Coverage Report

Created: 2026-07-16 06:20

next uncovered line (L), next uncovered region (R), next uncovered branch (B)
/proc/self/cwd/libfaad/syntax.c
Line
Count
Source
1
/*
2
** FAAD2 - Freeware Advanced Audio (AAC) Decoder including SBR decoding
3
** Copyright (C) 2003-2005 M. Bakker, Nero AG, http://www.nero.com
4
**
5
** This program is free software; you can redistribute it and/or modify
6
** it under the terms of the GNU General Public License as published by
7
** the Free Software Foundation; either version 2 of the License, or
8
** (at your option) any later version.
9
**
10
** This program is distributed in the hope that it will be useful,
11
** but WITHOUT ANY WARRANTY; without even the implied warranty of
12
** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
13
** GNU General Public License for more details.
14
**
15
** You should have received a copy of the GNU General Public License
16
** along with this program; if not, write to the Free Software
17
** Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
18
**
19
** Any non-GPL usage of this software or parts of this software is strictly
20
** forbidden.
21
**
22
** The "appropriate copyright message" mentioned in section 2c of the GPLv2
23
** must read: "Code from FAAD2 is copyright (c) Nero AG, www.nero.com"
24
**
25
** Commercial non-GPL licensing of this software is possible.
26
** For more info contact Nero AG through Mpeg4AAClicense@nero.com.
27
**
28
** $Id: syntax.c,v 1.93 2009/01/26 23:51:15 menno Exp $
29
**/
30
31
/*
32
   Reads the AAC bitstream as defined in 14496-3 (MPEG-4 Audio)
33
*/
34
35
#include "common.h"
36
#include "structs.h"
37
38
#include <stdlib.h>
39
#include <stdio.h>
40
41
#include "syntax.h"
42
#include "specrec.h"
43
#include "huffman.h"
44
#include "bits.h"
45
#include "pulse.h"
46
#include "analysis.h"
47
#include "drc.h"
48
#ifdef ERROR_RESILIENCE
49
#include "rvlc.h"
50
#endif
51
#ifdef SBR_DEC
52
#include "sbr_syntax.h"
53
#endif
54
#include "mp4.h"
55
56
57
/* static function declarations */
58
static void decode_sce_lfe(NeAACDecStruct *hDecoder, NeAACDecFrameInfo *hInfo, bitfile *ld,
59
                           uint8_t id_syn_ele);
60
static void decode_cpe(NeAACDecStruct *hDecoder, NeAACDecFrameInfo *hInfo, bitfile *ld,
61
                       uint8_t id_syn_ele);
62
static uint8_t single_lfe_channel_element(NeAACDecStruct *hDecoder, bitfile *ld,
63
                                          uint8_t channel, uint8_t *tag);
64
static uint8_t channel_pair_element(NeAACDecStruct *hDecoder, bitfile *ld,
65
                                    uint8_t channel, uint8_t *tag);
66
#ifdef COUPLING_DEC
67
static uint8_t coupling_channel_element(NeAACDecStruct *hDecoder, bitfile *ld);
68
#endif
69
static uint16_t data_stream_element(NeAACDecStruct *hDecoder, bitfile *ld);
70
static uint8_t program_config_element(program_config *pce, bitfile *ld);
71
static uint8_t fill_element(NeAACDecStruct *hDecoder, bitfile *ld, drc_info *drc
72
#ifdef SBR_DEC
73
                            ,uint8_t sbr_ele
74
#endif
75
                            );
76
static uint8_t individual_channel_stream(NeAACDecStruct *hDecoder, element *ele,
77
                                         bitfile *ld, ic_stream *ics, uint8_t scal_flag,
78
                                         int16_t *spec_data);
79
static uint8_t ics_info(NeAACDecStruct *hDecoder, ic_stream *ics, bitfile *ld,
80
                        uint8_t common_window);
81
static uint8_t section_data(NeAACDecStruct *hDecoder, ic_stream *ics, bitfile *ld);
82
static uint8_t scale_factor_data(NeAACDecStruct *hDecoder, ic_stream *ics, bitfile *ld);
83
#ifdef SSR_DEC
84
static void gain_control_data(bitfile *ld, ic_stream *ics);
85
#endif
86
