| /* |
| * Copyright (c) 2011 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 <string.h> |
| |
| #include "modules/include/module_common_types.h" |
| #include "modules/video_coding/decoding_state.h" |
| #include "modules/video_coding/frame_buffer.h" |
| #include "modules/video_coding/jitter_buffer_common.h" |
| #include "modules/video_coding/packet.h" |
| #include "test/gtest.h" |
| |
| namespace webrtc { |
| |
| TEST(TestDecodingState, Sanity) { |
| VCMDecodingState dec_state; |
| dec_state.Reset(); |
| EXPECT_TRUE(dec_state.in_initial_state()); |
| EXPECT_TRUE(dec_state.full_sync()); |
| } |
| |
| TEST(TestDecodingState, FrameContinuity) { |
| VCMDecodingState dec_state; |
| // Check that makes decision based on correct method. |
| VCMFrameBuffer frame; |
| VCMFrameBuffer frame_key; |
| VCMPacket packet; |
| packet.is_first_packet_in_frame = true; |
| packet.timestamp = 1; |
| packet.seqNum = 0xffff; |
| packet.frameType = kVideoFrameDelta; |
| packet.video_header.codec = kVideoCodecVP8; |
| packet.video_header.vp8().pictureId = 0x007F; |
| FrameData frame_data; |
| frame_data.rtt_ms = 0; |
| frame_data.rolling_average_packets_per_frame = -1; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| // Always start with a key frame. |
| dec_state.Reset(); |
| EXPECT_FALSE(dec_state.ContinuousFrame(&frame)); |
| packet.frameType = kVideoFrameKey; |
| EXPECT_LE(0, frame_key.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_TRUE(dec_state.ContinuousFrame(&frame_key)); |
| dec_state.SetState(&frame); |
| frame.Reset(); |
| packet.frameType = kVideoFrameDelta; |
| // Use pictureId |
| packet.is_first_packet_in_frame = false; |
| packet.video_header.vp8().pictureId = 0x0002; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_FALSE(dec_state.ContinuousFrame(&frame)); |
| frame.Reset(); |
| packet.video_header.vp8().pictureId = 0; |
| packet.seqNum = 10; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_TRUE(dec_state.ContinuousFrame(&frame)); |
| |
| // Use sequence numbers. |
| packet.video_header.vp8().pictureId = kNoPictureId; |
| frame.Reset(); |
| packet.seqNum = dec_state.sequence_num() - 1u; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_FALSE(dec_state.ContinuousFrame(&frame)); |
| frame.Reset(); |
| packet.seqNum = dec_state.sequence_num() + 1u; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| // Insert another packet to this frame |
| packet.seqNum++; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| // Verify wrap. |
| EXPECT_LE(dec_state.sequence_num(), 0xffff); |
| EXPECT_TRUE(dec_state.ContinuousFrame(&frame)); |
| dec_state.SetState(&frame); |
| |
| // Insert packet with temporal info. |
| dec_state.Reset(); |
| frame.Reset(); |
| packet.video_header.vp8().tl0PicIdx = 0; |
| packet.video_header.vp8().temporalIdx = 0; |
| packet.video_header.vp8().pictureId = 0; |
| packet.seqNum = 1; |
| packet.timestamp = 1; |
| EXPECT_TRUE(dec_state.full_sync()); |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| dec_state.SetState(&frame); |
| EXPECT_TRUE(dec_state.full_sync()); |
| frame.Reset(); |
| // 1 layer up - still good. |
| packet.video_header.vp8().tl0PicIdx = 0; |
| packet.video_header.vp8().temporalIdx = 1; |
| packet.video_header.vp8().pictureId = 1; |
| packet.seqNum = 2; |
| packet.timestamp = 2; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_TRUE(dec_state.ContinuousFrame(&frame)); |
| dec_state.SetState(&frame); |
| EXPECT_TRUE(dec_state.full_sync()); |
| frame.Reset(); |
