using benchmark::internal::PerfCounterValues;

namespace {
const char kGenericPerfEvent1[] = "CYCLES";
const char kGenericPerfEvent2[] = "BRANCHES";
const char kGenericPerfEvent3[] = "INSTRUCTIONS";

TEST(PerfCountersTest, Init) {
  EXPECT_EQ(PerfCounters::Initialize(), PerfCounters::kSupported);
}

TEST(PerfCountersTest, OneCounter) {
  if (!PerfCounters::kSupported) {
    GTEST_SKIP() << "Performance counters not supported.\n";
  }
  EXPECT_TRUE(PerfCounters::Initialize());
  EXPECT_TRUE(PerfCounters::Create({kGenericPerfEvent1}).IsValid());
}

TEST(PerfCountersTest, NegativeTest) {
  if (!PerfCounters::kSupported) {
    EXPECT_FALSE(PerfCounters::Initialize());
    return;
  }
  EXPECT_TRUE(PerfCounters::Initialize());
  EXPECT_FALSE(PerfCounters::Create({}).IsValid());
  EXPECT_FALSE(PerfCounters::Create({""}).IsValid());
  EXPECT_FALSE(PerfCounters::Create({"not a counter name"}).IsValid());
  {
    EXPECT_TRUE(PerfCounters::Create({kGenericPerfEvent1, kGenericPerfEvent2,
                                      kGenericPerfEvent3})
                    .IsValid());
  }
  EXPECT_FALSE(
      PerfCounters::Create({kGenericPerfEvent2, "", kGenericPerfEvent1})
          .IsValid());
  EXPECT_FALSE(PerfCounters::Create({kGenericPerfEvent3, "not a counter name",
                                     kGenericPerfEvent1})
                   .IsValid());
  {
    EXPECT_TRUE(PerfCounters::Create({kGenericPerfEvent1, kGenericPerfEvent2,
                                      kGenericPerfEvent3})
                    .IsValid());
  }
  EXPECT_FALSE(
      PerfCounters::Create({kGenericPerfEvent1, kGenericPerfEvent2,
                            kGenericPerfEvent3, "MISPREDICTED_BRANCH_RETIRED"})
          .IsValid());
}

TEST(PerfCountersTest, Read1Counter) {
  if (!PerfCounters::kSupported) {
    GTEST_SKIP() << "Test skipped because libpfm is not supported.\n";
  }
  EXPECT_TRUE(PerfCounters::Initialize());
  auto counters = PerfCounters::Create({kGenericPerfEvent1});
  EXPECT_TRUE(counters.IsValid());
  PerfCounterValues values1(1);
  EXPECT_TRUE(counters.Snapshot(&values1));
  EXPECT_GT(values1[0], 0);
  PerfCounterValues values2(1);
  EXPECT_TRUE(counters.Snapshot(&values2));
  EXPECT_GT(values2[0], 0);
  EXPECT_GT(values2[0], values1[0]);
}

TEST(PerfCountersTest, Read2Counters) {
  if (!PerfCounters::kSupported) {
    GTEST_SKIP() << "Test skipped because libpfm is not supported.\n";
  }
  EXPECT_TRUE(PerfCounters::Initialize());
  auto counters =
      PerfCounters::Create({kGenericPerfEvent1, kGenericPerfEvent2});
  EXPECT_TRUE(counters.IsValid());
  PerfCounterValues values1(2);
  EXPECT_TRUE(counters.Snapshot(&values1));
  EXPECT_GT(values1[0], 0);
  EXPECT_GT(values1[1], 0);
  PerfCounterValues values2(2);
  EXPECT_TRUE(counters.Snapshot(&values2));
  EXPECT_GT(values2[0], 0);
  EXPECT_GT(values2[1], 0);
}

size_t do_work() {
  size_t res = 0;
  for (size_t i = 0; i < 100000000; ++i) res += i * i;
  return res;
}

void measure(size_t threadcount, PerfCounterValues* values1,
             PerfCounterValues* values2) {
  BM_CHECK_NE(values1, nullptr);
  BM_CHECK_NE(values2, nullptr);
  std::vector<std::thread> threads(threadcount);
  auto work = [&]() { BM_CHECK(do_work() > 1000); };

