webrtc/base/bytebuffer_unittest.cc - platform/external/webrtc - Git at Google

 /*
  *  Copyright 2004 The WebRTC Project Authors. All rights reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 #include "webrtc/base/bytebuffer.h"
 #include "webrtc/base/byteorder.h"
 #include "webrtc/base/common.h"
 #include "webrtc/base/gunit.h"

 namespace rtc {

 TEST(ByteBufferTest, TestByteOrder) {
   uint16 n16 = 1;
   uint32 n32 = 1;
   uint64 n64 = 1;

   EXPECT_EQ(n16, NetworkToHost16(HostToNetwork16(n16)));
   EXPECT_EQ(n32, NetworkToHost32(HostToNetwork32(n32)));
   EXPECT_EQ(n64, NetworkToHost64(HostToNetwork64(n64)));

   if (IsHostBigEndian()) {
     // The host is the network (big) endian.
     EXPECT_EQ(n16, HostToNetwork16(n16));
     EXPECT_EQ(n32, HostToNetwork32(n32));
     EXPECT_EQ(n64, HostToNetwork64(n64));

     // GetBE converts big endian to little endian here.
     EXPECT_EQ(n16 >> 8, GetBE16(&n16));
     EXPECT_EQ(n32 >> 24, GetBE32(&n32));
     EXPECT_EQ(n64 >> 56, GetBE64(&n64));
   } else {
     // The host is little endian.
     EXPECT_NE(n16, HostToNetwork16(n16));
     EXPECT_NE(n32, HostToNetwork32(n32));
     EXPECT_NE(n64, HostToNetwork64(n64));

     // GetBE converts little endian to big endian here.
     EXPECT_EQ(GetBE16(&n16), HostToNetwork16(n16));
     EXPECT_EQ(GetBE32(&n32), HostToNetwork32(n32));
     EXPECT_EQ(GetBE64(&n64), HostToNetwork64(n64));

     // GetBE converts little endian to big endian here.
     EXPECT_EQ(n16 << 8, GetBE16(&n16));
     EXPECT_EQ(n32 << 24, GetBE32(&n32));
     EXPECT_EQ(n64 << 56, GetBE64(&n64));
   }
 }

 TEST(ByteBufferTest, TestBufferLength) {
   ByteBuffer buffer;
   size_t size = 0;
   EXPECT_EQ(size, buffer.Length());

   buffer.WriteUInt8(1);
   ++size;
   EXPECT_EQ(size, buffer.Length());

   buffer.WriteUInt16(1);
   size += 2;
   EXPECT_EQ(size, buffer.Length());

   buffer.WriteUInt24(1);
   size += 3;
   EXPECT_EQ(size, buffer.Length());

   buffer.WriteUInt32(1);
   size += 4;
   EXPECT_EQ(size, buffer.Length());

   buffer.WriteUInt64(1);
   size += 8;
   EXPECT_EQ(size, buffer.Length());

   EXPECT_TRUE(buffer.Consume(0));
   EXPECT_EQ(size, buffer.Length());

   EXPECT_TRUE(buffer.Consume(4));
   size -= 4;
   EXPECT_EQ(size, buffer.Length());
 }

 TEST(ByteBufferTest, TestGetSetReadPosition) {
   ByteBuffer buffer("ABCDEF", 6);
   EXPECT_EQ(6U, buffer.Length());
   ByteBuffer::ReadPosition pos(buffer.GetReadPosition());
   EXPECT_TRUE(buffer.SetReadPosition(pos));
   EXPECT_EQ(6U, buffer.Length());
   std::string read;
   EXPECT_TRUE(buffer.ReadString(&read, 3));
   EXPECT_EQ("ABC", read);
   EXPECT_EQ(3U, buffer.Length());
   EXPECT_TRUE(buffer.SetReadPosition(pos));
   EXPECT_EQ(6U, buffer.Length());
   read.clear();
   EXPECT_TRUE(buffer.ReadString(&read, 3));
   EXPECT_EQ("ABC", read);
   EXPECT_EQ(3U, buffer.Length());
   // For a resize by writing Capacity() number of bytes.
   size_t capacity = buffer.Capacity();
   buffer.ReserveWriteBuffer(buffer.Capacity());
   EXPECT_EQ(capacity + 3U, buffer.Length());
   EXPECT_FALSE(buffer.SetReadPosition(pos));
   read.clear();
   EXPECT_TRUE(buffer.ReadString(&read, 3));
   EXPECT_EQ("DEF", read);
 }

