webrtc/modules/rtp_rtcp/source/flexfec_header_reader_writer_unittest.cc - Issue 2269903002: Add FlexFEC header formatters. (pt. 5)

Unified Diff: webrtc/modules/rtp_rtcp/source/flexfec_header_reader_writer_unittest.cc

Issue 2269903002: Add FlexFEC header formatters. (pt. 5) (Closed) Base URL: https://chromium.googlesource.com/external/webrtc.git@header_reader_writer-pt4-generalize_header_formatting

Patch Set: Review response 5. Created 4 years, 3 months ago

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« webrtc/modules/BUILD.gn ('K') | « webrtc/modules/rtp_rtcp/source/flexfec_header_reader_writer.cc ('k') | webrtc/modules/rtp_rtcp/source/forward_error_correction.h » ('j') | webrtc/modules/rtp_rtcp/source/forward_error_correction.cc » ('J')
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Index: webrtc/modules/rtp_rtcp/source/flexfec_header_reader_writer_unittest.cc

diff --git a/webrtc/modules/rtp_rtcp/source/flexfec_header_reader_writer_unittest.cc b/webrtc/modules/rtp_rtcp/source/flexfec_header_reader_writer_unittest.cc

new file mode 100644

index 0000000000000000000000000000000000000000..009b3ed0ecc2dc3ca5fc88c8e091d0e016340010

--- /dev/null

+++ b/webrtc/modules/rtp_rtcp/source/flexfec_header_reader_writer_unittest.cc

@@ -0,0 +1,558 @@

+/*

+ *

+ * 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 <string.h>

+#include <memory>

+#include <utility>

+#include "testing/gmock/include/gmock/gmock.h"

+#include "testing/gtest/include/gtest/gtest.h"

+#include "webrtc/base/basictypes.h"

+#include "webrtc/base/checks.h"

+#include "webrtc/base/random.h"

+#include "webrtc/base/scoped_ref_ptr.h"

+#include "webrtc/modules/rtp_rtcp/source/byte_io.h"

+#include "webrtc/modules/rtp_rtcp/source/flexfec_header_reader_writer.h"

+#include "webrtc/modules/rtp_rtcp/source/forward_error_correction.h"

+#include "webrtc/modules/rtp_rtcp/source/forward_error_correction_internal.h"

+namespace webrtc {

+namespace {

+using Packet = ::webrtc::ForwardErrorCorrection::Packet;

+using ReceivedFecPacket = ::webrtc::ForwardErrorCorrection::ReceivedFecPacket;

+// General. Assume single-stream protection.

+constexpr uint32_t kMediaSsrc = 1254983;

+constexpr uint16_t kMediaStartSeqNum = 825;

+constexpr size_t kMediaPacketLength = 1234;

+constexpr uint32_t kFlexfecSsrc = 52142;

+constexpr size_t kFlexfecHeaderSizes[] = {20, 24, 32};

+constexpr size_t kFlexfecPacketMaskOffset = 18;

+constexpr size_t kFlexfecPacketMaskSizes[] = {2, 6, 14};

+constexpr size_t kFlexfecMaxPacketSize = kFlexfecPacketMaskSizes[2];

+// Reader tests.

+constexpr uint8_t kNoFBit = 0 << 7;

+constexpr uint8_t kNoRBit = 0 << 6;

+constexpr uint8_t kPtRecov = 123;

+constexpr uint8_t kLengthRecov[] = {0xab, 0xcd};

+constexpr uint8_t kTsRecovery[] = {0x01, 0x23, 0x45, 0x67};

+constexpr uint8_t kSsrcCount = 1;

+constexpr uint8_t kReservedBits = 0x00;

+constexpr uint8_t kProtSsrc[] = {0x11, 0x22, 0x33, 0x44};

+constexpr uint8_t kSnBase[] = {0xaa, 0xbb};

+constexpr uint8_t kPayloadBits = 0x00;

+std::unique_ptr<uint8_t[]> GeneratePacketMask(size_t packet_mask_size,

+ uint64_t seed) {

+ Random random(seed);

+ std::unique_ptr<uint8_t[]> packet_mask(new uint8_t[kFlexfecMaxPacketSize]);

