types_test.cpp - platform/packages/modules/adb - Git at Google

 /*
  * Copyright (C) 2018 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 "types.h"

 #include <gtest/gtest.h>

 #include <memory>
 #include <utility>

 #include "fdevent/fdevent_test.h"

 static IOVector::block_type create_block(const std::string& string) {
     return IOVector::block_type(string.begin(), string.end());
 }

 static IOVector::block_type create_block(char value, size_t len) {
     auto block = IOVector::block_type();
     block.resize(len);
     memset(&(block)[0], value, len);
     return block;
 }

 template <typename T>
 static IOVector::block_type copy_block(const T& block) {
     auto copy = IOVector::block_type();
     copy.assign(block.begin(), block.end());
     return copy;
 }

 TEST(IOVector, empty) {
     // Empty IOVector.
     IOVector bc;
     CHECK_EQ(0ULL, bc.coalesce().size());
 }

 TEST(IOVector, single_block) {
     // A single block.
     auto block = create_block('x', 100);
     IOVector bc;
     bc.append(copy_block(block));
     ASSERT_EQ(100ULL, bc.size());
     auto coalesced = bc.coalesce();
     ASSERT_EQ(block, coalesced);
 }

 TEST(IOVector, single_block_split) {
     // One block split.
     IOVector bc;
     bc.append(create_block("foobar"));
     IOVector foo = bc.take_front(3);
     ASSERT_EQ(3ULL, foo.size());
     ASSERT_EQ(3ULL, bc.size());
     ASSERT_EQ(create_block("foo"), foo.coalesce());
     ASSERT_EQ(create_block("bar"), bc.coalesce());
 }

 TEST(IOVector, aligned_split) {
     IOVector bc;
     bc.append(create_block("foo"));
     bc.append(create_block("bar"));
     bc.append(create_block("baz"));
     ASSERT_EQ(9ULL, bc.size());

     IOVector foo = bc.take_front(3);
     ASSERT_EQ(3ULL, foo.size());
     ASSERT_EQ(create_block("foo"), foo.coalesce());

     IOVector bar = bc.take_front(3);
     ASSERT_EQ(3ULL, bar.size());
     ASSERT_EQ(create_block("bar"), bar.coalesce());

     IOVector baz = bc.take_front(3);
     ASSERT_EQ(3ULL, baz.size());
     ASSERT_EQ(create_block("baz"), baz.coalesce());

     ASSERT_EQ(0ULL, bc.size());
 }

 TEST(IOVector, misaligned_split) {
     IOVector bc;
     bc.append(create_block("foo"));
     bc.append(create_block("bar"));
     bc.append(create_block("baz"));
     bc.append(create_block("qux"));
     bc.append(create_block("quux"));

     // Aligned left, misaligned right, across multiple blocks.
     IOVector foob = bc.take_front(4);
     ASSERT_EQ(4ULL, foob.size());
     ASSERT_EQ(create_block("foob"), foob.coalesce());

     // Misaligned left, misaligned right, in one block.
     IOVector a = bc.take_front(1);
     ASSERT_EQ(1ULL, a.size());
     ASSERT_EQ(create_block("a"), a.coalesce());

     // Misaligned left, misaligned right, across two blocks.
     IOVector rba = bc.take_front(3);
     ASSERT_EQ(3ULL, rba.size());
     ASSERT_EQ(create_block("rba"), rba.coalesce());

     // Misaligned left, misaligned right, across three blocks.
     IOVector zquxquu = bc.take_front(7);
     ASSERT_EQ(7ULL, zquxquu.size());
     ASSERT_EQ(create_block("zquxquu"), zquxquu.coalesce());

     ASSERT_EQ(1ULL, bc.size());
     ASSERT_EQ(create_block("x"), bc.coalesce());
 }

 TEST(IOVector, drop_front) {
     IOVector vec;

     vec.append(create_block('x', 2));
     vec.append(create_block('y', 1000));
     ASSERT_EQ(2U, vec.front_size());
     ASSERT_EQ(1002U, vec.size());

     vec.drop_front(1);
     ASSERT_EQ(1U, vec.front_size());
     ASSERT_EQ(1001U, vec.size());

     vec.drop_front(1);
     ASSERT_EQ(1000U, vec.front_size());
     ASSERT_EQ(1000U, vec.size());
 }

