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1 /*--------------------------------------------------------------------------
2 Copyright (c) 2010-2013, The Linux Foundation. All rights reserved.
3 
4 Redistribution and use in source and binary forms, with or without
5 modification, are permitted provided that the following conditions are met:
6     * Redistributions of source code must retain the above copyright
7       notice, this list of conditions and the following disclaimer.
8     * Redistributions in binary form must reproduce the above copyright
9       notice, this list of conditions and the following disclaimer in the
10       documentation and/or other materials provided with the distribution.
11     * Neither the name of The Linux Foundation nor
12       the names of its contributors may be used to endorse or promote
13       products derived from this software without specific prior written
14       permission.
15 
16 THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
17 AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
18 IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
19 NON-INFRINGEMENT ARE DISCLAIMED.  IN NO EVENT SHALL THE COPYRIGHT OWNER OR
20 CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
21 EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
22 PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;
23 OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
24 WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
25 OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
26 ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
27 --------------------------------------------------------------------------*/
28 #ifndef H264_UTILS_H
29 #define H264_UTILS_H
30 
31 /*========================================================================
32 
33                                  O p e n M M
34          U t i l i t i e s   a n d   H e l p e r   R o u t i n e s
35 
36 *//** @file H264_Utils.h
37 This module contains H264 video decoder utilities and helper routines.
38 
39 *//*====================================================================== */
40 
41 /* =======================================================================
42 
43                      INCLUDE FILES FOR MODULE
44 
45 ========================================================================== */
46 #include <stdio.h>
47 #include "Map.h"
48 #include "qtypes.h"
49 #include "OMX_Core.h"
50 #include "OMX_QCOMExtns.h"
51 
52 #define STD_MIN(x,y) (((x) < (y)) ? (x) : (y))
53 
54 #define OMX_CORE_720P_HEIGHT 720
55 #define OMX_CORE_720P_WIDTH 1280
56 
57 #define SIZE_NAL_FIELD_MAX  4
58 #define BASELINE_PROFILE 66
59 #define MAIN_PROFILE     77
60 #define HIGH_PROFILE     100
61 
62 #define PANSCAN_HDLR
63 
64 /* =======================================================================
65 
66                           DATA DECLARATIONS
67 
68  ========================================================================== */
69 
70 /* -----------------------------------------------------------------------
71  ** Constant / Define Declarations
72  ** ----------------------------------------------------------------------- */
73 // Common format block header definitions
74 #define MT_VIDEO_META_STREAM_HEADER             0x00
75 #define MT_VIDEO_MEDIA_STREAM_HEADER            0x01
76 #define MT_VIDEO_META_MEDIA_STREAM_HEADER       0x02
77 
78 // H.264 format block header definitions
79 #define MT_VIDEO_H264_ACCESS_UNIT_FORMAT        0x00
80 #define MT_VIDEO_H264_NAL_FORMT                 0x01
81 #define MT_VIDEO_H264_BYTE_FORMAT               0x02
82 #define MT_VIDEO_H264_BYTE_STREAM_FORMAT        0x00
83 #define MT_VIDEO_H264_NAL_UNIT_STREAM_FORMAT    0x01
84 #define MT_VIDEO_H264_FORMAT_BLOCK_HEADER_SIZE  18
85 
86 // MPEG-4 format block header definitions
87 #define MT_VIDEO_MPEG4_VOP_FORMAT               0x00
88 #define MT_VIDEO_MPEG4_SLICE_FORMAT             0x01
89 #define MT_VIDEO_MPEG4_BYTE_FORMAT              0x02
90 #define MT_VIDEO_MPEG4_FORMAT_BLOCK_HEADER_SIZE 15
91 
92 // H.263 format block header definitions
93 #define MT_VIDEO_H263_PICTURE_FORMAT            0x00
94 #define MT_VIDEO_H263_GOB_FORMAT                0x01
95 #define MT_VIDEO_H263_SLICE_STRUCTURED_FORMAT   0x02
96 #define MT_VIDEO_H263_BYTE_FORMAT               0x03
97 #define MT_VIDEO_H263_FORMAT_BLOCK_HEADER_SIZE  16
98 
99 /* =======================================================================
100  **                          Function Declarations
101  ** ======================================================================= */
102 
103 /* -----------------------------------------------------------------------
104  ** Type Declarations
105  ** ----------------------------------------------------------------------- */
106 
107 // This type is used when parsing an H.264 bitstream to collect H.264 NAL
108 // units that need to go in the meta data.
