/* Gstreamer * Copyright (C) <2011> Intel Corporation * Copyright (C) <2011> Collabora Ltd. * Copyright (C) <2011> Thibault Saunier * * Some bits C-c,C-v'ed and s/4/3 from h264parse and videoparsers/h264parse.c: * Copyright (C) <2010> Mark Nauwelaerts * Copyright (C) <2010> Collabora Multimedia * Copyright (C) <2010> Nokia Corporation * * (C) 2005 Michal Benes * (C) 2008 Wim Taymans * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public * License along with this library; if not, write to the * Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, * Boston, MA 02110-1301, USA. */ /** * SECTION:gsth264parser * @short_description: Convenience library for h264 video * bitstream parsing. * * It offers you bitstream parsing in AVC mode or not. To identify Nals in a bitstream and * parse its headers, you should call: * * * #gst_h264_parser_identify_nalu to identify the following nalu in not AVC bitstreams * * * #gst_h264_parser_identify_nalu_avc to identify the nalu in AVC bitstreams * * * * Then, depending on the #GstH264NalUnitType of the newly parsed #GstH264NalUnit, you should * call the differents functions to parse the structure: * * * From #GST_H264_NAL_SLICE to #GST_H264_NAL_SLICE_IDR: #gst_h264_parser_parse_slice_hdr * * * #GST_H264_NAL_SEI: #gst_h264_parser_parse_sei * * * #GST_H264_NAL_SPS: #gst_h264_parser_parse_sps * * * #GST_H264_NAL_PPS: #gst_h264_parser_parse_pps * * * Any other: #gst_h264_parser_parse_nal * * * * Note: You should always call gst_h264_parser_parse_nal if you don't actually need * #GstH264NalUnitType to be parsed for your personnal use, in order to guarantee that the * #GstH264NalParser is always up to date. * * For more details about the structures, look at the ITU-T H.264 and ISO/IEC 14496-10 – MPEG-4 * Part 10 specifications, you can download them from: * * * * ITU-T H.264: http://www.itu.int/rec/T-REC-H.264 * * * ISO/IEC 14496-10: http://www.iso.org/iso/iso_catalogue/catalogue_tc/catalogue_detail.htm?csnumber=56538 * * */ #ifdef HAVE_CONFIG_H # include "config.h" #endif #include "nalutils.h" #include "gsth264parser.h" #include #include #include GST_DEBUG_CATEGORY (h264_parser_debug); #define GST_CAT_DEFAULT h264_parser_debug static gboolean initialized = FALSE; #define INITIALIZE_DEBUG_CATEGORY \ if (!initialized) { \ GST_DEBUG_CATEGORY_INIT (h264_parser_debug, "codecparsers_h264", 0, \ "h264 parser library"); \ initialized = TRUE; \ } /**** Default scaling_lists according to Table 7-2 *****/ static const guint8 default_4x4_intra[16] = { 6, 13, 13, 20, 20, 20, 28, 28, 28, 28, 32, 32, 32, 37, 37, 42 }; static const guint8 default_4x4_inter[16] = { 10, 14, 14, 20, 20, 20, 24, 24, 24, 24, 27, 27, 27, 30, 30, 34 }; static const guint8 default_8x8_intra[64] = { 6, 10, 10, 13, 11, 13, 16, 16, 16, 16, 18, 18, 18, 18, 18, 23, 23, 23, 23, 23, 23, 25, 25, 25, 25, 25, 25, 25, 27, 27, 27, 27, 27, 27, 27, 27, 29, 29, 29, 29, 29, 29, 29, 31, 31, 31, 31, 31, 31, 33, 33, 33, 33, 33, 36, 36, 36, 36, 38, 38, 38, 40, 40, 42 }; static const guint8 default_8x8_inter[64] = { 9, 13, 13, 15, 13, 15, 17, 17, 17, 17, 19, 19, 19, 19, 19, 21, 21, 21, 21, 21, 21, 22, 22, 22, 22, 22, 22, 22, 24, 24, 24, 24, 24, 24, 24, 24, 25, 25, 25, 25, 25, 25, 25, 27, 27, 27, 27, 27, 27, 28, 28, 28, 28, 28, 30, 30, 30, 30, 32, 32, 32, 33, 33, 35 }; static const guint8 zigzag_8x8[64] = { 0, 1, 8, 16, 9, 2, 3, 10, 17, 24, 32, 25, 18, 11, 4, 5, 12, 19, 26, 33, 40, 48, 41, 34, 27, 20, 13, 6, 7, 14, 21, 28, 35, 42, 49, 56, 57, 50, 43, 36, 29, 22, 15, 23, 30, 37, 44, 51, 58, 59, 52, 45, 38, 31, 39, 46, 53, 60, 61, 54, 47, 55, 62, 63 }; static const guint8 zigzag_4x4[16] = { 0, 1, 4, 8, 5, 2, 3, 6, 9, 12, 13, 10, 7, 11, 14, 15, }; typedef struct { guint par_n, par_d; } PAR; /* Table E-1 - Meaning of sample aspect ratio indicator (1..16) */ static PAR aspect_ratios[17] = { {0, 0}, {1, 1}, {12, 11}, {10, 11}, {16, 11}, {40, 33}, {24, 11}, {20, 11}, {32, 11}, {80, 33}, {18, 11}, {15, 11}, {64, 33}, {160, 99}, {4, 3}, {3, 2}, {2, 1} }; /***** Utils ****/ #define EXTENDED_SAR 255 static GstH264SPS * gst_h264_parser_get_sps (GstH264NalParser * nalparser, guint8 sps_id) { GstH264SPS *sps; sps = &nalparser->sps[sps_id]; if (sps->valid) return sps; return NULL; } static GstH264PPS * gst_h264_parser_get_pps (GstH264NalParser * nalparser, guint8 pps_id) { GstH264PPS *pps; pps = &nalparser->pps[pps_id]; if (pps->valid) return pps; return NULL; } static gboolean gst_h264_parse_nalu_header (GstH264NalUnit * nalu) { guint8 *data = nalu->data + nalu->offset; guint8 svc_extension_flag; GstBitReader br; if (nalu->size < 1) return FALSE; nalu->type = (data[0] & 0x1f); nalu->ref_idc = (data[0] & 0x60) >> 5; nalu->idr_pic_flag = (nalu->type == 5 ? 1 : 0); nalu->header_bytes = 1; nalu->extension_type = GST_H264_NAL_EXTENSION_NONE; switch (nalu->type) { case GST_H264_NAL_PREFIX_UNIT: case GST_H264_NAL_SLICE_EXT: if (nalu->size < 4) return FALSE; gst_bit_reader_init (&br, nalu->data + nalu->offset + nalu->header_bytes, nalu->size - nalu->header_bytes); svc_extension_flag = gst_bit_reader_get_bits_uint8_unchecked (&br, 1); if (svc_extension_flag) { /* SVC */ nalu->extension_type = GST_H264_NAL_EXTENSION_SVC; } else { /* MVC */ GstH264NalUnitExtensionMVC *const mvc = &nalu->extension.mvc; nalu->extension_type = GST_H264_NAL_EXTENSION_MVC; mvc->non_idr_flag = gst_bit_reader_get_bits_uint8_unchecked (&br, 1); mvc->priority_id = gst_bit_reader_get_bits_uint8_unchecked (&br, 6); mvc->view_id = gst_bit_reader_get_bits_uint16_unchecked (&br, 10); mvc->temporal_id = gst_bit_reader_get_bits_uint8_unchecked (&br, 3); mvc->anchor_pic_flag = gst_bit_reader_get_bits_uint8_unchecked (&br, 1); mvc->inter_view_flag = gst_bit_reader_get_bits_uint8_unchecked (&br, 1); /* Update IdrPicFlag (H.7.4.1.1) */ nalu->idr_pic_flag = !mvc->non_idr_flag; } nalu->header_bytes += 3; break; default: break; } GST_DEBUG ("Nal type %u, ref_idc %u", nalu->type, nalu->ref_idc); return TRUE; } /* * gst_h264_pps_copy: * @dst_pps: The destination #GstH264PPS to copy into * @src_pps: The source #GstH264PPS to copy from * * Copies @src_pps into @dst_pps. * * Returns: %TRUE if everything went fine, %FALSE otherwise */ static gboolean gst_h264_pps_copy (GstH264PPS * dst_pps, const GstH264PPS * src_pps) { g_return_val_if_fail (dst_pps != NULL, FALSE); g_return_val_if_fail (src_pps != NULL, FALSE); gst_h264_pps_clear (dst_pps); *dst_pps = *src_pps; if (src_pps->slice_group_id) dst_pps->slice_group_id = g_memdup (src_pps->slice_group_id, src_pps->pic_size_in_map_units_minus1 + 1); return TRUE; } /* Copy MVC-specific data for subset SPS header */ static gboolean gst_h264_sps_mvc_copy (GstH264SPS * dst_sps, const GstH264SPS * src_sps) { GstH264SPSExtMVC *const dst_mvc = &dst_sps->extension.mvc; const GstH264SPSExtMVC *const src_mvc = &src_sps->extension.mvc; guint i, j, k; g_assert (dst_sps->extension_type == GST_H264_NAL_EXTENSION_MVC); dst_mvc->num_views_minus1 = src_mvc->num_views_minus1; dst_mvc->view = g_new0 (GstH264SPSExtMVCView, dst_mvc->num_views_minus1 + 1); if (!dst_mvc->view) return FALSE; dst_mvc->view[0].view_id = src_mvc->view[0].view_id; for (i = 1; i <= dst_mvc->num_views_minus1; i++) { GstH264SPSExtMVCView *const dst_view = &dst_mvc->view[i]; const GstH264SPSExtMVCView *const src_view = &src_mvc->view[i]; dst_view->view_id = src_view->view_id; dst_view->num_anchor_refs_l0 = src_view->num_anchor_refs_l0; for (j = 0; j < dst_view->num_anchor_refs_l0; j++) dst_view->anchor_ref_l0[j] = src_view->anchor_ref_l0[j]; dst_view->num_anchor_refs_l1 = src_view->num_anchor_refs_l1; for (j = 0; j < dst_view->num_anchor_refs_l1; j++) dst_view->anchor_ref_l1[j] = src_view->anchor_ref_l1[j]; dst_view->num_non_anchor_refs_l0 = src_view->num_non_anchor_refs_l0; for (j = 0; j < dst_view->num_non_anchor_refs_l0; j++) dst_view->non_anchor_ref_l0[j] = src_view->non_anchor_ref_l0[j]; dst_view->num_non_anchor_refs_l1 = src_view->num_non_anchor_refs_l1; for (j = 0; j < dst_view->num_non_anchor_refs_l1; j++) dst_view->non_anchor_ref_l1[j] = src_view->non_anchor_ref_l1[j]; } dst_mvc->num_level_values_signalled_minus1 = src_mvc->num_level_values_signalled_minus1; dst_mvc->level_value = g_new0 (GstH264SPSExtMVCLevelValue, dst_mvc->num_level_values_signalled_minus1 + 1); if (!dst_mvc->level_value) return FALSE; for (i = 0; i <= dst_mvc->num_level_values_signalled_minus1; i++) { GstH264SPSExtMVCLevelValue *const dst_value = &dst_mvc->level_value[i]; const GstH264SPSExtMVCLevelValue *const src_value = &src_mvc->level_value[i]; dst_value->level_idc = src_value->level_idc; dst_value->num_applicable_ops_minus1 = src_value->num_applicable_ops_minus1; dst_value->applicable_op = g_new0 (GstH264SPSExtMVCLevelValueOp, dst_value->num_applicable_ops_minus1 + 1); if (!dst_value->applicable_op) return FALSE; for (j = 0; j <= dst_value->num_applicable_ops_minus1; j++) { GstH264SPSExtMVCLevelValueOp *const dst_op = &dst_value->applicable_op[j]; const GstH264SPSExtMVCLevelValueOp *const src_op = &src_value->applicable_op[j]; dst_op->temporal_id = src_op->temporal_id; dst_op->num_target_views_minus1 = src_op->num_target_views_minus1; dst_op->target_view_id = g_new (guint16, dst_op->num_target_views_minus1 + 1); if (!dst_op->target_view_id) return FALSE; for (k = 0; k <= dst_op->num_target_views_minus1; k++) dst_op->target_view_id[k] = src_op->target_view_id[k]; dst_op->num_views_minus1 = src_op->num_views_minus1; } } return TRUE; } /* * gst_h264_sps_copy: * @dst_sps: The destination #GstH264SPS to copy into * @src_sps: The source #GstH264SPS to copy from * * Copies @src_sps into @dst_sps. * * Returns: %TRUE if everything went fine, %FALSE otherwise */ static gboolean gst_h264_sps_copy (GstH264SPS * dst_sps, const GstH264SPS * src_sps) { g_return_val_if_fail (dst_sps != NULL, FALSE); g_return_val_if_fail (src_sps != NULL, FALSE); gst_h264_sps_clear (dst_sps); *dst_sps = *src_sps; switch (dst_sps->extension_type) { case GST_H264_NAL_EXTENSION_MVC: if (!gst_h264_sps_mvc_copy (dst_sps, src_sps)) return FALSE; break; } return TRUE; } /****** Parsing functions *****/ static gboolean gst_h264_parse_hrd_parameters (GstH264HRDParams * hrd, NalReader * nr) { guint sched_sel_idx; GST_DEBUG ("parsing \"HRD Parameters\""); READ_UE_ALLOWED (nr, hrd->cpb_cnt_minus1, 0, 31); READ_UINT8 (nr, hrd->bit_rate_scale, 4); READ_UINT8 (nr, hrd->cpb_size_scale, 4); for (sched_sel_idx = 0; sched_sel_idx <= hrd->cpb_cnt_minus1; sched_sel_idx++) { READ_UE (nr, hrd->bit_rate_value_minus1[sched_sel_idx]); READ_UE (nr, hrd->cpb_size_value_minus1[sched_sel_idx]); READ_UINT8 (nr, hrd->cbr_flag[sched_sel_idx], 1); } READ_UINT8 (nr, hrd->initial_cpb_removal_delay_length_minus1, 5); READ_UINT8 (nr, hrd->cpb_removal_delay_length_minus1, 5); READ_UINT8 (nr, hrd->dpb_output_delay_length_minus1, 5); READ_UINT8 (nr, hrd->time_offset_length, 5); return TRUE; error: GST_WARNING ("error parsing \"HRD Parameters\""); return FALSE; } static gboolean gst_h264_parse_vui_parameters (GstH264SPS * sps, NalReader * nr) { GstH264VUIParams *vui = &sps->vui_parameters; GST_DEBUG ("parsing \"VUI Parameters\""); /* set default values for fields that might not be present in the bitstream and have valid defaults */ vui->aspect_ratio_idc = 0; vui->video_format = 5; vui->video_full_range_flag = 0; vui->colour_primaries = 2; vui->transfer_characteristics = 2; vui->matrix_coefficients = 2; vui->chroma_sample_loc_type_top_field = 0; vui->chroma_sample_loc_type_bottom_field = 0; vui->low_delay_hrd_flag = 0; vui->par_n = 0; vui->par_d = 0; READ_UINT8 (nr, vui->aspect_ratio_info_present_flag, 1); if (vui->aspect_ratio_info_present_flag) { READ_UINT8 (nr, vui->aspect_ratio_idc, 8); if (vui->aspect_ratio_idc == EXTENDED_SAR) { READ_UINT16 (nr, vui->sar_width, 16); READ_UINT16 (nr, vui->sar_height, 16); vui->par_n = vui->sar_width; vui->par_d = vui->sar_height; } else if (vui->aspect_ratio_idc <= 16) { vui->par_n = aspect_ratios[vui->aspect_ratio_idc].par_n; vui->par_d = aspect_ratios[vui->aspect_ratio_idc].par_d; } } READ_UINT8 (nr, vui->overscan_info_present_flag, 1); if (vui->overscan_info_present_flag) READ_UINT8 (nr, vui->overscan_appropriate_flag, 1); READ_UINT8 (nr, vui->video_signal_type_present_flag, 1); if (vui->video_signal_type_present_flag) { READ_UINT8 (nr, vui->video_format, 3); READ_UINT8 (nr, vui->video_full_range_flag, 1); READ_UINT8 (nr, vui->colour_description_present_flag, 1); if (vui->colour_description_present_flag) { READ_UINT8 (nr, vui->colour_primaries, 8); READ_UINT8 (nr, vui->transfer_characteristics, 8); READ_UINT8 (nr, vui->matrix_coefficients, 8); } } READ_UINT8 (nr, vui->chroma_loc_info_present_flag, 1); if (vui->chroma_loc_info_present_flag) { READ_UE_ALLOWED (nr, vui->chroma_sample_loc_type_top_field, 0, 5); READ_UE_ALLOWED (nr, vui->chroma_sample_loc_type_bottom_field, 0, 5); } READ_UINT8 (nr, vui->timing_info_present_flag, 1); if (vui->timing_info_present_flag) { READ_UINT32 (nr, vui->num_units_in_tick, 32); if (vui->num_units_in_tick == 0) GST_WARNING ("num_units_in_tick = 0 detected in stream " "(incompliant to H.264 E.2.1)."); READ_UINT32 (nr, vui->time_scale, 32); if (vui->time_scale == 0) GST_WARNING ("time_scale = 0 detected in stream " "(incompliant to H.264 E.2.1)."); READ_UINT8 (nr, vui->fixed_frame_rate_flag, 1); } READ_UINT8 (nr, vui->nal_hrd_parameters_present_flag, 1); if (vui->nal_hrd_parameters_present_flag) { if (!gst_h264_parse_hrd_parameters (&vui->nal_hrd_parameters, nr)) goto error; } READ_UINT8 (nr, vui->vcl_hrd_parameters_present_flag, 1); if (vui->vcl_hrd_parameters_present_flag) { if (!gst_h264_parse_hrd_parameters (&vui->vcl_hrd_parameters, nr)) goto error; } if (vui->nal_hrd_parameters_present_flag || vui->vcl_hrd_parameters_present_flag) READ_UINT8 (nr, vui->low_delay_hrd_flag, 1); READ_UINT8 (nr, vui->pic_struct_present_flag, 1); READ_UINT8 (nr, vui->bitstream_restriction_flag, 1); if (vui->bitstream_restriction_flag) { READ_UINT8 (nr, vui->motion_vectors_over_pic_boundaries_flag, 1); READ_UE (nr, vui->max_bytes_per_pic_denom); READ_UE_ALLOWED (nr, vui->max_bits_per_mb_denom, 0, 16); READ_UE_ALLOWED (nr, vui->log2_max_mv_length_horizontal, 0, 16); READ_UE_ALLOWED (nr, vui->log2_max_mv_length_vertical, 0, 16); READ_UE (nr, vui->num_reorder_frames); READ_UE (nr, vui->max_dec_frame_buffering); } return TRUE; error: GST_WARNING ("error parsing \"VUI Parameters\""); return FALSE; } static gboolean gst_h264_parser_parse_scaling_list (NalReader * nr, guint8 scaling_lists_4x4[6][16], guint8 scaling_lists_8x8[6][64], const guint8 fallback_4x4_inter[16], const guint8 fallback_4x4_intra[16], const guint8 fallback_8x8_inter[64], const guint8 fallback_8x8_intra[64], guint8 n_lists) { guint i; static const guint8 *default_lists[12] = { default_4x4_intra, default_4x4_intra, default_4x4_intra, default_4x4_inter, default_4x4_inter, default_4x4_inter, default_8x8_intra, default_8x8_inter, default_8x8_intra, default_8x8_inter, default_8x8_intra, default_8x8_inter }; GST_DEBUG ("parsing scaling lists"); for (i = 0; i < 12; i++) { gboolean use_default = FALSE; if (i < n_lists) { guint8 scaling_list_present_flag; READ_UINT8 (nr, scaling_list_present_flag, 1); if (scaling_list_present_flag) { guint8 *scaling_list; guint size; guint j; guint8 last_scale, next_scale; if (i < 6) { scaling_list = scaling_lists_4x4[i]; size = 16; } else { scaling_list = scaling_lists_8x8[i - 6]; size = 64; } last_scale = 8; next_scale = 8; for (j = 0; j < size; j++) { if (next_scale != 0) { gint32 delta_scale; READ_SE (nr, delta_scale); next_scale = (last_scale + delta_scale) & 0xff; } if (j == 0 && next_scale == 0) { /* Use default scaling lists (7.4.2.1.1.1) */ memcpy (scaling_list, default_lists[i], size); break; } last_scale = scaling_list[j] = (next_scale == 0) ? last_scale : next_scale; } } else use_default = TRUE; } else use_default = TRUE; if (use_default) { switch (i) { case 0: memcpy (scaling_lists_4x4[0], fallback_4x4_intra, 16); break; case 1: memcpy (scaling_lists_4x4[1], scaling_lists_4x4[0], 16); break; case 2: memcpy (scaling_lists_4x4[2], scaling_lists_4x4[1], 16); break; case 3: memcpy (scaling_lists_4x4[3], fallback_4x4_inter, 16); break; case 4: memcpy (scaling_lists_4x4[4], scaling_lists_4x4[3], 16); break; case 5: memcpy (scaling_lists_4x4[5], scaling_lists_4x4[4], 16); break; case 6: memcpy (scaling_lists_8x8[0], fallback_8x8_intra, 64); break; case 7: memcpy (scaling_lists_8x8[1], fallback_8x8_inter, 64); break; case 8: memcpy (scaling_lists_8x8[2], scaling_lists_8x8[0], 64); break; case 9: memcpy (scaling_lists_8x8[3], scaling_lists_8x8[1], 64); break; case 10: memcpy (scaling_lists_8x8[4], scaling_lists_8x8[2], 64); break; case 11: memcpy (scaling_lists_8x8[5], scaling_lists_8x8[3], 64); break; default: break; } } } return TRUE; error: GST_WARNING ("error parsing scaling lists"); return FALSE; } static gboolean slice_parse_ref_pic_list_modification_1 (GstH264SliceHdr * slice, NalReader * nr, guint list, gboolean is_mvc) { GstH264RefPicListModification *entries; guint8 *ref_pic_list_modification_flag, *n_ref_pic_list_modification; guint32 modification_of_pic_nums_idc; guint i = 0; if (list == 0) { entries = slice->ref_pic_list_modification_l0; ref_pic_list_modification_flag = &slice->ref_pic_list_modification_flag_l0; n_ref_pic_list_modification = &slice->n_ref_pic_list_modification_l0; } else { entries = slice->ref_pic_list_modification_l1; ref_pic_list_modification_flag = &slice->ref_pic_list_modification_flag_l1; n_ref_pic_list_modification = &slice->n_ref_pic_list_modification_l1; } READ_UINT8 (nr, *ref_pic_list_modification_flag, 1); if (*ref_pic_list_modification_flag) { while (1) { READ_UE (nr, modification_of_pic_nums_idc); if (modification_of_pic_nums_idc == 3) break; if (modification_of_pic_nums_idc == 0 || modification_of_pic_nums_idc == 1) { READ_UE_ALLOWED (nr, entries[i].value.abs_diff_pic_num_minus1, 0, slice->max_pic_num - 1); } else if (modification_of_pic_nums_idc == 2) { READ_UE (nr, entries[i].value.long_term_pic_num); } else if (is_mvc && (modification_of_pic_nums_idc == 4 || modification_of_pic_nums_idc == 5)) { READ_UE (nr, entries[i].value.abs_diff_view_idx_minus1); } else continue; entries[i++].modification_of_pic_nums_idc = modification_of_pic_nums_idc; } } *n_ref_pic_list_modification = i; return TRUE; error: GST_WARNING ("error parsing \"Reference picture list %u modification\"", list); return FALSE; } static gboolean slice_parse_ref_pic_list_modification (GstH264SliceHdr * slice, NalReader * nr, gboolean is_mvc) { if (!GST_H264_IS_I_SLICE (slice) && !GST_H264_IS_SI_SLICE (slice)) { if (!slice_parse_ref_pic_list_modification_1 (slice, nr, 0, is_mvc)) return FALSE; } if (GST_H264_IS_B_SLICE (slice)) { if (!slice_parse_ref_pic_list_modification_1 (slice, nr, 1, is_mvc)) return FALSE; } return TRUE; } static gboolean gst_h264_slice_parse_dec_ref_pic_marking (GstH264SliceHdr * slice, GstH264NalUnit * nalu, NalReader * nr) { GstH264DecRefPicMarking *dec_ref_pic_m; GST_DEBUG ("parsing \"Decoded reference picture marking\""); dec_ref_pic_m = &slice->dec_ref_pic_marking; if (nalu->idr_pic_flag) { READ_UINT8 (nr, dec_ref_pic_m->no_output_of_prior_pics_flag, 1); READ_UINT8 (nr, dec_ref_pic_m->long_term_reference_flag, 1); } else { READ_UINT8 (nr, dec_ref_pic_m->adaptive_ref_pic_marking_mode_flag, 1); if (dec_ref_pic_m->adaptive_ref_pic_marking_mode_flag) { guint32 mem_mgmt_ctrl_op; GstH264RefPicMarking *refpicmarking; dec_ref_pic_m->n_ref_pic_marking = 0; while (1) { refpicmarking = &dec_ref_pic_m->ref_pic_marking[dec_ref_pic_m->n_ref_pic_marking]; READ_UE (nr, mem_mgmt_ctrl_op); if (mem_mgmt_ctrl_op == 0) break; refpicmarking->memory_management_control_operation = mem_mgmt_ctrl_op; if (mem_mgmt_ctrl_op == 1 || mem_mgmt_ctrl_op == 3) READ_UE (nr, refpicmarking->difference_of_pic_nums_minus1); if (mem_mgmt_ctrl_op == 2) READ_UE (nr, refpicmarking->long_term_pic_num); if (mem_mgmt_ctrl_op == 3 || mem_mgmt_ctrl_op == 6) READ_UE (nr, refpicmarking->long_term_frame_idx); if (mem_mgmt_ctrl_op == 4) READ_UE (nr, refpicmarking->max_long_term_frame_idx_plus1); dec_ref_pic_m->n_ref_pic_marking++; } } } return TRUE; error: GST_WARNING ("error parsing \"Decoded reference picture marking\""); return FALSE; } static gboolean gst_h264_slice_parse_pred_weight_table (GstH264SliceHdr * slice, NalReader * nr, guint8 chroma_array_type) { GstH264PredWeightTable *p; gint16 default_luma_weight, default_chroma_weight; gint i; GST_DEBUG ("parsing \"Prediction weight table\""); p = &slice->pred_weight_table; READ_UE_ALLOWED (nr, p->luma_log2_weight_denom, 0, 7); /* set default values */ default_luma_weight = 1 << p->luma_log2_weight_denom; for (i = 0; i < G_N_ELEMENTS (p->luma_weight_l0); i++) p->luma_weight_l0[i] = default_luma_weight; memset (p->luma_offset_l0, 0, sizeof (p->luma_offset_l0)); if (GST_H264_IS_B_SLICE (slice)) { for (i = 0; i < G_N_ELEMENTS (p->luma_weight_l1); i++) p->luma_weight_l1[i] = default_luma_weight; memset (p->luma_offset_l1, 0, sizeof (p->luma_offset_l1)); } if (chroma_array_type != 0) { READ_UE_ALLOWED (nr, p->chroma_log2_weight_denom, 0, 7); /* set default values */ default_chroma_weight = 1 << p->chroma_log2_weight_denom; for (i = 0; i < G_N_ELEMENTS (p->chroma_weight_l0); i++) { p->chroma_weight_l0[i][0] = default_chroma_weight; p->chroma_weight_l0[i][1] = default_chroma_weight; } memset (p->chroma_offset_l0, 0, sizeof (p->chroma_offset_l0)); if (GST_H264_IS_B_SLICE (slice)) { for (i = 0; i < G_N_ELEMENTS (p->chroma_weight_l1); i++) { p->chroma_weight_l1[i][0] = default_chroma_weight; p->chroma_weight_l1[i][1] = default_chroma_weight; } memset (p->chroma_offset_l1, 0, sizeof (p->chroma_offset_l1)); } } for (i = 0; i <= slice->num_ref_idx_l0_active_minus1; i++) { guint8 luma_weight_l0_flag; READ_UINT8 (nr, luma_weight_l0_flag, 1); if (luma_weight_l0_flag) { READ_SE_ALLOWED (nr, p->luma_weight_l0[i], -128, 127); READ_SE_ALLOWED (nr, p->luma_offset_l0[i], -128, 127); } if (chroma_array_type != 0) { guint8 chroma_weight_l0_flag; gint j; READ_UINT8 (nr, chroma_weight_l0_flag, 1); if (chroma_weight_l0_flag) { for (j = 0; j < 2; j++) { READ_SE_ALLOWED (nr, p->chroma_weight_l0[i][j], -128, 127); READ_SE_ALLOWED (nr, p->chroma_offset_l0[i][j], -128, 127); } } } } if (GST_H264_IS_B_SLICE (slice)) { for (i = 0; i <= slice->num_ref_idx_l1_active_minus1; i++) { guint8 luma_weight_l1_flag; READ_UINT8 (nr, luma_weight_l1_flag, 1); if (luma_weight_l1_flag) { READ_SE_ALLOWED (nr, p->luma_weight_l1[i], -128, 127); READ_SE_ALLOWED (nr, p->luma_offset_l1[i], -128, 127); } if (chroma_array_type != 0) { guint8 chroma_weight_l1_flag; gint j; READ_UINT8 (nr, chroma_weight_l1_flag, 1); if (chroma_weight_l1_flag) { for (j = 0; j < 2; j++) { READ_SE_ALLOWED (nr, p->chroma_weight_l1[i][j], -128, 127); READ_SE_ALLOWED (nr, p->chroma_offset_l1[i][j], -128, 127); } } } } } return TRUE; error: GST_WARNING ("error parsing \"Prediction weight table\""); return FALSE; } static GstH264ParserResult gst_h264_parser_parse_buffering_period (GstH264NalParser * nalparser, GstH264BufferingPeriod * per, NalReader * nr) { GstH264SPS *sps; guint8 sps_id; GST_DEBUG ("parsing \"Buffering period\""); READ_UE_ALLOWED (nr, sps_id, 0, GST_H264_MAX_SPS_COUNT - 1); sps = gst_h264_parser_get_sps (nalparser, sps_id); if (!sps) { GST_WARNING ("couldn't find associated sequence parameter set with id: %d", sps_id); return GST_H264_PARSER_BROKEN_LINK; } per->sps = sps; if (sps->vui_parameters_present_flag) { GstH264VUIParams *vui = &sps->vui_parameters; if (vui->nal_hrd_parameters_present_flag) { GstH264HRDParams *hrd = &vui->nal_hrd_parameters; const guint8 nbits = hrd->initial_cpb_removal_delay_length_minus1 + 1; guint8 sched_sel_idx; for (sched_sel_idx = 0; sched_sel_idx <= hrd->cpb_cnt_minus1; sched_sel_idx++) { READ_UINT32 (nr, per->nal_initial_cpb_removal_delay[sched_sel_idx], nbits); READ_UINT32 (nr, per->nal_initial_cpb_removal_delay_offset[sched_sel_idx], nbits); } } if (vui->vcl_hrd_parameters_present_flag) { GstH264HRDParams *hrd = &vui->vcl_hrd_parameters; const guint8 nbits = hrd->initial_cpb_removal_delay_length_minus1 + 1; guint8 sched_sel_idx; for (sched_sel_idx = 0; sched_sel_idx <= hrd->cpb_cnt_minus1; sched_sel_idx++) { READ_UINT32 (nr, per->vcl_initial_cpb_removal_delay[sched_sel_idx], nbits); READ_UINT32 (nr, per->vcl_initial_cpb_removal_delay_offset[sched_sel_idx], nbits); } } } return GST_H264_PARSER_OK; error: GST_WARNING ("error parsing \"Buffering period\""); return GST_H264_PARSER_ERROR; } static gboolean gst_h264_parse_clock_timestamp (GstH264ClockTimestamp * tim, GstH264VUIParams * vui, NalReader * nr) { guint8 full_timestamp_flag; guint8 time_offset_length; GST_DEBUG ("parsing \"Clock timestamp\""); /* defalt values */ tim->time_offset = 0; READ_UINT8 (nr, tim->ct_type, 2); READ_UINT8 (nr, tim->nuit_field_based_flag, 1); READ_UINT8 (nr, tim->counting_type, 5); READ_UINT8 (nr, full_timestamp_flag, 1); READ_UINT8 (nr, tim->discontinuity_flag, 1); READ_UINT8 (nr, tim->cnt_dropped_flag, 1); READ_UINT8 (nr, tim->n_frames, 8); if (full_timestamp_flag) { tim->seconds_flag = TRUE; READ_UINT8 (nr, tim->seconds_value, 6); tim->minutes_flag = TRUE; READ_UINT8 (nr, tim->minutes_value, 6); tim->hours_flag = TRUE; READ_UINT8 (nr, tim->hours_value, 5); } else { READ_UINT8 (nr, tim->seconds_flag, 1); if (tim->seconds_flag) { READ_UINT8 (nr, tim->seconds_value, 6); READ_UINT8 (nr, tim->minutes_flag, 1); if (tim->minutes_flag) { READ_UINT8 (nr, tim->minutes_value, 6); READ_UINT8 (nr, tim->hours_flag, 1); if (tim->hours_flag) READ_UINT8 (nr, tim->hours_value, 5); } } } time_offset_length = 0; if (vui->nal_hrd_parameters_present_flag) time_offset_length = vui->nal_hrd_parameters.time_offset_length; else if (vui->vcl_hrd_parameters_present_flag) time_offset_length = vui->vcl_hrd_parameters.time_offset_length; if (time_offset_length > 0) READ_UINT32 (nr, tim->time_offset, time_offset_length); return TRUE; error: GST_WARNING ("error parsing \"Clock timestamp\""); return FALSE; } static GstH264ParserResult gst_h264_parser_parse_pic_timing (GstH264NalParser * nalparser, GstH264PicTiming * tim, NalReader * nr) { GST_DEBUG ("parsing \"Picture timing\""); if (!nalparser->last_sps || !nalparser->last_sps->valid) { GST_WARNING ("didn't get the associated sequence