simpleperf/sample_tree_test.cpp - platform/system/extras - Git at Google

 /*
  * 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 <gtest/gtest.h>

 #include "sample_tree.h"
 #include "thread_tree.h"

 using namespace simpleperf;

 namespace {

 struct SampleEntry {
   int pid;
   int tid;
   const char* thread_comm;
   std::string dso_name;
   uint64_t map_start_addr;
   size_t sample_count;

   SampleEntry(int pid, int tid, const char* thread_comm, const std::string& dso_name,
               uint64_t map_start_addr, size_t sample_count = 1u)
       : pid(pid),
         tid(tid),
         thread_comm(thread_comm),
         dso_name(dso_name),
         map_start_addr(map_start_addr),
         sample_count(sample_count) {}
 };

 BUILD_COMPARE_VALUE_FUNCTION(TestComparePid, pid);
 BUILD_COMPARE_VALUE_FUNCTION(TestCompareTid, tid);
 BUILD_COMPARE_STRING_FUNCTION(TestCompareDsoName, dso_name.c_str());
 BUILD_COMPARE_VALUE_FUNCTION(TestCompareMapStartAddr, map_start_addr);

 class TestSampleComparator : public SampleComparator<SampleEntry> {
  public:
   TestSampleComparator() {
     AddCompareFunction(TestComparePid);
     AddCompareFunction(TestCompareTid);
     AddCompareFunction(CompareComm);
     AddCompareFunction(TestCompareDsoName);
     AddCompareFunction(TestCompareMapStartAddr);
   }
 };

 class TestSampleTreeBuilder : public SampleTreeBuilder<SampleEntry, int> {
  public:
   explicit TestSampleTreeBuilder(ThreadTree* thread_tree)
       : SampleTreeBuilder(TestSampleComparator()), thread_tree_(thread_tree) {}

   void AddSample(int pid, int tid, uint64_t ip, bool in_kernel) {
     const ThreadEntry* thread = thread_tree_->FindThreadOrNew(pid, tid);
     const MapEntry* map = thread_tree_->FindMap(thread, ip, in_kernel);
     InsertSample(std::unique_ptr<SampleEntry>(
         new SampleEntry(pid, tid, thread->comm, map->dso->Path(), map->start_addr)));
   }

  protected:
   SampleEntry* CreateSample(const SampleRecord&, bool, int*) override { return nullptr; }
   SampleEntry* CreateBranchSample(const SampleRecord&, const BranchStackItemType&) override {
     return nullptr;
   };
   SampleEntry* CreateCallChainSample(const ThreadEntry*, const SampleEntry*, uint64_t, bool,
                                      const std::vector<SampleEntry*>&, const int&) override {
     return nullptr;
   }
   const ThreadEntry* GetThreadOfSample(SampleEntry*) override { return nullptr; }
   uint64_t GetPeriodForCallChain(const int&) override { return 0; }
   void MergeSample(SampleEntry* sample1, SampleEntry* sample2) override {
     sample1->sample_count += sample2->sample_count;
   }

  private:
   ThreadTree* thread_tree_;
 };

 static void SampleMatchExpectation(const SampleEntry& sample, const SampleEntry& expected,
                                    bool* has_error) {
   *has_error = true;
   ASSERT_EQ(expected.pid, sample.pid);
   ASSERT_EQ(expected.tid, sample.tid);
   ASSERT_STREQ(expected.thread_comm, sample.thread_comm);
   ASSERT_EQ(expected.dso_name, sample.dso_name);
   ASSERT_EQ(expected.map_start_addr, sample.map_start_addr);
   ASSERT_EQ(expected.sample_count, sample.sample_count);
   *has_error = false;
 }

 static void CheckSamples(const std::vector<SampleEntry*>& samples,
                          const std::vector<SampleEntry>& expected_samples) {
   ASSERT_EQ(samples.size(), expected_samples.size());
   for (size_t i = 0; i < samples.size(); ++i) {
     bool has_error;
     SampleMatchExpectation(*samples[i], expected_samples[i], &has_error);
     ASSERT_FALSE(has_error) << "Error matching sample at pos " << i;
   }
 }
 }  // namespace