+ memset(packet_mask.get(), 0, kFlexfecMaxPacketSize);

+ for (size_t i = 0; i < packet_mask_size; ++i) {

+ packet_mask[i] = random.Rand<uint8_t>();

+ }

+ return packet_mask;

+void ClearBit(size_t index, uint8_t* packet_mask) {

+ packet_mask[index / 8] &= ~(1 << (7 - index % 8));

+void SetBit(size_t index, uint8_t* packet_mask) {

+ packet_mask[index / 8] |= (1 << (7 - index % 8));

+rtc::scoped_refptr<Packet> WriteHeader(const uint8_t* packet_mask,

+ size_t packet_mask_size) {

+ FlexfecHeaderWriter writer;

+ rtc::scoped_refptr<Packet> written_packet(new Packet());

+ written_packet->length = kMediaPacketLength;

+ for (size_t i = 0; i < written_packet->length; ++i) {

+ written_packet->data[i] = i; // Actual content doesn't matter.

+ }

+ writer.FinalizeFecHeader(kMediaSsrc, kMediaStartSeqNum, packet_mask,

+ packet_mask_size, written_packet.get());

+ return written_packet;

+std::unique_ptr<ReceivedFecPacket> ReadHeader(const Packet& written_packet) {

+ FlexfecHeaderReader reader;

+ std::unique_ptr<ReceivedFecPacket> read_packet(new ReceivedFecPacket());

+ read_packet->ssrc = kFlexfecSsrc;

+ read_packet->pkt = rtc::scoped_refptr<Packet>(new Packet());

+ memcpy(read_packet->pkt->data, written_packet.data, written_packet.length);

+ read_packet->pkt->length = written_packet.length;

+ EXPECT_TRUE(reader.ReadFecHeader(read_packet.get()));

+ return read_packet;

+void VerifyReadHeaders(size_t expected_fec_header_size,

+ const uint8_t* expected_packet_mask,

+ size_t expected_packet_mask_size,

+ const ReceivedFecPacket& read_packet) {

+ EXPECT_EQ(expected_fec_header_size, read_packet.fec_header_size);

+ EXPECT_EQ(ByteReader<uint32_t>::ReadBigEndian(kProtSsrc),

+ read_packet.protected_ssrc);

+ EXPECT_EQ(ByteReader<uint16_t>::ReadBigEndian(kSnBase),

+ read_packet.seq_num_base);

+ const size_t packet_mask_offset = read_packet.packet_mask_offset;

+ EXPECT_EQ(kFlexfecPacketMaskOffset, packet_mask_offset);

+ EXPECT_EQ(expected_packet_mask_size, read_packet.packet_mask_size);

+ EXPECT_EQ(read_packet.pkt->length - expected_fec_header_size,

+ read_packet.protection_length);

+ // Ensure that the K-bits are removed and the packet mask has been packed.

+ EXPECT_THAT(::testing::make_tuple(read_packet.pkt->data + packet_mask_offset,

+ read_packet.packet_mask_size),

+ ::testing::ElementsAreArray(expected_packet_mask,

+ expected_packet_mask_size));

+void VerifyFinalizedHeaders(const uint8_t* expected_packet_mask,

+ size_t expected_packet_mask_size,

+ const Packet& written_packet) {

+ const uint8_t* packet = written_packet.data;

+ EXPECT_EQ(0x00, packet[0] & 0x80); // F bit clear.

+ EXPECT_EQ(0x00, packet[0] & 0x40); // R bit clear.

+ EXPECT_EQ(0x01, packet[8]); // SSRCCount = 1.

