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// Protocol Buffers - Google's data interchange format
// Copyright 2008 Google Inc. All rights reserved.
// https://developers.google.com/protocol-buffers/
//
// 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.
#include <google/protobuf/arena.h>
#include <algorithm>
#include <cstring>
#include <memory>
#ifndef _SHARED_PTR_H
#include <google/protobuf/stubs/shared_ptr.h>
#endif
#include <string>
#include <typeinfo>
#include <vector>
#include <google/protobuf/stubs/logging.h>
#include <google/protobuf/stubs/common.h>
#include <google/protobuf/stubs/scoped_ptr.h>
#include <google/protobuf/arena_test_util.h>
#include <google/protobuf/test_util.h>
#include <google/protobuf/unittest.pb.h>
#include <google/protobuf/unittest_arena.pb.h>
#include <google/protobuf/unittest_no_arena.pb.h>
#include <google/protobuf/io/coded_stream.h>
#include <google/protobuf/io/zero_copy_stream_impl_lite.h>
#include <google/protobuf/descriptor.h>
#include <google/protobuf/extension_set.h>
#include <google/protobuf/message.h>
#include <google/protobuf/message_lite.h>
#include <google/protobuf/repeated_field.h>
#include <google/protobuf/wire_format_lite.h>
#include <google/protobuf/unknown_field_set.h>
#include <gtest/gtest.h>
namespace google {
using proto2_arena_unittest::ArenaMessage;
using protobuf_unittest::TestAllTypes;
using protobuf_unittest::TestAllExtensions;
using protobuf_unittest::TestOneof2;
using protobuf_unittest::TestEmptyMessage;
namespace protobuf {
namespace {
class Notifier {
public:
Notifier() : count_(0) {}
void Notify() {
count_++;
}
int GetCount() {
return count_;
}
private:
int count_;
};
class SimpleDataType {
public:
SimpleDataType() : notifier_(NULL) {}
void SetNotifier(Notifier* notifier) {
notifier_ = notifier;
}
virtual ~SimpleDataType() {
if (notifier_ != NULL) {
notifier_->Notify();
}
};
private:
Notifier* notifier_;
};
// A simple class that does not allow copying and so cannot be used as a
// parameter type without "const &".
class PleaseDontCopyMe {
public:
explicit PleaseDontCopyMe(int value) : value_(value) {}
int value() const { return value_; }
private:
int value_;
GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(PleaseDontCopyMe);
};
// A class that takes four different types as constructor arguments.
class MustBeConstructedWithOneThroughFour {
public:
MustBeConstructedWithOneThroughFour(
int one, const char* two, const string& three,
const PleaseDontCopyMe* four)
: one_(one), two_(two), three_(three), four_(four) {}
int one_;
const char* const two_;
string three_;
const PleaseDontCopyMe* four_;
private:
GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(MustBeConstructedWithOneThroughFour);
};
// A class that takes eight different types as constructor arguments.
class MustBeConstructedWithOneThroughEight {
public:
MustBeConstructedWithOneThroughEight(
int one, const char* two, const string& three,
const PleaseDontCopyMe* four, int five, const char* six,
const string& seven, const string& eight)
: one_(one), two_(two), three_(three), four_(four), five_(five),
six_(six), seven_(seven), eight_(eight) {}
int one_;
const char* const two_;
string three_;
const PleaseDontCopyMe* four_;
int five_;
const char* const six_;
string seven_;
string eight_;
private:
GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(MustBeConstructedWithOneThroughEight);
};
} // namespace
TEST(ArenaTest, ArenaConstructable) {
EXPECT_TRUE(Arena::is_arena_constructable<TestAllTypes>::type::value);
EXPECT_TRUE(Arena::is_arena_constructable<const TestAllTypes>::type::value);
EXPECT_FALSE(Arena::is_arena_constructable<Arena>::type::value);
}
TEST(ArenaTest, BasicCreate) {
Arena arena;
EXPECT_TRUE(Arena::Create<int32>(&arena) != NULL);
EXPECT_TRUE(Arena::Create<int64>(&arena) != NULL);
EXPECT_TRUE(Arena::Create<float>(&arena) != NULL);
EXPECT_TRUE(Arena::Create<double>(&arena) != NULL);
EXPECT_TRUE(Arena::Create<string>(&arena) != NULL);
arena.Own(new int32);
arena.Own(new int64);
arena.Own(new float);
arena.Own(new double);
arena.Own(new string);
arena.Own<int>(NULL);
Notifier notifier;
SimpleDataType* data = Arena::Create<SimpleDataType>(&arena);
data->SetNotifier(&notifier);
data = new SimpleDataType;
data->SetNotifier(&notifier);
arena.Own(data);
arena.Reset();
EXPECT_EQ(2, notifier.GetCount());
}
TEST(ArenaTest, CreateWithFourConstructorArguments) {
Arena arena;
const string three("3");
const PleaseDontCopyMe four(4);
const MustBeConstructedWithOneThroughFour* new_object =
Arena::Create<MustBeConstructedWithOneThroughFour>(
&arena, 1, "2", three, &four);
EXPECT_TRUE(new_object != NULL);
ASSERT_EQ(1, new_object->one_);
ASSERT_STREQ("2", new_object->two_);
ASSERT_EQ("3", new_object->three_);
ASSERT_EQ(4, new_object->four_->value());
}
TEST(ArenaTest, CreateWithEightConstructorArguments) {
Arena arena;
const string three("3");
const PleaseDontCopyMe four(4);
const string seven("7");
const string eight("8");
const MustBeConstructedWithOneThroughEight* new_object =
Arena::Create<MustBeConstructedWithOneThroughEight>(
&arena, 1, "2", three, &four, 5, "6", seven, eight);
EXPECT_TRUE(new_object != NULL);
ASSERT_EQ(1, new_object->one_);
ASSERT_STREQ("2", new_object->two_);
ASSERT_EQ("3", new_object->three_);
ASSERT_EQ(4, new_object->four_->value());
ASSERT_EQ(5, new_object->five_);
ASSERT_STREQ("6", new_object->six_);
ASSERT_EQ("7", new_object->seven_);
ASSERT_EQ("8", new_object->eight_);
}
TEST(ArenaTest, InitialBlockTooSmall) {
// Construct a small (64 byte) initial block of memory to be used by the
// arena allocator; then, allocate an object which will not fit in the
// initial block.
std::vector<char> arena_block(64);
ArenaOptions options;
options.initial_block = &arena_block[0];
options.initial_block_size = arena_block.size();
Arena arena(options);
char* p = ::google::protobuf::Arena::CreateArray<char>(&arena, 96);
uintptr_t allocation = reinterpret_cast<uintptr_t>(p);
// Ensure that the arena allocator did not return memory pointing into the
// initial block of memory.
uintptr_t arena_start = reinterpret_cast<uintptr_t>(&arena_block[0]);
uintptr_t arena_end = arena_start + arena_block.size();
EXPECT_FALSE(allocation >= arena_start && allocation < arena_end);
// Write to the memory we allocated; this should (but is not guaranteed to)
// trigger a check for heap corruption if the object was allocated from the
// initially-provided block.
memset(p, '\0', 96);
}
TEST(ArenaTest, Parsing) {
TestAllTypes original;
TestUtil::SetAllFields(&original);
// Test memory leak.