 TEST(ByteBufferTest, TestReadWriteBuffer) {
   ByteBuffer::ByteOrder orders[2] = { ByteBuffer::ORDER_HOST,
                                       ByteBuffer::ORDER_NETWORK };
   for (size_t i = 0; i < ARRAY_SIZE(orders); i++) {
     ByteBuffer buffer(orders[i]);
     EXPECT_EQ(orders[i], buffer.Order());
     uint8 ru8;
     EXPECT_FALSE(buffer.ReadUInt8(&ru8));

     // Write and read uint8.
     uint8 wu8 = 1;
     buffer.WriteUInt8(wu8);
     EXPECT_TRUE(buffer.ReadUInt8(&ru8));
     EXPECT_EQ(wu8, ru8);
     EXPECT_EQ(0U, buffer.Length());

     // Write and read uint16.
     uint16 wu16 = (1 << 8) + 1;
     buffer.WriteUInt16(wu16);
     uint16 ru16;
     EXPECT_TRUE(buffer.ReadUInt16(&ru16));
     EXPECT_EQ(wu16, ru16);
     EXPECT_EQ(0U, buffer.Length());

     // Write and read uint24.
     uint32 wu24 = (3 << 16) + (2 << 8) + 1;
     buffer.WriteUInt24(wu24);
     uint32 ru24;
     EXPECT_TRUE(buffer.ReadUInt24(&ru24));
     EXPECT_EQ(wu24, ru24);
     EXPECT_EQ(0U, buffer.Length());

     // Write and read uint32.
     uint32 wu32 = (4 << 24) + (3 << 16) + (2 << 8) + 1;
     buffer.WriteUInt32(wu32);
     uint32 ru32;
     EXPECT_TRUE(buffer.ReadUInt32(&ru32));
     EXPECT_EQ(wu32, ru32);
     EXPECT_EQ(0U, buffer.Length());

     // Write and read uint64.
     uint32 another32 = (8 << 24) + (7 << 16) + (6 << 8) + 5;
     uint64 wu64 = (static_cast<uint64>(another32) << 32) + wu32;
     buffer.WriteUInt64(wu64);
     uint64 ru64;
     EXPECT_TRUE(buffer.ReadUInt64(&ru64));
     EXPECT_EQ(wu64, ru64);
     EXPECT_EQ(0U, buffer.Length());

     // Write and read string.
     std::string write_string("hello");
     buffer.WriteString(write_string);
     std::string read_string;
     EXPECT_TRUE(buffer.ReadString(&read_string, write_string.size()));
     EXPECT_EQ(write_string, read_string);
     EXPECT_EQ(0U, buffer.Length());

     // Write and read bytes
     char write_bytes[] = "foo";
     buffer.WriteBytes(write_bytes, 3);
     char read_bytes[3];
     EXPECT_TRUE(buffer.ReadBytes(read_bytes, 3));
     for (int i = 0; i < 3; ++i) {
       EXPECT_EQ(write_bytes[i], read_bytes[i]);
     }
     EXPECT_EQ(0U, buffer.Length());

     // Write and read reserved buffer space
     char* write_dst = buffer.ReserveWriteBuffer(3);
     memcpy(write_dst, write_bytes, 3);
     memset(read_bytes, 0, 3);
     EXPECT_TRUE(buffer.ReadBytes(read_bytes, 3));
     for (int i = 0; i < 3; ++i) {
       EXPECT_EQ(write_bytes[i], read_bytes[i]);
     }
     EXPECT_EQ(0U, buffer.Length());

     // Write and read in order.
     buffer.WriteUInt8(wu8);
     buffer.WriteUInt16(wu16);
     buffer.WriteUInt24(wu24);
     buffer.WriteUInt32(wu32);
     buffer.WriteUInt64(wu64);
     EXPECT_TRUE(buffer.ReadUInt8(&ru8));
     EXPECT_EQ(wu8, ru8);
     EXPECT_TRUE(buffer.ReadUInt16(&ru16));
     EXPECT_EQ(wu16, ru16);
     EXPECT_TRUE(buffer.ReadUInt24(&ru24));
     EXPECT_EQ(wu24, ru24);
     EXPECT_TRUE(buffer.ReadUInt32(&ru32));
     EXPECT_EQ(wu32, ru32);
     EXPECT_TRUE(buffer.ReadUInt64(&ru64));
     EXPECT_EQ(wu64, ru64);
     EXPECT_EQ(0U, buffer.Length());
   }
 }