+ EXPECT_EQ(kMediaSsrc, ByteReader<uint32_t>::ReadBigEndian(packet + 12));

+ EXPECT_EQ(kMediaStartSeqNum,

+ ByteReader<uint16_t>::ReadBigEndian(packet + 16));

+ EXPECT_THAT(::testing::make_tuple(packet + kFlexfecPacketMaskOffset,

+ expected_packet_mask_size),

+ ::testing::ElementsAreArray(expected_packet_mask,

+ expected_packet_mask_size));

+void VerifyWrittenAndReadHeaders(size_t expected_fec_header_size,

+ const uint8_t* expected_packet_mask,

+ size_t expected_packet_mask_size,

+ const Packet& written_packet,

+ const ReceivedFecPacket& read_packet) {

+ EXPECT_EQ(kFlexfecSsrc, read_packet.ssrc);

+ EXPECT_EQ(expected_fec_header_size, read_packet.fec_header_size);

+ EXPECT_EQ(kMediaSsrc, read_packet.protected_ssrc);

+ EXPECT_EQ(kMediaStartSeqNum, read_packet.seq_num_base);

+ EXPECT_EQ(kFlexfecPacketMaskOffset, read_packet.packet_mask_offset);

+ ASSERT_EQ(expected_packet_mask_size, read_packet.packet_mask_size);

+ EXPECT_EQ(written_packet.length - expected_fec_header_size,

+ read_packet.protection_length);

+ // Verify that the call to ReadFecHeader did normalize the packet masks.

+ EXPECT_THAT(

+ ::testing::make_tuple(read_packet.pkt->data + kFlexfecPacketMaskOffset,

+ read_packet.packet_mask_size),

+ ::testing::ElementsAreArray(expected_packet_mask,

+ expected_packet_mask_size));

+ // Verify that the call to ReadFecHeader did not tamper with the payload.

+ EXPECT_THAT(

+ ::testing::make_tuple(written_packet.data + expected_fec_header_size,

danilchap 2016/09/21 11:17:56 may be swap here too (read_packet is tested, writt

brandtr 2016/09/21 11:43:28 Good idea, done.

+ written_packet.length - expected_fec_header_size),

+ ::testing::ElementsAreArray(

+ read_packet.pkt->data + expected_fec_header_size,

+ written_packet.length - expected_fec_header_size));

danilchap 2016/09/21 11:17:56 may be read_packet.pkt->length instead of written_

brandtr 2016/09/21 11:43:28 Switched to read |written_packet|, so not changing

+} // namespace

+TEST(FlexfecHeaderReaderTest, ReadsHeaderWithKBit0Set) {

+ constexpr uint8_t kKBit0 = 1 << 7;

+ constexpr size_t kExpectedPacketMaskSize = 2;

+ constexpr size_t kExpectedFecHeaderSize = 20;

+ // clang-format off

+ constexpr uint8_t kFlexfecPktMask[] = {kKBit0 | 0x08, 0x81};

+ constexpr uint8_t kUlpfecPacketMask[] = {0x11, 0x02};

+ // clang-format on

+ constexpr uint8_t kPacketData[] = {

+ kNoFBit | kNoRBit, kPtRecov, kLengthRecov[0], kLengthRecov[1],

danilchap 2016/09/21 11:17:56 may do not shortent since you have spaces for full

brandtr 2016/09/21 11:43:28 Good point, done.

+ kTsRecovery[0], kTsRecovery[1], kTsRecovery[2], kTsRecovery[3],

+ kSsrcCount, kReservedBits, kReservedBits, kReservedBits,

+ kProtSsrc[0], kProtSsrc[1], kProtSsrc[2], kProtSsrc[3],

+ kSnBase[0], kSnBase[1], kFlexfecPktMask[0], kFlexfecPktMask[1],

+ kPayloadBits, kPayloadBits, kPayloadBits, kPayloadBits};

+ const size_t packet_length = sizeof(kPacketData);

+ ReceivedFecPacket read_packet;

+ read_packet.pkt = rtc::scoped_refptr<Packet>(new Packet());

+ memcpy(read_packet.pkt->data, kPacketData, packet_length);

+ read_packet.pkt->length = packet_length;

+ FlexfecHeaderReader reader;

+ EXPECT_TRUE(reader.ReadFecHeader(&read_packet));

+ VerifyReadHeaders(kExpectedFecHeaderSize, kUlpfecPacketMask,

+ kExpectedPacketMaskSize, read_packet);

+TEST(FlexfecHeaderReaderTest, ReadsHeaderWithKBit1Set) {

+ constexpr uint8_t kKBit0 = 0 << 7;