static uint8_t spectral_data(NeAACDecStruct *hDecoder, ic_stream *ics, bitfile *ld,
87
                             int16_t *spectral_data);
88
static uint8_t pulse_data(ic_stream *ics, pulse_info *pul, bitfile *ld);
89
static void tns_data(ic_stream *ics, tns_info *tns, bitfile *ld);
90
#ifdef LTP_DEC
91
static uint8_t ltp_data(NeAACDecStruct *hDecoder, ic_stream *ics, ltp_info *ltp, bitfile *ld);
92
#endif
93
static uint8_t adts_fixed_header(adts_header *adts, bitfile *ld);
94
static void adts_variable_header(adts_header *adts, bitfile *ld);
95
static void adts_error_check(adts_header *adts, bitfile *ld);
96
static uint8_t side_info(NeAACDecStruct *hDecoder, element *ele,
97
                         bitfile *ld, ic_stream *ics, uint8_t scal_flag);
98
#ifdef DRM
99
static int8_t DRM_aac_scalable_main_header(NeAACDecStruct *hDecoder, ic_stream *ics1, ic_stream *ics2,
100
                                           bitfile *ld, uint8_t this_layer_stereo);
101
#else
102
static uint16_t extension_payload(bitfile *ld, drc_info *drc, uint16_t count);
103
static uint8_t dynamic_range_info(bitfile *ld, drc_info *drc);
104
static uint8_t excluded_channels(bitfile *ld, drc_info *drc);
105
#endif
106
107
108
/* Table 4.4.1 */
109
int8_t GASpecificConfig(bitfile *ld, mp4AudioSpecificConfig *mp4ASC,
110
                        program_config *pce_out)
111
2.39k
{
112
2.39k
    program_config pce;
113
114
    /* 1024 or 960 */
115
2.39k
    mp4ASC->frameLengthFlag = faad_get1bit(ld
116
2.39k
        DEBUGVAR(1,138,"GASpecificConfig(): FrameLengthFlag"));
117
#ifndef ALLOW_SMALL_FRAMELENGTH
118
    if (mp4ASC->frameLengthFlag == 1)
119
        return -3;
120
#endif
121
122
2.39k
    mp4ASC->dependsOnCoreCoder = faad_get1bit(ld
123
2.39k
        DEBUGVAR(1,139,"GASpecificConfig(): DependsOnCoreCoder"));
124
2.39k
    if (mp4ASC->dependsOnCoreCoder == 1)
125
630
    {
126
630
        mp4ASC->coreCoderDelay = (uint16_t)faad_getbits(ld, 14
127
630
            DEBUGVAR(1,140,"GASpecificConfig(): CoreCoderDelay"));
128
630
    }
129
130
2.39k
    mp4ASC->extensionFlag = faad_get1bit(ld DEBUGVAR(1,141,"GASpecificConfig(): ExtensionFlag"));
131
2.39k
    if (mp4ASC->channelsConfiguration == 0)
132
412
    {
133
412
        if (program_config_element(&pce, ld))
134
2
            return -3;
135
        //mp4ASC->channelsConfiguration = pce.channels;
136
137
410
        if (pce_out != NULL)
138
410
            memcpy(pce_out, &pce, sizeof(program_config));
139
140
        /*
141
        if (pce.num_valid_cc_elements)
142
            return -3;
143
        */
144
410
    }
145
146
2.39k
#ifdef ERROR_RESILIENCE
147
2.39k
    if (mp4ASC->extensionFlag == 1)
148
1.64k
    {
149
        /* Error resilience not supported yet */
150
1.64k
        if (mp4ASC->objectTypeIndex >= ER_OBJECT_START)
151
1.40k
        {
152
1.40k
            mp4ASC->aacSectionDataResilienceFlag = faad_get1bit(ld
153
1.40k
                DEBUGVAR(1,144,"GASpecificConfig(): aacSectionDataResilienceFlag"));
154
1.40k
            mp4ASC->aacScalefactorDataResilienceFlag = faad_get1bit(ld
155
1.40k
                DEBUGVAR(1,145,"GASpecificConfig(): aacScalefactorDataResilienceFlag"));
156
1.40k
            mp4ASC->aacSpectralDataResilienceFlag = faad_get1bit(ld
157
1.40k
                DEBUGVAR(1,146,"GASpecificConfig(): aacSpectralDataResilienceFlag"));
158
1.40k
        }
159
        /* 1 bit: extensionFlag3 */
160
1.64k
        faad_getbits(ld, 1);
161
1.64k
  }
162
2.39k
#endif
163
164
2.39k
    return 0;
165
2.39k
}
166
167
/* Table 4.4.2 */
168
/* An MPEG-4 Audio decoder is only required to follow the Program
169
   Configuration Element in GASpecificConfig(). The decoder shall ignore
170
   any Program Configuration Elements that may occur in raw data blocks.