Arena arena;
TestAllTypes* arena_message = Arena::CreateMessage<TestAllTypes>(&arena);
arena_message->ParseFromString(original.SerializeAsString());
TestUtil::ExpectAllFieldsSet(*arena_message);
// Test that string fields have null terminator bytes (earlier bug).
EXPECT_EQ(strlen(original.optional_string().c_str()),
strlen(arena_message->optional_string().c_str()));
}
TEST(ArenaTest, UnknownFields) {
TestAllTypes original;
TestUtil::SetAllFields(&original);
// Test basic parsing into (populating) and reading out of unknown fields on
// an arena.
Arena arena;
TestEmptyMessage* arena_message =
Arena::CreateMessage<TestEmptyMessage>(&arena);
arena_message->ParseFromString(original.SerializeAsString());
TestAllTypes copied;
copied.ParseFromString(arena_message->SerializeAsString());
TestUtil::ExpectAllFieldsSet(copied);
// Exercise UFS manual manipulation (setters).
arena_message = Arena::CreateMessage<TestEmptyMessage>(&arena);
arena_message->mutable_unknown_fields()->AddVarint(
TestAllTypes::kOptionalInt32FieldNumber, 42);
copied.Clear();
copied.ParseFromString(arena_message->SerializeAsString());
EXPECT_TRUE(copied.has_optional_int32());
EXPECT_EQ(42, copied.optional_int32());
// Exercise UFS swap path.
TestEmptyMessage* arena_message_2 =
Arena::CreateMessage<TestEmptyMessage>(&arena);
arena_message_2->Swap(arena_message);
copied.Clear();
copied.ParseFromString(arena_message_2->SerializeAsString());
EXPECT_TRUE(copied.has_optional_int32());
EXPECT_EQ(42, copied.optional_int32());
// Test field manipulation.
TestEmptyMessage* arena_message_3 =
Arena::CreateMessage<TestEmptyMessage>(&arena);
arena_message_3->mutable_unknown_fields()->AddVarint(1000, 42);
arena_message_3->mutable_unknown_fields()->AddFixed32(1001, 42);
arena_message_3->mutable_unknown_fields()->AddFixed64(1002, 42);
arena_message_3->mutable_unknown_fields()->AddLengthDelimited(1003);
arena_message_3->mutable_unknown_fields()->DeleteSubrange(0, 2);
arena_message_3->mutable_unknown_fields()->DeleteByNumber(1002);
arena_message_3->mutable_unknown_fields()->DeleteByNumber(1003);
EXPECT_TRUE(arena_message_3->unknown_fields().empty());
}
TEST(ArenaTest, Swap) {
Arena arena1;
Arena arena2;
TestAllTypes* arena1_message;
TestAllTypes* arena2_message;
// Case 1: Swap(), no UFS on either message, both messages on different
// arenas. Arena pointers should remain the same after swap.
arena1_message = Arena::CreateMessage<TestAllTypes>(&arena1);
arena2_message = Arena::CreateMessage<TestAllTypes>(&arena2);
arena1_message->Swap(arena2_message);
EXPECT_EQ(&arena1, arena1_message->GetArena());
EXPECT_EQ(&arena2, arena2_message->GetArena());
// Case 2: Swap(), UFS on one message, both messages on different arenas.
arena1_message = Arena::CreateMessage<TestAllTypes>(&arena1);
arena2_message = Arena::CreateMessage<TestAllTypes>(&arena2);
arena1_message->mutable_unknown_fields()->AddVarint(1, 42);
arena1_message->Swap(arena2_message);
EXPECT_EQ(&arena1, arena1_message->GetArena());
EXPECT_EQ(&arena2, arena2_message->GetArena());
EXPECT_EQ(0, arena1_message->unknown_fields().field_count());
EXPECT_EQ(1, arena2_message->unknown_fields().field_count());
EXPECT_EQ(42, arena2_message->unknown_fields().field(0).varint());
// Case 3: Swap(), UFS on both messages, both messages on different arenas.
arena1_message = Arena::CreateMessage<TestAllTypes>(&arena1);
arena2_message = Arena::CreateMessage<TestAllTypes>(&arena2);
arena1_message->mutable_unknown_fields()->AddVarint(1, 42);
arena2_message->mutable_unknown_fields()->AddVarint(2, 84);
arena1_message->Swap(arena2_message);
EXPECT_EQ(&arena1, arena1_message->GetArena());
EXPECT_EQ(&arena2, arena2_message->GetArena());
EXPECT_EQ(1, arena1_message->unknown_fields().field_count());
EXPECT_EQ(1, arena2_message->unknown_fields().field_count());
EXPECT_EQ(84, arena1_message->unknown_fields().field(0).varint());
EXPECT_EQ(42, arena2_message->unknown_fields().field(0).varint());
}
TEST(ArenaTest, SetAllocatedMessage) {
Arena arena;
TestAllTypes *arena_message = Arena::CreateMessage<TestAllTypes>(&arena);
TestAllTypes::NestedMessage* nested = new TestAllTypes::NestedMessage;
nested->set_bb(118);
arena_message->set_allocated_optional_nested_message(nested);
EXPECT_EQ(118, arena_message->optional_nested_message().bb());
protobuf_unittest_no_arena::TestNoArenaMessage no_arena_message;
EXPECT_FALSE(no_arena_message.has_arena_message());
no_arena_message.set_allocated_arena_message(NULL);
EXPECT_FALSE(no_arena_message.has_arena_message());
no_arena_message.set_allocated_arena_message(new ArenaMessage);
EXPECT_TRUE(no_arena_message.has_arena_message());
}
TEST(ArenaTest, ReleaseMessage) {
Arena arena;
TestAllTypes* arena_message = Arena::CreateMessage<TestAllTypes>(&arena);
arena_message->mutable_optional_nested_message()->set_bb(118);
google::protobuf::scoped_ptr<TestAllTypes::NestedMessage> nested(
arena_message->release_optional_nested_message());
EXPECT_EQ(118, nested->bb());
TestAllTypes::NestedMessage* released_null =
arena_message->release_optional_nested_message();
EXPECT_EQ(NULL, released_null);
}
TEST(ArenaTest, SetAllocatedString) {
Arena arena;
TestAllTypes* arena_message = Arena::CreateMessage<TestAllTypes>(&arena);
string* allocated_str = new string("hello");
arena_message->set_allocated_optional_string(allocated_str);
EXPECT_EQ("hello", arena_message->optional_string());
}
TEST(ArenaTest, ReleaseString) {
Arena arena;
TestAllTypes* arena_message = Arena::CreateMessage<TestAllTypes>(&arena);
arena_message->set_optional_string("hello");
google::protobuf::scoped_ptr<string> released_str(
arena_message->release_optional_string());
EXPECT_EQ("hello", *released_str);
// Test default value.