| // Lost non-base layer packet => should update sync parameter. |
| packet.video_header.vp8().tl0PicIdx = 0; |
| packet.video_header.vp8().temporalIdx = 3; |
| packet.video_header.vp8().pictureId = 3; |
| packet.seqNum = 4; |
| packet.timestamp = 4; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_FALSE(dec_state.ContinuousFrame(&frame)); |
| // Now insert the next non-base layer (belonging to a next tl0PicId). |
| frame.Reset(); |
| packet.video_header.vp8().tl0PicIdx = 1; |
| packet.video_header.vp8().temporalIdx = 2; |
| packet.video_header.vp8().pictureId = 4; |
| packet.seqNum = 5; |
| packet.timestamp = 5; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| // Checking continuity and not updating the state - this should not trigger |
| // an update of sync state. |
| EXPECT_FALSE(dec_state.ContinuousFrame(&frame)); |
| EXPECT_TRUE(dec_state.full_sync()); |
| // Next base layer (dropped interim non-base layers) - should update sync. |
| frame.Reset(); |
| packet.video_header.vp8().tl0PicIdx = 1; |
| packet.video_header.vp8().temporalIdx = 0; |
| packet.video_header.vp8().pictureId = 5; |
| packet.seqNum = 6; |
| packet.timestamp = 6; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_TRUE(dec_state.ContinuousFrame(&frame)); |
| dec_state.SetState(&frame); |
| EXPECT_FALSE(dec_state.full_sync()); |
| |
| // Check wrap for temporal layers. |
| frame.Reset(); |
| packet.video_header.vp8().tl0PicIdx = 0x00FF; |
| packet.video_header.vp8().temporalIdx = 0; |
| packet.video_header.vp8().pictureId = 6; |
| packet.seqNum = 7; |
| packet.timestamp = 7; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| dec_state.SetState(&frame); |
| EXPECT_FALSE(dec_state.full_sync()); |
| frame.Reset(); |
| packet.video_header.vp8().tl0PicIdx = 0x0000; |
| packet.video_header.vp8().temporalIdx = 0; |
| packet.video_header.vp8().pictureId = 7; |
| packet.seqNum = 8; |
| packet.timestamp = 8; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_TRUE(dec_state.ContinuousFrame(&frame)); |
| // The current frame is not continuous |
| dec_state.SetState(&frame); |
| EXPECT_FALSE(dec_state.ContinuousFrame(&frame)); |
| } |
| |
| TEST(TestDecodingState, UpdateOldPacket) { |
| VCMDecodingState dec_state; |
| // Update only if zero size and newer than previous. |
| // Should only update if the timeStamp match. |
| VCMFrameBuffer frame; |
| VCMPacket packet; |
| packet.timestamp = 1; |
| packet.seqNum = 1; |
| packet.frameType = kVideoFrameDelta; |
| FrameData frame_data; |
| frame_data.rtt_ms = 0; |
| frame_data.rolling_average_packets_per_frame = -1; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| dec_state.SetState(&frame); |
| EXPECT_EQ(dec_state.sequence_num(), 1); |
| // Insert an empty packet that does not belong to the same frame. |
| // => Sequence num should be the same. |
| packet.timestamp = 2; |
| dec_state.UpdateOldPacket(&packet); |
| EXPECT_EQ(dec_state.sequence_num(), 1); |
| // Now insert empty packet belonging to the same frame. |
| packet.timestamp = 1; |
| packet.seqNum = 2; |
| packet.frameType = kEmptyFrame; |
| packet.sizeBytes = 0; |
| dec_state.UpdateOldPacket(&packet); |
| EXPECT_EQ(dec_state.sequence_num(), 2); |
| // Now insert delta packet belonging to the same frame. |
| packet.timestamp = 1; |
| packet.seqNum = 3; |
| packet.frameType = kVideoFrameDelta; |
| packet.sizeBytes = 1400; |
| dec_state.UpdateOldPacket(&packet); |
| EXPECT_EQ(dec_state.sequence_num(), 3); |