171
   PCEs transmitted in raw data blocks cannot be used to convey decoder
172
   configuration information.
173
*/
174
static uint8_t program_config_element(program_config *pce, bitfile *ld)
175
2.06k
{
176
2.06k
    uint8_t i;
177
178
2.06k
    memset(pce, 0, sizeof(program_config));
179
180
2.06k
    pce->channels = 0;
181
182
2.06k
    pce->element_instance_tag = (uint8_t)faad_getbits(ld, 4
183
2.06k
        DEBUGVAR(1,10,"program_config_element(): element_instance_tag"));
184
185
2.06k
    pce->object_type = (uint8_t)faad_getbits(ld, 2
186
2.06k
        DEBUGVAR(1,11,"program_config_element(): object_type"));
187
2.06k
    pce->sf_index = (uint8_t)faad_getbits(ld, 4
188
2.06k
        DEBUGVAR(1,12,"program_config_element(): sf_index"));
189
2.06k
    pce->num_front_channel_elements = (uint8_t)faad_getbits(ld, 4
190
2.06k
        DEBUGVAR(1,13,"program_config_element(): num_front_channel_elements"));
191
2.06k
    pce->num_side_channel_elements = (uint8_t)faad_getbits(ld, 4
192
2.06k
        DEBUGVAR(1,14,"program_config_element(): num_side_channel_elements"));
193
2.06k
    pce->num_back_channel_elements = (uint8_t)faad_getbits(ld, 4
194
2.06k
        DEBUGVAR(1,15,"program_config_element(): num_back_channel_elements"));
195
2.06k
    pce->num_lfe_channel_elements = (uint8_t)faad_getbits(ld, 2
196
2.06k
        DEBUGVAR(1,16,"program_config_element(): num_lfe_channel_elements"));
197
2.06k
    pce->num_assoc_data_elements = (uint8_t)faad_getbits(ld, 3
198
2.06k
        DEBUGVAR(1,17,"program_config_element(): num_assoc_data_elements"));
199
2.06k
    pce->num_valid_cc_elements = (uint8_t)faad_getbits(ld, 4
200
2.06k
        DEBUGVAR(1,18,"program_config_element(): num_valid_cc_elements"));
201
202
2.06k
    pce->mono_mixdown_present = faad_get1bit(ld
203
2.06k
        DEBUGVAR(1,19,"program_config_element(): mono_mixdown_present"));
204
2.06k
    if (pce->mono_mixdown_present == 1)
205
407
    {
206
407
        pce->mono_mixdown_element_number = (uint8_t)faad_getbits(ld, 4
207
407
            DEBUGVAR(1,20,"program_config_element(): mono_mixdown_element_number"));
208
407
    }
209
210
2.06k
    pce->stereo_mixdown_present = faad_get1bit(ld
211
2.06k
        DEBUGVAR(1,21,"program_config_element(): stereo_mixdown_present"));
212
2.06k
    if (pce->stereo_mixdown_present == 1)
213
326
    {
214
326
        pce->stereo_mixdown_element_number = (uint8_t)faad_getbits(ld, 4
215
326
            DEBUGVAR(1,22,"program_config_element(): stereo_mixdown_element_number"));
216
326
    }
217
218
2.06k
    pce->matrix_mixdown_idx_present = faad_get1bit(ld
219
2.06k
        DEBUGVAR(1,23,"program_config_element(): matrix_mixdown_idx_present"));
220
2.06k
    if (pce->matrix_mixdown_idx_present == 1)
221
303
    {
222
303
        pce->matrix_mixdown_idx = (uint8_t)faad_getbits(ld, 2
223
303
            DEBUGVAR(1,24,"program_config_element(): matrix_mixdown_idx"));
224
303
        pce->pseudo_surround_enable = faad_get1bit(ld
225
303
            DEBUGVAR(1,25,"program_config_element(): pseudo_surround_enable"));
226
303
    }
227
228
7.66k
    for (i = 0; i < pce->num_front_channel_elements; i++)
229
5.59k
    {
230
5.59k
        pce->front_element_is_cpe[i] = faad_get1bit(ld
231
5.59k
            DEBUGVAR(1,26,"program_config_element(): front_element_is_cpe"));
232
5.59k
        pce->front_element_tag_select[i] = (uint8_t)faad_getbits(ld, 4
233
5.59k
            DEBUGVAR(1,27,"program_config_element(): front_element_tag_select"));
234
235
5.59k