+ constexpr uint8_t kKBit1 = 1 << 7;

+ constexpr size_t kExpectedPacketMaskSize = 6;

+ constexpr size_t kExpectedFecHeaderSize = 24;

+ // clang-format off

+ constexpr uint8_t kFlxfecPktMsk[] = {kKBit0 | 0x48, 0x81,

+ kKBit1 | 0x02, 0x11, 0x00, 0x21};

+ constexpr uint8_t kUlpfecPacketMask[] = {0x91, 0x02,

+ 0x08, 0x44, 0x00, 0x84};

+ // clang-format on

+ constexpr uint8_t kPacketData[] = {

+ kNoFBit | kNoRBit, kPtRecov, kLengthRecov[0], kLengthRecov[1],

+ kTsRecovery[0], kTsRecovery[1], kTsRecovery[2], kTsRecovery[3],

+ kSsrcCount, kReservedBits, kReservedBits, kReservedBits,

+ kProtSsrc[0], kProtSsrc[1], kProtSsrc[2], kProtSsrc[3],

+ kSnBase[0], kSnBase[1], kFlxfecPktMsk[0], kFlxfecPktMsk[1],

+ kFlxfecPktMsk[2], kFlxfecPktMsk[3], kFlxfecPktMsk[4], kFlxfecPktMsk[5],

+ kPayloadBits, kPayloadBits, kPayloadBits, kPayloadBits};

+ const size_t packet_length = sizeof(kPacketData);

+ ReceivedFecPacket read_packet;

+ read_packet.pkt = rtc::scoped_refptr<Packet>(new Packet());

+ memcpy(read_packet.pkt->data, kPacketData, packet_length);

+ read_packet.pkt->length = packet_length;

+ FlexfecHeaderReader reader;

+ EXPECT_TRUE(reader.ReadFecHeader(&read_packet));

+ VerifyReadHeaders(kExpectedFecHeaderSize, kUlpfecPacketMask,

+ kExpectedPacketMaskSize, read_packet);

+TEST(FlexfecHeaderReaderTest, ReadsHeaderWithKBit2Set) {

+ constexpr uint8_t kKBit0 = 0 << 7;

+ constexpr uint8_t kKBit1 = 0 << 7;

+ constexpr uint8_t kKBit2 = 1 << 7;

+ constexpr size_t kExpectedPacketMaskSize = 14;

+ constexpr size_t kExpectedFecHeaderSize = 32;

+ // clang-format off

+ constexpr uint8_t kFlxfcPktMsk[] = {kKBit0 | 0x48, 0x81,

+ kKBit1 | 0x02, 0x11, 0x00, 0x21,

+ kKBit2 | 0x01, 0x11, 0x11, 0x11,

+ 0x11, 0x11, 0x11, 0x11};

+ constexpr uint8_t kUlpfecPacketMask[] = {0x91, 0x02,

+ 0x08, 0x44, 0x00, 0x84,

+ 0x08, 0x88, 0x88, 0x88,

+ 0x88, 0x88, 0x88, 0x88};

+ // clang-format on

+ constexpr uint8_t kPacketData[] = {

+ kNoFBit | kNoRBit, kPtRecov, kLengthRecov[0], kLengthRecov[1],

+ kTsRecovery[0], kTsRecovery[1], kTsRecovery[2], kTsRecovery[3],

+ kSsrcCount, kReservedBits, kReservedBits, kReservedBits,

+ kProtSsrc[0], kProtSsrc[1], kProtSsrc[2], kProtSsrc[3],

+ kSnBase[0], kSnBase[1], kFlxfcPktMsk[0], kFlxfcPktMsk[1],

+ kFlxfcPktMsk[2], kFlxfcPktMsk[3], kFlxfcPktMsk[4], kFlxfcPktMsk[5],

+ kFlxfcPktMsk[6], kFlxfcPktMsk[7], kFlxfcPktMsk[8], kFlxfcPktMsk[9],

+ kFlxfcPktMsk[10], kFlxfcPktMsk[11], kFlxfcPktMsk[12], kFlxfcPktMsk[13],

+ kPayloadBits, kPayloadBits, kPayloadBits, kPayloadBits};