109 struct H264ParamNalu {
110     uint32 picSetID;
111     uint32 seqSetID;
112     uint32 picOrderCntType;
113     bool frameMbsOnlyFlag;
114     bool picOrderPresentFlag;
115     uint32 picWidthInMbsMinus1;
116     uint32 picHeightInMapUnitsMinus1;
117     uint32 log2MaxFrameNumMinus4;
118     uint32 log2MaxPicOrderCntLsbMinus4;
119     bool deltaPicOrderAlwaysZeroFlag;
120     //std::vector<uint8> nalu;
121     uint32 nalu;
122     uint32 crop_left;
123     uint32 crop_right;
124     uint32 crop_top;
125     uint32 crop_bot;
126 };
127 //typedef map<uint32, H264ParamNalu> H264ParamNaluSet;
128 typedef Map<uint32, H264ParamNalu *> H264ParamNaluSet;
129 
130 typedef enum {
131     NALU_TYPE_UNSPECIFIED = 0,
132     NALU_TYPE_NON_IDR,
133     NALU_TYPE_PARTITION_A,
134     NALU_TYPE_PARTITION_B,
135     NALU_TYPE_PARTITION_C,
136     NALU_TYPE_IDR,
137     NALU_TYPE_SEI,
138     NALU_TYPE_SPS,
139     NALU_TYPE_PPS,
140     NALU_TYPE_ACCESS_DELIM,
141     NALU_TYPE_EOSEQ,
142     NALU_TYPE_EOSTREAM,
143     NALU_TYPE_FILLER_DATA,
144     NALU_TYPE_RESERVED,
145 } NALU_TYPE;
146 
147 // NAL header information
148 typedef struct {
149     uint32 nal_ref_idc;
150     uint32 nalu_type;
151     uint32 forbidden_zero_bit;
152 } NALU;
153 
154 // This structure contains persistent information about an H.264 stream as it
155 // is parsed.
156 //struct H264StreamInfo {
157 //    H264ParamNaluSet pic;
158 //    H264ParamNaluSet seq;
159 //};
160 
161 class extra_data_parser;
162 
163 class RbspParser
164 /******************************************************************************
165  ** This class is used to convert an H.264 NALU (network abstraction layer
166  ** unit) into RBSP (raw byte sequence payload) and extract bits from it.