| // Insert a packet belonging to an older timestamp - should not update the |
| // sequence number. |
| packet.timestamp = 0; |
| packet.seqNum = 4; |
| packet.frameType = kEmptyFrame; |
| packet.sizeBytes = 0; |
| dec_state.UpdateOldPacket(&packet); |
| EXPECT_EQ(dec_state.sequence_num(), 3); |
| } |
| |
| TEST(TestDecodingState, MultiLayerBehavior) { |
| // Identify sync/non-sync when more than one layer. |
| VCMDecodingState dec_state; |
| // Identify packets belonging to old frames/packets. |
| // Set state for current frames. |
| // tl0PicIdx 0, temporal id 0. |
| VCMFrameBuffer frame; |
| VCMPacket packet; |
| packet.frameType = kVideoFrameDelta; |
| packet.video_header.codec = kVideoCodecVP8; |
| packet.timestamp = 0; |
| packet.seqNum = 0; |
| packet.video_header.vp8().tl0PicIdx = 0; |
| packet.video_header.vp8().temporalIdx = 0; |
| packet.video_header.vp8().pictureId = 0; |
| FrameData frame_data; |
| frame_data.rtt_ms = 0; |
| frame_data.rolling_average_packets_per_frame = -1; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| dec_state.SetState(&frame); |
| // tl0PicIdx 0, temporal id 1. |
| frame.Reset(); |
| packet.timestamp = 1; |
| packet.seqNum = 1; |
| packet.video_header.vp8().tl0PicIdx = 0; |
| packet.video_header.vp8().temporalIdx = 1; |
| packet.video_header.vp8().pictureId = 1; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_TRUE(dec_state.ContinuousFrame(&frame)); |
| dec_state.SetState(&frame); |
| EXPECT_TRUE(dec_state.full_sync()); |
| // Lost tl0PicIdx 0, temporal id 2. |
| // Insert tl0PicIdx 0, temporal id 3. |
| frame.Reset(); |
| packet.timestamp = 3; |
| packet.seqNum = 3; |
| packet.video_header.vp8().tl0PicIdx = 0; |
| packet.video_header.vp8().temporalIdx = 3; |
| packet.video_header.vp8().pictureId = 3; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_FALSE(dec_state.ContinuousFrame(&frame)); |
| dec_state.SetState(&frame); |
| EXPECT_FALSE(dec_state.full_sync()); |
| // Insert next base layer |
| frame.Reset(); |
| packet.timestamp = 4; |
| packet.seqNum = 4; |
| packet.video_header.vp8().tl0PicIdx = 1; |
| packet.video_header.vp8().temporalIdx = 0; |
| packet.video_header.vp8().pictureId = 4; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_TRUE(dec_state.ContinuousFrame(&frame)); |
| dec_state.SetState(&frame); |
| EXPECT_FALSE(dec_state.full_sync()); |
| // Insert key frame - should update sync value. |
| // A key frame is always a base layer. |
| frame.Reset(); |
| packet.frameType = kVideoFrameKey; |
| packet.is_first_packet_in_frame = 1; |
| packet.timestamp = 5; |
| packet.seqNum = 5; |
| packet.video_header.vp8().tl0PicIdx = 2; |
| packet.video_header.vp8().temporalIdx = 0; |
| packet.video_header.vp8().pictureId = 5; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_TRUE(dec_state.ContinuousFrame(&frame)); |
| dec_state.SetState(&frame); |
| EXPECT_TRUE(dec_state.full_sync()); |
| // After sync, a continuous PictureId is required |
| // (continuous base layer is not enough ) |
| frame.Reset(); |
| packet.frameType = kVideoFrameDelta; |
| packet.timestamp = 6; |
| packet.seqNum = 6; |
| packet.video_header.vp8().tl0PicIdx = 3; |
| packet.video_header.vp8().temporalIdx = 0; |
| packet.video_header.vp8().pictureId = 6; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_TRUE(dec_state.ContinuousFrame(&frame)); |
| EXPECT_TRUE(dec_state.full_sync()); |
| frame.Reset(); |
| packet.frameType = kVideoFrameDelta; |
| packet.is_first_packet_in_frame = 1; |
| packet.timestamp = 8; |