paramater set for the " "current access unit"); goto error; } /* default values */ tim->cpb_removal_delay = 0; tim->dpb_output_delay = 0; tim->pic_struct_present_flag = FALSE; memset (tim->clock_timestamp_flag, 0, 3); if (nalparser->last_sps->vui_parameters_present_flag) { GstH264VUIParams *vui = &nalparser->last_sps->vui_parameters; if (vui->nal_hrd_parameters_present_flag) { READ_UINT32 (nr, tim->cpb_removal_delay, vui->nal_hrd_parameters.cpb_removal_delay_length_minus1 + 1); READ_UINT32 (nr, tim->dpb_output_delay, vui->nal_hrd_parameters.dpb_output_delay_length_minus1 + 1); } else if (vui->vcl_hrd_parameters_present_flag) { READ_UINT32 (nr, tim->cpb_removal_delay, vui->vcl_hrd_parameters.cpb_removal_delay_length_minus1 + 1); READ_UINT32 (nr, tim->dpb_output_delay, vui->vcl_hrd_parameters.dpb_output_delay_length_minus1 + 1); } if (vui->pic_struct_present_flag) { const guint8 num_clock_ts_table[9] = { 1, 1, 1, 2, 2, 3, 3, 2, 3 }; guint8 num_clock_num_ts; guint i; tim->pic_struct_present_flag = TRUE; READ_UINT8 (nr, tim->pic_struct, 4); CHECK_ALLOWED ((gint8) tim->pic_struct, 0, 8); num_clock_num_ts = num_clock_ts_table[tim->pic_struct]; for (i = 0; i < num_clock_num_ts; i++) { READ_UINT8 (nr, tim->clock_timestamp_flag[i], 1); if (tim->clock_timestamp_flag[i]) { if (!gst_h264_parse_clock_timestamp (&tim->clock_timestamp[i], vui, nr)) goto error; } } } } return GST_H264_PARSER_OK; error: GST_WARNING ("error parsing \"Picture timing\""); return GST_H264_PARSER_ERROR; } static GstH264ParserResult gst_h264_parser_parse_recovery_point (GstH264NalParser * nalparser, GstH264RecoveryPoint * rp, NalReader * nr) { GstH264SPS *const sps = nalparser->last_sps; GST_DEBUG ("parsing \"Recovery point\""); if (!sps || !sps->valid) { GST_WARNING ("didn't get the associated sequence paramater set for the " "current access unit"); goto error; } READ_UE_ALLOWED (nr, rp->recovery_frame_cnt, 0, sps->max_frame_num - 1); READ_UINT8 (nr, rp->exact_match_flag, 1); READ_UINT8 (nr, rp->broken_link_flag, 1); READ_UINT8 (nr, rp->changing_slice_group_idc, 2); return GST_H264_PARSER_OK; error: GST_WARNING ("error parsing \"Recovery point\""); return GST_H264_PARSER_ERROR; } /* Parse SEI stereo_video_info() message */ static GstH264ParserResult gst_h264_parser_parse_stereo_video_info (GstH264NalParser * nalparser, GstH264StereoVideoInfo * info, NalReader * nr) { GST_DEBUG ("parsing \"Stereo Video info\""); READ_UINT8 (nr, info->field_views_flag, 1); if (info->field_views_flag) { READ_UINT8 (nr, info->top_field_is_left_view_flag, 1); } else { READ_UINT8 (nr, info->current_frame_is_left_view_flag, 1); READ_UINT8 (nr, info->next_frame_is_second_view_flag, 1); } READ_UINT8 (nr, info->left_view_self_contained_flag, 1); READ_UINT8 (nr, info->right_view_self_contained_flag, 1); return GST_H264_PARSER_OK; error: GST_WARNING ("error parsing \"Stereo Video info\""); return GST_H264_PARSER_ERROR; } /* Parse SEI frame_packing_arrangement() message */ static GstH264ParserResult gst_h264_parser_parse_frame_packing (GstH264NalParser * nalparser, GstH264FramePacking * frame_packing, NalReader * nr, guint payload_size) { guint8 frame_packing_extension_flag; guint start_pos; GST_DEBUG ("parsing \"Frame Packing Arrangement\""); start_pos = nal_reader_get_pos (nr); READ_UE (nr, frame_packing->frame_packing_id); READ_UINT8 (nr, frame_packing->frame_packing_cancel_flag, 1); if (!frame_packing->frame_packing_cancel_flag) { READ_UINT8 (nr, frame_packing->frame_packing_type, 7); READ_UINT8 (nr, frame_packing->quincunx_sampling_flag, 1); READ_UINT8 (nr, frame_packing->content_interpretation_type, 6); READ_UINT8 (nr, frame_packing->spatial_flipping_flag, 1); READ_UINT8 (nr, frame_packing->frame0_flipped_flag, 1); READ_UINT8 (nr, frame_packing->field_views_flag, 1); READ_UINT8 (nr, frame_packing->current_frame_is_frame0_flag, 1); READ_UINT8 (nr, frame_packing->frame0_self_contained_flag, 1); READ_UINT8 (nr, frame_packing->frame1_self_contained_flag, 1); if (!frame_packing->quincunx_sampling_flag && frame_packing->frame_packing_type != GST_H264_FRAME_PACKING_TEMPORAL_INTERLEAVING) { READ_UINT8 (nr, frame_packing->frame0_grid_position_x, 4); READ_UINT8 (nr, frame_packing->frame0_grid_position_y, 4); READ_UINT8 (nr, frame_packing->frame1_grid_position_x, 4); READ_UINT8 (nr, frame_packing->frame1_grid_position_y, 4); } /* Skip frame_packing_arrangement_reserved_byte */ if (!nal_reader_skip (nr, 8)) goto error; READ_UE_ALLOWED (nr, frame_packing->frame_packing_repetition_period, 0, 16384); } READ_UINT8 (nr, frame_packing_extension_flag, 1); /* All data that follows within a frame packing arrangement SEI message after the value 1 for frame_packing_arrangement_extension_flag shall be ignored (D.2.25) */ if (frame_packing_extension_flag) { nal_reader_skip_long (nr, payload_size - (nal_reader_get_pos (nr) - start_pos)); } return GST_H264_PARSER_OK; error: GST_WARNING ("error parsing \"Frame Packing Arrangement\""); return GST_H264_PARSER_ERROR; } static GstH264ParserResult gst_h264_parser_parse_sei_message (GstH264NalParser * nalparser, NalReader * nr, GstH264SEIMessage * sei) { guint32 payloadSize; guint8 payload_type_byte, payload_size_byte; guint remaining, payload_size; GstH264ParserResult res; GST_DEBUG ("parsing \"Sei message\""); sei->payloadType = 0; do { READ_UINT8 (nr, payload_type_byte, 8); sei->payloadType += payload_type_byte; } while (payload_type_byte == 0xff); payloadSize = 0; do { READ_UINT8 (nr, payload_size_byte, 8); payloadSize += payload_size_byte; } while (payload_size_byte == 0xff); remaining = nal_reader_get_remaining (nr); payload_size = payloadSize * 8 < remaining ? payloadSize * 8 : remaining; GST_DEBUG ("SEI message received: payloadType %u, payloadSize = %u bits", sei->payloadType, payload_size); switch (sei->payloadType) { case GST_H264_SEI_BUF_PERIOD: /* size not set; might depend on emulation_prevention_three_byte */ res = gst_h264_parser_parse_buffering_period (nalparser, &sei->payload.buffering_period, nr); break; case GST_H264_SEI_PIC_TIMING: /* size not set; might depend on emulation_prevention_three_byte */ res = gst_h264_parser_parse_pic_timing (nalparser, &sei->payload.pic_timing, nr); break; case GST_H264_SEI_RECOVERY_POINT: res = gst_h264_parser_parse_recovery_point (nalparser, &sei->payload.recovery_point, nr); break; case GST_H264_SEI_STEREO_VIDEO_INFO: res = gst_h264_parser_parse_stereo_video_info (nalparser, &sei->payload.stereo_video_info, nr); break; case GST_H264_SEI_FRAME_PACKING: res = gst_h264_parser_parse_frame_packing (nalparser, &sei->payload.frame_packing, nr, payload_size); break; default: /* Just consume payloadSize bytes, which does not account for emulation prevention bytes */ if (!nal_reader_skip_long (nr, payload_size)) goto error; res = GST_H264_PARSER_OK; break; } /* When SEI message doesn't end at byte boundary, * check remaining bits fit the specification. */ if (!nal_reader_is_byte_aligned (nr)) { guint8 bit_equal_to_one; READ_UINT8 (nr, bit_equal_to_one, 1); if (!bit_equal_to_one) GST_WARNING ("Bit non equal to one."); while (!nal_reader_is_byte_aligned (nr)) { guint8 bit_equal_to_zero; READ_UINT8 (nr, bit_equal_to_zero, 1); if (bit_equal_to_zero) GST_WARNING ("Bit non equal to zero."); } } return res; error: GST_WARNING ("error parsing \"Sei message\""); return GST_H264_PARSER_ERROR; } /******** API *************/ /** * gst_h264_nal_parser_new: * * Creates a new #GstH264NalParser. It should be freed with * gst_h264_nal_parser_free after use. * * Returns: a new #GstH264NalParser */ GstH264NalParser * gst_h264_nal_parser_new (void) { GstH264NalParser *nalparser; nalparser = g_slice_new0 (GstH264NalParser); INITIALIZE_DEBUG_CATEGORY; return nalparser; } /** * gst_h264_nal_parser_free: * @nalparser: the #GstH264NalParser to free * * Frees @nalparser and sets it to %NULL */ void gst_h264_nal_parser_free (GstH264NalParser * nalparser) { guint i; for (i = 0; i < GST_H264_MAX_SPS_COUNT; i++) gst_h264_sps_clear (&nalparser->sps[i]); for (i = 0; i < GST_H264_MAX_PPS_COUNT; i++) gst_h264_pps_clear (&nalparser->pps[i]); g_slice_free (GstH264NalParser, nalparser); nalparser = NULL; } /** * gst_h264_parser_identify_nalu_unchecked: * @nalparser: a #GstH264NalParser * @data: The data to parse * @offset: the offset from which to parse @data * @size: the size of @data * @nalu: The #GstH264NalUnit where to store parsed nal headers * * Parses @data and fills @nalu from the next nalu data from @data. * * This differs from @gst_h264_parser_identify_nalu in that it doesn't * check whether the packet is complete or not. * * Note: Only use this function if you already know the provided @data * is a complete NALU, else use @gst_h264_parser_identify_nalu. * * Returns: a #GstH264ParserResult */ GstH264ParserResult gst_h264_parser_identify_nalu_unchecked (GstH264NalParser * nalparser, const guint8 * data, guint offset, gsize size, GstH264NalUnit * nalu) { gint off1; if (size < offset + 4) { GST_DEBUG ("Can't parse, buffer has too small size %" G_GSIZE_FORMAT ", offset %u", size, offset); return GST_H264_PARSER_ERROR; } off1 = scan_for_start_codes (data + offset, size - offset); if (off1 < 0) { GST_DEBUG ("No start code prefix in this buffer"); return GST_H264_PARSER_NO_NAL; } if (offset + off1 == size - 1) { GST_DEBUG ("Missing data to identify nal unit"); return GST_H264_PARSER_ERROR; } nalu->sc_offset = offset + off1; nalu->offset = offset + off1 + 3; nalu->data = (guint8 *) data; nalu->size = size - nalu->offset; if (!gst_h264_parse_nalu_header (nalu)) { GST_WARNING ("error parsing \"NAL unit header\""); nalu->size = 0; return GST_H264_PARSER_BROKEN_DATA; } nalu->valid = TRUE; /* sc might have 2 or 3 0-bytes */ if (nalu->sc_offset > 0 && data[nalu->sc_offset - 1] == 00 && (nalu->type == GST_H264_NAL_SPS || nalu->type == GST_H264_NAL_PPS || nalu->type == GST_H264_NAL_AU_DELIMITER)) nalu->sc_offset--; if (nalu->type == GST_H264_NAL_SEQ_END || nalu->type == GST_H264_NAL_STREAM_END) { GST_DEBUG ("end-of-seq or end-of-stream nal found"); nalu->size = 1; return GST_H264_PARSER_OK; } return GST_H264_PARSER_OK; } /** * gst_h264_parser_identify_nalu: * @nalparser: a #GstH264NalParser * @data: The data to parse * @offset: the offset from which to parse @data * @size: the size of @data * @nalu: The #GstH264NalUnit where to store parsed nal headers * * Parses @data and fills @nalu from the next nalu data from @data * * Returns: a #GstH264ParserResult */ GstH264ParserResult gst_h264_parser_identify_nalu (GstH264NalParser * nalparser, const guint8 * data, guint offset, gsize size, GstH264NalUnit * nalu) { GstH264ParserResult res; gint off2; res = gst_h264_parser_identify_nalu_unchecked (nalparser, data, offset, size, nalu); if (res != GST_H264_PARSER_OK || nalu->size == 1) goto beach; off2 = scan_for_start_codes (data + nalu->offset, size - nalu->offset); if (off2 < 0) { GST_DEBUG ("Nal start %d, No end found", nalu->offset); return GST_H264_PARSER_NO_NAL_END; } /* Mini performance improvement: * We could have a way to store how many 0s were skipped to avoid * parsing them again on the next NAL */ while (off2 > 0 && data[nalu->offset + off2 - 1] == 00) off2--; nalu->size = off2; if (nalu->size < 2) return GST_H264_PARSER_BROKEN_DATA; GST_DEBUG ("Complete nal found. Off: %d, Size: %d", nalu->offset, nalu->size); beach: return res; } /** * gst_h264_parser_identify_nalu_avc: * @nalparser: a #GstH264NalParser * @data: The data to parse, must be the beging of the Nal unit * @offset: the offset from which to parse @data * @size: the size of @data * @nal_length_size: the size in bytes of the AVC nal length prefix. * @nalu: The #GstH264NalUnit where to store parsed nal headers * * Parses @data and sets @nalu. * * Returns: a #GstH264ParserResult */ GstH264ParserResult gst_h264_parser_identify_nalu_avc (GstH264NalParser * nalparser, const guint8 * data, guint offset, gsize size, guint8 nal_length_size, GstH264NalUnit * nalu) { GstBitReader br; if (size < offset + nal_length_size) { GST_DEBUG ("Can't parse, buffer has too small size %" G_GSIZE_FORMAT ", offset %u", size, offset); return GST_H264_PARSER_ERROR; } size = size - offset; gst_bit_reader_init (&br, data + offset, size); nalu->size = gst_bit_reader_get_bits_uint32_unchecked (&br, nal_length_size * 8); nalu->sc_offset = offset; nalu->offset = offset + nal_length_size; if (size < nalu->size + nal_length_size) { nalu->size = 0; return GST_H264_PARSER_NO_NAL_END; } nalu->data = (guint8 *) data; if (!gst_h264_parse_nalu_header (nalu)) { GST_WARNING ("error parsing \"NAL unit header\""); nalu->size = 0; return GST_H264_PARSER_BROKEN_DATA; } nalu->valid = TRUE; return GST_H264_PARSER_OK; } /** * gst_h264_parser_parse_nal: * @nalparser: a #GstH264NalParser * @nalu: The #GstH264NalUnit to parse * * This function should be called in the case one doesn't need to * parse a specific structure. It is necessary to do so to make * sure @nalparser is up to date. * * Returns: a #GstH264ParserResult */ GstH264ParserResult gst_h264_parser_parse_nal (GstH264NalParser * nalparser, GstH264NalUnit * nalu) { GstH264SPS sps; GstH264PPS pps; switch (nalu->type) { case GST_H264_NAL_SPS: return gst_h264_parser_parse_sps (nalparser, nalu, &sps, FALSE); break; case GST_H264_NAL_PPS: return gst_h264_parser_parse_pps (nalparser, nalu, &pps); } return GST_H264_PARSER_OK; } /** * gst_h264_parser_parse_sps: * @nalparser: a #GstH264NalParser * @nalu: The #GST_H264_NAL_SPS #GstH264NalUnit to parse * @sps: The #GstH264SPS to fill. * @parse_vui_params: Whether to parse the vui_params or not * * Parses @data, and fills the @sps structure. * * Returns: a #GstH264ParserResult */ GstH264ParserResult gst_h264_parser_parse_sps (GstH264NalParser * nalparser, GstH264NalUnit * nalu, GstH264SPS * sps, gboolean parse_vui_params) { GstH264ParserResult res = gst_h264_parse_sps (nalu, sps, parse_vui_params); if (res == GST_H264_PARSER_OK) { GST_DEBUG ("adding sequence parameter set with id: %d to array", sps->id); if (!gst_h264_sps_copy (&nalparser->sps[sps->id], sps)) return GST_H264_PARSER_ERROR; nalparser->last_sps = &nalparser->sps[sps->id]; } return res; } /* Parse seq_parameter_set_data() */ static gboolean gst_h264_parse_sps_data (NalReader * nr, GstH264SPS * sps, gboolean parse_vui_params) { gint width, height; guint subwc[] = { 1, 2, 2, 1 }; guint subhc[] = { 1, 2, 1, 1 }; GstH264VUIParams *vui = NULL; /* set default values for fields that might not be present in the bitstream and have valid defaults */ sps->extension_type = GST_H264_NAL_EXTENSION_NONE; sps->chroma_format_idc = 1; sps->separate_colour_plane_flag = 0; sps->bit_depth_luma_minus8 = 0; sps->bit_depth_chroma_minus8 = 0; memset (sps->scaling_lists_4x4, 16, 96); memset (sps->scaling_lists_8x8, 16, 384); memset (&sps->vui_parameters, 0, sizeof (sps->vui_parameters)); sps->mb_adaptive_frame_field_flag = 0; sps->frame_crop_left_offset = 0; sps->frame_crop_right_offset = 0; sps->frame_crop_top_offset = 0; sps->frame_crop_bottom_offset = 0; sps->delta_pic_order_always_zero_flag = 0; READ_UINT8 (nr, sps->profile_idc, 8); READ_UINT8 (nr, sps->constraint_set0_flag, 1); READ_UINT8 (nr, sps->constraint_set1_flag, 1); READ_UINT8 (nr, sps->constraint_set2_flag, 1); READ_UINT8 (nr, sps->constraint_set3_flag, 1); READ_UINT8 (nr, sps->constraint_set4_flag, 1); READ_UINT8 (nr, sps->constraint_set5_flag, 1); /* skip reserved_zero_2bits */ if (!nal_reader_skip (nr, 2)) goto error; READ_UINT8 (nr, sps->level_idc, 8); READ_UE_ALLOWED (nr, sps->id, 0, GST_H264_MAX_SPS_COUNT - 1); if (sps->profile_idc == 100 || sps->profile_idc == 110 || sps->profile_idc == 122 || sps->profile_idc == 244 || sps->profile_idc == 44 || sps->profile_idc == 83 || sps->profile_idc == 86 || sps->profile_idc == 118 || sps->profile_idc == 128) { READ_UE_ALLOWED (nr, sps->chroma_format_idc, 0, 3); if (sps->chroma_format_idc == 3) READ_UINT8 (nr, sps->separate_colour_plane_flag, 1); READ_UE_ALLOWED (nr, sps->bit_depth_luma_minus8, 0, 6); READ_UE_ALLOWED (nr, sps->bit_depth_chroma_minus8, 0, 6); READ_UINT8 (nr, sps->qpprime_y_zero_transform_bypass_flag, 1); READ_UINT8 (nr, sps->scaling_matrix_present_flag, 1); if (sps->scaling_matrix_present_flag) { guint8 n_lists; n_lists = (sps->chroma_format_idc != 3) ? 