        if (pce->front_element_is_cpe[i] & 1)
236
1.71k
        {
237
1.71k
            pce->cpe_channel[pce->front_element_tag_select[i]] = pce->channels;
238
1.71k
            pce->num_front_channels += 2;
239
1.71k
            pce->channels += 2;
240
3.88k
        } else {
241
3.88k
            pce->sce_channel[pce->front_element_tag_select[i]] = pce->channels;
242
3.88k
            pce->num_front_channels++;
243
3.88k
            pce->channels++;
244
3.88k
        }
245
5.59k
    }
246
247
8.31k
    for (i = 0; i < pce->num_side_channel_elements; i++)
248
6.25k
    {
249
6.25k
        pce->side_element_is_cpe[i] = faad_get1bit(ld
250
6.25k
            DEBUGVAR(1,28,"program_config_element(): side_element_is_cpe"));
251
6.25k
        pce->side_element_tag_select[i] = (uint8_t)faad_getbits(ld, 4
252
6.25k
            DEBUGVAR(1,29,"program_config_element(): side_element_tag_select"));
253
254
6.25k
        if (pce->side_element_is_cpe[i] & 1)
255
1.54k
        {
256
1.54k
            pce->cpe_channel[pce->side_element_tag_select[i]] = pce->channels;
257
1.54k
            pce->num_side_channels += 2;
258
1.54k
            pce->channels += 2;
259
4.70k
        } else {
260
4.70k
            pce->sce_channel[pce->side_element_tag_select[i]] = pce->channels;
261
4.70k
            pce->num_side_channels++;
262
4.70k
            pce->channels++;
263
4.70k
        }
264
6.25k
    }
265
266
7.19k
    for (i = 0; i < pce->num_back_channel_elements; i++)
267
5.13k
    {
268
5.13k
        pce->back_element_is_cpe[i] = faad_get1bit(ld
269
5.13k
            DEBUGVAR(1,30,"program_config_element(): back_element_is_cpe"));
270
5.13k
        pce->back_element_tag_select[i] = (uint8_t)faad_getbits(ld, 4
271
5.13k
            DEBUGVAR(1,31,"program_config_element(): back_element_tag_select"));
272
273
5.13k
        if (pce->back_element_is_cpe[i] & 1)
274
1.40k
        {
275
1.40k
            pce->cpe_channel[pce->back_element_tag_select[i]] = pce->channels;
276
1.40k
            pce->channels += 2;
277
1.40k
            pce->num_back_channels += 2;
278
3.72k
        } else {
279
3.72k
            pce->sce_channel[pce->back_element_tag_select[i]] = pce->channels;
280
3.72k
            pce->num_back_channels++;
281
3.72k
            pce->channels++;
282
3.72k
        }
283
5.13k
    }
284
285
3.21k
    for (i = 0; i < pce->num_lfe_channel_elements; i++)
286
1.15k
    {
287
1.15k
        pce->lfe_element_tag_select[i] = (uint8_t)faad_getbits(ld, 4
288
1.15k
            DEBUGVAR(1,32,"program_config_element(): lfe_element_tag_select"));
289
290
1.15k
        pce->sce_channel[pce->lfe_element_tag_select[i]] = pce->channels;
291
1.15k
        pce->num_lfe_channels++;
292
1.15k
        pce->channels++;
293
1.15k
    }
294
295
3.93k
    for (i = 0; i < pce->num_assoc_data_elements; i++)
296
1.87k
        pce->assoc_data_element_tag_select[i] = (uint8_t)faad_getbits(ld, 4
297
1.87k
        DEBUGVAR(1,33,"program_config_element(): assoc_data_element_tag_select"));
298
299
6.42k
    for (i = 0; i < pce->num_valid_cc_elements; i++)
300
4.36k
    {
301
4.36k
        pce->cc_element_is_ind_sw[i] = faad_get1bit(ld
302
4.36k
            DEBUGVAR(1,34,"program_config_element(): cc_element_is_ind_sw"));
303
4.36k
        pce->valid_cc_element_tag_select[i] = (uint8_t)faad_getbits(ld, 4
304
4.36k
            DEBUGVAR(1,35,"program_config_element(): valid_cc_element_tag_select"));
305
4.36k
    }
306
307
2.06k
    faad_byte_align(ld);
308
309
2.06k
    pce->comment_field_bytes = (uint8_t)faad_getbits(ld, 8