 }  // namespace rtc
	/*
	* Copyright 2004 The WebRTC Project Authors. All rights reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	#include "webrtc/base/bytebuffer.h"
	#include "webrtc/base/byteorder.h"
	#include "webrtc/base/common.h"
	#include "webrtc/base/gunit.h"

	namespace rtc {

	TEST(ByteBufferTest, TestByteOrder) {
	uint16 n16 = 1;
	uint32 n32 = 1;
	uint64 n64 = 1;

	EXPECT_EQ(n16, NetworkToHost16(HostToNetwork16(n16)));
	EXPECT_EQ(n32, NetworkToHost32(HostToNetwork32(n32)));
	EXPECT_EQ(n64, NetworkToHost64(HostToNetwork64(n64)));

	if (IsHostBigEndian()) {
	// The host is the network (big) endian.
	EXPECT_EQ(n16, HostToNetwork16(n16));
	EXPECT_EQ(n32, HostToNetwork32(n32));
	EXPECT_EQ(n64, HostToNetwork64(n64));

	// GetBE converts big endian to little endian here.
	EXPECT_EQ(n16 >> 8, GetBE16(&n16));
	EXPECT_EQ(n32 >> 24, GetBE32(&n32));
	EXPECT_EQ(n64 >> 56, GetBE64(&n64));
	} else {
	// The host is little endian.
	EXPECT_NE(n16, HostToNetwork16(n16));
	EXPECT_NE(n32, HostToNetwork32(n32));
	EXPECT_NE(n64, HostToNetwork64(n64));

	// GetBE converts little endian to big endian here.
	EXPECT_EQ(GetBE16(&n16), HostToNetwork16(n16));
	EXPECT_EQ(GetBE32(&n32), HostToNetwork32(n32));
	EXPECT_EQ(GetBE64(&n64), HostToNetwork64(n64));

	// GetBE converts little endian to big endian here.
	EXPECT_EQ(n16 << 8, GetBE16(&n16));
	EXPECT_EQ(n32 << 24, GetBE32(&n32));
	EXPECT_EQ(n64 << 56, GetBE64(&n64));
	}
	}

	TEST(ByteBufferTest, TestBufferLength) {
	ByteBuffer buffer;
	size_t size = 0;
	EXPECT_EQ(size, buffer.Length());

	buffer.WriteUInt8(1);
	++size;
	EXPECT_EQ(size, buffer.Length());

	buffer.WriteUInt16(1);
	size += 2;
	EXPECT_EQ(size, buffer.Length());

	buffer.WriteUInt24(1);
	size += 3;
	EXPECT_EQ(size, buffer.Length());

	buffer.WriteUInt32(1);
	size += 4;
	EXPECT_EQ(size, buffer.Length());

	buffer.WriteUInt64(1);
	size += 8;
	EXPECT_EQ(size, buffer.Length());

	EXPECT_TRUE(buffer.Consume(0));
	EXPECT_EQ(size, buffer.Length());

	EXPECT_TRUE(buffer.Consume(4));
	size -= 4;
	EXPECT_EQ(size, buffer.Length());
	}

	TEST(ByteBufferTest, TestGetSetReadPosition) {
	ByteBuffer buffer("ABCDEF", 6);
	EXPECT_EQ(6U, buffer.Length());
	ByteBuffer::ReadPosition pos(buffer.GetReadPosition());
	EXPECT_TRUE(buffer.SetReadPosition(pos));
	EXPECT_EQ(6U, buffer.Length());
	std::string read;
	EXPECT_TRUE(buffer.ReadString(&read, 3));
	EXPECT_EQ("ABC", read);
	EXPECT_EQ(3U, buffer.Length());
	EXPECT_TRUE(buffer.SetReadPosition(pos));
	EXPECT_EQ(6U, buffer.Length());
	read.clear();
	EXPECT_TRUE(buffer.ReadString(&read, 3));
	EXPECT_EQ("ABC", read);
	EXPECT_EQ(3U, buffer.Length());
	// For a resize by writing Capacity() number of bytes.
	size_t capacity = buffer.Capacity();
	buffer.ReserveWriteBuffer(buffer.Capacity());
	EXPECT_EQ(capacity + 3U, buffer.Length());
	EXPECT_FALSE(buffer.SetReadPosition(pos));
	read.clear();
	EXPECT_TRUE(buffer.ReadString(&read, 3));
	EXPECT_EQ("DEF", read);
	}