}
TEST(ArenaTest, SwapBetweenArenasWithAllFieldsSet) {
Arena arena1;
TestAllTypes* arena1_message = Arena::CreateMessage<TestAllTypes>(&arena1);
{
Arena arena2;
TestAllTypes* arena2_message = Arena::CreateMessage<TestAllTypes>(&arena2);
TestUtil::SetAllFields(arena2_message);
arena2_message->Swap(arena1_message);
string output;
arena2_message->SerializeToString(&output);
EXPECT_EQ(0, output.size());
}
TestUtil::ExpectAllFieldsSet(*arena1_message);
}
TEST(ArenaTest, SwapBetweenArenaAndNonArenaWithAllFieldsSet) {
TestAllTypes non_arena_message;
TestUtil::SetAllFields(&non_arena_message);
{
Arena arena2;
TestAllTypes* arena2_message = Arena::CreateMessage<TestAllTypes>(&arena2);
TestUtil::SetAllFields(arena2_message);
arena2_message->Swap(&non_arena_message);
TestUtil::ExpectAllFieldsSet(*arena2_message);
TestUtil::ExpectAllFieldsSet(non_arena_message);
}
}
TEST(ArenaTest, UnsafeArenaSwap) {
Arena shared_arena;
TestAllTypes* message1 = Arena::CreateMessage<TestAllTypes>(&shared_arena);
TestAllTypes* message2 = Arena::CreateMessage<TestAllTypes>(&shared_arena);
TestUtil::SetAllFields(message1);
message1->UnsafeArenaSwap(message2);
TestUtil::ExpectAllFieldsSet(*message2);
}
TEST(ArenaTest, SwapBetweenArenasUsingReflection) {
Arena arena1;
TestAllTypes* arena1_message = Arena::CreateMessage<TestAllTypes>(&arena1);
{
Arena arena2;
TestAllTypes* arena2_message = Arena::CreateMessage<TestAllTypes>(&arena2);
TestUtil::SetAllFields(arena2_message);
const Reflection* r = arena2_message->GetReflection();
r->Swap(arena1_message, arena2_message);
string output;
arena2_message->SerializeToString(&output);
EXPECT_EQ(0, output.size());
}
TestUtil::ExpectAllFieldsSet(*arena1_message);
}
TEST(ArenaTest, SwapBetweenArenaAndNonArenaUsingReflection) {
TestAllTypes non_arena_message;
TestUtil::SetAllFields(&non_arena_message);
{
Arena arena2;
TestAllTypes* arena2_message = Arena::CreateMessage<TestAllTypes>(&arena2);
TestUtil::SetAllFields(arena2_message);
const Reflection* r = arena2_message->GetReflection();
r->Swap(&non_arena_message, arena2_message);
TestUtil::ExpectAllFieldsSet(*arena2_message);
TestUtil::ExpectAllFieldsSet(non_arena_message);
}
}
TEST(ArenaTest, ReleaseFromArenaMessageMakesCopy) {
TestAllTypes::NestedMessage* nested_msg = NULL;
string* nested_string = NULL;
{
Arena arena;
TestAllTypes* arena_message = Arena::CreateMessage<TestAllTypes>(&arena);
arena_message->mutable_optional_nested_message()->set_bb(42);
*arena_message->mutable_optional_string() = "Hello";
nested_msg = arena_message->release_optional_nested_message();
nested_string = arena_message->release_optional_string();
}
EXPECT_EQ(42, nested_msg->bb());
EXPECT_EQ("Hello", *nested_string);
delete nested_msg;
delete nested_string;
}
#ifndef GOOGLE_PROTOBUF_NO_RTTI
TEST(ArenaTest, ReleaseFromArenaMessageUsingReflectionMakesCopy) {
TestAllTypes::NestedMessage* nested_msg = NULL;
// Note: no string: reflection API only supports releasing submessages.
{
Arena arena;
TestAllTypes* arena_message = Arena::CreateMessage<TestAllTypes>(&arena);
arena_message->mutable_optional_nested_message()->set_bb(42);
const Reflection* r = arena_message->GetReflection();
const FieldDescriptor* f = arena_message->GetDescriptor()->FindFieldByName(
"optional_nested_message");
nested_msg = static_cast<TestAllTypes::NestedMessage*>(
r->ReleaseMessage(arena_message, f));
}
EXPECT_EQ(42, nested_msg->bb());
delete nested_msg;
}
#endif // !GOOGLE_PROTOBUF_NO_RTTI
TEST(ArenaTest, UnsafeArenaReleaseDoesNotMakeCopy) {
Arena arena;
TestAllTypes* arena_message = Arena::CreateMessage<TestAllTypes>(&arena);
TestAllTypes::NestedMessage* nested_msg = NULL;
TestAllTypes::NestedMessage* orig_nested_msg = NULL;
string* nested_string = NULL;
string* orig_nested_string = NULL;
arena_message->mutable_optional_nested_message()->set_bb(42);
*arena_message->mutable_optional_string() = "Hello";
orig_nested_msg = arena_message->mutable_optional_nested_message();
orig_nested_string = arena_message->mutable_optional_string();
nested_msg = arena_message->unsafe_arena_release_optional_nested_message();
nested_string = arena_message->unsafe_arena_release_optional_string();
EXPECT_EQ(orig_nested_msg, nested_msg);
EXPECT_EQ(orig_nested_string, nested_string);
// Released pointers still on arena; no 'delete' calls needed here.