310
2.06k
        DEBUGVAR(1,36,"program_config_element(): comment_field_bytes"));
311
312
19.7k
    for (i = 0; i < pce->comment_field_bytes; i++)
313
17.7k
    {
314
17.7k
        pce->comment_field_data[i] = (uint8_t)faad_getbits(ld, 8
315
17.7k
            DEBUGVAR(1,37,"program_config_element(): comment_field_data"));
316
17.7k
    }
317
2.06k
    pce->comment_field_data[i] = 0;
318
319
2.06k
    if (pce->channels > MAX_CHANNELS)
320
73
        return 22;
321
322
1.98k
    return 0;
323
2.06k
}
324
325
static void decode_sce_lfe(NeAACDecStruct *hDecoder,
326
                           NeAACDecFrameInfo *hInfo, bitfile *ld,
327
                           uint8_t id_syn_ele)
328
113k
{
329
113k
    uint8_t channels = hDecoder->fr_channels;
330
113k
    uint8_t tag = 0;
331
332
    /* One or two channels are used;
333
       exact number will be known after single_lfe_channel_element
334
    */
335
113k
    if (channels+2 > MAX_CHANNELS)
336
3.33k
    {
337
3.33k
        hInfo->error = 12;
338
3.33k
        return;
339
3.33k
    }
340
110k
    if (hDecoder->fr_ch_ele+1 > MAX_SYNTAX_ELEMENTS)
341
0
    {
342
0
        hInfo->error = 13;
343
0
        return;
344
0
    }
345
346
    /* for SCE hDecoder->element_output_channels[] is not set here because this
347
       can become 2 when some form of Parametric Stereo coding is used
348
    */
349
350
110k
    if (hDecoder->element_id[hDecoder->fr_ch_ele] != INVALID_ELEMENT_ID &&
351
15.3k
        hDecoder->element_id[hDecoder->fr_ch_ele] != id_syn_ele)
352
73
    {
353
        /* element inconsistency */
354
73
        hInfo->error = 21;
355
73
        return;
356
73
    }
357
358
    /* save the syntax element id */
359
110k
    hDecoder->element_id[hDecoder->fr_ch_ele] = id_syn_ele;
360
361
    /* decode the element */
362
110k
    hInfo->error = single_lfe_channel_element(hDecoder, ld, channels, &tag);
363
364
    /* map output channels position to internal data channels */
365
110k
    if (hDecoder->element_output_channels[hDecoder->fr_ch_ele] == 2)
366
109k
    {
367
        /* this might be faulty when pce_set is true */
368
109k
        hDecoder->internal_channel[channels] = channels;
369
109k
        hDecoder->internal_channel[channels+1] = channels+1;
370
109k
    } else {
371
628
        if (hDecoder->pce_set)
372
44
        {
373
44
            if (hDecoder->pce.channels > MAX_CHANNELS)
374
3
            {
375
3
                hInfo->error = 22;
376
3
                return;
377
3
            }
378
41
            hDecoder->internal_channel[hDecoder->pce.sce_channel[tag]] = channels;
379
584
        } else {
380
584
            hDecoder->internal_channel[channels] = channels;
381
584
        }
382
628
    }
383
384
110k
    hDecoder->fr_channels += hDecoder->element_output_channels[hDecoder->fr_ch_ele];
385
110k
    hDecoder->fr_ch_ele++;
386
110k
}
387
388
static void decode_cpe(NeAACDecStruct *hDecoder, NeAACDecFrameInfo *hInfo, bitfile *ld,
389
                       uint8_t id_syn_ele)
390
21.6k
{
391
21.6k
    uint8_t channels = hDecoder->fr_channels;
392
21.6k
    uint8_t tag = 0;
393
394
21.6k
    if (channels+2 > MAX_CHANNELS)
395
158
    {
396
158
        hInfo->error = 12;
397
158
        return;
398
158
    }
399
21.4k
    if (hDecoder->fr_ch_ele+1 > MAX_SYNTAX_ELEMENTS)
400
0
    {
401
0
        hInfo->error = 13;
402
0
        return;
403
0
    }
404
21.4k
    if (hDecoder->pce_set && (hDecoder->pce.channels > MAX_CHANNELS))
405
4
    {
406
4
        hInfo->error = 22;
407
4