 TEST(IOVector, take_front) {
     IOVector vec;
     ASSERT_TRUE(vec.take_front(0).empty());

     vec.append(create_block('x', 2));
     ASSERT_EQ(2ULL, vec.size());

     ASSERT_EQ(1ULL, vec.take_front(1).size());
     ASSERT_EQ(1ULL, vec.size());

     ASSERT_EQ(1ULL, vec.take_front(1).size());
     ASSERT_EQ(0ULL, vec.size());
 }

 TEST(IOVector, trim_front) {
     IOVector vec;
     vec.append(create_block('x', 2));

     ASSERT_EQ(1ULL, vec.take_front(1).size());
     ASSERT_EQ(1ULL, vec.size());
     vec.trim_front();
     ASSERT_EQ(1ULL, vec.size());
 }

 class weak_ptr_test : public FdeventTest {};

 struct Destructor : public enable_weak_from_this<Destructor> {
     Destructor(bool* destroyed) : destroyed_(destroyed) {}
     ~Destructor() { *destroyed_ = true; }

     bool* destroyed_;
 };

 TEST_F(weak_ptr_test, smoke) {
     PrepareThread();

     Destructor* destructor = nullptr;
     bool destroyed = false;
     std::optional<weak_ptr<Destructor>> p;

     fdevent_run_on_main_thread([&p, &destructor, &destroyed]() {
         destructor = new Destructor(&destroyed);
         p = destructor->weak();
         ASSERT_TRUE(p->get());

         p->reset();
         ASSERT_FALSE(p->get());

         p->reset(destructor);
         ASSERT_TRUE(p->get());
     });
     WaitForFdeventLoop();
     ASSERT_TRUE(destructor);
     ASSERT_FALSE(destroyed);

     destructor->schedule_deletion();
     WaitForFdeventLoop();

     ASSERT_TRUE(destroyed);
     fdevent_run_on_main_thread([&p]() {
         ASSERT_FALSE(p->get());
         p.reset();
     });

     TerminateThread();
 }
	/*
	* Copyright (C) 2018 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 "types.h"

	#include <gtest/gtest.h>

	#include <memory>
	#include <utility>

	#include "fdevent/fdevent_test.h"

	static IOVector::block_type create_block(const std::string& string) {
	return IOVector::block_type(string.begin(), string.end());
	}

	static IOVector::block_type create_block(char value, size_t len) {
	auto block = IOVector::block_type();
	block.resize(len);
	memset(&(block)[0], value, len);
	return block;
	}

	template <typename T>
	static IOVector::block_type copy_block(const T& block) {
	auto copy = IOVector::block_type();
	copy.assign(block.begin(), block.end());
	return copy;
	}

	TEST(IOVector, empty) {
	// Empty IOVector.
	IOVector bc;
	CHECK_EQ(0ULL, bc.coalesce().size());
	}

	TEST(IOVector, single_block) {
	// A single block.
	auto block = create_block('x', 100);
	IOVector bc;
	bc.append(copy_block(block));
	ASSERT_EQ(100ULL, bc.size());
	auto coalesced = bc.coalesce();
	ASSERT_EQ(block, coalesced);
	}

	TEST(IOVector, single_block_split) {
	// One block split.
	IOVector bc;
	bc.append(create_block("foobar"));
	IOVector foo = bc.take_front(3);
	ASSERT_EQ(3ULL, foo.size());
	ASSERT_EQ(3ULL, bc.size());
	ASSERT_EQ(create_block("foo"), foo.coalesce());
	ASSERT_EQ(create_block("bar"), bc.coalesce());
	}

	TEST(IOVector, aligned_split) {
	IOVector bc;
	bc.append(create_block("foo"));
	bc.append(create_block("bar"));
	bc.append(create_block("baz"));
	ASSERT_EQ(9ULL, bc.size());

	IOVector foo = bc.take_front(3);
	ASSERT_EQ(3ULL, foo.size());
	ASSERT_EQ(create_block("foo"), foo.coalesce());

