/*
* Copyright (C) 2019 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 "src/trace_processor/heap_profile_tracker.h"
#include "src/trace_processor/trace_processor_context.h"
#include "gmock/gmock.h"
#include "gtest/gtest.h"
namespace perfetto {
namespace trace_processor {
namespace {
constexpr auto kFirstPacket = 0;
constexpr auto kFirstPacketMappingNameId = 1;
constexpr auto kFirstPacketBuildId = 2;
constexpr auto kFirstPacketFrameNameId = 3;
constexpr auto kFirstPacketMappingId = 1;
constexpr auto kFirstPacketFrameId = 1;
constexpr auto kSecondPacket = 1;
constexpr auto kSecondPacketMappingNameId = 3;
constexpr auto kSecondPacketBuildId = 2;
constexpr auto kSecondPacketFrameNameId = 1;
constexpr auto kSecondPacketFrameId = 2;
constexpr auto kSecondPacketMappingId = 2;
constexpr auto kMappingOffset = 123;
constexpr auto kMappingStart = 234;
constexpr auto kMappingEnd = 345;
constexpr auto kMappingLoadBias = 456;
static constexpr auto kFrameRelPc = 567;
using ::testing::ElementsAre;
class HeapProfileTrackerDupTest : public ::testing::Test {
public:
HeapProfileTrackerDupTest() {
context.storage.reset(new TraceStorage());
context.heap_profile_tracker.reset(new HeapProfileTracker(&context));
mapping_name = context.storage->InternString("[mapping]");
build = context.storage->InternString("[build id]");
frame_name = context.storage->InternString("[frame]");
}
protected:
void InsertMapping() {
context.heap_profile_tracker->AddString(
kFirstPacket, kFirstPacketMappingNameId, mapping_name);
context.heap_profile_tracker->AddString(
kSecondPacket, kSecondPacketMappingNameId, mapping_name);
context.heap_profile_tracker->AddString(kFirstPacket, kFirstPacketBuildId,
build);
context.heap_profile_tracker->AddString(kSecondPacket, kSecondPacketBuildId,
build);
HeapProfileTracker::SourceMapping first_frame;
first_frame.build_id = kFirstPacketBuildId;
first_frame.offset = kMappingOffset;
first_frame.start = kMappingStart;
first_frame.end = kMappingEnd;
first_frame.load_bias = kMappingLoadBias;
first_frame.name_id = kFirstPacketMappingNameId;
HeapProfileTracker::SourceMapping second_frame;
second_frame.build_id = kSecondPacketBuildId;
second_frame.offset = kMappingOffset;
second_frame.start = kMappingStart;
second_frame.end = kMappingEnd;
second_frame.load_bias = kMappingLoadBias;
second_frame.name_id = kSecondPacketMappingNameId;
context.heap_profile_tracker->AddMapping(
kFirstPacket, kFirstPacketMappingId, first_frame);
context.heap_profile_tracker->AddMapping(
kSecondPacket, kSecondPacketMappingId, second_frame);
}
void InsertFrame() {
InsertMapping();
context.heap_profile_tracker->AddString(
kFirstPacket, kFirstPacketFrameNameId, frame_name);
context.heap_profile_tracker->AddString(
kSecondPacket, kSecondPacketFrameNameId, frame_name);
HeapProfileTracker::SourceFrame first_frame;
first_frame.name_id = kFirstPacketFrameNameId;
first_frame.mapping_id = kFirstPacketMappingId;
first_frame.rel_pc = kFrameRelPc;
HeapProfileTracker::SourceFrame second_frame;
second_frame.name_id = kSecondPacketFrameNameId;
second_frame.mapping_id = kSecondPacketMappingId;
second_frame.rel_pc = kFrameRelPc;
context.heap_profile_tracker->AddFrame(kFirstPacket, kFirstPacketFrameId,
first_frame);
context.heap_profile_tracker->AddFrame(kSecondPacket, kSecondPacketFrameId,
second_frame);
}
void InsertCallsite() {
InsertFrame();
HeapProfileTracker::SourceCallstack first_callsite = {kFirstPacketFrameId,
kFirstPacketFrameId};
HeapProfileTracker::SourceCallstack second_callsite = {
kSecondPacketFrameId, kSecondPacketFrameId};
context.heap_profile_tracker->AddCallstack(kFirstPacket, 0, first_callsite);
context.heap_profile_tracker->AddCallstack(kSecondPacket, 0,
second_callsite);
}
StringId mapping_name;
StringId build;
StringId frame_name;
TraceProcessorContext context;
};
// Insert the same mapping from two different packets, with different strings
// interned, and assert we only store one.
TEST_F(HeapProfileTrackerDupTest, Mapping) {
InsertMapping();
EXPECT_THAT(context.storage->heap_profile_mappings().build_ids(),
ElementsAre(build));
EXPECT_THAT(context.storage->heap_profile_mappings().offsets(),
ElementsAre(kMappingOffset));
EXPECT_THAT(context.storage->heap_profile_mappings().starts(),
ElementsAre(kMappingStart));
EXPECT_THAT(context.storage->heap_profile_mappings().ends(),
ElementsAre(kMappingEnd));
EXPECT_THAT(context.storage->heap_profile_mappings().load_biases(),
ElementsAre(kMappingLoadBias));
EXPECT_THAT(context.storage->heap_profile_mappings().names(),
ElementsAre(mapping_name));
}
// Insert the same mapping from two different packets, with different strings
// interned, and assert we only store one.
TEST_F(HeapProfileTrackerDupTest, Frame) {
InsertFrame();
EXPECT_THAT(context.storage->heap_profile_frames().names(),
ElementsAre(frame_name));
EXPECT_THAT(context.storage->heap_profile_frames().mappings(),
ElementsAre(0));
EXPECT_THAT(context.storage->heap_profile_frames().rel_pcs(),
ElementsAre(kFrameRelPc));
}
// Insert the same callstack from two different packets, assert it is only
// stored once.