}
TEST(ArenaTest, SetAllocatedAcrossArenas) {
Arena arena1;
TestAllTypes* arena1_message = Arena::CreateMessage<TestAllTypes>(&arena1);
TestAllTypes::NestedMessage* heap_submessage =
new TestAllTypes::NestedMessage();
heap_submessage->set_bb(42);
arena1_message->set_allocated_optional_nested_message(heap_submessage);
// Should keep same object and add to arena's Own()-list.
EXPECT_EQ(heap_submessage,
arena1_message->mutable_optional_nested_message());
{
Arena arena2;
TestAllTypes::NestedMessage* arena2_submessage =
Arena::CreateMessage<TestAllTypes::NestedMessage>(&arena2);
arena2_submessage->set_bb(42);
arena1_message->set_allocated_optional_nested_message(arena2_submessage);
EXPECT_NE(arena2_submessage,
arena1_message->mutable_optional_nested_message());
}
TestAllTypes::NestedMessage* arena1_submessage =
Arena::CreateMessage<TestAllTypes::NestedMessage>(&arena1);
arena1_submessage->set_bb(42);
TestAllTypes* heap_message = new TestAllTypes;
heap_message->set_allocated_optional_nested_message(arena1_submessage);
EXPECT_NE(arena1_submessage,
heap_message->mutable_optional_nested_message());
delete heap_message;
}
TEST(ArenaTest, SetAllocatedAcrossArenasWithReflection) {
// Same as above, with reflection.
Arena arena1;
TestAllTypes* arena1_message = Arena::CreateMessage<TestAllTypes>(&arena1);
const Reflection* r = arena1_message->GetReflection();
const Descriptor* d = arena1_message->GetDescriptor();
const FieldDescriptor* msg_field = d->FindFieldByName(
"optional_nested_message");
TestAllTypes::NestedMessage* heap_submessage =
new TestAllTypes::NestedMessage();
heap_submessage->set_bb(42);
r->SetAllocatedMessage(arena1_message, heap_submessage, msg_field);
// Should keep same object and add to arena's Own()-list.
EXPECT_EQ(heap_submessage,
arena1_message->mutable_optional_nested_message());
{
Arena arena2;
TestAllTypes::NestedMessage* arena2_submessage =
Arena::CreateMessage<TestAllTypes::NestedMessage>(&arena2);
arena2_submessage->set_bb(42);
r->SetAllocatedMessage(arena1_message, arena2_submessage, msg_field);
EXPECT_NE(arena2_submessage,
arena1_message->mutable_optional_nested_message());
}
TestAllTypes::NestedMessage* arena1_submessage =
Arena::CreateMessage<TestAllTypes::NestedMessage>(&arena1);
arena1_submessage->set_bb(42);
TestAllTypes* heap_message = new TestAllTypes;
r->SetAllocatedMessage(heap_message, arena1_submessage, msg_field);
EXPECT_NE(arena1_submessage,
heap_message->mutable_optional_nested_message());
delete heap_message;
}
TEST(ArenaTest, AddAllocatedWithReflection) {
Arena arena1;
ArenaMessage* arena1_message = Arena::CreateMessage<ArenaMessage>(&arena1);
const Reflection* r = arena1_message->GetReflection();
const Descriptor* d = arena1_message->GetDescriptor();
const FieldDescriptor* fd =
d->FindFieldByName("repeated_import_no_arena_message");
// Message with cc_enable_arenas = false;
r->AddMessage(arena1_message, fd);
r->AddMessage(arena1_message, fd);
r->AddMessage(arena1_message, fd);
EXPECT_EQ(3, r->FieldSize(*arena1_message, fd));
// Message with cc_enable_arenas = true;
fd = d->FindFieldByName("repeated_nested_message");
r->AddMessage(arena1_message, fd);
r->AddMessage(arena1_message, fd);
r->AddMessage(arena1_message, fd);
EXPECT_EQ(3, r->FieldSize(*arena1_message, fd));
}
TEST(ArenaTest, RepeatedPtrFieldAddClearedTest) {
{
RepeatedPtrField<TestAllTypes> repeated_field;
EXPECT_TRUE(repeated_field.empty());
EXPECT_EQ(0, repeated_field.size());
// Ownership is passed to repeated_field.
TestAllTypes* cleared = new TestAllTypes();
repeated_field.AddCleared(cleared);
EXPECT_TRUE(repeated_field.empty());
EXPECT_EQ(0, repeated_field.size());
}
{
RepeatedPtrField<TestAllTypes> repeated_field;
EXPECT_TRUE(repeated_field.empty());
EXPECT_EQ(0, repeated_field.size());
// Ownership is passed to repeated_field.
TestAllTypes* cleared = new TestAllTypes();
repeated_field.AddAllocated(cleared);
EXPECT_FALSE(repeated_field.empty());
EXPECT_EQ(1, repeated_field.size());
}
}
TEST(ArenaTest, AddAllocatedToRepeatedField) {
// Heap->arena case.
Arena arena1;
TestAllTypes* arena1_message = Arena::CreateMessage<TestAllTypes>(&arena1);
for (int i = 0; i < 10; i++) {
TestAllTypes::NestedMessage* heap_submessage =
new TestAllTypes::NestedMessage();
heap_submessage->set_bb(42);
arena1_message->mutable_repeated_nested_message()->
AddAllocated(heap_submessage);
// Should not copy object -- will use arena_->Own().
EXPECT_EQ(heap_submessage,
&arena1_message->repeated_nested_message(i));
EXPECT_EQ(42, arena1_message->repeated_nested_message(i).bb());
}
// Arena1->Arena2 case.
arena1_message->Clear();
for (int i = 0; i < 10; i++) {
Arena arena2;
TestAllTypes::NestedMessage* arena2_submessage =
Arena::CreateMessage<TestAllTypes::NestedMessage>(&arena2);
arena2_submessage->set_bb(42);
arena1_message->mutable_repeated_nested_message()->
AddAllocated(arena2_submessage);
// Should copy object.
EXPECT_NE(arena2_submessage,
&arena1_message->repeated_nested_message(i));
EXPECT_EQ(42, arena1_message->repeated_nested_message(i).bb());
}
// Arena->heap case.