 class SampleTreeTest : public testing::Test {
  protected:
   virtual void SetUp() {
     thread_tree.SetThreadName(1, 1, "p1t1");
     thread_tree.SetThreadName(1, 11, "p1t11");
     thread_tree.SetThreadName(2, 2, "p2t2");
     thread_tree.AddThreadMap(1, 1, 1, 5, 0, "process1_thread1");
     thread_tree.AddThreadMap(1, 11, 6, 5, 0, "process1_thread1_map2");
     thread_tree.AddThreadMap(2, 2, 1, 20, 0, "process2_thread2");
     thread_tree.AddKernelMap(10, 20, 0, "kernel");
     sample_tree_builder.reset(new TestSampleTreeBuilder(&thread_tree));
   }

   void CheckSamples(const std::vector<SampleEntry>& expected_samples) {
     ::CheckSamples(sample_tree_builder->GetSamples(), expected_samples);
   }

   ThreadTree thread_tree;
   std::unique_ptr<TestSampleTreeBuilder> sample_tree_builder;
 };

 TEST_F(SampleTreeTest, ip_in_map) {
   sample_tree_builder->AddSample(1, 1, 1, false);
   sample_tree_builder->AddSample(1, 1, 2, false);
   sample_tree_builder->AddSample(1, 1, 5, false);
   std::vector<SampleEntry> expected_samples = {
       SampleEntry(1, 1, "p1t1", "process1_thread1", 1, 3),
   };
   CheckSamples(expected_samples);
 }

 TEST_F(SampleTreeTest, different_pid) {
   sample_tree_builder->AddSample(1, 1, 1, false);
   sample_tree_builder->AddSample(2, 2, 1, false);
   std::vector<SampleEntry> expected_samples = {
       SampleEntry(1, 1, "p1t1", "process1_thread1", 1, 1),
       SampleEntry(2, 2, "p2t2", "process2_thread2", 1, 1),
   };
   CheckSamples(expected_samples);
 }

 TEST_F(SampleTreeTest, different_tid) {
   sample_tree_builder->AddSample(1, 1, 1, false);
   sample_tree_builder->AddSample(1, 11, 1, false);
   std::vector<SampleEntry> expected_samples = {
       SampleEntry(1, 1, "p1t1", "process1_thread1", 1, 1),
       SampleEntry(1, 11, "p1t11", "process1_thread1", 1, 1),
   };
   CheckSamples(expected_samples);
 }

 TEST_F(SampleTreeTest, different_comm) {
   sample_tree_builder->AddSample(1, 1, 1, false);
   thread_tree.SetThreadName(1, 1, "p1t1_comm2");
   sample_tree_builder->AddSample(1, 1, 1, false);
   std::vector<SampleEntry> expected_samples = {
       SampleEntry(1, 1, "p1t1", "process1_thread1", 1, 1),
       SampleEntry(1, 1, "p1t1_comm2", "process1_thread1", 1, 1),
   };
   CheckSamples(expected_samples);
 }

 TEST_F(SampleTreeTest, different_map) {
   sample_tree_builder->AddSample(1, 1, 1, false);
   sample_tree_builder->AddSample(1, 1, 6, false);
   std::vector<SampleEntry> expected_samples = {
       SampleEntry(1, 1, "p1t1", "process1_thread1", 1, 1),
       SampleEntry(1, 1, "p1t1", "process1_thread1_map2", 6, 1),
   };
   CheckSamples(expected_samples);
 }

 TEST_F(SampleTreeTest, unmapped_sample) {
   sample_tree_builder->AddSample(1, 1, 0, false);
   sample_tree_builder->AddSample(1, 1, 31, false);
   sample_tree_builder->AddSample(1, 1, 70, false);
   // Match the unknown map.
   std::vector<SampleEntry> expected_samples = {
       SampleEntry(1, 1, "p1t1", "unknown", 0, 3),
   };
   CheckSamples(expected_samples);
 }

