// Copyright 2010 the V8 project authors. All rights reserved. // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following // disclaimer in the documentation and/or other materials provided // with the distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived // from this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Tests of profiles generator and utilities. // TODO(dcarney): remove #define V8_ALLOW_ACCESS_TO_PERSISTENT_IMPLICIT #include "v8.h" #include "profile-generator-inl.h" #include "cctest.h" #include "../include/v8-profiler.h" using i::CodeEntry; using i::CodeMap; using i::CpuProfile; using i::CpuProfiler; using i::CpuProfilesCollection; using i::ProfileNode; using i::ProfileTree; using i::ProfileGenerator; using i::SampleRateCalculator; using i::TickSample; using i::TokenEnumerator; using i::Vector; namespace v8 { namespace internal { class TokenEnumeratorTester { public: static i::List* token_removed(TokenEnumerator* te) { return &te->token_removed_; } }; } } // namespace v8::internal TEST(TokenEnumerator) { TokenEnumerator te; CHECK_EQ(TokenEnumerator::kNoSecurityToken, te.GetTokenId(NULL)); v8::HandleScope hs(v8::Isolate::GetCurrent()); v8::Local token1(v8::String::New("1x")); CHECK_EQ(0, te.GetTokenId(*v8::Utils::OpenHandle(*token1))); CHECK_EQ(0, te.GetTokenId(*v8::Utils::OpenHandle(*token1))); v8::Local token2(v8::String::New("2x")); CHECK_EQ(1, te.GetTokenId(*v8::Utils::OpenHandle(*token2))); CHECK_EQ(1, te.GetTokenId(*v8::Utils::OpenHandle(*token2))); CHECK_EQ(0, te.GetTokenId(*v8::Utils::OpenHandle(*token1))); { v8::HandleScope hs(v8::Isolate::GetCurrent()); v8::Local token3(v8::String::New("3x")); CHECK_EQ(2, te.GetTokenId(*v8::Utils::OpenHandle(*token3))); CHECK_EQ(1, te.GetTokenId(*v8::Utils::OpenHandle(*token2))); CHECK_EQ(0, te.GetTokenId(*v8::Utils::OpenHandle(*token1))); } CHECK(!i::TokenEnumeratorTester::token_removed(&te)->at(2)); HEAP->CollectAllGarbage(i::Heap::kNoGCFlags); CHECK(i::TokenEnumeratorTester::token_removed(&te)->at(2)); CHECK_EQ(1, te.GetTokenId(*v8::Utils::OpenHandle(*token2))); CHECK_EQ(0, te.GetTokenId(*v8::Utils::OpenHandle(*token1))); } TEST(ProfileNodeFindOrAddChild) { ProfileTree tree; ProfileNode node(&tree, NULL); CodeEntry entry1(i::Logger::FUNCTION_TAG, "", "aaa", "", 0, TokenEnumerator::kNoSecurityToken); ProfileNode* childNode1 = node.FindOrAddChild(&entry1); CHECK_NE(NULL, childNode1); CHECK_EQ(childNode1, node.FindOrAddChild(&entry1)); CodeEntry entry2(i::Logger::FUNCTION_TAG, "", "bbb", "", 0, TokenEnumerator::kNoSecurityToken); ProfileNode* childNode2 = node.FindOrAddChild(&entry2); CHECK_NE(NULL, childNode2); CHECK_NE(childNode1, childNode2); CHECK_EQ(childNode1, node.FindOrAddChild(&entry1)); CHECK_EQ(childNode2, node.FindOrAddChild(&entry2)); CodeEntry entry3(i::Logger::FUNCTION_TAG, "", "ccc", "", 0, TokenEnumerator::kNoSecurityToken); ProfileNode* childNode3 = node.FindOrAddChild(&entry3); CHECK_NE(NULL, childNode3); CHECK_NE(childNode1, childNode3); CHECK_NE(childNode2, childNode3); CHECK_EQ(childNode1, node.FindOrAddChild(&entry1)); CHECK_EQ(childNode2, node.FindOrAddChild(&entry2)); CHECK_EQ(childNode3, node.FindOrAddChild(&entry3)); } TEST(ProfileNodeFindOrAddChildForSameFunction) { const char* empty = ""; const char* aaa = "aaa"; ProfileTree tree; ProfileNode node(&tree, NULL); CodeEntry entry1(i::Logger::FUNCTION_TAG, empty, aaa, empty, 0, TokenEnumerator::kNoSecurityToken); ProfileNode* childNode1 = node.FindOrAddChild(&entry1); CHECK_NE(NULL, childNode1); CHECK_EQ(childNode1, node.FindOrAddChild(&entry1)); // The same function again. CodeEntry entry2(i::Logger::FUNCTION_TAG, empty, aaa, empty, 0, TokenEnumerator::kNoSecurityToken); CHECK_EQ(childNode1, node.FindOrAddChild(&entry2)); // Now with a different security token. CodeEntry entry3(i::Logger::FUNCTION_TAG, empty, aaa, empty, 0, TokenEnumerator::kNoSecurityToken + 1); CHECK_EQ(childNode1, node.FindOrAddChild(&entry3)); } namespace { class ProfileTreeTestHelper { public: explicit ProfileTreeTestHelper(const ProfileTree* tree) : tree_(tree) { } ProfileNode* Walk(CodeEntry* entry1, CodeEntry* entry2 = NULL, CodeEntry* entry3 = NULL) { ProfileNode* node = tree_->root(); node = node->FindChild(entry1); if (node == NULL) return NULL; if (entry2 != NULL) { node = node->FindChild(entry2); if (node == NULL) return NULL; } if (entry3 != NULL) { node = node->FindChild(entry3); } return node; } private: const ProfileTree* tree_; }; } // namespace TEST(ProfileTreeAddPathFromStart) { CodeEntry entry1(i::Logger::FUNCTION_TAG, "", "aaa", "", 0, TokenEnumerator::kNoSecurityToken); CodeEntry entry2(i::Logger::FUNCTION_TAG, "", "bbb", "", 0, TokenEnumerator::kNoSecurityToken); CodeEntry entry3(i::Logger::FUNCTION_TAG, "", "ccc", "", 0, TokenEnumerator::kNoSecurityToken); ProfileTree tree; ProfileTreeTestHelper helper(&tree); CHECK_EQ(NULL, helper.Walk(&entry1)); CHECK_EQ(NULL, helper.Walk(&entry2)); CHECK_EQ(NULL, helper.Walk(&entry3)); CodeEntry* path[] = {NULL, &entry1, NULL, &entry2, NULL, NULL, &entry3, NULL}; Vector path_vec(path, sizeof(path) / sizeof(path[0])); tree.AddPathFromStart(path_vec); CHECK_EQ(NULL, helper.Walk(&entry2)); CHECK_EQ(NULL, helper.Walk(&entry3)); ProfileNode* node1 = helper.Walk(&entry1); CHECK_NE(NULL, node1); CHECK_EQ(0, node1->total_ticks()); CHECK_EQ(0, node1->self_ticks()); CHECK_EQ(NULL, helper.Walk(&entry1, &entry1)); CHECK_EQ(NULL, helper.Walk(&entry1, &entry3)); ProfileNode* node2 = helper.Walk(&entry1, &entry2); CHECK_NE(NULL, node2); CHECK_NE(node1, node2); CHECK_EQ(0, node2->total_ticks()); CHECK_EQ(0, node2->self_ticks()); CHECK_EQ(NULL, helper.Walk(&entry1, &entry2, &entry1)); CHECK_EQ(NULL, helper.Walk(&entry1, &entry2, &entry2)); ProfileNode* node3 = helper.Walk(&entry1, &entry2, &entry3); CHECK_NE(NULL, node3); CHECK_NE(node1, node3); CHECK_NE(node2, node3); CHECK_EQ(0, node3->total_ticks()); CHECK_EQ(1, node3->self_ticks()); tree.AddPathFromStart(path_vec); CHECK_EQ(node1, helper.Walk(&entry1)); CHECK_EQ(node2, helper.Walk(&entry1, &entry2)); CHECK_EQ(node3, helper.Walk(&entry1, &entry2, &entry3)); CHECK_EQ(0, node1->total_ticks()); CHECK_EQ(0, node1->self_ticks()); CHECK_EQ(0, node2->total_ticks()); CHECK_EQ(0, node2->self_ticks()); CHECK_EQ(0, node3->total_ticks()); CHECK_EQ(2, node3->self_ticks()); CodeEntry* path2[] = {&entry1, &entry2, &entry2}; Vector path2_vec(path2, sizeof(path2) / sizeof(path2[0])); tree.AddPathFromStart(path2_vec); CHECK_EQ(NULL, helper.Walk(&entry2)); CHECK_EQ(NULL, helper.Walk(&entry3)); CHECK_EQ(node1, helper.Walk(&entry1)); CHECK_EQ(NULL, helper.Walk(&entry1, &entry1)); CHECK_EQ(NULL, helper.Walk(&entry1, &entry3)); CHECK_EQ(node2, helper.Walk(&entry1, &entry2)); CHECK_EQ(NULL, helper.Walk(&entry1, &entry2, &entry1)); CHECK_EQ(node3, helper.Walk(&entry1, &entry2, &entry3)); CHECK_EQ(0, node3->total_ticks()); CHECK_EQ(2, node3->self_ticks()); ProfileNode* node4 = helper.Walk(&entry1, &entry2, &entry2); CHECK_NE(NULL, node4); CHECK_NE(node3, node4); CHECK_EQ(0, node4->total_ticks()); CHECK_EQ(1, node4->self_ticks()); } TEST(ProfileTreeAddPathFromEnd) { CodeEntry entry1(i::Logger::FUNCTION_TAG, "", "aaa", "", 0, TokenEnumerator::kNoSecurityToken); CodeEntry entry2(i::Logger::FUNCTION_TAG, "", "bbb", "", 0, TokenEnumerator::kNoSecurityToken); CodeEntry entry3(i::Logger::FUNCTION_TAG, "", "ccc", "", 0, TokenEnumerator::kNoSecurityToken); ProfileTree tree; ProfileTreeTestHelper helper(&tree); CHECK_EQ(NULL, helper.Walk(&entry1)); CHECK_EQ(NULL, helper.Walk(&entry2)); CHECK_EQ(NULL, helper.Walk(&entry3)); CodeEntry* path[] = {NULL, &entry3, NULL, &entry2, NULL, NULL, &entry1, NULL}; Vector path_vec(path, sizeof(path) / sizeof(path[0])); tree.AddPathFromEnd(path_vec); CHECK_EQ(NULL, helper.Walk(&entry2)); CHECK_EQ(NULL, helper.Walk(&entry3)); ProfileNode* node1 = helper.Walk(&entry1); CHECK_NE(NULL, node1); CHECK_EQ(0, node1->total_ticks()); CHECK_EQ(0, node1->self_ticks()); CHECK_EQ(NULL, helper.Walk(&entry1, &entry1)); CHECK_EQ(NULL, helper.Walk(&entry1, &entry3)); ProfileNode* node2 = helper.Walk(&entry1, &entry2); CHECK_NE(NULL, node2); CHECK_NE(node1, node2); CHECK_EQ(0, node2->total_ticks()); CHECK_EQ(0, node2->self_ticks()); CHECK_EQ(NULL, helper.Walk(&entry1, &entry2, &entry1)); CHECK_EQ(NULL, helper.Walk(&entry1, &entry2, &entry2)); ProfileNode* node3 = helper.Walk(&entry1, &entry2, &entry3); CHECK_NE(NULL, node3); CHECK_NE(node1, node3); CHECK_NE(node2, node3); CHECK_EQ(0, node3->total_ticks()); CHECK_EQ(1, node3->self_ticks()); tree.AddPathFromEnd(path_vec); CHECK_EQ(node1, helper.Walk(&entry1)); CHECK_EQ(node2, helper.Walk(&entry1, &entry2)); CHECK_EQ(node3, helper.Walk(&entry1, &entry2, &entry3)); CHECK_EQ(0, node1->total_ticks()); CHECK_EQ(0, node1->self_ticks()); CHECK_EQ(0, node2->total_ticks()); CHECK_EQ(0, node2->self_ticks()); CHECK_EQ(0, node3->total_ticks()); CHECK_EQ(2, node3->self_ticks()); CodeEntry* path2[] = {&entry2, &entry2, &entry1}; Vector path2_vec(path2, sizeof(path2) / sizeof(path2[0])); tree.AddPathFromEnd(path2_vec); CHECK_EQ(NULL, helper.Walk(&entry2)); CHECK_EQ(NULL, helper.Walk(&entry3)); CHECK_EQ(node1, helper.Walk(&entry1)); CHECK_EQ(NULL, helper.Walk(&entry1, &entry1)); CHECK_EQ(NULL, helper.Walk(&entry1, &entry3)); CHECK_EQ(node2, helper.Walk(&entry1, &entry2)); CHECK_EQ(NULL, helper.Walk(&entry1, &entry2, &entry1)); CHECK_EQ(node3, helper.Walk(&entry1, &entry2, &entry3)); CHECK_EQ(0, node3->total_ticks()); CHECK_EQ(2, node3->self_ticks()); ProfileNode* node4 = helper.Walk(&entry1, &entry2, &entry2); CHECK_NE(NULL, node4); CHECK_NE(node3, node4); CHECK_EQ(0, node4->total_ticks()); CHECK_EQ(1, node4->self_ticks()); } TEST(ProfileTreeCalculateTotalTicks) { ProfileTree empty_tree; CHECK_EQ(0, empty_tree.root()->total_ticks()); CHECK_EQ(0, empty_tree.root()->self_ticks()); empty_tree.CalculateTotalTicks(); CHECK_EQ(0, empty_tree.root()->total_ticks()); CHECK_EQ(0, empty_tree.root()->self_ticks()); empty_tree.root()->IncrementSelfTicks(); CHECK_EQ(0, empty_tree.root()->total_ticks()); CHECK_EQ(1, empty_tree.root()->self_ticks()); empty_tree.CalculateTotalTicks(); CHECK_EQ(1, empty_tree.root()->total_ticks()); CHECK_EQ(1, empty_tree.root()->self_ticks()); CodeEntry entry1(i::Logger::FUNCTION_TAG, "", "aaa", "", 0, TokenEnumerator::kNoSecurityToken); CodeEntry* e1_path[] = {&entry1}; Vector e1_path_vec( e1_path, sizeof(e1_path) / sizeof(e1_path[0])); ProfileTree single_child_tree; single_child_tree.AddPathFromStart(e1_path_vec); single_child_tree.root()->IncrementSelfTicks(); CHECK_EQ(0, single_child_tree.root()->total_ticks()); CHECK_EQ(1, single_child_tree.root()->self_ticks()); ProfileTreeTestHelper single_child_helper(&single_child_tree); ProfileNode* node1 = single_child_helper.Walk(&entry1); CHECK_NE(NULL, node1); CHECK_EQ(0, node1->total_ticks()); CHECK_EQ(1, node1->self_ticks()); single_child_tree.CalculateTotalTicks(); CHECK_EQ(2, single_child_tree.root()->total_ticks()); CHECK_EQ(1, single_child_tree.root()->self_ticks()); CHECK_EQ(1, node1->total_ticks()); CHECK_EQ(1, node1->self_ticks()); CodeEntry entry2(i::Logger::FUNCTION_TAG, "", "bbb", "", 0, TokenEnumerator::kNoSecurityToken); CodeEntry* e1_e2_path[] = {&entry1, &entry2}; Vector e1_e2_path_vec( e1_e2_path, sizeof(e1_e2_path) / sizeof(e1_e2_path[0])); ProfileTree flat_tree; ProfileTreeTestHelper flat_helper(&flat_tree); flat_tree.AddPathFromStart(e1_path_vec); flat_tree.AddPathFromStart(e1_path_vec); flat_tree.AddPathFromStart(e1_e2_path_vec); flat_tree.AddPathFromStart(e1_e2_path_vec); flat_tree.AddPathFromStart(e1_e2_path_vec); // Results in {root,0,0} -> {entry1,0,2} -> {entry2,0,3} CHECK_EQ(0, flat_tree.root()->total_ticks()); CHECK_EQ(0, flat_tree.root()->self_ticks()); node1 = flat_helper.Walk(&entry1); CHECK_NE(NULL, node1); CHECK_EQ(0, node1->total_ticks()); CHECK_EQ(2, node1->self_ticks()); ProfileNode* node2 = flat_helper.Walk(&entry1, &entry2); CHECK_NE(NULL, node2); CHECK_EQ(0, node2->total_ticks()); CHECK_EQ(3, node2->self_ticks()); flat_tree.CalculateTotalTicks(); // Must calculate {root,5,0} -> {entry1,5,2} -> {entry2,3,3} CHECK_EQ(5, flat_tree.root()->total_ticks()); CHECK_EQ(0, flat_tree.root()->self_ticks()); CHECK_EQ(5, node1->total_ticks()); CHECK_EQ(2, node1->self_ticks()); CHECK_EQ(3, node2->total_ticks()); CHECK_EQ(3, node2->self_ticks()); CodeEntry* e2_path[] = {&entry2}; Vector e2_path_vec( e2_path, sizeof(e2_path) / sizeof(e2_path[0])); CodeEntry entry3(i::Logger::FUNCTION_TAG, "", "ccc", "", 0, TokenEnumerator::kNoSecurityToken); CodeEntry* e3_path[] = {&entry3}; Vector e3_path_vec( e3_path, sizeof(e3_path) / sizeof(e3_path[0])); ProfileTree wide_tree; ProfileTreeTestHelper wide_helper(&wide_tree); wide_tree.AddPathFromStart(e1_path_vec); wide_tree.AddPathFromStart(e1_path_vec); wide_tree.AddPathFromStart(e1_e2_path_vec); wide_tree.AddPathFromStart(e2_path_vec); wide_tree.AddPathFromStart(e2_path_vec); wide_tree.AddPathFromStart(e2_path_vec); wide_tree.AddPathFromStart(e3_path_vec); wide_tree.AddPathFromStart(e3_path_vec); wide_tree.AddPathFromStart(e3_path_vec); wide_tree.AddPathFromStart(e3_path_vec); // Results in -> {entry1,0,2} -> {entry2,0,1} // {root,0,0} -> {entry2,0,3} // -> {entry3,0,4} CHECK_EQ(0, wide_tree.root()->total_ticks()); CHECK_EQ(0, wide_tree.root()->self_ticks()); node1 = wide_helper.Walk(&entry1); CHECK_NE(NULL, node1); CHECK_EQ(0, node1->total_ticks()); CHECK_EQ(2, node1->self_ticks()); ProfileNode* node1_2 = wide_helper.Walk(&entry1, &entry2); CHECK_NE(NULL, node1_2); CHECK_EQ(0, node1_2->total_ticks()); CHECK_EQ(1, node1_2->self_ticks()); node2 = wide_helper.Walk(&entry2); CHECK_NE(NULL, node2); CHECK_EQ(0, node2->total_ticks()); CHECK_EQ(3, node2->self_ticks()); ProfileNode* node3 = wide_helper.Walk(&entry3); CHECK_NE(NULL, node3); CHECK_EQ(0, node3->total_ticks()); CHECK_EQ(4, node3->self_ticks()); wide_tree.CalculateTotalTicks(); // Calculates -> {entry1,3,2} -> {entry2,1,1} // {root,10,0} -> {entry2,3,3} // -> {entry3,4,4} CHECK_EQ(10, wide_tree.root()->total_ticks()); CHECK_EQ(0, wide_tree.root()->self_ticks()); CHECK_EQ(3, node1->total_ticks()); CHECK_EQ(2, node1->self_ticks()); CHECK_EQ(1, node1_2->total_ticks()); CHECK_EQ(1, node1_2->self_ticks()); CHECK_EQ(3, node2->total_ticks()); CHECK_EQ(3, node2->self_ticks()); CHECK_EQ(4, node3->total_ticks()); CHECK_EQ(4, node3->self_ticks()); } TEST(ProfileTreeFilteredClone) { ProfileTree source_tree; const int token0 = 0, token1 = 1, token2 = 2; CodeEntry entry1(i::Logger::FUNCTION_TAG, "", "aaa", "", 0, token0); CodeEntry entry2(i::Logger::FUNCTION_TAG, "", "bbb", "", 0, token1); CodeEntry entry3(i::Logger::FUNCTION_TAG, "", "ccc", "", 0, token0); CodeEntry entry4( i::Logger::FUNCTION_TAG, "", "ddd", "", 0, TokenEnumerator::kInheritsSecurityToken); { CodeEntry* e1_e2_path[] = {&entry1, &entry2}; Vector e1_e2_path_vec( e1_e2_path, sizeof(e1_e2_path) / sizeof(e1_e2_path[0])); source_tree.AddPathFromStart(e1_e2_path_vec); CodeEntry* e2_e4_path[] = {&entry2, &entry4}; Vector e2_e4_path_vec( e2_e4_path, sizeof(e2_e4_path) / sizeof(e2_e4_path[0])); source_tree.AddPathFromStart(e2_e4_path_vec); CodeEntry* e3_e1_path[] = {&entry3, &entry1}; Vector e3_e1_path_vec( e3_e1_path, sizeof(e3_e1_path) / sizeof(e3_e1_path[0])); source_tree.AddPathFromStart(e3_e1_path_vec); CodeEntry* e3_e2_path[] = {&entry3, &entry2}; Vector e3_e2_path_vec( e3_e2_path, sizeof(e3_e2_path) / sizeof(e3_e2_path[0])); source_tree.AddPathFromStart(e3_e2_path_vec); source_tree.CalculateTotalTicks(); // Results in -> {entry1,0,1,0} -> {entry2,1,1,1} // {root,0,4,-1} -> {entry2,0,1,1} -> {entry4,1,1,inherits} // -> {entry3,0,2,0} -> {entry1,1,1,0} // -> {entry2,1,1,1} CHECK_EQ(4, source_tree.root()->total_ticks()); CHECK_EQ(0, source_tree.root()->self_ticks()); } { ProfileTree