android H264码流中的SPS获取

此文对于想要了解如何获取h264码流中SPS参数的过程，但是又不是很熟悉h264的朋友会很有帮助！！

This is a follow-up to my World’s Smallest h.264 Encoder post. I’ve received several emails asking about precise details of things in two entities in the h.264 bitstream: the Sequence Parameter Set (SPS) and the Picture Parameter Set (PPS). Both entities contain information that an h.264 decoder needs to decode the video data, for example the resolution and frame rate of the video.

Recall that an h.264 bitstream contains a sequence of Network Abstraction Layer (NAL) units. The SPS and PPS are both types of NAL units. The SPS NAL unit contains parameters that apply to a series of consecutive coded video pictures, referred to as a “coded video sequence” in the h.264 standard. The PPS NAL unit contains parameters that apply to the decoding of one or more individual pictures inside a coded video sequence.

In the case of my simple encoder, we emitted a single SPS and PPS at the start of the video data stream, but in the case of a more complex encoder, it would not be uncommon to see them inserted periodically in the data for two reasons—first, often a decoder will need to start decoding mid-stream, and second, because the encoder may wish to vary parameters for different parts of the stream in order to achieve better compression or quality goals.

In my trivial encoder, the h.264 SPS and PPS were hardcoded in hex as:

/* h.264 bitstreams */

const uint8_t sps[] =

{0x00, 0x00, 0x00, 0x01, 0x67, 0x42, 0x00, 0x0a, 0xf8, 0x41, 0xa2};

const uint8_t pps[] =

{0x00, 0x00, 0x00, 0x01, 0x68, 0xce, 0x38, 0x80};

Let’s decode this into something readable from the spec. The first thing I did was to look at section 7 of the h.264 specification. I saw that at a minimum I had to choose how to fill in the SPS parameters in the table below. In the table, as in the standard, the type u(n) indicates an unsigned integer of n bits, and ue(v) indicates an unsigned exponential-golomb coded value of a variable number of bits. The spec doesn’t seem to define the maximum number of bits anywhere, but the reference encoder software uses 32. (People wishing to explore the security of decoder software may find it interesting to violate this assumption!)

Parameter NameTypeValueCommentsforbidden_zero_bitu(1)0Despite being forbidden, it must be set to 0!nal_ref_idcu(2)33 means it is “important” (this is an SPS)nal_unit_typeu(5)7Indicates this is a sequence parameter setprofile_idcu(8)66Baseline profileconstraint_set0_flagu(1)0We’re not going to honor constraintsconstraint_set1_flagu(1)0We’re not going to honor constraintsconstraint_set2_flagu(1)0We’re not going to honor constraintsconstraint_set3_flagu(1)0We’re not going to honor constraintsreserved_zero_4bitsu(4)0Better set them to zerolevel_idcu(8)10Level 1, sec A.3.1seq_parameter_set_idue(v)0We’ll just use id 0.log2_max_frame_num_minus4ue(v)0Let’s have as few frame numbers as possiblepic_order_cnt_typeue(v)0Keep things simplelog2_max_pic_order_cnt_lsb_minus4ue(v)0Fewer is better.num_ref_framesue(v)0We will only send I slicesgaps_in_frame_num_value_allowed_flagu(1)0We will have no gapspic_width_in_mbs_minus_1ue(v)7SQCIF is 8 macroblocks widepic_height_in_map_units_minus_1ue(v)5SQCIF is 6 macroblocks highframe_mbs_only_flagu(1)1We will not to field/frame encodingdirect_8x8_inference_flagu(1)0Used for B slices. We will not send B slicesframe_cropping_flagu(1)0We will not do frame croppingvui_prameters_present_flagu(1)0We will not send VUI datarbsp_stop_one_bitu(1)1Stop bit. I missed this at first and it caused me much trouble.

Some key things here are the profile (profile_idc) and level (level_idc) that I chose, and the picture width and height. If you encode the above table in hex, you will get the values in the SPS array declared above.

A question I got a couple of times in email was about the width and height parameters—specifically, what to do if the picture width or height is not an integer multiple of macroblock size. Recall that, for the 4:2:0 sampling scheme in my encoder, a macroblock consists of 16×16 luma samples. In this case, you would set the frame_cropping_flag to 1, and reduce the number of pixels in the horizontal and vertical direction with theframe_crop_left_offset, frame_crop_right_offset, frame_crop_top_offset, and frame_crop_bottom_offset parameters, which are conditionally present in the bitstream only if the frame_cropping_flag is set to one.