TEST_F(HeapProfileTrackerDupTest, Callstack) {
InsertCallsite();
EXPECT_THAT(context.storage->heap_profile_callsites().frame_depths(),
ElementsAre(0, 1));
EXPECT_THAT(context.storage->heap_profile_callsites().parent_callsite_ids(),
ElementsAre(0, 0));
EXPECT_THAT(context.storage->heap_profile_callsites().frame_ids(),
ElementsAre(0, 0));
}
int64_t FindCallstack(const TraceStorage& storage,
int64_t depth,
int64_t parent,
int64_t frame_id) {
const auto& callsites = storage.heap_profile_callsites();
for (size_t i = 0; i < callsites.frame_depths().size(); ++i) {
if (callsites.frame_depths()[i] == depth &&
callsites.parent_callsite_ids()[i] == parent &&
callsites.frame_ids()[i] == frame_id) {
return static_cast<int64_t>(i);
}
}
return -1;
}
// Insert multiple mappings, frames and callstacks and check result.
TEST(HeapProfileTrackerTest, Functional) {
TraceProcessorContext context;
context.storage.reset(new TraceStorage());
context.heap_profile_tracker.reset(new HeapProfileTracker(&context));
HeapProfileTracker* hpt = context.heap_profile_tracker.get();
constexpr auto kPacket = 0;
uint64_t next_string_intern_id = 1;
const std::string build_ids[] = {"build1", "build2", "build3"};
uint64_t build_id_ids[base::ArraySize(build_ids)];
for (size_t i = 0; i < base::ArraySize(build_ids); ++i)
build_id_ids[i] = next_string_intern_id++;
const std::string mapping_names[] = {"map1", "map2", "map3"};
uint64_t mapping_name_ids[base::ArraySize(mapping_names)];
for (size_t i = 0; i < base::ArraySize(mapping_names); ++i)
mapping_name_ids[i] = next_string_intern_id++;
HeapProfileTracker::SourceMapping mappings[base::ArraySize(mapping_names)] =
{};
mappings[0].build_id = build_id_ids[0];
mappings[0].offset = 1;
mappings[0].start = 2;
mappings[0].end = 3;
mappings[0].load_bias = 0;
mappings[0].name_id = mapping_name_ids[0];
mappings[1].build_id = build_id_ids[1];
mappings[1].offset = 1;
mappings[1].start = 2;
mappings[1].end = 3;
mappings[1].load_bias = 1;
mappings[1].name_id = mapping_name_ids[1];
mappings[2].build_id = build_id_ids[2];
mappings[2].offset = 1;
mappings[2].start = 2;
mappings[2].end = 3;
mappings[2].load_bias = 2;
mappings[2].name_id = mapping_name_ids[2];
const std::string function_names[] = {"fun1", "fun2", "fun3", "fun4"};
uint64_t function_name_ids[base::ArraySize(function_names)];
for (size_t i = 0; i < base::ArraySize(function_names); ++i)
function_name_ids[i] = next_string_intern_id++;
HeapProfileTracker::SourceFrame frames[base::ArraySize(function_names)];
frames[0].name_id = function_name_ids[0];
frames[0].mapping_id = 0;
frames[0].rel_pc = 123;
frames[1].name_id = function_name_ids[1];
frames[1].mapping_id = 0;
frames[1].rel_pc = 123;
frames[2].name_id = function_name_ids[2];
frames[2].mapping_id = 1;
frames[2].rel_pc = 123;
frames[3].name_id = function_name_ids[3];
frames[3].mapping_id = 2;
frames[3].rel_pc = 123;
HeapProfileTracker::SourceCallstack callstacks[3];
callstacks[0] = {2, 1, 0};
callstacks[1] = {2, 1, 0, 1, 0};
callstacks[2] = {0, 2, 0, 1, 2};
for (size_t i = 0; i < base::ArraySize(build_ids); ++i) {
auto interned = context.storage->InternString(
{build_ids[i].data(), build_ids[i].size()});
hpt->AddString(kPacket, build_id_ids[i], interned);
}
for (size_t i = 0; i < base::ArraySize(mapping_names); ++i) {
auto interned = context.storage->InternString(
{mapping_names[i].data(), mapping_names[i].size()});
hpt->AddString(kPacket, mapping_name_ids[i], interned);
}
for (size_t i = 0; i < base::ArraySize(function_names); ++i) {
auto interned = context.storage->InternString(
{function_names[i].data(), function_names[i].size()});
hpt->AddString(kPacket, function_name_ids[i], interned);
}
for (size_t i = 0; i < base::ArraySize(mappings); ++i)
hpt->AddMapping(kPacket, i, mappings[i]);
for (size_t i = 0; i < base::ArraySize(frames); ++i)
hpt->AddFrame(kPacket, i, frames[i]);
for (size_t i = 0; i < base::ArraySize(callstacks); ++i)
hpt->AddCallstack(kPacket, i, callstacks[i]);
for (size_t i = 0; i < base::ArraySize(callstacks); ++i) {
int64_t parent = 0;
const HeapProfileTracker::SourceCallstack& callstack = callstacks[i];
for (size_t depth = 0; depth < callstack.size(); ++depth) {
auto frame_id =
hpt->GetDatabaseFrameIdForTesting(kPacket, callstack[depth]);
ASSERT_NE(frame_id, -1);
int64_t self = FindCallstack(
*context.storage, static_cast<int64_t>(depth), parent, frame_id);
ASSERT_NE(self, -1);
parent = self;
}
}
}
} // namespace
} // namespace trace_processor
} // namespace perfetto