 TEST_F(SampleTreeTest, map_kernel) {
   sample_tree_builder->AddSample(1, 1, 10, true);
   sample_tree_builder->AddSample(1, 1, 10, false);
   std::vector<SampleEntry> expected_samples = {
       SampleEntry(1, 1, "p1t1", "kernel", 10, 1),
       SampleEntry(1, 1, "p1t1", "process1_thread1_map2", 6, 1),
   };
   CheckSamples(expected_samples);
 }

 TEST(sample_tree, overlapped_map) {
   ThreadTree thread_tree;
   TestSampleTreeBuilder sample_tree_builder(&thread_tree);
   thread_tree.SetThreadName(1, 1, "thread1");
   thread_tree.AddThreadMap(1, 1, 1, 10, 0, "map1");  // Add map 1.
   sample_tree_builder.AddSample(1, 1, 5, false);     // Hit map 1.
   thread_tree.AddThreadMap(1, 1, 5, 20, 0, "map2");  // Add map 2.
   sample_tree_builder.AddSample(1, 1, 6, false);     // Hit map 2.
   sample_tree_builder.AddSample(1, 1, 4, false);     // Hit map 1.
   thread_tree.AddThreadMap(1, 1, 2, 7, 0, "map3");   // Add map 3.
   sample_tree_builder.AddSample(1, 1, 7, false);     // Hit map 3.
   sample_tree_builder.AddSample(1, 1, 10, false);    // Hit map 2.

   std::vector<SampleEntry> expected_samples = {
       SampleEntry(1, 1, "thread1", "map1", 1, 2),
       SampleEntry(1, 1, "thread1", "map2", 5, 1),
       SampleEntry(1, 1, "thread1", "map2", 9, 1),
       SampleEntry(1, 1, "thread1", "map3", 2, 1),
   };
   CheckSamples(sample_tree_builder.GetSamples(), expected_samples);
 }

 TEST(thread_tree, symbol_ULLONG_MAX) {
   ThreadTree thread_tree;
   thread_tree.ShowIpForUnknownSymbol();
   ASSERT_TRUE(thread_tree.FindKernelSymbol(ULLONG_MAX) != nullptr);
 }
	/*
	* 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 <gtest/gtest.h>

	#include "sample_tree.h"
	#include "thread_tree.h"

	using namespace simpleperf;

	namespace {

	struct SampleEntry {
	int pid;
	int tid;
	const char* thread_comm;
	std::string dso_name;
	uint64_t map_start_addr;
	size_t sample_count;

	SampleEntry(int pid, int tid, const char* thread_comm, const std::string& dso_name,
	uint64_t map_start_addr, size_t sample_count = 1u)
	: pid(pid),
	tid(tid),
	thread_comm(thread_comm),
	dso_name(dso_name),
	map_start_addr(map_start_addr),
	sample_count(sample_count) {}
	};

	BUILD_COMPARE_VALUE_FUNCTION(TestComparePid, pid);
	BUILD_COMPARE_VALUE_FUNCTION(TestCompareTid, tid);
	BUILD_COMPARE_STRING_FUNCTION(TestCompareDsoName, dso_name.c_str());
	BUILD_COMPARE_VALUE_FUNCTION(TestCompareMapStartAddr, map_start_addr);

	class TestSampleComparator : public SampleComparator<SampleEntry> {
	public:
	TestSampleComparator() {
	AddCompareFunction(TestComparePid);
	AddCompareFunction(TestCompareTid);
	AddCompareFunction(CompareComm);
	AddCompareFunction(TestCompareDsoName);
	AddCompareFunction(TestCompareMapStartAddr);
	}
	};

	class TestSampleTreeBuilder : public SampleTreeBuilder<SampleEntry, int> {
	public:
	explicit TestSampleTreeBuilder(ThreadTree* thread_tree)
	: SampleTreeBuilder(TestSampleComparator()), thread_tree_(thread_tree) {}

	void AddSample(int pid, int tid, uint64_t ip, bool in_kernel) {
	const ThreadEntry* thread = thread_tree_->FindThreadOrNew(pid, tid);
	const MapEntry* map = thread_tree_->FindMap(thread, ip, in_kernel);
	InsertSample(std::unique_ptr<SampleEntry>(
	new SampleEntry(pid, tid, thread->comm, map->dso->Path(), map->start_addr)));
	}