8 : 12; if (!gst_h264_parser_parse_scaling_list (nr, sps->scaling_lists_4x4, sps->scaling_lists_8x8, default_4x4_inter, default_4x4_intra, default_8x8_inter, default_8x8_intra, n_lists)) goto error; } } READ_UE_ALLOWED (nr, sps->log2_max_frame_num_minus4, 0, 12); sps->max_frame_num = 1 << (sps->log2_max_frame_num_minus4 + 4); READ_UE_ALLOWED (nr, sps->pic_order_cnt_type, 0, 2); if (sps->pic_order_cnt_type == 0) { READ_UE_ALLOWED (nr, sps->log2_max_pic_order_cnt_lsb_minus4, 0, 12); } else if (sps->pic_order_cnt_type == 1) { guint i; READ_UINT8 (nr, sps->delta_pic_order_always_zero_flag, 1); READ_SE (nr, sps->offset_for_non_ref_pic); READ_SE (nr, sps->offset_for_top_to_bottom_field); READ_UE_ALLOWED (nr, sps->num_ref_frames_in_pic_order_cnt_cycle, 0, 255); for (i = 0; i < sps->num_ref_frames_in_pic_order_cnt_cycle; i++) READ_SE (nr, sps->offset_for_ref_frame[i]); } READ_UE (nr, sps->num_ref_frames); READ_UINT8 (nr, sps->gaps_in_frame_num_value_allowed_flag, 1); READ_UE (nr, sps->pic_width_in_mbs_minus1); READ_UE (nr, sps->pic_height_in_map_units_minus1); READ_UINT8 (nr, sps->frame_mbs_only_flag, 1); if (!sps->frame_mbs_only_flag) READ_UINT8 (nr, sps->mb_adaptive_frame_field_flag, 1); READ_UINT8 (nr, sps->direct_8x8_inference_flag, 1); READ_UINT8 (nr, sps->frame_cropping_flag, 1); if (sps->frame_cropping_flag) { READ_UE (nr, sps->frame_crop_left_offset); READ_UE (nr, sps->frame_crop_right_offset); READ_UE (nr, sps->frame_crop_top_offset); READ_UE (nr, sps->frame_crop_bottom_offset); } READ_UINT8 (nr, sps->vui_parameters_present_flag, 1); if (sps->vui_parameters_present_flag && parse_vui_params) { if (!gst_h264_parse_vui_parameters (sps, nr)) goto error; vui = &sps->vui_parameters; } /* calculate ChromaArrayType */ if (sps->separate_colour_plane_flag) sps->chroma_array_type = 0; else sps->chroma_array_type = sps->chroma_format_idc; /* Calculate width and height */ width = (sps->pic_width_in_mbs_minus1 + 1); width *= 16; height = (sps->pic_height_in_map_units_minus1 + 1); height *= 16 * (2 - sps->frame_mbs_only_flag); GST_LOG ("initial width=%d, height=%d", width, height); if (width < 0 || height < 0) { GST_WARNING ("invalid width/height in SPS"); goto error; } sps->width = width; sps->height = height; if (sps->frame_cropping_flag) { const guint crop_unit_x = subwc[sps->chroma_format_idc]; const guint crop_unit_y = subhc[sps->chroma_format_idc] * (2 - sps->frame_mbs_only_flag); width -= (sps->frame_crop_left_offset + sps->frame_crop_right_offset) * crop_unit_x; height -= (sps->frame_crop_top_offset + sps->frame_crop_bottom_offset) * crop_unit_y; sps->crop_rect_width = width; sps->crop_rect_height = height; sps->crop_rect_x = sps->frame_crop_left_offset * crop_unit_x; sps->crop_rect_y = sps->frame_crop_top_offset * crop_unit_y; GST_LOG ("crop_rectangle x=%u y=%u width=%u, height=%u", sps->crop_rect_x, sps->crop_rect_y, width, height); } sps->fps_num = 0; sps->fps_den = 1; if (vui && vui->timing_info_present_flag) { /* derive framerate */ /* FIXME verify / also handle other cases */ GST_LOG ("Framerate: %u %u %u %u", parse_vui_params, vui->fixed_frame_rate_flag, sps->frame_mbs_only_flag, vui->pic_struct_present_flag); if (parse_vui_params && vui->fixed_frame_rate_flag) { sps->fps_num = vui->time_scale; sps->fps_den = vui->num_units_in_tick; /* picture is a frame = 2 fields */ sps->fps_den *= 2; GST_LOG ("framerate %d/%d", sps->fps_num, sps->fps_den); } } else { GST_LOG ("No VUI, unknown framerate"); } return TRUE; error: return FALSE; } /* Parse subset_seq_parameter_set() data for MVC */ static gboolean gst_h264_parse_sps_mvc_data (NalReader * nr, GstH264SPS * sps, gboolean parse_vui_params) { GstH264SPSExtMVC *const mvc = &sps->extension.mvc; guint8 bit_equal_to_one; guint i, j, k; READ_UINT8 (nr, bit_equal_to_one, 1); if (!bit_equal_to_one) return FALSE; sps->extension_type = GST_H264_NAL_EXTENSION_MVC; READ_UE_ALLOWED (nr, mvc->num_views_minus1, 0, GST_H264_MAX_VIEW_COUNT - 1); mvc->view = g_new0 (GstH264SPSExtMVCView, mvc->num_views_minus1 + 1); if (!mvc->view) goto error_allocation_failed; for (i = 0; i <= mvc->num_views_minus1; i++) READ_UE_ALLOWED (nr, mvc->view[i].view_id, 0, GST_H264_MAX_VIEW_ID); for (i = 1; i <= mvc->num_views_minus1; i++) { /* for RefPicList0 */ READ_UE_ALLOWED (nr, mvc->view[i].num_anchor_refs_l0, 0, 15); for (j = 0; j < mvc->view[i].num_anchor_refs_l0; j++) { READ_UE_ALLOWED (nr, mvc->view[i].anchor_ref_l0[j], 0, GST_H264_MAX_VIEW_ID); } /* for RefPicList1 */ READ_UE_ALLOWED (nr, mvc->view[i].num_anchor_refs_l1, 0, 15); for (j = 0; j < mvc->view[i].num_anchor_refs_l1; j++) { READ_UE_ALLOWED (nr, mvc->view[i].anchor_ref_l1[j], 0, GST_H264_MAX_VIEW_ID); } } for (i = 1; i <= mvc->num_views_minus1; i++) { /* for RefPicList0 */ READ_UE_ALLOWED (nr, mvc->view[i].num_non_anchor_refs_l0, 0, 15); for (j = 0; j < mvc->view[i].num_non_anchor_refs_l0; j++) { READ_UE_ALLOWED (nr, mvc->view[i].non_anchor_ref_l0[j], 0, GST_H264_MAX_VIEW_ID); } /* for RefPicList1 */ READ_UE_ALLOWED (nr, mvc->view[i].num_non_anchor_refs_l1, 0, 15); for (j = 0; j < mvc->view[i].num_non_anchor_refs_l1; j++) { READ_UE_ALLOWED (nr, mvc->view[i].non_anchor_ref_l1[j], 0, GST_H264_MAX_VIEW_ID); } } READ_UE_ALLOWED (nr, mvc->num_level_values_signalled_minus1, 0, 63); mvc->level_value = g_new0 (GstH264SPSExtMVCLevelValue, mvc->num_level_values_signalled_minus1 + 1); if (!mvc->level_value) goto error_allocation_failed; for (i = 0; i <= mvc->num_level_values_signalled_minus1; i++) { GstH264SPSExtMVCLevelValue *const level_value = &mvc->level_value[i]; READ_UINT8 (nr, level_value->level_idc, 8); READ_UE_ALLOWED (nr, level_value->num_applicable_ops_minus1, 0, 1023); level_value->applicable_op = g_new0 (GstH264SPSExtMVCLevelValueOp, level_value->num_applicable_ops_minus1 + 1); if (!level_value->applicable_op) goto error_allocation_failed; for (j = 0; j <= level_value->num_applicable_ops_minus1; j++) { GstH264SPSExtMVCLevelValueOp *const op = &level_value->applicable_op[j]; READ_UINT8 (nr, op->temporal_id, 3); READ_UE_ALLOWED (nr, op->num_target_views_minus1, 0, 1023); op->target_view_id = g_new (guint16, op->num_target_views_minus1 + 1); if (!op->target_view_id) goto error_allocation_failed; for (k = 0; k <= op->num_target_views_minus1; k++) READ_UE_ALLOWED (nr, op->target_view_id[k], 0, GST_H264_MAX_VIEW_ID); READ_UE_ALLOWED (nr, op->num_views_minus1, 0, 1023); } } return TRUE; error_allocation_failed: GST_WARNING ("failed to allocate memory"); gst_h264_sps_clear (sps); return FALSE; error: gst_h264_sps_clear (sps); return FALSE; } /** * gst_h264_parse_sps: * @nalu: The #GST_H264_NAL_SPS #GstH264NalUnit to parse * @sps: The #GstH264SPS to fill. * @parse_vui_params: Whether to parse the vui_params or not * * Parses @data, and fills the @sps structure. * * Returns: a #GstH264ParserResult */ GstH264ParserResult gst_h264_parse_sps (GstH264NalUnit * nalu, GstH264SPS * sps, gboolean parse_vui_params) { NalReader nr; INITIALIZE_DEBUG_CATEGORY; GST_DEBUG ("parsing SPS"); nal_reader_init (&nr, nalu->data + nalu->offset + nalu->header_bytes, nalu->size - nalu->header_bytes); if (!gst_h264_parse_sps_data (&nr, sps, parse_vui_params)) goto error; sps->valid = TRUE; return GST_H264_PARSER_OK; error: GST_WARNING ("error parsing \"Sequence parameter set\""); sps->valid = FALSE; return GST_H264_PARSER_ERROR; } /** * gst_h264_parser_parse_subset_sps: * @nalparser: a #GstH264NalParser * @nalu: The #GST_H264_NAL_SUBSET_SPS #GstH264NalUnit to parse * @sps: The #GstH264SPS to fill. * @parse_vui_params: Whether to parse the vui_params or not * * Parses @data, and fills in the @sps structure. * * This function fully parses @data and allocates all the necessary * data structures needed for MVC extensions. The resulting @sps * structure shall be deallocated with gst_h264_sps_clear() when it is * no longer needed. * * Note: if the caller doesn't need any of the MVC-specific data, then * gst_h264_parser_parse_sps() is more efficient because those extra * syntax elements are not parsed and no extra memory is allocated. * * Returns: a #GstH264ParserResult * * Since: 1.6 */ GstH264ParserResult gst_h264_parser_parse_subset_sps (GstH264NalParser * nalparser, GstH264NalUnit * nalu, GstH264SPS * sps, gboolean parse_vui_params) { GstH264ParserResult res; res = gst_h264_parse_subset_sps (nalu, sps, parse_vui_params); if (res == GST_H264_PARSER_OK) { GST_DEBUG ("adding sequence parameter set with id: %d to array", sps->id); if (!gst_h264_sps_copy (&nalparser->sps[sps->id], sps)) return GST_H264_PARSER_ERROR; nalparser->last_sps = &nalparser->sps[sps->id]; } return res; } /** * gst_h264_parse_subset_sps: * @nalu: The #GST_H264_NAL_SUBSET_SPS #GstH264NalUnit to parse * @sps: The #GstH264SPS to fill. * @parse_vui_params: Whether to parse the vui_params or not * * Parses @data, and fills in the @sps structure. * * This function fully parses @data and allocates all the necessary * data structures needed for MVC extensions. The resulting @sps * structure shall be deallocated with gst_h264_sps_clear() when it is * no longer needed. * * Note: if the caller doesn't need any of the MVC-specific data, then * gst_h264_parser_parse_sps() is more efficient because those extra * syntax elements are not parsed and no extra memory is allocated. * * Returns: a #GstH264ParserResult * * Since: 1.6 */ GstH264ParserResult gst_h264_parse_subset_sps (GstH264NalUnit * nalu, GstH264SPS * sps, gboolean parse_vui_params) { NalReader nr; INITIALIZE_DEBUG_CATEGORY; GST_DEBUG ("parsing Subset SPS"); nal_reader_init (&nr, nalu->data + nalu->offset + nalu->header_bytes, nalu->size - nalu->header_bytes); if (!gst_h264_parse_sps_data (&nr, sps, TRUE)) goto error; if (sps->profile_idc == GST_H264_PROFILE_MULTIVIEW_HIGH || sps->profile_idc == GST_H264_PROFILE_STEREO_HIGH) { if (!gst_h264_parse_sps_mvc_data (&nr, sps, parse_vui_params)) goto error; } sps->valid = TRUE; return GST_H264_PARSER_OK; error: GST_WARNING ("error parsing \"Subset sequence parameter set\""); sps->valid = FALSE; return