167  *****************************************************************************/
168 {
169     public:
170         RbspParser (const uint8 *begin, const uint8 *end);
171 
172         virtual ~RbspParser ();
173 
174         uint32 next ();
175         void advance ();
176         uint32 u (uint32 n);
177         uint32 ue ();
178         int32 se ();
179 
180     private:
181         const     uint8 *begin, *end;
182         int32     pos;
183         uint32    bit;
184         uint32    cursor;
185         bool      advanceNeeded;
186 };
187 
188 class H264_Utils
189 {
190     public:
191         H264_Utils();
192         ~H264_Utils();
193         void initialize_frame_checking_environment();
194         void allocate_rbsp_buffer(uint32 inputBufferSize);
195         bool isNewFrame(OMX_BUFFERHEADERTYPE *p_buf_hdr,
196                 OMX_IN OMX_U32 size_of_nal_length_field,
197                 OMX_OUT OMX_BOOL &isNewFrame);
198         uint32 nalu_type;
199 
200     private:
201         boolean extract_rbsp(OMX_IN   OMX_U8  *buffer,
202                 OMX_IN   OMX_U32 buffer_length,
203                 OMX_IN   OMX_U32 size_of_nal_length_field,
204                 OMX_OUT  OMX_U8  *rbsp_bistream,
205                 OMX_OUT  OMX_U32 *rbsp_length,
206                 OMX_OUT  NALU    *nal_unit);
207 
208         unsigned          m_height;
209         unsigned          m_width;
210         H264ParamNaluSet  pic;
211         H264ParamNaluSet  seq;
212         uint8             *m_rbspBytes;
213         NALU              m_prv_nalu;
214         bool              m_forceToStichNextNAL;
215         bool              m_au_data;
216 };
217 
218 class perf_metrics
219 {
220     public:
perf_metrics()221         perf_metrics() :
222             start_time(0),
223             proc_time(0),
224             active(false) {
225             };
~perf_metrics()226         ~perf_metrics() {};
227         void start();
228         void stop();
229         void end(OMX_U32 units_cntr = 0);
230         void reset();
231         OMX_U64 processing_time_us();
232     private:
233         inline OMX_U64 get_act_time();
234         OMX_U64 start_time;
235         OMX_U64 proc_time;
236         bool active;
237 };
238 
239 #define EMULATION_PREVENTION_THREE_BYTE 0x03
240 #define MAX_CPB_COUNT     32
241 #define NO_PAN_SCAN_BIT   0x00000100
242 #define MAX_PAN_SCAN_RECT 3
243 #define VALID_TS(ts)      ((ts < LLONG_MAX)? true : false)
244 #define NALU_TYPE_VUI (NALU_TYPE_RESERVED + 1)
245 
246 enum SEI_PAYLOAD_TYPE {
247     BUFFERING_PERIOD = 0,
248     PIC_TIMING,
249     PAN_SCAN_RECT,
250     FILLER_PAYLOAD,
251     USER_DATA_REGISTERED_ITU_T_T35,
252     USER_DATA_UNREGISTERED,
253     RECOVERY_POINT,
254     DEC_REF_PIC_MARKING_REPETITION,
255     SPARE_PIC,
256     SCENE_INFO,
257     SUB_SEQ_INFO,
258     SUB_SEQ_LAYER_CHARACTERISTICS,
259     SUB_SEQ_CHARACTERISTICS,
260     FULL_FRAME_FREEZE,
261     FULL_FRAME_FREEZE_RELEASE,
262     FULL_FRAME_SNAPSHOT,
263     PROGRESSIVE_REFINEMENT_SEGMENT_START,
264     PROGRESSIVE_REFINEMENT_SEGMENT_END,
265     SEI_PAYLOAD_FRAME_PACKING_ARRANGEMENT = 0x2D
266 };
267 
268 typedef struct {
269     OMX_U32  cpb_cnt;
270     OMX_U8   bit_rate_scale;
271     OMX_U8   cpb_size_scale;
272     OMX_U32  bit_rate_value[MAX_CPB_COUNT];
273     OMX_U32  cpb_size_value[MAX_CPB_COUNT];
274     OMX_U8   cbr_flag[MAX_CPB_COUNT];
275     OMX_U8   initial_cpb_removal_delay_length;
276     OMX_U8   cpb_removal_delay_length;