| packet.seqNum = 8; |
| packet.video_header.vp8().tl0PicIdx = 4; |
| packet.video_header.vp8().temporalIdx = 0; |
| packet.video_header.vp8().pictureId = 8; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_FALSE(dec_state.ContinuousFrame(&frame)); |
| EXPECT_TRUE(dec_state.full_sync()); |
| dec_state.SetState(&frame); |
| EXPECT_FALSE(dec_state.full_sync()); |
| |
| // Insert a non-ref frame - should update sync value. |
| frame.Reset(); |
| packet.frameType = kVideoFrameDelta; |
| packet.is_first_packet_in_frame = 1; |
| packet.timestamp = 9; |
| packet.seqNum = 9; |
| packet.video_header.vp8().tl0PicIdx = 4; |
| packet.video_header.vp8().temporalIdx = 2; |
| packet.video_header.vp8().pictureId = 9; |
| packet.video_header.vp8().layerSync = true; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| dec_state.SetState(&frame); |
| EXPECT_TRUE(dec_state.full_sync()); |
| |
| // The following test will verify the sync flag behavior after a loss. |
| // Create the following pattern: |
| // Update base layer, lose packet 1 (sync flag on, layer 2), insert packet 3 |
| // (sync flag on, layer 2) check continuity and sync flag after inserting |
| // packet 2 (sync flag on, layer 1). |
| // Base layer. |
| frame.Reset(); |
| dec_state.Reset(); |
| packet.frameType = kVideoFrameDelta; |
| packet.is_first_packet_in_frame = 1; |
| packet.markerBit = 1; |
| packet.timestamp = 0; |
| packet.seqNum = 0; |
| packet.video_header.vp8().tl0PicIdx = 0; |
| packet.video_header.vp8().temporalIdx = 0; |
| packet.video_header.vp8().pictureId = 0; |
| packet.video_header.vp8().layerSync = false; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| dec_state.SetState(&frame); |
| EXPECT_TRUE(dec_state.full_sync()); |
| // Layer 2 - 2 packets (insert one, lose one). |
| frame.Reset(); |
| packet.frameType = kVideoFrameDelta; |
| packet.is_first_packet_in_frame = 1; |
| packet.markerBit = 0; |
| packet.timestamp = 1; |
| packet.seqNum = 1; |
| packet.video_header.vp8().tl0PicIdx = 0; |
| packet.video_header.vp8().temporalIdx = 2; |
| packet.video_header.vp8().pictureId = 1; |
| packet.video_header.vp8().layerSync = true; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_TRUE(dec_state.ContinuousFrame(&frame)); |
| // Layer 1 |
| frame.Reset(); |
| packet.frameType = kVideoFrameDelta; |
| packet.is_first_packet_in_frame = 1; |
| packet.markerBit = 1; |
| packet.timestamp = 2; |
| packet.seqNum = 3; |
| packet.video_header.vp8().tl0PicIdx = 0; |
| packet.video_header.vp8().temporalIdx = 1; |
| packet.video_header.vp8().pictureId = 2; |
| packet.video_header.vp8().layerSync = true; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_FALSE(dec_state.ContinuousFrame(&frame)); |
| EXPECT_TRUE(dec_state.full_sync()); |
| } |
| |
| TEST(TestDecodingState, DiscontinuousPicIdContinuousSeqNum) { |
| VCMDecodingState dec_state; |
| VCMFrameBuffer frame; |
| VCMPacket packet; |
| frame.Reset(); |
| packet.frameType = kVideoFrameKey; |
| packet.video_header.codec = kVideoCodecVP8; |
| packet.timestamp = 0; |
| packet.seqNum = 0; |
| packet.video_header.vp8().tl0PicIdx = 0; |
| packet.video_header.vp8().temporalIdx = 0; |
| packet.video_header.vp8().pictureId = 0; |
| FrameData frame_data; |
| frame_data.rtt_ms = 0; |
| frame_data.rolling_average_packets_per_frame = -1; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| dec_state.SetState(&frame); |
| EXPECT_TRUE(dec_state.full_sync()); |
| |
| // Continuous sequence number but discontinuous picture id. This implies a |