+ const size_t packet_length = sizeof(kPacketData);

+ ReceivedFecPacket read_packet;

+ read_packet.pkt = rtc::scoped_refptr<Packet>(new Packet());

+ memcpy(read_packet.pkt->data, kPacketData, packet_length);

+ read_packet.pkt->length = packet_length;

+ FlexfecHeaderReader reader;

+ EXPECT_TRUE(reader.ReadFecHeader(&read_packet));

+ VerifyReadHeaders(kExpectedFecHeaderSize, kUlpfecPacketMask,

+ kExpectedPacketMaskSize, read_packet);

+TEST(FlexfecHeaderReaderTest, ReadPacketWithoutStreamSpecificHeaderShouldFail) {

+ const size_t packet_mask_size = kUlpfecPacketMaskSizeLBitClear;

+ auto packet_mask = GeneratePacketMask(packet_mask_size, 0xabcd);

+ auto written_packet = WriteHeader(packet_mask.get(), packet_mask_size);

+ // Simulate short received packet.

+ ReceivedFecPacket read_packet;

+ read_packet.ssrc = kFlexfecSsrc;

+ read_packet.pkt = std::move(written_packet);

+ read_packet.pkt->length = 12;

+ FlexfecHeaderReader reader;

+ EXPECT_FALSE(reader.ReadFecHeader(&read_packet));

+TEST(FlexfecHeaderReaderTest, ReadShortPacketWithKBit0SetShouldFail) {

+ const size_t packet_mask_size = kUlpfecPacketMaskSizeLBitClear;

+ auto packet_mask = GeneratePacketMask(packet_mask_size, 0xabcd);

+ auto written_packet = WriteHeader(packet_mask.get(), packet_mask_size);

+ // Simulate short received packet.

+ ReceivedFecPacket read_packet;

+ read_packet.ssrc = kFlexfecSsrc;

+ read_packet.pkt = std::move(written_packet);

+ read_packet.pkt->length = 18;

+ FlexfecHeaderReader reader;

+ EXPECT_FALSE(reader.ReadFecHeader(&read_packet));

+TEST(FlexfecHeaderReaderTest, ReadShortPacketWithKBit1SetShouldFail) {

+ const size_t packet_mask_size = kUlpfecPacketMaskSizeLBitClear;

+ auto packet_mask = GeneratePacketMask(packet_mask_size, 0xabcd);

+ SetBit(15, packet_mask.get()); // This expands the packet mask "once".

+ auto written_packet = WriteHeader(packet_mask.get(), packet_mask_size);

+ // Simulate short received packet.

+ ReceivedFecPacket read_packet;

+ read_packet.ssrc = kFlexfecSsrc;

+ read_packet.pkt = std::move(written_packet);

+ read_packet.pkt->length = 20;

+ FlexfecHeaderReader reader;

+ EXPECT_FALSE(reader.ReadFecHeader(&read_packet));

+TEST(FlexfecHeaderReaderTest, ReadShortPacketWithKBit2SetShouldFail) {

+ const size_t packet_mask_size = kUlpfecPacketMaskSizeLBitSet;

+ auto packet_mask = GeneratePacketMask(packet_mask_size, 0xabcd);

+ SetBit(47, packet_mask.get()); // This expands the packet mask "twice".

+ auto written_packet = WriteHeader(packet_mask.get(), packet_mask_size);

+ // Simulate short received packet.

+ ReceivedFecPacket read_packet;

+ read_packet.ssrc = kFlexfecSsrc;

+ read_packet.pkt = std::move(written_packet);

+ read_packet.pkt->length = 24;

+ FlexfecHeaderReader reader;

+ EXPECT_FALSE(reader.ReadFecHeader(&read_packet));

+TEST(FlexfecHeaderWriterTest, FinalizesHeaderWithKBit0Set) {

+ constexpr size_t kExpectedPacketMaskSize = 2;

+ constexpr uint8_t kFlexfecPacketMask[] = {0x88, 0x81};

+ constexpr uint8_t kUlpfecPacketMask[] = {0x11, 0x02};

+ Packet written_packet;