TestAllTypes* heap_message = new TestAllTypes();
for (int i = 0; i < 10; i++) {
Arena arena2;
TestAllTypes::NestedMessage* arena2_submessage =
Arena::CreateMessage<TestAllTypes::NestedMessage>(&arena2);
arena2_submessage->set_bb(42);
heap_message->mutable_repeated_nested_message()->
AddAllocated(arena2_submessage);
// Should copy object.
EXPECT_NE(arena2_submessage,
&heap_message->repeated_nested_message(i));
EXPECT_EQ(42, heap_message->repeated_nested_message(i).bb());
}
delete heap_message;
// Heap-arena case for strings (which are not arena-allocated).
arena1_message->Clear();
for (int i = 0; i < 10; i++) {
string* s = new string("Test");
arena1_message->mutable_repeated_string()->
AddAllocated(s);
// Should not copy.
EXPECT_EQ(s, &arena1_message->repeated_string(i));
EXPECT_EQ("Test", arena1_message->repeated_string(i));
}
}
TEST(ArenaTest, AddAllocatedToRepeatedFieldViaReflection) {
// Heap->arena case.
Arena arena1;
TestAllTypes* arena1_message = Arena::CreateMessage<TestAllTypes>(&arena1);
const Reflection* r = arena1_message->GetReflection();
const Descriptor* d = arena1_message->GetDescriptor();
const FieldDescriptor* fd =
d->FindFieldByName("repeated_nested_message");
for (int i = 0; i < 10; i++) {
TestAllTypes::NestedMessage* heap_submessage =
new TestAllTypes::NestedMessage;
heap_submessage->set_bb(42);
r->AddAllocatedMessage(arena1_message, fd, heap_submessage);
// Should not copy object -- will use arena_->Own().
EXPECT_EQ(heap_submessage,
&arena1_message->repeated_nested_message(i));
EXPECT_EQ(42, arena1_message->repeated_nested_message(i).bb());
}
// Arena1->Arena2 case.
arena1_message->Clear();
for (int i = 0; i < 10; i++) {
Arena arena2;
TestAllTypes::NestedMessage* arena2_submessage =
Arena::CreateMessage<TestAllTypes::NestedMessage>(&arena2);
arena2_submessage->set_bb(42);
r->AddAllocatedMessage(arena1_message, fd, arena2_submessage);
// Should copy object.
EXPECT_NE(arena2_submessage,
&arena1_message->repeated_nested_message(i));
EXPECT_EQ(42, arena1_message->repeated_nested_message(i).bb());
}
// Arena->heap case.
TestAllTypes* heap_message = new TestAllTypes;
for (int i = 0; i < 10; i++) {
Arena arena2;
TestAllTypes::NestedMessage* arena2_submessage =
Arena::CreateMessage<TestAllTypes::NestedMessage>(&arena2);
arena2_submessage->set_bb(42);
r->AddAllocatedMessage(heap_message, fd, arena2_submessage);
// Should copy object.
EXPECT_NE(arena2_submessage,
&heap_message->repeated_nested_message(i));
EXPECT_EQ(42, heap_message->repeated_nested_message(i).bb());
}
delete heap_message;
}
TEST(ArenaTest, ReleaseLastRepeatedField) {
// Release from arena-allocated repeated field and ensure that returned object
// is heap-allocated.
Arena arena;
TestAllTypes* arena_message = Arena::CreateMessage<TestAllTypes>(&arena);
for (int i = 0; i < 10; i++) {
TestAllTypes::NestedMessage* nested =
Arena::CreateMessage<TestAllTypes::NestedMessage>(&arena);
nested->set_bb(42);
arena_message->mutable_repeated_nested_message()->AddAllocated(nested);
}
for (int i = 0; i < 10; i++) {
const TestAllTypes::NestedMessage *orig_submessage =
&arena_message->repeated_nested_message(10 - 1 - i); // last element
TestAllTypes::NestedMessage *released =
arena_message->mutable_repeated_nested_message()->ReleaseLast();
EXPECT_NE(released, orig_submessage);
EXPECT_EQ(42, released->bb());
delete released;
}
// Test UnsafeArenaReleaseLast().
for (int i = 0; i < 10; i++) {
TestAllTypes::NestedMessage* nested =
Arena::CreateMessage<TestAllTypes::NestedMessage>(&arena);
nested->set_bb(42);
arena_message->mutable_repeated_nested_message()->AddAllocated(nested);
}
for (int i = 0; i < 10; i++) {
const TestAllTypes::NestedMessage *orig_submessage =
&arena_message->repeated_nested_message(10 - 1 - i); // last element
TestAllTypes::NestedMessage *released =
arena_message->mutable_repeated_nested_message()->
UnsafeArenaReleaseLast();
EXPECT_EQ(released, orig_submessage);
EXPECT_EQ(42, released->bb());
// no delete -- |released| is on the arena.
}
// Test string case as well. ReleaseLast() in this case must copy the string,
// even though it was originally heap-allocated and its pointer was simply
// appended to the repeated field's internal vector, because the string was
// placed on the arena's destructor list and cannot be removed from that list
// (so the arena permanently owns the original instance).
arena_message->Clear();
for (int i = 0; i < 10; i++) {
string* s = new string("Test");
arena_message->mutable_repeated_string()->AddAllocated(s);
}
for (int i = 0; i < 10; i++) {
const string* orig_element = &arena_message->repeated_string(10 - 1 - i);
string* released = arena_message->mutable_repeated_string()->ReleaseLast();
EXPECT_NE(released, orig_element);
EXPECT_EQ("Test", *released);
delete released;
}
}
TEST(ArenaTest, UnsafeArenaReleaseAdd) {
// Use unsafe_arena_release() and unsafe_arena_set_allocated() to transfer an
// arena-allocated string from one message to another.
