/* * 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 "rtc_base/byte_buffer.h" #include #include "rtc_base/arraysize.h" #include "rtc_base/byte_order.h" #include "test/gtest.h" namespace rtc { TEST(ByteBufferTest, TestByteOrder) { uint16_t n16 = 1; uint32_t n32 = 1; uint64_t 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) { ByteBufferWriter 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()); } TEST(ByteBufferTest, TestReadWriteBuffer) { ByteBufferWriter buffer; ByteBufferReader read_buf(nullptr, 0); uint8_t ru8; EXPECT_FALSE(read_buf.ReadUInt8(&ru8)); // Write and read uint8_t. uint8_t wu8 = 1; buffer.WriteUInt8(wu8); ByteBufferReader read_buf1(buffer.Data(), buffer.Length()); EXPECT_TRUE(read_buf1.ReadUInt8(&ru8)); EXPECT_EQ(wu8, ru8); EXPECT_EQ(0U, read_buf1.Length()); buffer.Clear(); // Write and read uint16_t. uint16_t wu16 = (1 << 8) + 1; buffer.WriteUInt16(wu16); ByteBufferReader read_buf2(buffer.Data(), buffer.Length()); uint16_t ru16; EXPECT_TRUE(read_buf2.ReadUInt16(&ru16)); EXPECT_EQ(wu16, ru16); EXPECT_EQ(0U, read_buf2.Length()); buffer.Clear(); // Write and read uint24. uint32_t wu24 = (3 << 16) + (2 << 8) + 1; buffer.WriteUInt24(wu24); ByteBufferReader read_buf3(buffer.Data(), buffer.Length()); uint32_t ru24; EXPECT_TRUE(read_buf3.ReadUInt24(&ru24)); EXPECT_EQ(wu24, ru24); EXPECT_EQ(0U, read_buf3.Length()); buffer.Clear(); // Write and read uint32_t. uint32_t wu32 = (4 << 24) + (3 << 16) + (2 << 8) + 1; buffer.WriteUInt32(wu32); ByteBufferReader read_buf4(buffer.Data(), buffer.Length()); uint32_t ru32; EXPECT_TRUE(read_buf4.ReadUInt32(&ru32)); EXPECT_EQ(wu32, ru32); EXPECT_EQ(0U, read_buf3.Length()); buffer.Clear(); // Write and read uint64_t. uint32_t another32 = (8 << 24) + (7 << 16) + (6 << 8) + 5; uint64_t wu64 = (static_cast(another32) << 32) + wu32; buffer.WriteUInt64(wu64); ByteBufferReader read_buf5(buffer.Data(), buffer.Length()); uint64_t ru64; EXPECT_TRUE(read_buf5.ReadUInt64(&ru64)); EXPECT_EQ(wu64, ru64); EXPECT_EQ(0U, read_buf5.Length()); buffer.Clear(); // Write and read string. std::string write_string("hello"); buffer.WriteString(write_string); ByteBufferReader read_buf6(buffer.Data(), buffer.Length()); std::string read_string; EXPECT_TRUE(read_buf6.ReadString(&read_string, write_string.size())); EXPECT_EQ(write_string, read_string); EXPECT_EQ(0U, read_buf6.Length()); buffer.Clear(); // Write and read bytes char write_bytes[] = "foo"; buffer.WriteBytes(write_bytes, 3); ByteBufferReader read_buf7(buffer.Data(), buffer.Length()); char read_bytes[3]; EXPECT_TRUE(read_buf7.ReadBytes(read_bytes, 3)); for (int i = 0; i < 3; ++i) { EXPECT_EQ(write_bytes[i], read_bytes[i]); } EXPECT_EQ(0U, read_buf7.Length()); buffer.Clear(); // Write and read reserved buffer space char* write_dst = buffer.ReserveWriteBuffer(3); memcpy(write_dst, write_bytes, 3); ByteBufferReader read_buf8(buffer.Data(), buffer.Length()); memset(read_bytes, 0, 3); EXPECT_TRUE(read_buf8.ReadBytes(read_bytes, 3)); for (int i = 0; i < 3; ++i) { EXPECT_EQ(write_bytes[i], read_bytes[i]); } EXPECT_EQ(0U, read_buf8.Length()); buffer.Clear(); // Write and read in order. buffer.WriteUInt8(wu8); buffer.WriteUInt16(wu16); buffer.WriteUInt24(wu24); buffer.WriteUInt32(wu32); buffer.WriteUInt64(wu64); ByteBufferReader read_buf9(buffer.Data(), buffer.Length()); EXPECT_TRUE(read_buf9.ReadUInt8(&ru8)); EXPECT_EQ(wu8, ru8); EXPECT_TRUE(read_buf9.ReadUInt16(&ru16)); EXPECT_EQ(wu16, ru16); EXPECT_TRUE(read_buf9.ReadUInt24(&ru24)); EXPECT_EQ(wu24, ru24); EXPECT_TRUE(read_buf9.ReadUInt32(&ru32)); EXPECT_EQ(wu32, ru32); EXPECT_TRUE(read_buf9.ReadUInt64(&ru64)); EXPECT_EQ(wu64, ru64); EXPECT_EQ(0U, read_buf9.Length()); buffer.Clear(); } TEST(ByteBufferTest, TestReadWriteUVarint) { ByteBufferWriter write_buffer; size_t size = 0; EXPECT_EQ(size, write_buffer.Length()); write_buffer.WriteUVarint(1u); ++size; EXPECT_EQ(size, write_buffer.Length()); write_buffer.WriteUVarint(2u); ++size; EXPECT_EQ(size, write_buffer.Length()); write_buffer.WriteUVarint(27u); ++size; EXPECT_EQ(size, write_buffer.Length()); write_buffer.WriteUVarint(149u); size += 2; EXPECT_EQ(size, write_buffer.Length()); write_buffer.WriteUVarint(68719476736u); size += 6; EXPECT_EQ(size, write_buffer.Length()); ByteBufferReader read_buffer(write_buffer.Data(), write_buffer.Length()); EXPECT_EQ(size, read_buffer.Length()); uint64_t val1, val2, val3, val4, val5; ASSERT_TRUE(read_buffer.ReadUVarint(&val1)); EXPECT_EQ(1u, val1); --size; EXPECT_EQ(size, read_buffer.Length()); ASSERT_TRUE(read_buffer.ReadUVarint(&val2)); EXPECT_EQ(2u, val2); --size; EXPECT_EQ(size, read_buffer.Length()); ASSERT_TRUE(read_buffer.ReadUVarint(&val3)); EXPECT_EQ(27u, val3); --size; EXPECT_EQ(size, read_buffer.Length()); ASSERT_TRUE(read_buffer.ReadUVarint(&val4)); EXPECT_EQ(149u, val4); size -= 2; EXPECT_EQ(size, read_buffer.Length()); ASSERT_TRUE(read_buffer.ReadUVarint(&val5)); EXPECT_EQ(68719476736u, val5); size -= 6; EXPECT_EQ(size, read_buffer.Length()); } } // namespace rtc