GST_H264_PARSER_ERROR; } /** * gst_h264_parse_pps: * @nalparser: a #GstH264NalParser * @nalu: The #GST_H264_NAL_PPS #GstH264NalUnit to parse * @pps: The #GstH264PPS to fill. * * Parses @data, and fills the @pps structure. * * The resulting @pps data structure shall be deallocated with the * gst_h264_pps_clear() function when it is no longer needed, or prior * to parsing a new PPS NAL unit. * * Returns: a #GstH264ParserResult */ GstH264ParserResult gst_h264_parse_pps (GstH264NalParser * nalparser, GstH264NalUnit * nalu, GstH264PPS * pps) { NalReader nr; GstH264SPS *sps; gint sps_id; guint8 pic_scaling_matrix_present_flag; gint qp_bd_offset; INITIALIZE_DEBUG_CATEGORY; GST_DEBUG ("parsing PPS"); nal_reader_init (&nr, nalu->data + nalu->offset + nalu->header_bytes, nalu->size - nalu->header_bytes); READ_UE_ALLOWED (&nr, pps->id, 0, GST_H264_MAX_PPS_COUNT - 1); READ_UE_ALLOWED (&nr, sps_id, 0, GST_H264_MAX_SPS_COUNT - 1); sps = gst_h264_parser_get_sps (nalparser, sps_id); if (!sps) { GST_WARNING ("couldn't find associated sequence parameter set with id: %d", sps_id); return GST_H264_PARSER_BROKEN_LINK; } pps->sequence = sps; qp_bd_offset = 6 * (sps->bit_depth_luma_minus8 + sps->separate_colour_plane_flag); /* set default values for fields that might not be present in the bitstream and have valid defaults */ pps->slice_group_id = NULL; pps->transform_8x8_mode_flag = 0; memcpy (&pps->scaling_lists_4x4, &sps->scaling_lists_4x4, 96); memcpy (&pps->scaling_lists_8x8, &sps->scaling_lists_8x8, 384); READ_UINT8 (&nr, pps->entropy_coding_mode_flag, 1); READ_UINT8 (&nr, pps->pic_order_present_flag, 1); READ_UE_ALLOWED (&nr, pps->num_slice_groups_minus1, 0, 7); if (pps->num_slice_groups_minus1 > 0) { READ_UE_ALLOWED (&nr, pps->slice_group_map_type, 0, 6); if (pps->slice_group_map_type == 0) { gint i; for (i = 0; i <= pps->num_slice_groups_minus1; i++) READ_UE (&nr, pps->run_length_minus1[i]); } else if (pps->slice_group_map_type == 2) { gint i; for (i = 0; i < pps->num_slice_groups_minus1; i++) { READ_UE (&nr, pps->top_left[i]); READ_UE (&nr, pps->bottom_right[i]); } } else if (pps->slice_group_map_type >= 3 && pps->slice_group_map_type <= 5) { READ_UINT8 (&nr, pps->slice_group_change_direction_flag, 1); READ_UE (&nr, pps->slice_group_change_rate_minus1); } else if (pps->slice_group_map_type == 6) { gint bits; gint i; READ_UE (&nr, pps->pic_size_in_map_units_minus1); bits = g_bit_storage (pps->num_slice_groups_minus1); pps->slice_group_id = g_new (guint8, pps->pic_size_in_map_units_minus1 + 1); for (i = 0; i <= pps->pic_size_in_map_units_minus1; i++) READ_UINT8 (&nr, pps->slice_group_id[i], bits); } } READ_UE_ALLOWED (&nr, pps->num_ref_idx_l0_active_minus1, 0, 31); READ_UE_ALLOWED (&nr, pps->num_ref_idx_l1_active_minus1, 0, 31); READ_UINT8 (&nr, pps->weighted_pred_flag, 1); READ_UINT8 (&nr, pps->weighted_bipred_idc, 2); READ_SE_ALLOWED (&nr, pps->pic_init_qp_minus26, -(26 + qp_bd_offset), 25); READ_SE_ALLOWED (&nr, pps->pic_init_qs_minus26, -26, 25); READ_SE_ALLOWED (&nr, pps->chroma_qp_index_offset, -12, 12); pps->second_chroma_qp_index_offset = pps->chroma_qp_index_offset; READ_UINT8 (&nr, pps->deblocking_filter_control_present_flag, 1); READ_UINT8 (&nr, pps->constrained_intra_pred_flag, 1); READ_UINT8 (&nr, pps->redundant_pic_cnt_present_flag, 1); if (!nal_reader_has_more_data (&nr)) goto done; READ_UINT8 (&nr, pps->transform_8x8_mode_flag, 1); READ_UINT8 (&nr, pic_scaling_matrix_present_flag, 1); if (pic_scaling_matrix_present_flag) { guint8 n_lists; n_lists = 6 + ((sps->chroma_format_idc != 3) ? 2 : 6) * pps->transform_8x8_mode_flag; if (sps->scaling_matrix_present_flag) { if (!gst_h264_parser_parse_scaling_list (&nr, pps->scaling_lists_4x4, pps->scaling_lists_8x8, sps->scaling_lists_4x4[3], sps->scaling_lists_4x4[0], sps->scaling_lists_8x8[3], sps->scaling_lists_8x8[0], n_lists)) goto error; } else { if (!gst_h264_parser_parse_scaling_list (&nr, pps->scaling_lists_4x4, pps->scaling_lists_8x8, default_4x4_inter, default_4x4_intra, default_8x8_inter, default_8x8_intra, n_lists)) goto error; } } READ_SE_ALLOWED (&nr, pps->second_chroma_qp_index_offset, -12, 12); done: pps->valid = TRUE; return GST_H264_PARSER_OK; error: GST_WARNING ("error parsing \"Picture parameter set\""); pps->valid = FALSE; gst_h264_pps_clear (pps); return GST_H264_PARSER_ERROR; } /** * gst_h264_parser_parse_pps: * @nalparser: a #GstH264NalParser * @nalu: The #GST_H264_NAL_PPS #GstH264NalUnit to parse * @pps: The #GstH264PPS to fill. * * Parses @data, and fills the @pps structure. * * The resulting @pps data structure shall be deallocated with the * gst_h264_pps_clear() function when it is no longer needed, or prior * to parsing a new PPS NAL unit. * * Returns: a #GstH264ParserResult */ GstH264ParserResult gst_h264_parser_parse_pps (GstH264NalParser * nalparser, GstH264NalUnit * nalu, GstH264PPS * pps) { GstH264ParserResult res = gst_h264_parse_pps (nalparser, nalu, pps); if (res == GST_H264_PARSER_OK) { GST_DEBUG ("adding picture parameter set with id: %d to array", pps->id); if (!gst_h264_pps_copy (&nalparser->pps[pps->id], pps)) return GST_H264_PARSER_ERROR; nalparser->last_pps = &nalparser->pps[pps->id]; } return res; } /** * gst_h264_pps_clear: * @pps: The #GstH264PPS to free * * Clears all @pps internal resources. * * Since: 1.4 */ void gst_h264_pps_clear (GstH264PPS * pps) { g_return_if_fail (pps != NULL); g_free (pps->slice_group_id); pps->slice_group_id = NULL; } /** * gst_h264_parser_parse_slice_hdr: * @nalparser: a #GstH264NalParser * @nalu: The #GST_H264_NAL_SLICE #GstH264NalUnit to parse * @slice: The #GstH264SliceHdr to fill. * @parse_pred_weight_table: Whether to parse the pred_weight_table or not * @parse_dec_ref_pic_marking: Whether to parse the dec_ref_pic_marking or not * * Parses @data, and fills the @slice structure. * * Returns: a #GstH264ParserResult */ GstH264ParserResult gst_h264_parser_parse_slice_hdr (GstH264NalParser * nalparser, GstH264NalUnit * nalu, GstH264SliceHdr * slice, gboolean parse_pred_weight_table, gboolean parse_dec_ref_pic_marking) { NalReader nr; gint pps_id; GstH264PPS *pps; GstH264SPS *sps; if (!nalu->size) { GST_DEBUG ("Invalid Nal Unit"); return GST_H264_PARSER_ERROR; } nal_reader_init (&nr, nalu->data + nalu->offset + nalu->header_bytes, nalu->size - nalu->header_bytes); READ_UE (&nr, slice->first_mb_in_slice); READ_UE (&nr, slice->type); GST_DEBUG ("parsing \"Slice header\", slice type %u", slice->type); READ_UE_ALLOWED (&nr, pps_id, 0, GST_H264_MAX_PPS_COUNT - 1); pps = gst_h264_parser_get_pps (nalparser, pps_id); if (!pps) { GST_WARNING ("couldn't find associated picture parameter set with id: %d", pps_id); return GST_H264_PARSER_BROKEN_LINK; } slice->pps = pps; sps = pps->sequence; if (!sps) { GST_WARNING ("couldn't find associated sequence parameter set with id: %d", pps->id); return GST_H264_PARSER_BROKEN_LINK; } /* Check we can actually parse this slice (AVC, MVC headers only) */ if (sps->extension_type && sps->extension_type != GST_H264_NAL_EXTENSION_MVC) { GST_WARNING ("failed to parse unsupported slice header"); return GST_H264_PARSER_BROKEN_DATA; } /* set default values for fields that might not be present in the bitstream and have valid defaults */ slice->field_pic_flag = 0; slice->bottom_field_flag = 0; slice->delta_pic_order_cnt_bottom = 0; slice->delta_pic_order_cnt[0] = 0; slice->delta_pic_order_cnt[1] = 0; slice->redundant_pic_cnt = 0; slice->num_ref_idx_l0_active_minus1 = pps->num_ref_idx_l0_active_minus1; slice->num_ref_idx_l1_active_minus1 = pps->num_ref_idx_l1_active_minus1; slice->disable_deblocking_filter_idc = 0; slice->slice_alpha_c0_offset_div2 = 0; slice->slice_beta_offset_div2 = 0; if (sps->separate_colour_plane_flag) READ_UINT8 (&nr, slice->colour_plane_id, 2); READ_UINT16 (&nr, slice->frame_num, sps->log2_max_frame_num_minus4 + 4); if (!sps->frame_mbs_only_flag) { READ_UINT8 (&nr, slice->field_pic_flag, 1); if (slice->field_pic_flag) READ_UINT8 (&nr, slice->bottom_field_flag, 1); } /* calculate MaxPicNum */ if (slice->field_pic_flag) slice->max_pic_num = 2 * sps->max_frame_num; else slice->max_pic_num = sps->max_frame_num; if (nalu->idr_pic_flag) READ_UE_ALLOWED (&nr, slice->idr_pic_id, 0, G_MAXUINT16); if (sps->pic_order_cnt_type == 0) { READ_UINT16 (&nr, slice->pic_order_cnt_lsb, sps->log2_max_pic_order_cnt_lsb_minus4 + 4); if (pps->pic_order_present_flag && !slice->field_pic_flag) READ_SE (&nr, slice->delta_pic_order_cnt_bottom); } if (sps->pic_order_cnt_type == 1 && !sps->delta_pic_order_always_zero_flag) { READ_SE (&nr, slice->delta_pic_order_cnt[0]); if (pps->pic_order_present_flag && !slice->field_pic_flag) READ_SE (&nr, slice->delta_pic_order_cnt[1]); } if (pps->redundant_pic_cnt_present_flag) READ_UE_ALLOWED (&nr, slice->redundant_pic_cnt, 