Arena arena;
TestAllTypes* message1 = Arena::CreateMessage<TestAllTypes>(&arena);
TestAllTypes* message2 = Arena::CreateMessage<TestAllTypes>(&arena);
string* arena_string = Arena::Create<string>(&arena);
*arena_string = "Test content";
message1->unsafe_arena_set_allocated_optional_string(arena_string);
EXPECT_EQ(arena_string, message1->mutable_optional_string());
message2->unsafe_arena_set_allocated_optional_string(
message1->unsafe_arena_release_optional_string());
EXPECT_EQ(arena_string, message2->mutable_optional_string());
}
TEST(ArenaTest, UnsafeArenaAddAllocated) {
Arena arena;
TestAllTypes* message = Arena::CreateMessage<TestAllTypes>(&arena);
for (int i = 0; i < 10; i++) {
string* arena_string = Arena::Create<string>(&arena);
message->mutable_repeated_string()->UnsafeArenaAddAllocated(arena_string);
EXPECT_EQ(arena_string, message->mutable_repeated_string(i));
}
}
TEST(ArenaTest, UnsafeArenaRelease) {
Arena arena;
TestAllTypes* message = Arena::CreateMessage<TestAllTypes>(&arena);
string* s = new string("test string");
message->unsafe_arena_set_allocated_optional_string(s);
EXPECT_TRUE(message->has_optional_string());
EXPECT_EQ("test string", message->optional_string());
s = message->unsafe_arena_release_optional_string();
EXPECT_FALSE(message->has_optional_string());
delete s;
s = new string("test string");
message->unsafe_arena_set_allocated_oneof_string(s);
EXPECT_TRUE(message->has_oneof_string());
EXPECT_EQ("test string", message->oneof_string());
s = message->unsafe_arena_release_oneof_string();
EXPECT_FALSE(message->has_oneof_string());
delete s;
}
TEST(ArenaTest, ArenaOneofReflection) {
Arena arena;
TestAllTypes* message = Arena::CreateMessage<TestAllTypes>(&arena);
const Descriptor* desc = message->GetDescriptor();
const Reflection* refl = message->GetReflection();
const FieldDescriptor* string_field = desc->FindFieldByName(
"oneof_string");
const FieldDescriptor* msg_field = desc->FindFieldByName(
"oneof_nested_message");
const OneofDescriptor* oneof = desc->FindOneofByName(
"oneof_field");
refl->SetString(message, string_field, "Test value");
EXPECT_TRUE(refl->HasOneof(*message, oneof));
refl->ClearOneof(message, oneof);
EXPECT_FALSE(refl->HasOneof(*message, oneof));
Message* submsg = refl->MutableMessage(message, msg_field);
EXPECT_TRUE(refl->HasOneof(*message, oneof));
refl->ClearOneof(message, oneof);
EXPECT_FALSE(refl->HasOneof(*message, oneof));
refl->MutableMessage(message, msg_field);
EXPECT_TRUE(refl->HasOneof(*message, oneof));
submsg = refl->ReleaseMessage(message, msg_field);
EXPECT_FALSE(refl->HasOneof(*message, oneof));
EXPECT_TRUE(submsg->GetArena() == NULL);
delete submsg;
}
namespace {
void TestSwapRepeatedField(Arena* arena1, Arena* arena2) {
// Test "safe" (copying) semantics for direct Swap() on RepeatedPtrField
// between arenas.
RepeatedPtrField<TestAllTypes> field1(arena1);
RepeatedPtrField<TestAllTypes> field2(arena2);
for (int i = 0; i < 10; i++) {
TestAllTypes* t = Arena::CreateMessage<TestAllTypes>(arena1);
t->set_optional_string("field1");
t->set_optional_int32(i);
if (arena1 != NULL) {
field1.UnsafeArenaAddAllocated(t);
} else {
field1.AddAllocated(t);
}
}
for (int i = 0; i < 5; i++) {
TestAllTypes* t = Arena::CreateMessage<TestAllTypes>(arena2);
t->set_optional_string("field2");
t->set_optional_int32(i);
if (arena2 != NULL) {
field2.UnsafeArenaAddAllocated(t);
} else {
field2.AddAllocated(t);
}
}
field1.Swap(&field2);
EXPECT_EQ(5, field1.size());
EXPECT_EQ(10, field2.size());
EXPECT_TRUE(string("field1") == field2.Get(0).optional_string());
EXPECT_TRUE(string("field2") == field1.Get(0).optional_string());
// Ensure that fields retained their original order:
for (int i = 0; i < field1.size(); i++) {
EXPECT_EQ(i, field1.Get(i).optional_int32());
}
for (int i = 0; i < field2.size(); i++) {
EXPECT_EQ(i, field2.Get(i).optional_int32());
}
}
} // namespace
TEST(ArenaTest, SwapRepeatedField) {
Arena arena;
TestSwapRepeatedField(&arena, &arena);
}
TEST(ArenaTest, SwapRepeatedFieldWithDifferentArenas) {
Arena arena1;
Arena arena2;
TestSwapRepeatedField(&arena1, &arena2);
}
TEST(ArenaTest, SwapRepeatedFieldWithNoArenaOnRightHandSide) {
Arena arena;
TestSwapRepeatedField(&arena, NULL);
}
TEST(ArenaTest, SwapRepeatedFieldWithNoArenaOnLeftHandSide) {
Arena arena;
TestSwapRepeatedField(NULL, &arena);
}
TEST(ArenaTest, ExtensionsOnArena) {
Arena arena;
// Ensure no leaks.
TestAllExtensions* message_ext =
Arena::CreateMessage<TestAllExtensions>(&arena);
message_ext->SetExtension(
protobuf_unittest::optional_int32_extension, 42);
message_ext->SetExtension(
protobuf_unittest::optional_string_extension, string("test"));
message_ext->MutableExtension(
protobuf_unittest::optional_nested_message_extension)->set_bb(42);
}
TEST(ArenaTest, RepeatedFieldOnArena) {
// Preallocate an initial arena block to avoid mallocs during hooked region.
std::vector<char> arena_block(1024 * 1024);
ArenaOptions options;
options.initial_block = &arena_block[0];
options.initial_block_size = arena_block.size();
Arena arena(options);
{
internal::NoHeapChecker no_heap;
// Fill some repeated fields on the arena to test for leaks. Also verify no
// memory allocations.
RepeatedField<int32> repeated_int32(&arena);
RepeatedPtrField<TestAllTypes> repeated_message(&arena);
for (int i = 0; i < 100; i++) {
repeated_int32.Add(42);
repeated_message.Add()->set_optional_int32(42);
EXPECT_EQ(&arena, repeated_message.Get(0).GetArena());
const TestAllTypes* msg_in_repeated_field = &repeated_message.Get(0);
TestAllTypes* msg = repeated_message.UnsafeArenaReleaseLast();
EXPECT_EQ(msg_in_repeated_field, msg);
}
// UnsafeArenaExtractSubrange (i) should not leak and (ii) should return
// on-arena pointers.
for (int i = 0; i < 10; i++) {
repeated_message.Add()->set_optional_int32(42);
}
TestAllTypes* extracted_messages[5];
repeated_message.UnsafeArenaExtractSubrange(0, 5, extracted_messages);
EXPECT_EQ(&arena, repeated_message.Get(0).GetArena());
EXPECT_EQ(5, repeated_message.size());
}
// Now, outside the scope of the NoHeapChecker, test ExtractSubrange's copying
// semantics.