	TEST(ByteBufferTest, TestReadWriteBuffer) {
	ByteBuffer::ByteOrder orders[2] = { ByteBuffer::ORDER_HOST,
	ByteBuffer::ORDER_NETWORK };
	for (size_t i = 0; i < ARRAY_SIZE(orders); i++) {
	ByteBuffer buffer(orders[i]);
	EXPECT_EQ(orders[i], buffer.Order());
	uint8 ru8;
	EXPECT_FALSE(buffer.ReadUInt8(&ru8));

	// Write and read uint8.
	uint8 wu8 = 1;
	buffer.WriteUInt8(wu8);
	EXPECT_TRUE(buffer.ReadUInt8(&ru8));
	EXPECT_EQ(wu8, ru8);
	EXPECT_EQ(0U, buffer.Length());

	// Write and read uint16.
	uint16 wu16 = (1 << 8) + 1;
	buffer.WriteUInt16(wu16);
	uint16 ru16;
	EXPECT_TRUE(buffer.ReadUInt16(&ru16));
	EXPECT_EQ(wu16, ru16);
	EXPECT_EQ(0U, buffer.Length());

	// Write and read uint24.
	uint32 wu24 = (3 << 16) + (2 << 8) + 1;
	buffer.WriteUInt24(wu24);
	uint32 ru24;
	EXPECT_TRUE(buffer.ReadUInt24(&ru24));
	EXPECT_EQ(wu24, ru24);
	EXPECT_EQ(0U, buffer.Length());

	// Write and read uint32.
	uint32 wu32 = (4 << 24) + (3 << 16) + (2 << 8) + 1;
	buffer.WriteUInt32(wu32);
	uint32 ru32;
	EXPECT_TRUE(buffer.ReadUInt32(&ru32));
	EXPECT_EQ(wu32, ru32);
	EXPECT_EQ(0U, buffer.Length());

	// Write and read uint64.
	uint32 another32 = (8 << 24) + (7 << 16) + (6 << 8) + 5;
	uint64 wu64 = (static_cast<uint64>(another32) << 32) + wu32;
	buffer.WriteUInt64(wu64);
	uint64 ru64;
	EXPECT_TRUE(buffer.ReadUInt64(&ru64));
	EXPECT_EQ(wu64, ru64);
	EXPECT_EQ(0U, buffer.Length());

	// Write and read string.
	std::string write_string("hello");
	buffer.WriteString(write_string);
	std::string read_string;
	EXPECT_TRUE(buffer.ReadString(&read_string, write_string.size()));
	EXPECT_EQ(write_string, read_string);
	EXPECT_EQ(0U, buffer.Length());

	// Write and read bytes
	char write_bytes[] = "foo";
	buffer.WriteBytes(write_bytes, 3);
	char read_bytes[3];
	EXPECT_TRUE(buffer.ReadBytes(read_bytes, 3));
	for (int i = 0; i < 3; ++i) {
	EXPECT_EQ(write_bytes[i], read_bytes[i]);
	}
	EXPECT_EQ(0U, buffer.Length());

	// Write and read reserved buffer space
	char* write_dst = buffer.ReserveWriteBuffer(3);
	memcpy(write_dst, write_bytes, 3);
	memset(read_bytes, 0, 3);
	EXPECT_TRUE(buffer.ReadBytes(read_bytes, 3));
	for (int i = 0; i < 3; ++i) {
	EXPECT_EQ(write_bytes[i], read_bytes[i]);
	}
	EXPECT_EQ(0U, buffer.Length());

	// Write and read in order.
	buffer.WriteUInt8(wu8);
	buffer.WriteUInt16(wu16);
	buffer.WriteUInt24(wu24);
	buffer.WriteUInt32(wu32);
	buffer.WriteUInt64(wu64);
	EXPECT_TRUE(buffer.ReadUInt8(&ru8));
	EXPECT_EQ(wu8, ru8);
	EXPECT_TRUE(buffer.ReadUInt16(&ru16));
	EXPECT_EQ(wu16, ru16);
	EXPECT_TRUE(buffer.ReadUInt24(&ru24));
	EXPECT_EQ(wu24, ru24);
	EXPECT_TRUE(buffer.ReadUInt32(&ru32));
	EXPECT_EQ(wu32, ru32);
	EXPECT_TRUE(buffer.ReadUInt64(&ru64));
	EXPECT_EQ(wu64, ru64);
	EXPECT_EQ(0U, buffer.Length());
	}
	}

	} // namespace rtc