+ written_packet.length = kMediaPacketLength;

+ for (size_t i = 0; i < written_packet.length; ++i) {

+ written_packet.data[i] = i;

+ }

+ FlexfecHeaderWriter writer;

+ writer.FinalizeFecHeader(kMediaSsrc, kMediaStartSeqNum, kUlpfecPacketMask,

+ sizeof(kUlpfecPacketMask), &written_packet);

+ VerifyFinalizedHeaders(kFlexfecPacketMask, kExpectedPacketMaskSize,

+ written_packet);

+TEST(FlexfecHeaderWriterTest, FinalizesHeaderWithKBit1Set) {

+ constexpr size_t kExpectedPacketMaskSize = 6;

+ constexpr uint8_t kFlexfecPacketMask[] = {0x48, 0x81, 0x82, 0x11, 0x00, 0x21};

+ constexpr uint8_t kUlpfecPacketMask[] = {0x91, 0x02, 0x08, 0x44, 0x00, 0x84};

+ Packet written_packet;

+ written_packet.length = kMediaPacketLength;

+ for (size_t i = 0; i < written_packet.length; ++i) {

+ written_packet.data[i] = i;

+ }

+ FlexfecHeaderWriter writer;

+ writer.FinalizeFecHeader(kMediaSsrc, kMediaStartSeqNum, kUlpfecPacketMask,

+ sizeof(kUlpfecPacketMask), &written_packet);

+ VerifyFinalizedHeaders(kFlexfecPacketMask, kExpectedPacketMaskSize,

+ written_packet);

+TEST(FlexfecHeaderWriterTest, FinalizesHeaderWithKBit2Set) {

+ constexpr size_t kExpectedPacketMaskSize = 14;

+ constexpr uint8_t kFlexfecPacketMask[] = {

+ 0x11, 0x11, // K-bit 0 clear.

+ 0x11, 0x11, 0x11, 0x10, // K-bit 1 clear.

+ 0xa0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 // K-bit 2 set.

+ };

+ constexpr uint8_t kUlpfecPacketMask[] = {0x22, 0x22, 0x44, 0x44, 0x44, 0x41};

+ Packet written_packet;

+ written_packet.length = kMediaPacketLength;

+ for (size_t i = 0; i < written_packet.length; ++i) {

+ written_packet.data[i] = i;

+ }

+ FlexfecHeaderWriter writer;

+ writer.FinalizeFecHeader(kMediaSsrc, kMediaStartSeqNum, kUlpfecPacketMask,

+ sizeof(kUlpfecPacketMask), &written_packet);

+ VerifyFinalizedHeaders(kFlexfecPacketMask, kExpectedPacketMaskSize,

+ written_packet);

+TEST(FlexfecHeaderWriterTest, ContractsShortUlpfecPacketMaskWithBit15Clear) {

+ const size_t packet_mask_size = kUlpfecPacketMaskSizeLBitClear;

+ auto packet_mask = GeneratePacketMask(packet_mask_size, 0xabcd);

+ ClearBit(15, packet_mask.get());

+ FlexfecHeaderWriter writer;

+ size_t min_packet_mask_size =

+ writer.MinPacketMaskSize(packet_mask.get(), packet_mask_size);

+ EXPECT_EQ(kFlexfecPacketMaskSizes[0], min_packet_mask_size);

+ EXPECT_EQ(kFlexfecHeaderSizes[0], writer.FecHeaderSize(min_packet_mask_size));

+TEST(FlexfecHeaderWriterTest, ExpandsShortUlpfecPacketMaskWithBit15Set) {

+ const size_t packet_mask_size = kUlpfecPacketMaskSizeLBitClear;

+ auto packet_mask = GeneratePacketMask(packet_mask_size, 0xabcd);

+ SetBit(15, packet_mask.get());

+ FlexfecHeaderWriter writer;

+ size_t min_packet_mask_size =

+ writer.MinPacketMaskSize(packet_mask.get(), packet_mask_size);

+ EXPECT_EQ(kFlexfecPacketMaskSizes[1], min_packet_mask_size);

+ EXPECT_EQ(kFlexfecHeaderSizes[1], writer.FecHeaderSize(min_packet_mask_size));