0, G_MAXINT8); if (GST_H264_IS_B_SLICE (slice)) READ_UINT8 (&nr, slice->direct_spatial_mv_pred_flag, 1); if (GST_H264_IS_P_SLICE (slice) || GST_H264_IS_SP_SLICE (slice) || GST_H264_IS_B_SLICE (slice)) { guint8 num_ref_idx_active_override_flag; READ_UINT8 (&nr, num_ref_idx_active_override_flag, 1); if (num_ref_idx_active_override_flag) { READ_UE_ALLOWED (&nr, slice->num_ref_idx_l0_active_minus1, 0, 31); if (GST_H264_IS_B_SLICE (slice)) READ_UE_ALLOWED (&nr, slice->num_ref_idx_l1_active_minus1, 0, 31); } } if (!slice_parse_ref_pic_list_modification (slice, &nr, GST_H264_IS_MVC_NALU (nalu))) goto error; if ((pps->weighted_pred_flag && (GST_H264_IS_P_SLICE (slice) || GST_H264_IS_SP_SLICE (slice))) || (pps->weighted_bipred_idc == 1 && GST_H264_IS_B_SLICE (slice))) { if (!gst_h264_slice_parse_pred_weight_table (slice, &nr, sps->chroma_array_type)) goto error; } if (nalu->ref_idc != 0) { if (!gst_h264_slice_parse_dec_ref_pic_marking (slice, nalu, &nr)) goto error; } if (pps->entropy_coding_mode_flag && !GST_H264_IS_I_SLICE (slice) && !GST_H264_IS_SI_SLICE (slice)) READ_UE_ALLOWED (&nr, slice->cabac_init_idc, 0, 2); READ_SE_ALLOWED (&nr, slice->slice_qp_delta, -87, 77); if (GST_H264_IS_SP_SLICE (slice) || GST_H264_IS_SI_SLICE (slice)) { guint8 sp_for_switch_flag; if (GST_H264_IS_SP_SLICE (slice)) READ_UINT8 (&nr, sp_for_switch_flag, 1); READ_SE_ALLOWED (&nr, slice->slice_qs_delta, -51, 51); } if (pps->deblocking_filter_control_present_flag) { READ_UE_ALLOWED (&nr, slice->disable_deblocking_filter_idc, 0, 2); if (slice->disable_deblocking_filter_idc != 1) { READ_SE_ALLOWED (&nr, slice->slice_alpha_c0_offset_div2, -6, 6); READ_SE_ALLOWED (&nr, slice->slice_beta_offset_div2, -6, 6); } } if (pps->num_slice_groups_minus1 > 0 && pps->slice_group_map_type >= 3 && pps->slice_group_map_type <= 5) { /* Ceil(Log2(PicSizeInMapUnits / SliceGroupChangeRate + 1)) [7-33] */ guint32 PicWidthInMbs = sps->pic_width_in_mbs_minus1 + 1; guint32 PicHeightInMapUnits = sps->pic_height_in_map_units_minus1 + 1; guint32 PicSizeInMapUnits = PicWidthInMbs * PicHeightInMapUnits; guint32 SliceGroupChangeRate = pps->slice_group_change_rate_minus1 + 1; const guint n = ceil_log2 (PicSizeInMapUnits / SliceGroupChangeRate + 1); READ_UINT16 (&nr, slice->slice_group_change_cycle, n); } slice->header_size = nal_reader_get_pos (&nr); slice->n_emulation_prevention_bytes = nal_reader_get_epb_count (&nr); return GST_H264_PARSER_OK; error: GST_WARNING ("error parsing \"Slice header\""); return GST_H264_PARSER_ERROR; } /* Free MVC-specific data from subset SPS header */ static void gst_h264_sps_mvc_clear (GstH264SPS * sps) { GstH264SPSExtMVC *const mvc = &sps->extension.mvc; guint i, j; g_assert (sps->extension_type == GST_H264_NAL_EXTENSION_MVC); g_free (mvc->view); mvc->view = NULL; for (i = 0; i <= mvc->num_level_values_signalled_minus1; i++) { GstH264SPSExtMVCLevelValue *const level_value = &mvc->level_value[i]; for (j = 0; j <= level_value->num_applicable_ops_minus1; j++) { g_free (level_value->applicable_op[j].target_view_id); level_value->applicable_op[j].target_view_id = NULL; } g_free (level_value->applicable_op); level_value->applicable_op = NULL; } g_free (mvc->level_value); mvc->level_value = NULL; /* All meaningful MVC info are now gone, just pretend to be a * standard AVC struct now */ sps->extension_type = GST_H264_NAL_EXTENSION_NONE; } /** * gst_h264_sps_clear: * @sps: The #GstH264SPS to free * * Clears all @sps internal resources. * * Since: 1.6 */ void gst_h264_sps_clear (GstH264SPS * sps) { g_return_if_fail (sps != NULL); switch (sps->extension_type) { case GST_H264_NAL_EXTENSION_MVC: gst_h264_sps_mvc_clear (sps); break; } } /** * gst_h264_parser_parse_sei: * @nalparser: a #GstH264NalParser * @nalu: The #GST_H264_NAL_SEI #GstH264NalUnit to parse * @messages: The GArray of #GstH264SEIMessage to fill. The caller must free it when done. * * Parses @data, create and fills the @messages array. * * Returns: a #GstH264ParserResult */ GstH264ParserResult gst_h264_parser_parse_sei (GstH264NalParser * nalparser, GstH264NalUnit * nalu, GArray ** messages) { NalReader nr; GstH264SEIMessage sei; GstH264ParserResult res; GST_DEBUG ("parsing SEI nal"); nal_reader_init (&nr, nalu->data + nalu->offset + nalu->header_bytes, nalu->size - nalu->header_bytes); *messages = g_array_new (FALSE, FALSE, sizeof (GstH264SEIMessage)); do { res = gst_h264_parser_parse_sei_message (nalparser, &nr, &sei); if (res == GST_H264_PARSER_OK) g_array_append_val (*messages, sei); else break; } while (nal_reader_has_more_data (&nr)); return res; } /** * gst_h264_quant_matrix_8x8_get_zigzag_from_raster: * @out_quant: (out): The resulting quantization matrix * @quant: The source quantization matrix * * Converts quantization matrix @quant from raster scan order to * zigzag scan order and store the resulting factors into @out_quant. * * Note: it is an error to pass the same table in both @quant and * @out_quant arguments. * * Since: 1.4 */ void gst_h264_quant_matrix_8x8_get_zigzag_from_raster (guint8 out_quant[64], const guint8 quant[64]) { guint i; g_return_if_fail (out_quant != quant); for (i = 0; i < 64; i++) out_quant[i] = quant[zigzag_8x8[i]]; } /** * gst_h264_quant_matrix_8x8_get_raster_from_zigzag: * @out_quant: (out): The resulting quantization matrix * @quant: The source quantization matrix * * Converts quantization matrix @quant from zigzag scan order to * raster scan order and store the resulting factors into @out_quant. * * Note: it is an error to pass the same table in both @quant and * @out_quant arguments. * * Since: 1.4 */ void gst_h264_quant_matrix_8x8_get_raster_from_zigzag (guint8 out_quant[64], const guint8 quant[64]) { guint i; g_return_if_fail (out_quant != quant); for (i = 0; i < 64; i++) out_quant[zigzag_8x8[i]] = quant[i]; } /** * gst_h264_quant_matrix_4x4_get_zigzag_from_raster: * @out_quant: (out): The resulting quantization matrix * @quant: The source quantization matrix * * Converts quantization matrix @quant from raster scan order to * zigzag scan order and store the resulting factors into @out_quant. * * Note: it is an error to pass the same table in both @quant and * @out_quant arguments. * * Since: 1.4 */ void gst_h264_quant_matrix_4x4_get_zigzag_from_raster (guint8 out_quant[16], const guint8 quant[16]) { guint i; g_return_if_fail (out_quant != quant); for (i = 0; i < 16; i++) out_quant[i] = quant[zigzag_4x4[i]]; } /** * gst_h264_quant_matrix_4x4_get_raster_from_zigzag: * @out_quant: (out): The resulting quantization matrix * @quant: The source quantization matrix * * Converts quantization matrix @quant from zigzag scan order to * raster scan order and store the resulting factors into @out_quant. * * Note: it is an error to pass the same table in both @quant and * @out_quant arguments. * * Since: 1.4 */ void gst_h264_quant_matrix_4x4_get_raster_from_zigzag (guint8 out_quant[16], const guint8 quant[16]) { guint i; g_return_if_fail (out_quant != quant); for (i = 0; i < 16; i++) out_quant[zigzag_4x4[i]] = quant[i]; } /** * gst_h264_video_calculate_framerate: * @sps: Current Sequence Parameter Set * @field_pic_flag: Current @field_pic_flag, obtained from latest slice header * @pic_struct: @pic_struct value if available, 0 otherwise * @fps_num: (out): The resulting fps numerator * @fps_den: (out): The resulting fps denominator * * Calculate framerate of a video sequence using @sps VUI information, * @field_pic_flag from a slice header and @pic_struct from #GstH264PicTiming SEI * message. * * If framerate is variable or can't be determined, @fps_num will be set to 0 * and @fps_den to 1. */ void gst_h264_video_calculate_framerate (const GstH264SPS * sps, guint field_pic_flag, guint pic_struct, gint * fps_num, gint * fps_den) { gint num = 0; gint den = 1; /* To calculate framerate, we use this formula: * time_scale 1 1 * fps = ----------------- x --------------- x ------------------------ * num_units_in_tick DeltaTfiDivisor (field_pic_flag ? 2 : 1) * * See H264 specification E2.1 for more details. */ if (sps) { if (sps->vui_parameters_present_flag) { const GstH264VUIParams *vui = &sps->vui_parameters; if (vui->timing_info_present_flag && vui->fixed_frame_rate_flag) { int delta_tfi_divisor = 1; num = vui->time_scale; den = vui->num_units_in_tick; if (vui->pic_struct_present_flag) { switch (pic_struct) { case 1: case 2: delta_tfi_divisor = 1; break; case 0: case 3: case 4: delta_tfi_divisor = 2; break; case 5: case 6: delta_tfi_divisor = 3; break; case 7: delta_tfi_divisor = 4; break; case 8: delta_tfi_divisor = 6; break; } } else { delta_tfi_divisor = field_pic_flag ? 1 : 2; } den *= delta_tfi_divisor; /* Picture is two fields ? */ den *= (field_pic_flag ? 2 : 1); } } } *fps_num = num; *fps_den = den; }