| // a loss and we have to fall back to only decoding the base layer. |
| frame.Reset(); |
| packet.frameType = kVideoFrameDelta; |
| packet.timestamp += 3000; |
| ++packet.seqNum; |
| packet.video_header.vp8().temporalIdx = 1; |
| packet.video_header.vp8().pictureId = 2; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_FALSE(dec_state.ContinuousFrame(&frame)); |
| dec_state.SetState(&frame); |
| EXPECT_FALSE(dec_state.full_sync()); |
| } |
| |
| TEST(TestDecodingState, OldInput) { |
| VCMDecodingState dec_state; |
| // Identify packets belonging to old frames/packets. |
| // Set state for current frames. |
| VCMFrameBuffer frame; |
| VCMPacket packet; |
| packet.timestamp = 10; |
| packet.seqNum = 1; |
| FrameData frame_data; |
| frame_data.rtt_ms = 0; |
| frame_data.rolling_average_packets_per_frame = -1; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| dec_state.SetState(&frame); |
| packet.timestamp = 9; |
| EXPECT_TRUE(dec_state.IsOldPacket(&packet)); |
| // Check for old frame |
| frame.Reset(); |
| frame.InsertPacket(packet, 0, kNoErrors, frame_data); |
| EXPECT_TRUE(dec_state.IsOldFrame(&frame)); |
| } |
| |
| TEST(TestDecodingState, PictureIdRepeat) { |
| VCMDecodingState dec_state; |
| VCMFrameBuffer frame; |
| VCMPacket packet; |
| packet.frameType = kVideoFrameDelta; |
| packet.video_header.codec = kVideoCodecVP8; |
| packet.timestamp = 0; |
| packet.seqNum = 0; |
| packet.video_header.vp8().tl0PicIdx = 0; |
| packet.video_header.vp8().temporalIdx = 0; |
| packet.video_header.vp8().pictureId = 0; |
| FrameData frame_data; |
| frame_data.rtt_ms = 0; |
| frame_data.rolling_average_packets_per_frame = -1; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| dec_state.SetState(&frame); |
| // tl0PicIdx 0, temporal id 1. |
| frame.Reset(); |
| ++packet.timestamp; |
| ++packet.seqNum; |
| packet.video_header.vp8().temporalIdx++; |
| packet.video_header.vp8().pictureId++; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_TRUE(dec_state.ContinuousFrame(&frame)); |
| frame.Reset(); |
| // Testing only gap in tl0PicIdx when tl0PicIdx in continuous. |
| packet.video_header.vp8().tl0PicIdx += 3; |
| packet.video_header.vp8().temporalIdx++; |
| packet.video_header.vp8().tl0PicIdx = 1; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_FALSE(dec_state.ContinuousFrame(&frame)); |
| } |
| |
| TEST(TestDecodingState, FrameContinuityFlexibleModeKeyFrame) { |
| VCMDecodingState dec_state; |
| VCMFrameBuffer frame; |
| VCMPacket packet; |
| packet.is_first_packet_in_frame = true; |
| packet.timestamp = 1; |
| packet.seqNum = 0xffff; |
| uint8_t data[] = "I need a data pointer for this test!"; |
| packet.sizeBytes = sizeof(data); |
| packet.dataPtr = data; |
| packet.video_header.codec = kVideoCodecVP9; |
| |
| RTPVideoHeaderVP9& vp9_hdr = packet.video_header.vp9(); |
| vp9_hdr.picture_id = 10; |
| vp9_hdr.flexible_mode = true; |
| |
| FrameData frame_data; |
| frame_data.rtt_ms = 0; |
| frame_data.rolling_average_packets_per_frame = -1; |
| |
| // Key frame as first frame |
| packet.frameType = kVideoFrameKey; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_TRUE(dec_state.ContinuousFrame(&frame)); |
| dec_state.SetState(&frame); |
| |
| // Key frame again |
| vp9_hdr.picture_id = 11; |
| frame.Reset(); |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_TRUE(dec_state.ContinuousFrame(&frame)); |
| dec_state.SetState(&frame); |
| |
| // Ref to 11, continuous |
| frame.Reset(); |