+TEST(FlexfecHeaderWriterTest,

+ ContractsLongUlpfecPacketMaskWithBit46And47Clear) {

+ const size_t packet_mask_size = kUlpfecPacketMaskSizeLBitSet;

+ auto packet_mask = GeneratePacketMask(packet_mask_size, 0xabcd);

+ ClearBit(46, packet_mask.get());

+ ClearBit(47, packet_mask.get());

+ FlexfecHeaderWriter writer;

+ size_t min_packet_mask_size =

+ writer.MinPacketMaskSize(packet_mask.get(), packet_mask_size);

+ EXPECT_EQ(kFlexfecPacketMaskSizes[1], min_packet_mask_size);

+ EXPECT_EQ(kFlexfecHeaderSizes[1], writer.FecHeaderSize(min_packet_mask_size));

+TEST(FlexfecHeaderWriterTest, ExpandsLongUlpfecPacketMaskWithBit46And47Clear) {

+ const size_t packet_mask_size = kUlpfecPacketMaskSizeLBitSet;

+ auto packet_mask = GeneratePacketMask(packet_mask_size, 0xabcd);

+ SetBit(46, packet_mask.get());

+ ClearBit(47, packet_mask.get());

+ FlexfecHeaderWriter writer;

+ size_t min_packet_mask_size =

+ writer.MinPacketMaskSize(packet_mask.get(), packet_mask_size);

+ EXPECT_EQ(kFlexfecPacketMaskSizes[2], min_packet_mask_size);

+ EXPECT_EQ(kFlexfecHeaderSizes[2], writer.FecHeaderSize(min_packet_mask_size));

+TEST(FlexfecHeaderWriterTest,

+ ExpandsLongUlpfecPacketMaskWithBit46ClearBit47Set) {

+ const size_t packet_mask_size = kUlpfecPacketMaskSizeLBitSet;

+ auto packet_mask = GeneratePacketMask(packet_mask_size, 0xabcd);

+ ClearBit(46, packet_mask.get());

+ SetBit(47, packet_mask.get());

+ FlexfecHeaderWriter writer;

+ size_t min_packet_mask_size =

+ writer.MinPacketMaskSize(packet_mask.get(), packet_mask_size);

+ EXPECT_EQ(kFlexfecPacketMaskSizes[2], min_packet_mask_size);

+ EXPECT_EQ(kFlexfecHeaderSizes[2], writer.FecHeaderSize(min_packet_mask_size));

+TEST(FlexfecHeaderWriterTest, ExpandsLongUlpfecPacketMaskWithBit46And47Set) {

+ const size_t packet_mask_size = kUlpfecPacketMaskSizeLBitSet;

+ auto packet_mask = GeneratePacketMask(packet_mask_size, 0xabcd);

+ SetBit(46, packet_mask.get());

+ SetBit(47, packet_mask.get());

+ FlexfecHeaderWriter writer;

+ size_t min_packet_mask_size =

+ writer.MinPacketMaskSize(packet_mask.get(), packet_mask_size);

+ EXPECT_EQ(kFlexfecPacketMaskSizes[2], min_packet_mask_size);

+ EXPECT_EQ(kFlexfecHeaderSizes[2], writer.FecHeaderSize(min_packet_mask_size));

+TEST(FlexfecHeaderReaderWriterTest,

+ WriteAndReadSmallUlpfecPacketHeaderWithMaskKBit15Clear) {

danilchap 2016/09/21 11:17:55 KBit15? wasn't K prefix just for the 1st bits in e

brandtr 2016/09/21 11:43:28 This was a search-and-replace error :( ...WithMas

+ const size_t packet_mask_size = kUlpfecPacketMaskSizeLBitClear;

+ auto packet_mask = GeneratePacketMask(packet_mask_size, 0xabcd);

+ ClearBit(15, packet_mask.get());

+ auto written_packet = WriteHeader(packet_mask.get(), packet_mask_size);

+ auto read_packet = ReadHeader(*written_packet);

+ VerifyWrittenAndReadHeaders(kFlexfecHeaderSizes[0], packet_mask.get(),

+ kFlexfecPacketMaskSizes[0], *written_packet,

+ *read_packet);

+TEST(FlexfecHeaderReaderWriterTest,

+ WriteAndReadSmallUlpfecPacketHeaderWithMaskKBit15Set) {

danilchap 2016/09/21 11:17:56 same here

brandtr 2016/09/21 11:43:28 Done.