277     OMX_U8   dpb_output_delay_length;
278     OMX_U8   time_offset_length;
279 } h264_hrd_param;
280 
281 typedef struct {
282     OMX_U32  aspect_ratio_idc;
283     OMX_U32  aspect_ratio_x;
284     OMX_U32  aspect_ratio_y;
285 } h264_aspect_ratio_info;
286 
287 typedef struct {
288     OMX_U8   aspect_ratio_info_present_flag;
289     h264_aspect_ratio_info aspect_ratio_info;
290     OMX_U8   timing_info_present_flag;
291     OMX_U32  num_units_in_tick;
292     OMX_U32  time_scale;
293     OMX_U8   fixed_frame_rate_flag;
294     OMX_U8   nal_hrd_parameters_present_flag;
295     h264_hrd_param   nal_hrd_parameters;
296     OMX_U8   vcl_hrd_parameters_present_flag;
297     h264_hrd_param   vcl_hrd_parameters;
298     OMX_U8   low_delay_hrd_flag;
299     OMX_U8   pic_struct_present_flag;
300     OMX_S64  fixed_fps_prev_ts;
301 } h264_vui_param;
302 
303 typedef struct {
304     OMX_U32 cpb_removal_delay;
305     OMX_U32 dpb_output_delay;
306     OMX_U8  pic_struct;
307     OMX_U32 num_clock_ts;
308     bool    clock_ts_flag;
309     OMX_U8  ct_type;
310     OMX_U32 nuit_field_based_flag;
311     OMX_U8  counting_type;
312     OMX_U8  full_timestamp_flag;
313     OMX_U8  discontinuity_flag;
314     OMX_U8  cnt_dropped_flag;
315     OMX_U32 n_frames;
316     OMX_U32 seconds_value;
317     OMX_U32 minutes_value;
318     OMX_U32 hours_value;
319     OMX_S32 time_offset;
320     bool    is_valid;
321 } h264_sei_pic_timing;
322 
323 typedef struct {
324     OMX_U32  initial_cpb_removal_delay[MAX_CPB_COUNT];
325     OMX_U32  initial_cpb_removal_delay_offset[MAX_CPB_COUNT];
326     OMX_U32  au_cntr;
327     OMX_S64  reference_ts;
328     bool     is_valid;
329 } h264_sei_buf_period;
330 
331 typedef struct {
332     OMX_U32  rect_id;
333     OMX_U8   rect_cancel_flag;
334     OMX_U32  cnt;
335     OMX_S32  rect_left_offset[MAX_PAN_SCAN_RECT];
336     OMX_S32  rect_right_offset[MAX_PAN_SCAN_RECT];
337     OMX_S32  rect_top_offset[MAX_PAN_SCAN_RECT];
338     OMX_S32  rect_bottom_offset[MAX_PAN_SCAN_RECT];
339     OMX_U32  rect_repetition_period;
340 } h264_pan_scan;
341 
342 #ifdef PANSCAN_HDLR
343 template <class NODE_STRUCT>
344 class omx_dl_list
345 {
346     public:
omx_dl_list()347         omx_dl_list() {
348             head = tail = NULL;
349         } ;
~omx_dl_list()350         ~omx_dl_list() {};
351         void add_multiple(NODE_STRUCT *data_arr, int data_num);
352         NODE_STRUCT *remove_first();
353         NODE_STRUCT *remove_last();
354         void add_last(NODE_STRUCT *data_ptr);
355         NODE_STRUCT *watch_first();
356         NODE_STRUCT *watch_last();
357     private:
358         NODE_STRUCT *head, *tail;
359 };
360 
361 class panscan_handler
362 {
363     public:
364         panscan_handler();
365         ~panscan_handler();
366         bool initialize(int num_data);
367         h264_pan_scan *get_free();
368         h264_pan_scan *get_populated(OMX_S64 frame_ts);
369         void update_last(OMX_S64 frame_ts);
370     private:
371         typedef struct PANSCAN_NODE {
372             h264_pan_scan pan_scan_param;
373             OMX_S64  start_ts, end_ts;
374             bool active;
375             PANSCAN_NODE *next, *prev;
376         } PANSCAN_NODE;
377         omx_dl_list<PANSCAN_NODE> panscan_used;
378         omx_dl_list<PANSCAN_NODE> panscan_free;
379         PANSCAN_NODE *panscan_data;
380 };
381 
382 #if 1 // Debug panscan data
383 
384 #define PRINT_PANSCAN_PARAM(H264_PARAM)