One interesting problem that we see fairly often with h.264 is when the container format (MP4, MOV, etc.) contains different values for some of these parameters than the SPS and PPS. In this case, we find different video players handle the streams differently.

A handy tool for decoding h.264 bitstreams, including the SPS, is the h264bitstream tool. It comes with a command line program that decodes a bitstream to the parameter names defined in the h.264 specification. Let’s look at its output for a sample mp4 file I downloaded from youtube. First, I extract the h.264 NAL units from the file using ffmpeg:

ffmpeg.exe -i Old Faithful.mp4 -vcodec copy -vbsf h264_mp4toannexb -an of.h264

The NAL units now reside in the file of.h264. I then run the h264_analyze command from the h264bitstream package to produce the following output:

h264_analyze of.h264

!! Found NAL at offset 4 (0x0004), size 25 (0x0019)

==================== NAL ====================

forbidden_zero_bit : 0

nal_ref_idc : 3

nal_unit_type : 7 ( Sequence parameter set )

======= SPS =======

profile_idc : 100

constraint_set0_flag : 0

constraint_set1_flag : 0

constraint_set2_flag : 0

constraint_set3_flag : 0

reserved_zero_4bits : 0

level_idc : 31

seq_parameter_set_id : 0

chroma_format_idc : 1

residual_colour_transform_flag : 0

bit_depth_luma_minus8 : 0

bit_depth_chroma_minus8 : 0

qpprime_y_zero_transform_bypass_flag : 0

seq_scaling_matrix_present_flag : 0

log2_max_frame_num_minus4 : 3

pic_order_cnt_type : 0

log2_max_pic_order_cnt_lsb_minus4 : 3

delta_pic_order_always_zero_flag : 0

offset_for_non_ref_pic : 0

offset_for_top_to_bottom_field : 0

num_ref_frames_in_pic_order_cnt_cycle : 0

num_ref_frames : 1

gaps_in_frame_num_value_allowed_flag : 0

pic_width_in_mbs_minus1 : 79

pic_height_in_map_units_minus1 : 44

frame_mbs_only_flag : 1

mb_adaptive_frame_field_flag : 0

direct_8x8_inference_flag : 1

frame_cropping_flag : 0

frame_crop_left_offset : 0

frame_crop_right_offset : 0

frame_crop_top_offset : 0

frame_crop_bottom_offset : 0

vui_parameters_present_flag : 1

=== VUI ===

aspect_ratio_info_present_flag : 1

aspect_ratio_idc : 1

sar_width : 0

sar_height : 0

overscan_info_present_flag : 0

overscan_appropriate_flag : 0

video_signal_type_present_flag : 0

video_signal_type_present_flag : 0

video_format : 0

video_full_range_flag : 0

colour_description_present_flag : 0

colour_primaries : 0

transfer_characteristics : 0

matrix_coefficients : 0

chroma_loc_info_present_flag : 0

chroma_sample_loc_type_top_field : 0

chroma_sample_loc_type_bottom_field : 0

timing_info_present_flag : 1

num_units_in_tick : 100

time_scale : 5994

fixed_frame_rate_flag : 1

nal_hrd_parameters_present_flag : 0

vcl_hrd_parameters_present_flag : 0

low_delay_hrd_flag : 0

pic_struct_present_flag : 0

bitstream_restriction_flag : 1

motion_vectors_over_pic_boundaries_flag : 1

max_bytes_per_pic_denom : 0

max_bits_per_mb_denom : 0

log2_max_mv_length_horizontal : 11

log2_max_mv_length_vertical : 11

num_reorder_frames : 0

max_dec_frame_buffering : 1

=== HRD ===

cpb_cnt_minus1 : 0

bit_rate_scale : 0

cpb_size_scale : 0

initial_cpb_removal_delay_length_minus1 : 0

cpb_removal_delay_length_minus1 : 0

dpb_output_delay_length_minus1 : 0

time_offset_length : 0

The only additional thing I’d like to point out here is that this particular SPS also contains information about the frame rate of the video (seetiming_info_present_flag). These parameters must be closely checked when you generate bitstreams to ensure they agree with the container format that the h.264 will eventually be muxed into. Even a small error, such as 29.97 fps in one place and 30 fps in another, can result in severe audio/video synchronization problems.

Next time I will write about the h.264 Picture Parameter Set (PPS).

Tags: h.264, Video