  // We need to first set up the counters, then start the threads, so the
  // threads would inherit the counters. But later, we need to first destroy the
  // thread pool (so all the work finishes), then measure the counters. So the
  // scopes overlap, and we need to explicitly control the scope of the
  // threadpool.
  auto counters =
      PerfCounters::Create({kGenericPerfEvent1, kGenericPerfEvent3});
  for (auto& t : threads) t = std::thread(work);
  counters.Snapshot(values1);
  for (auto& t : threads) t.join();
  counters.Snapshot(values2);
}

TEST(PerfCountersTest, MultiThreaded) {
  if (!PerfCounters::kSupported) {
    GTEST_SKIP() << "Test skipped because libpfm is not supported.";
  }
  EXPECT_TRUE(PerfCounters::Initialize());
  PerfCounterValues values1(2);
  PerfCounterValues values2(2);

  measure(2, &values1, &values2);
  std::vector<double> D1{static_cast<double>(values2[0] - values1[0]),
                         static_cast<double>(values2[1] - values1[1])};

  measure(4, &values1, &values2);
  std::vector<double> D2{static_cast<double>(values2[0] - values1[0]),
                         static_cast<double>(values2[1] - values1[1])};

  // Some extra work will happen on the main thread - like joining the threads
  // - so the ratio won't be quite 2.0, but very close.
  EXPECT_GE(D2[0], 1.9 * D1[0]);
  EXPECT_GE(D2[1], 1.9 * D1[1]);
}
}  // namespace
grpc 1.48.0 依赖 2 years ago			`#include <thread>`

			`#include "../src/perf_counters.h"`
			`#include "gtest/gtest.h"`

			`#ifndef GTEST_SKIP`
			`struct MsgHandler {`
			`void operator=(std::ostream&){}`
			`};`
			`#define GTEST_SKIP() return MsgHandler() = std::cout`
			`#endif`

			`using benchmark::internal::PerfCounters;`
			`using benchmark::internal::PerfCounterValues;`

			`namespace {`
			`const char kGenericPerfEvent1[] = "CYCLES";`
			`const char kGenericPerfEvent2[] = "BRANCHES";`
			`const char kGenericPerfEvent3[] = "INSTRUCTIONS";`

			`TEST(PerfCountersTest, Init) {`
			`EXPECT_EQ(PerfCounters::Initialize(), PerfCounters::kSupported);`
			`}`

			`TEST(PerfCountersTest, OneCounter) {`
			`if (!PerfCounters::kSupported) {`
			`GTEST_SKIP() << "Performance counters not supported.\n";`
			`}`
			`EXPECT_TRUE(PerfCounters::Initialize());`
			`EXPECT_TRUE(PerfCounters::Create({kGenericPerfEvent1}).IsValid());`
			`}`

			`TEST(PerfCountersTest, NegativeTest) {`
			`if (!PerfCounters::kSupported) {`
			`EXPECT_FALSE(PerfCounters::Initialize());`
			`return;`
			`}`
			`EXPECT_TRUE(PerfCounters::Initialize());`
			`EXPECT_FALSE(PerfCounters::Create({}).IsValid());`
			`EXPECT_FALSE(PerfCounters::Create({""}).IsValid());`
			`EXPECT_FALSE(PerfCounters::Create({"not a counter name"}).IsValid());`
			`{`
			`EXPECT_TRUE(PerfCounters::Create({kGenericPerfEvent1, kGenericPerfEvent2,`
			`kGenericPerfEvent3})`
			`.IsValid());`
			`}`
			`EXPECT_FALSE(`
			`PerfCounters::Create({kGenericPerfEvent2, "", kGenericPerfEvent1})`
			`.IsValid());`
			`EXPECT_FALSE(PerfCounters::Create({kGenericPerfEvent3, "not a counter name",`
			`kGenericPerfEvent1})`
			`.IsValid());`
			`{`
			`EXPECT_TRUE(PerfCounters::Create({kGenericPerfEvent1, kGenericPerfEvent2,`
			`kGenericPerfEvent3})`
			`.IsValid());`
			`}`
			`EXPECT_FALSE(`
			`PerfCounters::Create({kGenericPerfEvent1, kGenericPerfEvent2,`
			`kGenericPerfEvent3, "MISPREDICTED_BRANCH_RETIRED"})`
			`.IsValid());`
			`}`