| packet.frameType = kVideoFrameDelta; |
| vp9_hdr.picture_id = 12; |
| vp9_hdr.num_ref_pics = 1; |
| vp9_hdr.pid_diff[0] = 1; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_TRUE(dec_state.ContinuousFrame(&frame)); |
| } |
| |
| TEST(TestDecodingState, FrameContinuityFlexibleModeOutOfOrderFrames) { |
| VCMDecodingState dec_state; |
| VCMFrameBuffer frame; |
| VCMPacket packet; |
| packet.is_first_packet_in_frame = true; |
| packet.timestamp = 1; |
| packet.seqNum = 0xffff; |
| uint8_t data[] = "I need a data pointer for this test!"; |
| packet.sizeBytes = sizeof(data); |
| packet.dataPtr = data; |
| packet.video_header.codec = kVideoCodecVP9; |
| |
| RTPVideoHeaderVP9& vp9_hdr = packet.video_header.vp9(); |
| vp9_hdr.picture_id = 10; |
| vp9_hdr.flexible_mode = true; |
| |
| FrameData frame_data; |
| frame_data.rtt_ms = 0; |
| frame_data.rolling_average_packets_per_frame = -1; |
| |
| // Key frame as first frame |
| packet.frameType = kVideoFrameKey; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_TRUE(dec_state.ContinuousFrame(&frame)); |
| dec_state.SetState(&frame); |
| |
| // Ref to 10, continuous |
| frame.Reset(); |
| packet.frameType = kVideoFrameDelta; |
| vp9_hdr.picture_id = 15; |
| vp9_hdr.num_ref_pics = 1; |
| vp9_hdr.pid_diff[0] = 5; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_TRUE(dec_state.ContinuousFrame(&frame)); |
| dec_state.SetState(&frame); |
| |
| // Out of order, last id 15, this id 12, ref to 10, continuous |
| frame.Reset(); |
| vp9_hdr.picture_id = 12; |
| vp9_hdr.pid_diff[0] = 2; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_TRUE(dec_state.ContinuousFrame(&frame)); |
| dec_state.SetState(&frame); |
| |
| // Ref 10, 12, 15, continuous |
| frame.Reset(); |
| vp9_hdr.picture_id = 20; |
| vp9_hdr.num_ref_pics = 3; |
| vp9_hdr.pid_diff[0] = 10; |
| vp9_hdr.pid_diff[1] = 8; |
| vp9_hdr.pid_diff[2] = 5; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_TRUE(dec_state.ContinuousFrame(&frame)); |
| } |
| |
| TEST(TestDecodingState, FrameContinuityFlexibleModeGeneral) { |
| VCMDecodingState dec_state; |
| VCMFrameBuffer frame; |
| VCMPacket packet; |
| packet.is_first_packet_in_frame = true; |
| packet.timestamp = 1; |
| packet.seqNum = 0xffff; |
| uint8_t data[] = "I need a data pointer for this test!"; |
| packet.sizeBytes = sizeof(data); |
| packet.dataPtr = data; |
| packet.video_header.codec = kVideoCodecVP9; |
| |
| RTPVideoHeaderVP9& vp9_hdr = packet.video_header.vp9(); |
| vp9_hdr.picture_id = 10; |
| vp9_hdr.flexible_mode = true; |
| |
| FrameData frame_data; |
| frame_data.rtt_ms = 0; |
| frame_data.rolling_average_packets_per_frame = -1; |
| |
| // Key frame as first frame |
| packet.frameType = kVideoFrameKey; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_TRUE(dec_state.ContinuousFrame(&frame)); |
| |
| // Delta frame as first frame |
| frame.Reset(); |
| packet.frameType = kVideoFrameDelta; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_FALSE(dec_state.ContinuousFrame(&frame)); |
| |
| // Key frame then delta frame |
| frame.Reset(); |
| packet.frameType = kVideoFrameKey; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| dec_state.SetState(&frame); |
| frame.Reset(); |
| packet.frameType = kVideoFrameDelta; |
| vp9_hdr.num_ref_pics = 1; |
| vp9_hdr.picture_id = 15; |
| vp9_hdr.pid_diff[0] = 5; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_TRUE(dec_state.ContinuousFrame(&frame)); |
| dec_state.SetState(&frame); |
| |