{
RepeatedPtrField<TestAllTypes> repeated_message(&arena);
for (int i = 0; i < 100; i++) {
repeated_message.Add()->set_optional_int32(42);
}
TestAllTypes* extracted_messages[5];
// ExtractSubrange should copy to the heap.
repeated_message.ExtractSubrange(0, 5, extracted_messages);
EXPECT_EQ(NULL, extracted_messages[0]->GetArena());
// We need to free the heap-allocated messages to prevent a leak.
for (int i = 0; i < 5; i++) {
delete extracted_messages[i];
extracted_messages[i] = NULL;
}
}
// Now check that we can create RepeatedFields/RepeatedPtrFields themselves on
// the arena. They have the necessary type traits so that they can behave like
// messages in this way. This is useful for higher-level generic templated
// code that may allocate messages or repeated fields of messages on an arena.
{
RepeatedPtrField<TestAllTypes>* repeated_ptr_on_arena =
Arena::CreateMessage< RepeatedPtrField<TestAllTypes> >(&arena);
for (int i = 0; i < 10; i++) {
// Add some elements and let the leak-checker ensure that everything is
// freed.
repeated_ptr_on_arena->Add();
}
RepeatedField<int>* repeated_int_on_arena =
Arena::CreateMessage< RepeatedField<int> >(&arena);
for (int i = 0; i < 100; i++) {
repeated_int_on_arena->Add(i);
}
}
arena.Reset();
}
#ifndef GOOGLE_PROTOBUF_NO_RTTI
TEST(ArenaTest, MutableMessageReflection) {
Arena arena;
TestAllTypes* message = Arena::CreateMessage<TestAllTypes>(&arena);
const Reflection* r = message->GetReflection();
const Descriptor* d = message->GetDescriptor();
const FieldDescriptor* field = d->FindFieldByName("optional_nested_message");
TestAllTypes::NestedMessage* submessage =
static_cast<TestAllTypes::NestedMessage*>(
r->MutableMessage(message, field));
TestAllTypes::NestedMessage* submessage_expected =
message->mutable_optional_nested_message();
EXPECT_EQ(submessage_expected, submessage);
EXPECT_EQ(&arena, submessage->GetArena());
const FieldDescriptor* oneof_field = d->FindFieldByName("oneof_nested_message");
submessage = static_cast<TestAllTypes::NestedMessage*>(
r->MutableMessage(message, oneof_field));
submessage_expected = message->mutable_oneof_nested_message();
EXPECT_EQ(submessage_expected, submessage);
EXPECT_EQ(&arena, submessage->GetArena());
}
#endif // !GOOGLE_PROTOBUF_NO_RTTI
namespace {
void FillArenaAwareFields(TestAllTypes* message) {
string test_string = "hello world";
message->set_optional_int32(42);
message->set_optional_string(test_string);
message->set_optional_bytes(test_string);
message->mutable_optional_nested_message()->set_bb(42);
message->set_oneof_uint32(42);
message->mutable_oneof_nested_message()->set_bb(42);
message->set_oneof_string(test_string);
message->set_oneof_bytes(test_string);
message->add_repeated_int32(42);
// No repeated string: not yet arena-aware.
message->add_repeated_nested_message()->set_bb(42);
message->mutable_optional_lazy_message()->set_bb(42);
}
}
// Test: no allocations occur on heap while touching all supported field types.
TEST(ArenaTest, NoHeapAllocationsTest) {
// Allocate a large initial block to avoid mallocs during hooked test.
std::vector<char> arena_block(128 * 1024);
ArenaOptions options;
options.initial_block = &arena_block[0];
options.initial_block_size = arena_block.size();
Arena arena(options);
{
TestAllTypes* message = Arena::CreateMessage<TestAllTypes>(&arena);
FillArenaAwareFields(message);
}
arena.Reset();
}
#ifndef GOOGLE_PROTOBUF_NO_RTTI
// Test construction on an arena via generic MessageLite interface. We should be
// able to successfully deserialize on the arena without incurring heap
// allocations, i.e., everything should still be arena-allocation-aware.
TEST(ArenaTest, MessageLiteOnArena) {
std::vector<char> arena_block(128 * 1024);
ArenaOptions options;
options.initial_block = &arena_block[0];
options.initial_block_size = arena_block.size();
Arena arena(options);
const google::protobuf::MessageLite* prototype = &TestAllTypes::default_instance();
TestAllTypes initial_message;
FillArenaAwareFields(&initial_message);
string serialized;
initial_message.SerializeToString(&serialized);
{
google::protobuf::MessageLite* generic_message = prototype->New(&arena);
EXPECT_TRUE(generic_message != NULL);
EXPECT_EQ(&arena, generic_message->GetArena());
EXPECT_TRUE(generic_message->ParseFromString(serialized));
TestAllTypes* deserialized = static_cast<TestAllTypes*>(generic_message);
EXPECT_EQ(42, deserialized->optional_int32());
}
arena.Reset();
}
#endif // !GOOGLE_PROTOBUF_NO_RTTI
// RepeatedField should support non-POD types, and invoke constructors and
// destructors appropriately, because it's used this way by lots of other code
// (even if this was not its original intent).
TEST(ArenaTest, RepeatedFieldWithNonPODType) {
{
RepeatedField<string> field_on_heap;
for (int i = 0; i < 100; i++) {
*field_on_heap.Add() = "test string long enough to exceed inline buffer";
}
}
{
Arena arena;
RepeatedField<string> field_on_arena(&arena);
for (int i = 0; i < 100; i++) {
*field_on_arena.Add() = "test string long enough to exceed inline buffer";
}
}
}
// Align n to next multiple of 8
namespace {
uint64 Align8(uint64 n) { return (n + 7) & -8; }
} // namespace
TEST(ArenaTest, SpaceAllocated_and_Used) {
ArenaOptions options;
options.start_block_size = 256;
options.max_block_size = 8192;
Arena arena_1(options);
EXPECT_EQ(0, arena_1.SpaceAllocated());
EXPECT_EQ(0, arena_1.SpaceUsed());
EXPECT_EQ(0, arena_1.Reset());
::google::protobuf::Arena::CreateArray<char>(&arena_1, 320);
// Arena will allocate slightly more than 320 for the block headers.