+ const size_t packet_mask_size = kUlpfecPacketMaskSizeLBitClear;

+ auto packet_mask = GeneratePacketMask(packet_mask_size, 0xabcd);

+ SetBit(15, packet_mask.get());

+ auto written_packet = WriteHeader(packet_mask.get(), packet_mask_size);

+ auto read_packet = ReadHeader(*written_packet);

+ VerifyWrittenAndReadHeaders(kFlexfecHeaderSizes[1], packet_mask.get(),

+ kFlexfecPacketMaskSizes[1], *written_packet,

+ *read_packet);

+TEST(FlexfecHeaderReaderWriterTest,

+ WriteAndReadLargeUlpfecPacketHeaderWithMaskBits46And47Clear) {

+ const size_t packet_mask_size = kUlpfecPacketMaskSizeLBitSet;

+ auto packet_mask = GeneratePacketMask(packet_mask_size, 0xabcd);

+ ClearBit(46, packet_mask.get());

+ ClearBit(47, packet_mask.get());

+ auto written_packet = WriteHeader(packet_mask.get(), packet_mask_size);

+ auto read_packet = ReadHeader(*written_packet);

+ VerifyWrittenAndReadHeaders(kFlexfecHeaderSizes[1], packet_mask.get(),

+ kFlexfecPacketMaskSizes[1], *written_packet,

+ *read_packet);

+TEST(FlexfecHeaderReaderWriterTest,

+ WriteAndReadLargeUlpfecPacketHeaderWithMaskBit46SetBit47Clear) {

+ const size_t packet_mask_size = kUlpfecPacketMaskSizeLBitSet;

+ auto packet_mask = GeneratePacketMask(packet_mask_size, 0xabcd);

+ SetBit(46, packet_mask.get());

+ ClearBit(47, packet_mask.get());

+ auto written_packet = WriteHeader(packet_mask.get(), packet_mask_size);

+ auto read_packet = ReadHeader(*written_packet);

+ VerifyWrittenAndReadHeaders(kFlexfecHeaderSizes[2], packet_mask.get(),

+ kFlexfecPacketMaskSizes[2], *written_packet,

+ *read_packet);

+TEST(FlexfecHeaderReaderWriterTest,

+ WriteAndReadLargeUlpfecPacketHeaderMaskWithBit46ClearBit47Set) {

+ const size_t packet_mask_size = kUlpfecPacketMaskSizeLBitSet;

+ auto packet_mask = GeneratePacketMask(packet_mask_size, 0xabcd);

+ ClearBit(46, packet_mask.get());

+ SetBit(47, packet_mask.get());

+ auto written_packet = WriteHeader(packet_mask.get(), packet_mask_size);

+ auto read_packet = ReadHeader(*written_packet);

+ VerifyWrittenAndReadHeaders(kFlexfecHeaderSizes[2], packet_mask.get(),

+ kFlexfecPacketMaskSizes[2], *written_packet,

+ *read_packet);

+TEST(FlexfecHeaderReaderWriterTest,

+ WriteAndReadLargeUlpfecPacketHeaderWithMaskBits46And47Set) {

+ const size_t packet_mask_size = kUlpfecPacketMaskSizeLBitSet;

+ auto packet_mask = GeneratePacketMask(packet_mask_size, 0xabcd);

+ SetBit(46, packet_mask.get());

+ SetBit(47, packet_mask.get());

+ auto written_packet = WriteHeader(packet_mask.get(), packet_mask_size);

+ auto read_packet = ReadHeader(*written_packet);

+ VerifyWrittenAndReadHeaders(kFlexfecHeaderSizes[2], packet_mask.get(),

+ kFlexfecPacketMaskSizes[2], *written_packet,

+ *read_packet);

+} // namespace webrtc