385 #define PRINT_PANSCAN_DATA(NODE)
386 
387 #else
388 
389 #define PRINT_PANSCAN_PARAM(H264_PARAM) \
390     do {\
391         ALOGE("%s(): left_off(%ld) right_off(%ld) top_off(%ld) bottom_off(%ld)",\
392                 __FUNCTION__,\
393                 (H264_PARAM).rect_left_offset[0],\
394                 (H264_PARAM).rect_right_offset[0],\
395                 (H264_PARAM).rect_top_offset[0],\
396                 (H264_PARAM).rect_bottom_offset[0]);\
397     }while(0)
398 
399 #define PRINT_PANSCAN_DATA(NODE) \
400     do {\
401         if (NODE) {\
402             ALOGE("%s(): PANSCAN DATA start_ts(%lld) end_ts(%lld)", __FUNCTION__,\
403                     (NODE)->start_ts, (NODE)->end_ts);\
404             PRINT_PANSCAN_PARAM(NODE->pan_scan_param);\
405         }\
406     }while(0)
407 
408 #endif // End debug panscan data
409 
410 #endif
411 
412 class h264_stream_parser
413 {
414     public:
415         h264_stream_parser();
416         ~h264_stream_parser();
417         void reset();
418         void fill_pan_scan_data(OMX_QCOM_PANSCAN *dest_pan_scan, OMX_S64 timestamp);
419         void fill_aspect_ratio_info(OMX_QCOM_ASPECT_RATIO *dest_aspect_ratio);
420         void parse_nal(OMX_U8* data_ptr, OMX_U32 data_len,
421                 OMX_U32 nal_type = NALU_TYPE_UNSPECIFIED,
422                 bool enable_emu_sc = true);
423         OMX_S64 process_ts_with_sei_vui(OMX_S64 timestamp);
424         void get_frame_pack_data(OMX_QCOM_FRAME_PACK_ARRANGEMENT *frame_pack);
425         bool is_mbaff();
426         void get_frame_rate(OMX_U32 *frame_rate);
427         OMX_U32 get_profile();
428 #ifdef PANSCAN_HDLR
429         void update_panscan_data(OMX_S64 timestamp);
430 #endif
431 
432     private:
433         void init_bitstream(OMX_U8* data, OMX_U32 size);
434         OMX_U32 extract_bits(OMX_U32 n);
435         inline bool more_bits();
436         void read_word();
437         OMX_U32 uev();
438         OMX_S32 sev();
439         OMX_S32 iv(OMX_U32 n_bits);
440         void parse_sps();
441         void parse_vui(bool vui_in_extradata = true);
442         void aspect_ratio_info();
443         void hrd_parameters(h264_hrd_param *hrd_param);
444         void parse_sei();
445         void sei_buffering_period();
446         void sei_picture_timing();
447         void sei_pan_scan();
448         void scaling_list(OMX_U32 size_of_scaling_list);
449 
450         void print_pan_data(h264_pan_scan *pan_scan_param);
451         void print_frame_pack();
452 
453         OMX_U32 get_nal_unit_type(OMX_U32 *nal_unit_type);
454         OMX_S64 calculate_buf_period_ts(OMX_S64 timestamp);
455         OMX_S64 calculate_fixed_fps_ts(OMX_S64 timestamp, OMX_U32 DeltaTfiDivisor);
456         void parse_frame_pack();
457 
458         OMX_U32 curr_32_bit;
459         OMX_U32 bits_read;
460         OMX_U32 profile;
461         OMX_U32 zero_cntr;
462         OMX_U32 emulation_code_skip_cntr;
463         OMX_U8* bitstream;
464         OMX_U32 bitstream_bytes;
465         OMX_U32 frame_rate;
466         bool    emulation_sc_enabled;
467 
468         h264_vui_param vui_param;
469         h264_sei_buf_period sei_buf_period;
470         h264_sei_pic_timing sei_pic_timing;
471 #ifdef PANSCAN_HDLR
472         panscan_handler *panscan_hdl;
473 #else
474         h264_pan_scan panscan_param;
475 #endif
476         OMX_QCOM_FRAME_PACK_ARRANGEMENT frame_packing_arrangement;
477         bool     mbaff_flag;
478 };
479 
480 #endif /* H264_UTILS_H */
481