EXPECT_LE(320, arena_1.SpaceAllocated());
EXPECT_EQ(Align8(320), arena_1.SpaceUsed());
EXPECT_LE(320, arena_1.Reset());
// Test with initial block.
std::vector<char> arena_block(1024);
options.initial_block = &arena_block[0];
options.initial_block_size = arena_block.size();
Arena arena_2(options);
EXPECT_EQ(1024, arena_2.SpaceAllocated());
EXPECT_EQ(0, arena_2.SpaceUsed());
EXPECT_EQ(1024, arena_2.Reset());
::google::protobuf::Arena::CreateArray<char>(&arena_2, 55);
EXPECT_EQ(1024, arena_2.SpaceAllocated());
EXPECT_EQ(Align8(55), arena_2.SpaceUsed());
EXPECT_EQ(1024, arena_2.Reset());
// Reset options to test doubling policy explicitly.
options.initial_block = NULL;
options.initial_block_size = 0;
Arena arena_3(options);
EXPECT_EQ(0, arena_3.SpaceUsed());
::google::protobuf::Arena::CreateArray<char>(&arena_3, 190);
EXPECT_EQ(256, arena_3.SpaceAllocated());
EXPECT_EQ(Align8(190), arena_3.SpaceUsed());
::google::protobuf::Arena::CreateArray<char>(&arena_3, 70);
EXPECT_EQ(256 + 512, arena_3.SpaceAllocated());
EXPECT_EQ(Align8(190) + Align8(70), arena_3.SpaceUsed());
EXPECT_EQ(256 + 512, arena_3.Reset());
}
TEST(ArenaTest, Alignment) {
::google::protobuf::Arena arena;
for (int i = 0; i < 200; i++) {
void* p = ::google::protobuf::Arena::CreateArray<char>(&arena, i);
GOOGLE_CHECK_EQ(reinterpret_cast<uintptr_t>(p) % 8, 0) << i << ": " << p;
}
}
TEST(ArenaTest, GetArenaShouldReturnTheArenaForArenaAllocatedMessages) {
::google::protobuf::Arena arena;
ArenaMessage* message = Arena::CreateMessage<ArenaMessage>(&arena);
const ArenaMessage* const_pointer_to_message = message;
EXPECT_EQ(&arena, Arena::GetArena(message));
EXPECT_EQ(&arena, Arena::GetArena(const_pointer_to_message));
}
TEST(ArenaTest, GetArenaShouldReturnNullForNonArenaAllocatedMessages) {
ArenaMessage message;
const ArenaMessage* const_pointer_to_message = &message;
EXPECT_EQ(NULL, Arena::GetArena(&message));
EXPECT_EQ(NULL, Arena::GetArena(const_pointer_to_message));
}
TEST(ArenaTest, UnsafeSetAllocatedOnArena) {
::google::protobuf::Arena arena;
TestAllTypes* message = Arena::CreateMessage<TestAllTypes>(&arena);
EXPECT_FALSE(message->has_optional_string());
string owned_string = "test with long enough content to heap-allocate";
message->unsafe_arena_set_allocated_optional_string(&owned_string);
EXPECT_TRUE(message->has_optional_string());
message->unsafe_arena_set_allocated_optional_string(NULL);
EXPECT_FALSE(message->has_optional_string());
}
// A helper utility class to only contain static hook functions, some
// counters to be used to verify the counters have been called and a cookie
// value to be verified.
class ArenaHooksTestUtil {
public:
static void* on_init(::google::protobuf::Arena* arena) {
++num_init;
int* cookie = new int(kCookieValue);
return static_cast<void*>(cookie);
}
static void on_allocation(const std::type_info* /*unused*/, uint64 alloc_size,
void* cookie) {
++num_allocations;
int cookie_value = *static_cast<int*>(cookie);
EXPECT_EQ(kCookieValue, cookie_value);
}
static void on_reset(::google::protobuf::Arena* arena, void* cookie,
uint64 space_used) {
++num_reset;
int cookie_value = *static_cast<int*>(cookie);
EXPECT_EQ(kCookieValue, cookie_value);
}
static void on_destruction(::google::protobuf::Arena* arena, void* cookie,
uint64 space_used) {
++num_destruct;
int cookie_value = *static_cast<int*>(cookie);
EXPECT_EQ(kCookieValue, cookie_value);
delete static_cast<int*>(cookie);
}
static const int kCookieValue = 999;
static uint32 num_init;
static uint32 num_allocations;
static uint32 num_reset;
static uint32 num_destruct;
};
uint32 ArenaHooksTestUtil::num_init = 0;
uint32 ArenaHooksTestUtil::num_allocations = 0;
uint32 ArenaHooksTestUtil::num_reset = 0;
uint32 ArenaHooksTestUtil::num_destruct = 0;
const int ArenaHooksTestUtil::kCookieValue;
// Test the hooks are correctly called and that the cookie is passed.
TEST(ArenaTest, ArenaHooksSanity) {
::google::protobuf::ArenaOptions options;
options.on_arena_init = ArenaHooksTestUtil::on_init;
options.on_arena_allocation = ArenaHooksTestUtil::on_allocation;
options.on_arena_reset = ArenaHooksTestUtil::on_reset;
options.on_arena_destruction = ArenaHooksTestUtil::on_destruction;
// Scope for defining the arena
{
::google::protobuf::Arena arena(options);
EXPECT_EQ(1, ArenaHooksTestUtil::num_init);
EXPECT_EQ(0, ArenaHooksTestUtil::num_allocations);
::google::protobuf::Arena::Create<uint64>(&arena);
if (google::protobuf::internal::has_trivial_destructor<uint64>::value) {
EXPECT_EQ(1, ArenaHooksTestUtil::num_allocations);
} else {
EXPECT_EQ(2, ArenaHooksTestUtil::num_allocations);
}
arena.Reset();
arena.Reset();
EXPECT_EQ(2, ArenaHooksTestUtil::num_reset);
}
EXPECT_EQ(3, ArenaHooksTestUtil::num_reset);
EXPECT_EQ(1, ArenaHooksTestUtil::num_destruct);
}
} // namespace protobuf
} // namespace google