	protected:
	SampleEntry* CreateSample(const SampleRecord&, bool, int*) override { return nullptr; }
	SampleEntry* CreateBranchSample(const SampleRecord&, const BranchStackItemType&) override {
	return nullptr;
	};
	SampleEntry* CreateCallChainSample(const ThreadEntry, const SampleEntry, uint64_t, bool,
	const std::vector<SampleEntry*>&, const int&) override {
	return nullptr;
	}
	const ThreadEntry* GetThreadOfSample(SampleEntry*) override { return nullptr; }
	uint64_t GetPeriodForCallChain(const int&) override { return 0; }
	void MergeSample(SampleEntry* sample1, SampleEntry* sample2) override {
	sample1->sample_count += sample2->sample_count;
	}

	private:
	ThreadTree* thread_tree_;
	};

	static void SampleMatchExpectation(const SampleEntry& sample, const SampleEntry& expected,
	bool* has_error) {
	*has_error = true;
	ASSERT_EQ(expected.pid, sample.pid);
	ASSERT_EQ(expected.tid, sample.tid);
	ASSERT_STREQ(expected.thread_comm, sample.thread_comm);
	ASSERT_EQ(expected.dso_name, sample.dso_name);
	ASSERT_EQ(expected.map_start_addr, sample.map_start_addr);
	ASSERT_EQ(expected.sample_count, sample.sample_count);
	*has_error = false;
	}

	static void CheckSamples(const std::vector<SampleEntry*>& samples,
	const std::vector<SampleEntry>& expected_samples) {
	ASSERT_EQ(samples.size(), expected_samples.size());
	for (size_t i = 0; i < samples.size(); ++i) {
	bool has_error;
	SampleMatchExpectation(*samples[i], expected_samples[i], &has_error);
	ASSERT_FALSE(has_error) << "Error matching sample at pos " << i;
	}
	}
	} // namespace

	class SampleTreeTest : public testing::Test {
	protected:
	virtual void SetUp() {
	thread_tree.SetThreadName(1, 1, "p1t1");
	thread_tree.SetThreadName(1, 11, "p1t11");
	thread_tree.SetThreadName(2, 2, "p2t2");
	thread_tree.AddThreadMap(1, 1, 1, 5, 0, "process1_thread1");
	thread_tree.AddThreadMap(1, 11, 6, 5, 0, "process1_thread1_map2");
	thread_tree.AddThreadMap(2, 2, 1, 20, 0, "process2_thread2");
	thread_tree.AddKernelMap(10, 20, 0, "kernel");
	sample_tree_builder.reset(new TestSampleTreeBuilder(&thread_tree));
	}

	void CheckSamples(const std::vector<SampleEntry>& expected_samples) {
	::CheckSamples(sample_tree_builder->GetSamples(), expected_samples);
	}

	ThreadTree thread_tree;
	std::unique_ptr<TestSampleTreeBuilder> sample_tree_builder;
	};

	TEST_F(SampleTreeTest, ip_in_map) {
	sample_tree_builder->AddSample(1, 1, 1, false);
	sample_tree_builder->AddSample(1, 1, 2, false);
	sample_tree_builder->AddSample(1, 1, 5, false);
	std::vector<SampleEntry> expected_samples = {
	SampleEntry(1, 1, "p1t1", "process1_thread1", 1, 3),
	};
	CheckSamples(expected_samples);
	}

	TEST_F(SampleTreeTest, different_pid) {
	sample_tree_builder->AddSample(1, 1, 1, false);
	sample_tree_builder->AddSample(2, 2, 1, false);
	std::vector<SampleEntry> expected_samples = {
	SampleEntry(1, 1, "p1t1", "process1_thread1", 1, 1),
	SampleEntry(2, 2, "p2t2", "process2_thread2", 1, 1),
	};
	CheckSamples(expected_samples);
	}