| // Ref to 11, not continuous |
| frame.Reset(); |
| vp9_hdr.picture_id = 16; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_FALSE(dec_state.ContinuousFrame(&frame)); |
| |
| // Ref to 15, continuous |
| frame.Reset(); |
| vp9_hdr.picture_id = 16; |
| vp9_hdr.pid_diff[0] = 1; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_TRUE(dec_state.ContinuousFrame(&frame)); |
| dec_state.SetState(&frame); |
| |
| // Ref to 11 and 15, not continuous |
| frame.Reset(); |
| vp9_hdr.picture_id = 20; |
| vp9_hdr.num_ref_pics = 2; |
| vp9_hdr.pid_diff[0] = 9; |
| vp9_hdr.pid_diff[1] = 5; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_FALSE(dec_state.ContinuousFrame(&frame)); |
| |
| // Ref to 10, 15 and 16, continuous |
| frame.Reset(); |
| vp9_hdr.picture_id = 22; |
| vp9_hdr.num_ref_pics = 3; |
| vp9_hdr.pid_diff[0] = 12; |
| vp9_hdr.pid_diff[1] = 7; |
| vp9_hdr.pid_diff[2] = 6; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_TRUE(dec_state.ContinuousFrame(&frame)); |
| dec_state.SetState(&frame); |
| |
| // Key Frame, continuous |
| frame.Reset(); |
| packet.frameType = kVideoFrameKey; |
| vp9_hdr.picture_id = VCMDecodingState::kFrameDecodedLength - 2; |
| vp9_hdr.num_ref_pics = 0; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_TRUE(dec_state.ContinuousFrame(&frame)); |
| dec_state.SetState(&frame); |
| |
| // Frame at last index, ref to KF, continuous |
| frame.Reset(); |
| packet.frameType = kVideoFrameDelta; |
| vp9_hdr.picture_id = VCMDecodingState::kFrameDecodedLength - 1; |
| vp9_hdr.num_ref_pics = 1; |
| vp9_hdr.pid_diff[0] = 1; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_TRUE(dec_state.ContinuousFrame(&frame)); |
| dec_state.SetState(&frame); |
| |
| // Frame after wrapping buffer length, ref to last index, continuous |
| frame.Reset(); |
| vp9_hdr.picture_id = 0; |
| vp9_hdr.num_ref_pics = 1; |
| vp9_hdr.pid_diff[0] = 1; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_TRUE(dec_state.ContinuousFrame(&frame)); |
| dec_state.SetState(&frame); |
| |
| // Frame after wrapping start frame, ref to 0, continuous |
| frame.Reset(); |
| vp9_hdr.picture_id = 20; |
| vp9_hdr.num_ref_pics = 1; |
| vp9_hdr.pid_diff[0] = 20; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_TRUE(dec_state.ContinuousFrame(&frame)); |
| dec_state.SetState(&frame); |
| |
| // Frame after wrapping start frame, ref to 10, not continuous |
| frame.Reset(); |
| vp9_hdr.picture_id = 23; |
| vp9_hdr.num_ref_pics = 1; |
| vp9_hdr.pid_diff[0] = 13; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_FALSE(dec_state.ContinuousFrame(&frame)); |
| |
| // Key frame, continuous |
| frame.Reset(); |
| packet.frameType = kVideoFrameKey; |
| vp9_hdr.picture_id = 25; |
| vp9_hdr.num_ref_pics = 0; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_TRUE(dec_state.ContinuousFrame(&frame)); |
| dec_state.SetState(&frame); |
| |
| // Ref to KF, continuous |
| frame.Reset(); |
| packet.frameType = kVideoFrameDelta; |
| vp9_hdr.picture_id = 26; |
| vp9_hdr.num_ref_pics = 1; |
| vp9_hdr.pid_diff[0] = 1; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_TRUE(dec_state.ContinuousFrame(&frame)); |
| dec_state.SetState(&frame); |
| |
| // Ref to frame previous to KF, not continuous |
| frame.Reset(); |
| vp9_hdr.picture_id = 30; |
| vp9_hdr.num_ref_pics = 1; |
| vp9_hdr.pid_diff[0] = 30; |
| EXPECT_LE(0, frame.InsertPacket(packet, 0, kNoErrors, frame_data)); |
| EXPECT_FALSE(dec_state.ContinuousFrame(&frame)); |
| } |
| |
| } // namespace webrtc |