			`TEST(PerfCountersTest, Read1Counter) {`
			`if (!PerfCounters::kSupported) {`
			`GTEST_SKIP() << "Test skipped because libpfm is not supported.\n";`
			`}`
			`EXPECT_TRUE(PerfCounters::Initialize());`
			`auto counters = PerfCounters::Create({kGenericPerfEvent1});`
			`EXPECT_TRUE(counters.IsValid());`
			`PerfCounterValues values1(1);`
			`EXPECT_TRUE(counters.Snapshot(&values1));`
			`EXPECT_GT(values1[0], 0);`
			`PerfCounterValues values2(1);`
			`EXPECT_TRUE(counters.Snapshot(&values2));`
			`EXPECT_GT(values2[0], 0);`
			`EXPECT_GT(values2[0], values1[0]);`
			`}`

			`TEST(PerfCountersTest, Read2Counters) {`
			`if (!PerfCounters::kSupported) {`
			`GTEST_SKIP() << "Test skipped because libpfm is not supported.\n";`
			`}`
			`EXPECT_TRUE(PerfCounters::Initialize());`
			`auto counters =`
			`PerfCounters::Create({kGenericPerfEvent1, kGenericPerfEvent2});`
			`EXPECT_TRUE(counters.IsValid());`
			`PerfCounterValues values1(2);`
			`EXPECT_TRUE(counters.Snapshot(&values1));`
			`EXPECT_GT(values1[0], 0);`
			`EXPECT_GT(values1[1], 0);`
			`PerfCounterValues values2(2);`
			`EXPECT_TRUE(counters.Snapshot(&values2));`
			`EXPECT_GT(values2[0], 0);`
			`EXPECT_GT(values2[1], 0);`
			`}`

			`size_t do_work() {`
			`size_t res = 0;`
			`for (size_t i = 0; i < 100000000; ++i) res += i * i;`
			`return res;`
			`}`

			`void measure(size_t threadcount, PerfCounterValues* values1,`
			`PerfCounterValues* values2) {`
			`BM_CHECK_NE(values1, nullptr);`
			`BM_CHECK_NE(values2, nullptr);`
			`std::vector<std::thread> threads(threadcount);`
			`auto work = [&]() { BM_CHECK(do_work() > 1000); };`

			`// We need to first set up the counters, then start the threads, so the`
			`// threads would inherit the counters. But later, we need to first destroy the`
			`// thread pool (so all the work finishes), then measure the counters. So the`
			`// scopes overlap, and we need to explicitly control the scope of the`
			`// threadpool.`
			`auto counters =`
			`PerfCounters::Create({kGenericPerfEvent1, kGenericPerfEvent3});`
			`for (auto& t : threads) t = std::thread(work);`
			`counters.Snapshot(values1);`
			`for (auto& t : threads) t.join();`
			`counters.Snapshot(values2);`
			`}`

			`TEST(PerfCountersTest, MultiThreaded) {`
			`if (!PerfCounters::kSupported) {`
			`GTEST_SKIP() << "Test skipped because libpfm is not supported.";`
			`}`
			`EXPECT_TRUE(PerfCounters::Initialize());`
			`PerfCounterValues values1(2);`
			`PerfCounterValues values2(2);`

			`measure(2, &values1, &values2);`
			`std::vector<double> D1{static_cast<double>(values2[0] - values1[0]),`
			`static_cast<double>(values2[1] - values1[1])};`

			`measure(4, &values1, &values2);`
			`std::vector<double> D2{static_cast<double>(values2[0] - values1[0]),`
			`static_cast<double>(values2[1] - values1[1])};`

			`// Some extra work will happen on the main thread - like joining the threads`
			`// - so the ratio won't be quite 2.0, but very close.`
			`EXPECT_GE(D2[0], 1.9 * D1[0]);`
			`EXPECT_GE(D2[1], 1.9 * D1[1]);`
			`}`
			`} // namespace`