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// Copyright 2014 The Chromium Authors
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "base/supports_user_data.h"
#include "base/features.h"
#include "base/memory/ptr_util.h"
#include "base/memory/raw_ptr.h"
#include "base/memory/raw_ref.h"
#include "base/test/gtest_util.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace base {
namespace {
struct TestSupportsUserData : public SupportsUserData {
// Make ClearAllUserData public so tests can access it.
using SupportsUserData::ClearAllUserData;
};
struct UsesItself : public SupportsUserData::Data {
UsesItself(SupportsUserData* supports_user_data, const void* key)
: supports_user_data_(supports_user_data),
key_(key) {
}
~UsesItself() override {
EXPECT_EQ(nullptr, supports_user_data_->GetUserData(key_));
}
raw_ptr<SupportsUserData> supports_user_data_;
raw_ptr<const void> key_;
};
using SupportsUserDataTest = ::testing::Test;
TEST_F(SupportsUserDataTest, ClearWorksRecursively) {
char key = 0; // Must outlive `supports_user_data`.
TestSupportsUserData supports_user_data;
supports_user_data.SetUserData(
&key, std::make_unique<UsesItself>(&supports_user_data, &key));
// Destruction of supports_user_data runs the actual test.
}
struct TestData : public SupportsUserData::Data {};
TEST_F(SupportsUserDataTest, Movable) {
TestSupportsUserData supports_user_data_1;
char key1 = 0;
supports_user_data_1.SetUserData(&key1, std::make_unique<TestData>());
void* data_1_ptr = supports_user_data_1.GetUserData(&key1);
TestSupportsUserData supports_user_data_2;
char key2 = 0;
supports_user_data_2.SetUserData(&key2, std::make_unique<TestData>());
supports_user_data_2 = std::move(supports_user_data_1);
EXPECT_EQ(data_1_ptr, supports_user_data_2.GetUserData(&key1));
EXPECT_EQ(nullptr, supports_user_data_2.GetUserData(&key2));
}
TEST_F(SupportsUserDataTest, ClearAllUserData) {
TestSupportsUserData supports_user_data;
char key1 = 0;
supports_user_data.SetUserData(&key1, std::make_unique<TestData>());
char key2 = 0;
supports_user_data.SetUserData(&key2, std::make_unique<TestData>());
EXPECT_TRUE(supports_user_data.GetUserData(&key1));
EXPECT_TRUE(supports_user_data.GetUserData(&key2));
supports_user_data.ClearAllUserData();
EXPECT_FALSE(supports_user_data.GetUserData(&key1));
EXPECT_FALSE(supports_user_data.GetUserData(&key2));
}
TEST_F(SupportsUserDataTest, TakeUserData) {
TestSupportsUserData supports_user_data;
char key1 = 0;
supports_user_data.SetUserData(&key1, std::make_unique<TestData>());
TestSupportsUserData::Data* data1_ptr = supports_user_data.GetUserData(&key1);
EXPECT_NE(data1_ptr, nullptr);
char wrong_key = 0;
EXPECT_FALSE(supports_user_data.TakeUserData(&wrong_key));
EXPECT_EQ(supports_user_data.GetUserData(&key1), data1_ptr);
std::unique_ptr<TestSupportsUserData::Data> data1 =
supports_user_data.TakeUserData(&key1);
EXPECT_EQ(data1.get(), data1_ptr);
EXPECT_FALSE(supports_user_data.GetUserData(&key1));
EXPECT_FALSE(supports_user_data.TakeUserData(&key1));
}
class DataOwnsSupportsUserData : public SupportsUserData::Data {
public:
TestSupportsUserData* supports_user_data() { return &supports_user_data_; }
private:
TestSupportsUserData supports_user_data_;
};
// Tests that removing a `SupportsUserData::Data` that owns a `SupportsUserData`
// does not crash.
TEST_F(SupportsUserDataTest, ReentrantRemoveUserData) {
DataOwnsSupportsUserData* data = new DataOwnsSupportsUserData;
char key = 0;
data->supports_user_data()->SetUserData(&key, WrapUnique(data));
data->supports_user_data()->RemoveUserData(&key);
}
TEST_F(SupportsUserDataTest, ReentrantSetUserDataDuringRemoval) {
static const char kKey = 0;
class ProblematicSet : public SupportsUserData::Data {
public:
explicit ProblematicSet(const void* const key,
TestSupportsUserData& supports_user_data)
: key_(key), supports_user_data_(supports_user_data) {}
~ProblematicSet() override {
supports_user_data_->SetUserData(
key_, std::make_unique<ProblematicSet>(key_, *supports_user_data_));
}
private:
const raw_ptr<const void> key_;
raw_ref<TestSupportsUserData> supports_user_data_;
};
{
absl::optional<TestSupportsUserData> supports_user_data;
supports_user_data.emplace();
// This awkward construction is required since death tests are typically
// implemented using `fork()`, so calling `SetUserData()` outside the
// `EXPECT_CHECK_DEATH()` macro will also crash the process that's trying to
// observe the crash.
EXPECT_CHECK_DEATH([&] {
supports_user_data->SetUserData(
&kKey, std::make_unique<ProblematicSet>(&kKey, *supports_user_data));
// Triggers the reentrant attempt to call `SetUserData()` during
// destruction.
supports_user_data.reset();
}());
}
}
} // namespace
} // namespace base
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