	TEST_F(SampleTreeTest, different_tid) {
	sample_tree_builder->AddSample(1, 1, 1, false);
	sample_tree_builder->AddSample(1, 11, 1, false);
	std::vector<SampleEntry> expected_samples = {
	SampleEntry(1, 1, "p1t1", "process1_thread1", 1, 1),
	SampleEntry(1, 11, "p1t11", "process1_thread1", 1, 1),
	};
	CheckSamples(expected_samples);
	}

	TEST_F(SampleTreeTest, different_comm) {
	sample_tree_builder->AddSample(1, 1, 1, false);
	thread_tree.SetThreadName(1, 1, "p1t1_comm2");
	sample_tree_builder->AddSample(1, 1, 1, false);
	std::vector<SampleEntry> expected_samples = {
	SampleEntry(1, 1, "p1t1", "process1_thread1", 1, 1),
	SampleEntry(1, 1, "p1t1_comm2", "process1_thread1", 1, 1),
	};
	CheckSamples(expected_samples);
	}

	TEST_F(SampleTreeTest, different_map) {
	sample_tree_builder->AddSample(1, 1, 1, false);
	sample_tree_builder->AddSample(1, 1, 6, false);
	std::vector<SampleEntry> expected_samples = {
	SampleEntry(1, 1, "p1t1", "process1_thread1", 1, 1),
	SampleEntry(1, 1, "p1t1", "process1_thread1_map2", 6, 1),
	};
	CheckSamples(expected_samples);
	}

	TEST_F(SampleTreeTest, unmapped_sample) {
	sample_tree_builder->AddSample(1, 1, 0, false);
	sample_tree_builder->AddSample(1, 1, 31, false);
	sample_tree_builder->AddSample(1, 1, 70, false);
	// Match the unknown map.
	std::vector<SampleEntry> expected_samples = {
	SampleEntry(1, 1, "p1t1", "unknown", 0, 3),
	};
	CheckSamples(expected_samples);
	}

	TEST_F(SampleTreeTest, map_kernel) {
	sample_tree_builder->AddSample(1, 1, 10, true);
	sample_tree_builder->AddSample(1, 1, 10, false);
	std::vector<SampleEntry> expected_samples = {
	SampleEntry(1, 1, "p1t1", "kernel", 10, 1),
	SampleEntry(1, 1, "p1t1", "process1_thread1_map2", 6, 1),
	};
	CheckSamples(expected_samples);
	}

	TEST(sample_tree, overlapped_map) {
	ThreadTree thread_tree;
	TestSampleTreeBuilder sample_tree_builder(&thread_tree);
	thread_tree.SetThreadName(1, 1, "thread1");
	thread_tree.AddThreadMap(1, 1, 1, 10, 0, "map1"); // Add map 1.
	sample_tree_builder.AddSample(1, 1, 5, false); // Hit map 1.
	thread_tree.AddThreadMap(1, 1, 5, 20, 0, "map2"); // Add map 2.
	sample_tree_builder.AddSample(1, 1, 6, false); // Hit map 2.
	sample_tree_builder.AddSample(1, 1, 4, false); // Hit map 1.
	thread_tree.AddThreadMap(1, 1, 2, 7, 0, "map3"); // Add map 3.
	sample_tree_builder.AddSample(1, 1, 7, false); // Hit map 3.
	sample_tree_builder.AddSample(1, 1, 10, false); // Hit map 2.

	std::vector<SampleEntry> expected_samples = {
	SampleEntry(1, 1, "thread1", "map1", 1, 2),
	SampleEntry(1, 1, "thread1", "map2", 5, 1),
	SampleEntry(1, 1, "thread1", "map2", 9, 1),
	SampleEntry(1, 1, "thread1", "map3", 2, 1),
	};
	CheckSamples(sample_tree_builder.GetSamples(), expected_samples);
	}

	TEST(thread_tree, symbol_ULLONG_MAX) {
	ThreadTree thread_tree;
	thread_tree.ShowIpForUnknownSymbol();
	ASSERT_TRUE(thread_tree.FindKernelSymbol(ULLONG_MAX) != nullptr);
	}