token0_tree; token0_tree.FilteredClone(&source_tree, token0); // Should be -> {entry1,1,1,0} // {root,1,4,-1} -> {entry3,1,2,0} -> {entry1,1,1,0} // [self ticks from filtered nodes are attributed to their parents] CHECK_EQ(4, token0_tree.root()->total_ticks()); CHECK_EQ(1, token0_tree.root()->self_ticks()); ProfileTreeTestHelper token0_helper(&token0_tree); ProfileNode* node1 = token0_helper.Walk(&entry1); CHECK_NE(NULL, node1); CHECK_EQ(1, node1->total_ticks()); CHECK_EQ(1, node1->self_ticks()); CHECK_EQ(NULL, token0_helper.Walk(&entry2)); ProfileNode* node3 = token0_helper.Walk(&entry3); CHECK_NE(NULL, node3); CHECK_EQ(2, node3->total_ticks()); CHECK_EQ(1, node3->self_ticks()); ProfileNode* node3_1 = token0_helper.Walk(&entry3, &entry1); CHECK_NE(NULL, node3_1); CHECK_EQ(1, node3_1->total_ticks()); CHECK_EQ(1, node3_1->self_ticks()); CHECK_EQ(NULL, token0_helper.Walk(&entry3, &entry2)); } { ProfileTree token1_tree; token1_tree.FilteredClone(&source_tree, token1); // Should be // {root,1,4,-1} -> {entry2,2,3,1} -> {entry4,1,1,inherits} // [child nodes referring to the same entry get merged and // their self times summed up] CHECK_EQ(4, token1_tree.root()->total_ticks()); CHECK_EQ(1, token1_tree.root()->self_ticks()); ProfileTreeTestHelper token1_helper(&token1_tree); CHECK_EQ(NULL, token1_helper.Walk(&entry1)); CHECK_EQ(NULL, token1_helper.Walk(&entry3)); ProfileNode* node2 = token1_helper.Walk(&entry2); CHECK_NE(NULL, node2); CHECK_EQ(3, node2->total_ticks()); CHECK_EQ(2, node2->self_ticks()); ProfileNode* node2_4 = token1_helper.Walk(&entry2, &entry4); CHECK_NE(NULL, node2_4); CHECK_EQ(1, node2_4->total_ticks()); CHECK_EQ(1, node2_4->self_ticks()); } { ProfileTree token2_tree; token2_tree.FilteredClone(&source_tree, token2); // Should be // {root,4,4,-1} // [no nodes, all ticks get migrated into root node] CHECK_EQ(4, token2_tree.root()->total_ticks()); CHECK_EQ(4, token2_tree.root()->self_ticks()); ProfileTreeTestHelper token2_helper(&token2_tree); CHECK_EQ(NULL, token2_helper.Walk(&entry1)); CHECK_EQ(NULL, token2_helper.Walk(&entry2)); CHECK_EQ(NULL, token2_helper.Walk(&entry3)); } } static inline i::Address ToAddress(int n) { return reinterpret_cast(n); } TEST(CodeMapAddCode) { CodeMap code_map; CodeEntry entry1(i::Logger::FUNCTION_TAG, "", "aaa", "", 0, TokenEnumerator::kNoSecurityToken); CodeEntry entry2(i::Logger::FUNCTION_TAG, "", "bbb", "", 0, TokenEnumerator::kNoSecurityToken); CodeEntry entry3(i::Logger::FUNCTION_TAG, "", "ccc", "", 0, TokenEnumerator::kNoSecurityToken); CodeEntry entry4(i::Logger::FUNCTION_TAG, "", "ddd", "", 0, TokenEnumerator::kNoSecurityToken); code_map.AddCode(ToAddress(0x1500), &entry1, 0x200); code_map.AddCode(ToAddress(0x1700), &entry2, 0x100); code_map.AddCode(ToAddress(0x1900), &entry3, 0x50); code_map.AddCode(ToAddress(0x1950), &entry4, 0x10); CHECK_EQ(NULL, code_map.FindEntry(0)); CHECK_EQ(NULL, code_map.FindEntry(ToAddress(0x1500 - 1))); CHECK_EQ(&entry1, code_map.FindEntry(ToAddress(0x1500))); CHECK_EQ(&entry1, code_map.FindEntry(ToAddress(0x1500 + 0x100))); CHECK_EQ(&entry1, code_map.FindEntry(ToAddress(0x1500 + 0x200 - 1))); CHECK_EQ(&entry2, code_map.FindEntry(ToAddress(0x1700))); CHECK_EQ(&entry2, code_map.FindEntry(ToAddress(0x1700 + 0x50))); CHECK_EQ(&entry2, code_map.FindEntry(ToAddress(0x1700 + 0x100 - 1))); CHECK_EQ(NULL, code_map.FindEntry(ToAddress(0x1700 + 0x100))); CHECK_EQ(NULL, code_map.FindEntry(ToAddress(0x1900 - 1))); CHECK_EQ(&entry3, code_map.FindEntry(ToAddress(0x1900))); CHECK_EQ(&entry3, code_map.FindEntry(ToAddress(0x1900 + 0x28))); CHECK_EQ(&entry4, code_map.FindEntry(ToAddress(0x1950))); CHECK_EQ(&entry4, code_map.FindEntry(ToAddress(0x1950 + 0x7))); CHECK_EQ(&entry4, code_map.FindEntry(ToAddress(0x1950 + 0x10 - 1))); CHECK_EQ(NULL, code_map.FindEntry(ToAddress(0x1950 + 0x10))); CHECK_EQ(NULL, code_map.FindEntry(ToAddress(0xFFFFFFFF))); } TEST(CodeMapMoveAndDeleteCode) { CodeMap