	IOVector bar = bc.take_front(3);
	ASSERT_EQ(3ULL, bar.size());
	ASSERT_EQ(create_block("bar"), bar.coalesce());

	IOVector baz = bc.take_front(3);
	ASSERT_EQ(3ULL, baz.size());
	ASSERT_EQ(create_block("baz"), baz.coalesce());

	ASSERT_EQ(0ULL, bc.size());
	}

	TEST(IOVector, misaligned_split) {
	IOVector bc;
	bc.append(create_block("foo"));
	bc.append(create_block("bar"));
	bc.append(create_block("baz"));
	bc.append(create_block("qux"));
	bc.append(create_block("quux"));

	// Aligned left, misaligned right, across multiple blocks.
	IOVector foob = bc.take_front(4);
	ASSERT_EQ(4ULL, foob.size());
	ASSERT_EQ(create_block("foob"), foob.coalesce());

	// Misaligned left, misaligned right, in one block.
	IOVector a = bc.take_front(1);
	ASSERT_EQ(1ULL, a.size());
	ASSERT_EQ(create_block("a"), a.coalesce());

	// Misaligned left, misaligned right, across two blocks.
	IOVector rba = bc.take_front(3);
	ASSERT_EQ(3ULL, rba.size());
	ASSERT_EQ(create_block("rba"), rba.coalesce());

	// Misaligned left, misaligned right, across three blocks.
	IOVector zquxquu = bc.take_front(7);
	ASSERT_EQ(7ULL, zquxquu.size());
	ASSERT_EQ(create_block("zquxquu"), zquxquu.coalesce());

	ASSERT_EQ(1ULL, bc.size());
	ASSERT_EQ(create_block("x"), bc.coalesce());
	}

	TEST(IOVector, drop_front) {
	IOVector vec;

	vec.append(create_block('x', 2));
	vec.append(create_block('y', 1000));
	ASSERT_EQ(2U, vec.front_size());
	ASSERT_EQ(1002U, vec.size());

	vec.drop_front(1);
	ASSERT_EQ(1U, vec.front_size());
	ASSERT_EQ(1001U, vec.size());

	vec.drop_front(1);
	ASSERT_EQ(1000U, vec.front_size());
	ASSERT_EQ(1000U, vec.size());
	}

	TEST(IOVector, take_front) {
	IOVector vec;
	ASSERT_TRUE(vec.take_front(0).empty());

	vec.append(create_block('x', 2));
	ASSERT_EQ(2ULL, vec.size());

	ASSERT_EQ(1ULL, vec.take_front(1).size());
	ASSERT_EQ(1ULL, vec.size());

	ASSERT_EQ(1ULL, vec.take_front(1).size());
	ASSERT_EQ(0ULL, vec.size());
	}

	TEST(IOVector, trim_front) {
	IOVector vec;
	vec.append(create_block('x', 2));

	ASSERT_EQ(1ULL, vec.take_front(1).size());
	ASSERT_EQ(1ULL, vec.size());
	vec.trim_front();
	ASSERT_EQ(1ULL, vec.size());
	}

	class weak_ptr_test : public FdeventTest {};

	struct Destructor : public enable_weak_from_this<Destructor> {
	Destructor(bool* destroyed) : destroyed_(destroyed) {}
	~Destructor() { *destroyed_ = true; }

	bool* destroyed_;
	};

	TEST_F(weak_ptr_test, smoke) {
	PrepareThread();

	Destructor* destructor = nullptr;
	bool destroyed = false;
	std::optional<weak_ptr<Destructor>> p;

	fdevent_run_on_main_thread([&p, &destructor, &destroyed]() {
	destructor = new Destructor(&destroyed);
	p = destructor->weak();
	ASSERT_TRUE(p->get());

	p->reset();
	ASSERT_FALSE(p->get());

	p->reset(destructor);
	ASSERT_TRUE(p->get());
	});
	WaitForFdeventLoop();
	ASSERT_TRUE(destructor);
	ASSERT_FALSE(destroyed);

	destructor->schedule_deletion();
	WaitForFdeventLoop();

	ASSERT_TRUE(destroyed);
	fdevent_run_on_main_thread([&p]() {
	ASSERT_FALSE(p->get());
	p.reset();
	});

	TerminateThread();
	}