code_map; CodeEntry entry1(i::Logger::FUNCTION_TAG, "", "aaa", "", 0, TokenEnumerator::kNoSecurityToken); CodeEntry entry2(i::Logger::FUNCTION_TAG, "", "bbb", "", 0, TokenEnumerator::kNoSecurityToken); code_map.AddCode(ToAddress(0x1500), &entry1, 0x200); code_map.AddCode(ToAddress(0x1700), &entry2, 0x100); CHECK_EQ(&entry1, code_map.FindEntry(ToAddress(0x1500))); CHECK_EQ(&entry2, code_map.FindEntry(ToAddress(0x1700))); code_map.MoveCode(ToAddress(0x1500), ToAddress(0x1700)); // Deprecate bbb. CHECK_EQ(NULL, code_map.FindEntry(ToAddress(0x1500))); CHECK_EQ(&entry1, code_map.FindEntry(ToAddress(0x1700))); CodeEntry entry3(i::Logger::FUNCTION_TAG, "", "ccc", "", 0, TokenEnumerator::kNoSecurityToken); code_map.AddCode(ToAddress(0x1750), &entry3, 0x100); CHECK_EQ(NULL, code_map.FindEntry(ToAddress(0x1700))); CHECK_EQ(&entry3, code_map.FindEntry(ToAddress(0x1750))); } namespace { class TestSetup { public: TestSetup() : old_flag_prof_browser_mode_(i::FLAG_prof_browser_mode) { i::FLAG_prof_browser_mode = false; } ~TestSetup() { i::FLAG_prof_browser_mode = old_flag_prof_browser_mode_; } private: bool old_flag_prof_browser_mode_; }; } // namespace TEST(RecordTickSample) { TestSetup test_setup; CpuProfilesCollection profiles; profiles.StartProfiling("", 1, false); ProfileGenerator generator(&profiles); CodeEntry* entry1 = profiles.NewCodeEntry(i::Logger::FUNCTION_TAG, "aaa"); CodeEntry* entry2 = profiles.NewCodeEntry(i::Logger::FUNCTION_TAG, "bbb"); CodeEntry* entry3 = profiles.NewCodeEntry(i::Logger::FUNCTION_TAG, "ccc"); generator.code_map()->AddCode(ToAddress(0x1500), entry1, 0x200); generator.code_map()->AddCode(ToAddress(0x1700), entry2, 0x100); generator.code_map()->AddCode(ToAddress(0x1900), entry3, 0x50); // We are building the following calls tree: // -> aaa - sample1 // aaa -> bbb -> ccc - sample2 // -> ccc -> aaa - sample3 TickSample sample1; sample1.pc = ToAddress(0x1600); sample1.tos = ToAddress(0x1500); sample1.stack[0] = ToAddress(0x1510); sample1.frames_count = 1; generator.RecordTickSample(sample1); TickSample sample2; sample2.pc = ToAddress(0x1925); sample2.tos = ToAddress(0x1900); sample2.stack[0] = ToAddress(0x1780); sample2.stack[1] = ToAddress(0x10000); // non-existent. sample2.stack[2] = ToAddress(0x1620); sample2.frames_count = 3; generator.RecordTickSample(sample2); TickSample sample3; sample3.pc = ToAddress(0x1510); sample3.tos = ToAddress(0x1500); sample3.stack[0] = ToAddress(0x1910); sample3.stack[1] = ToAddress(0x1610); sample3.frames_count = 2; generator.RecordTickSample(sample3); CpuProfile* profile = profiles.StopProfiling(TokenEnumerator::kNoSecurityToken, "", 1); CHECK_NE(NULL, profile); ProfileTreeTestHelper top_down_test_helper(profile->top_down()); CHECK_EQ(NULL, top_down_test_helper.Walk(entry2)); CHECK_EQ(NULL, top_down_test_helper.Walk(entry3)); ProfileNode* node1 = top_down_test_helper.Walk(entry1); CHECK_NE(NULL, node1); CHECK_EQ(entry1, node1->entry()); ProfileNode* node2 = top_down_test_helper.Walk(entry1, entry1); CHECK_NE(NULL, node2); CHECK_EQ(entry1, node2->entry()); ProfileNode* node3 = top_down_test_helper.Walk(entry1, entry2, entry3); CHECK_NE(NULL, node3); CHECK_EQ(entry3, node3->entry()); ProfileNode* node4 = top_down_test_helper.Walk(entry1, entry3, entry1); CHECK_NE(NULL, node4); CHECK_EQ(entry1, node4->entry()); } TEST(SampleRateCalculator) { const double kSamplingIntervalMs = i::Logger::kSamplingIntervalMs; // Verify that ticking exactly in query intervals results in the // initial sampling interval. double time = 0.0; SampleRateCalculator calc1; CHECK_EQ(kSamplingIntervalMs, calc1.ticks_per_ms()); calc1.UpdateMeasurements(time); CHECK_EQ(kSamplingIntervalMs, calc1.ticks_per_ms()); time += SampleRateCalculator::kWallTimeQueryIntervalMs; calc1.UpdateMeasurements(time); CHECK_EQ(kSamplingIntervalMs, calc1.ticks_per_ms()); time += SampleRateCalculator::kWallTimeQueryIntervalMs; calc1.UpdateMeasurements(time); CHECK_EQ(kSamplingIntervalMs, calc1.ticks_per_ms()); time += SampleRateCalculator::kWallTimeQueryIntervalMs; calc1.UpdateMeasurements(time); CHECK_EQ(kSamplingIntervalMs, calc1.ticks_per_ms()); SampleRateCalculator calc2; time = 0.0; CHECK_EQ(kSamplingIntervalMs, calc2.ticks_per_ms()); calc2.UpdateMeasurements(time); CHECK_EQ(kSamplingIntervalMs, calc2.ticks_per_ms()); time += SampleRateCalculator::kWallTimeQueryIntervalMs * 0.5; calc2.UpdateMeasurements(time); // (1.0 + 2.0) / 2 CHECK_EQ(kSamplingIntervalMs * 1.5, calc2.ticks_per_ms()); time += SampleRateCalculator::kWallTimeQueryIntervalMs * 0.75; calc2.UpdateMeasurements(time); // (1.0 + 2.0 + 2.0) / 3 CHECK_EQ(kSamplingIntervalMs * 5.0, floor(calc2.ticks_per_ms() * 3.0 + 0.5)); SampleRateCalculator calc3; time = 0.0; CHECK_EQ(kSamplingIntervalMs, calc3.ticks_per_ms()); calc3.UpdateMeasurements(time); CHECK_EQ(kSamplingIntervalMs, calc3.ticks_per_ms()); time += SampleRateCalculator::kWallTimeQueryIntervalMs * 2; calc3.UpdateMeasurements(time); // (1.0 + 0.5) / 2 CHECK_EQ(kSamplingIntervalMs * 0.75, calc3.ticks_per_ms()); time += SampleRateCalculator::kWallTimeQueryIntervalMs * 1.5; calc3.UpdateMeasurements(time); // (1.0 + 0.5 + 0.5) / 3 CHECK_EQ(kSamplingIntervalMs * 2.0, floor(calc3.ticks_per_ms() * 3.0 + 0.5)); } static void CheckNodeIds(ProfileNode* node, int* expectedId) { CHECK_EQ((*expectedId)++, node->id()); for (int i = 0; i < node->children()->length(); i++) { CheckNodeIds(node->children()->at(i), expectedId); } } TEST(SampleIds) { TestSetup test_setup; CpuProfilesCollection profiles; profiles.StartProfiling("", 1, true); ProfileGenerator generator(&profiles); CodeEntry* entry1 = profiles.NewCodeEntry(i::Logger::FUNCTION_TAG, "aaa"); CodeEntry* entry2 = profiles.NewCodeEntry(i::Logger::FUNCTION_TAG, "bbb"); CodeEntry* entry3 = profiles.NewCodeEntry(i::Logger::FUNCTION_TAG, "ccc"); generator.code_map()->AddCode(ToAddress(0x1500), entry1, 0x200); generator.code_map()->AddCode(ToAddress(0x1700), entry2, 0x100); generator.code_map()->AddCode(ToAddress(0x1900), entry3, 0x50); // We are building the following calls tree: // -> aaa #3 - sample1 // (root)#1 -> aaa #2 -> bbb #4 -> ccc #5 - sample2 // -> ccc #6 -> aaa #7 - sample3 TickSample sample1; sample1.pc = ToAddress(0x1600); sample1.stack[0] = ToAddress(0x1510); sample1.frames_count = 1; generator.RecordTickSample(sample1); TickSample sample2; sample2.pc = ToAddress(0x1925); sample2.stack[0] = ToAddress(0x1780); sample2.stack[1] = ToAddress(0x10000); // non-existent. sample2.stack[2] = ToAddress(0x1620); sample2.frames_count = 3; generator.RecordTickSample(sample2); TickSample sample3; sample3.pc = ToAddress(0x1510); sample3.stack[0] = ToAddress(0x1910); sample3.stack[1] = ToAddress(0x1610); sample3.frames_count = 2; generator.RecordTickSample(sample3); CpuProfile* profile = profiles.StopProfiling(TokenEnumerator::kNoSecurityToken, "", 1); int nodeId = 1; CheckNodeIds(profile->top_down()->root(), &nodeId); CHECK_EQ(7, nodeId - 1); CHECK_EQ(3, profile->samples_count()); int expected_id[] = {3, 5, 7}; for (int i = 0; i < 3; i++) { CHECK_EQ(expected_id[i], profile->sample(i)->id()); } } TEST(NoSamples) { TestSetup test_setup; CpuProfilesCollection profiles; profiles.StartProfiling("", 1, false); ProfileGenerator generator(&profiles); CodeEntry* entry1 = profiles.NewCodeEntry(i::Logger::FUNCTION_TAG, "aaa"); generator.code_map()->AddCode(ToAddress(0x1500), entry1, 0x200); // We are building the following calls tree: // (root)#1 -> aaa #2 -> aaa #3 - sample1 TickSample sample1; sample1.pc = ToAddress(0x1600); sample1.stack[0] = ToAddress(0x1510); sample1.frames_count = 1; generator.RecordTickSample(sample1); CpuProfile* profile = profiles.StopProfiling(TokenEnumerator::kNoSecurityToken, "", 1); int nodeId = 1; CheckNodeIds(profile->top_down()->root(), &nodeId); CHECK_EQ(3, nodeId - 1); CHECK_EQ(0, profile->samples_count()); } // --- P r o f i l e r E x t e n s i o n --- class ProfilerExtension : public v8::Extension { public: ProfilerExtension() : v8::Extension("v8/profiler", kSource) { } virtual v8::Handle GetNativeFunction( v8::Handle name); static v8::Handle StartProfiling(const v8::Arguments& args); static v8::Handle StopProfiling(const v8::Arguments& args); private: static const char* kSource; }; const char* ProfilerExtension::kSource = "native function startProfiling();" "native function stopProfiling();"; v8::Handle ProfilerExtension::GetNativeFunction( v8::Handle name) { if (name->Equals(v8::String::New("startProfiling"))) { return v8::FunctionTemplate::New(ProfilerExtension::StartProfiling); } else if (name->Equals(v8::String::New("stopProfiling"))) { return v8::FunctionTemplate::New(ProfilerExtension::StopProfiling); } else { CHECK(false); return v8::Handle(); } } v8::Handle ProfilerExtension::StartProfiling( const v8::Arguments& args) { v8::CpuProfiler* cpu_profiler = args.GetIsolate()->GetCpuProfiler(); if (args.Length() > 0) cpu_profiler->StartCpuProfiling(args[0].As()); else cpu_profiler->StartCpuProfiling(v8::String::New("")); return v8::Undefined(); } v8::Handle ProfilerExtension::StopProfiling( const v8::Arguments& args) { v8::CpuProfiler* cpu_profiler = args.GetIsolate()->GetCpuProfiler(); if (args.Length() > 0) cpu_profiler->StopCpuProfiling(args[0].As()); else cpu_profiler->StopCpuProfiling(v8::String::New("")); return v8::Undefined(); } static ProfilerExtension kProfilerExtension; v8::DeclareExtension kProfilerExtensionDeclaration(&kProfilerExtension); static const ProfileNode* PickChild(const ProfileNode* parent, const char* name) { for (int i = 0; i < parent->children()->length(); ++i) { const ProfileNode* child = parent->children()->at(i); if (strcmp(child->entry()->name(), name) == 0) return child; } return NULL; } TEST(RecordStackTraceAtStartProfiling) { // This test does not pass with inlining enabled since inlined functions // don't appear in the stack trace. i::FLAG_use_inlining = false; v8::Isolate* isolate = v8::Isolate::GetCurrent(); v8::HandleScope scope(isolate); const char* extensions[] = { "v8/profiler" }; v8::ExtensionConfiguration config(1, extensions); v8::Local context = v8::Context::New(isolate); context->Enter(); CpuProfiler* profiler = i::Isolate::Current()->cpu_profiler(); CHECK_EQ(0, profiler->GetProfilesCount()); CompileRun( "function c() { startProfiling(); }\n" "function b() { c(); }\n" "function a() { b(); }\n" "a();\n" "stopProfiling();"); CHECK_EQ(1, profiler->GetProfilesCount()); CpuProfile* profile = profiler->GetProfile(NULL, 0); const ProfileTree* topDown = profile->top_down(); const ProfileNode* current = topDown->root(); const_cast(current)->Print(0); // The tree should look like this: // (root) // (anonymous function) // a // b // c // There can also be: // startProfiling // if the sampler managed to get a tick. current = PickChild(current, "(anonymous function)"); CHECK_NE(NULL, const_cast(current)); current = PickChild(current, "a"); CHECK_NE(NULL, const_cast(current)); current = PickChild(current, "b"); CHECK_NE(NULL, const_cast(current)); current = PickChild(current, "c"); CHECK_NE(NULL, const_cast(current)); CHECK(current->children()->length() == 0 || current->children()->length() == 1); if (current->children()->length() == 1) { current = PickChild(current, "startProfiling"); CHECK_EQ(0, current->children()->length()); } } TEST(Issue51919) { CpuProfilesCollection collection; i::EmbeddedVector titles; for (int i = 0; i < CpuProfilesCollection::kMaxSimultaneousProfiles; ++i) { i::Vector title = i::Vector::New(16); i::OS::SNPrintF(title, "%d", i); // UID must be > 0. CHECK(collection.StartProfiling(title.start(), i + 1, false)); titles[i] = title.start(); } CHECK(!collection.StartProfiling( "maximum", CpuProfilesCollection::kMaxSimultaneousProfiles + 1, false)); for (int i = 0; i < CpuProfilesCollection::kMaxSimultaneousProfiles; ++i) i::DeleteArray(titles[i]); }