        return;
408
4
    }
409
410
    /* for CPE the number of output channels is always 2 */
411
21.4k
    if (hDecoder->element_output_channels[hDecoder->fr_ch_ele] == 0)
412
17.8k
    {
413
        /* element_output_channels not set yet */
414
17.8k
        hDecoder->element_output_channels[hDecoder->fr_ch_ele] = 2;
415
17.8k
    } else if (hDecoder->element_output_channels[hDecoder->fr_ch_ele] != 2) {
416
        /* element inconsistency */
417
0
        hInfo->error = 21;
418
0
        return;
419
0
    }
420
421
21.4k
    if (hDecoder->element_id[hDecoder->fr_ch_ele] != INVALID_ELEMENT_ID &&
422
3.62k
        hDecoder->element_id[hDecoder->fr_ch_ele] != id_syn_ele)
423
42
    {
424
        /* element inconsistency */
425
42
        hInfo->error = 21;
426
42
        return;
427
42
    }
428
429
    /* save the syntax element id */
430
21.4k
    hDecoder->element_id[hDecoder->fr_ch_ele] = id_syn_ele;
431
432
    /* decode the element */
433
21.4k
    hInfo->error = channel_pair_element(hDecoder, ld, channels, &tag);
434
435
    /* map output channel position to internal data channels */
436
21.4k
    if (hDecoder->pce_set)
437
1.13k
    {
438
1.13k
        hDecoder->internal_channel[hDecoder->pce.cpe_channel[tag]] = channels;
439
1.13k
        hDecoder->internal_channel[hDecoder->pce.cpe_channel[tag]+1] = channels+1;
440
20.3k
    } else {
441
20.3k
        hDecoder->internal_channel[channels] = channels;
442
20.3k
        hDecoder->internal_channel[channels+1] = channels+1;
443
20.3k
    }
444
445
21.4k
    hDecoder->fr_channels += 2;
446
21.4k
    hDecoder->fr_ch_ele++;
447
21.4k
}
448
449
void raw_data_block(NeAACDecStruct *hDecoder, NeAACDecFrameInfo *hInfo,
450
                    bitfile *ld, program_config *pce, drc_info *drc)
451
8.45k
{
452
8.45k
    uint8_t id_syn_ele;
453
8.45k
    uint8_t ele_this_frame = 0;
454
455
8.45k
    hDecoder->fr_channels = 0;
456
8.45k
    hDecoder->fr_ch_ele = 0;
457
8.45k
    hDecoder->first_syn_ele = 25;
458
8.45k
    hDecoder->has_lfe = 0;
459
460
8.45k
#ifdef ERROR_RESILIENCE
461
8.45k
    if (hDecoder->object_type < ER_OBJECT_START)
462
5.46k
    {
463
5.46k
#endif
464
        /* Table 4.4.3: raw_data_block() */
465
466k
        while ((id_syn_ele = (uint8_t)faad_getbits(ld, LEN_SE_ID
466
466k
            DEBUGVAR(1,4,"NeAACDecDecode(): id_syn_ele"))) != ID_END)
467
465k
        {
468
465k
            switch (id_syn_ele) {
469
111k
            case ID_SCE:
470
111k
                ele_this_frame++;
471
111k
                if (hDecoder->first_syn_ele == 25) hDecoder->first_syn_ele = id_syn_ele;
472
111k
                decode_sce_lfe(hDecoder, hInfo, ld, id_syn_ele);
473
111k
                if (hInfo->error > 0)
474
3.86k
                    return;
475
107k
                break;
476
107k
            case ID_CPE:
477
17.6k
                ele_this_frame++;
478
17.6k
                if (hDecoder->first_syn_ele == 25) hDecoder->first_syn_ele = id_syn_ele;
479
17.6k
                decode_cpe(hDecoder, hInfo, ld, id_syn_ele);
480
17.6k
                if (hInfo->error > 0)
481
561
                    return;
482
17.0k
                break;
483
17.0k
            case ID_LFE:
484
91
#ifdef DRM
485
91
                hInfo->error = 32;
486
#else
487
                ele_this_frame++;
488
                hDecoder->has_lfe++;
489
                decode_sce_lfe(hDecoder, hInfo, ld, id_syn_ele);
490
#endif
491
91
                if (hInfo->error > 0)
492
91
                    return;
493
0
                break;
494
125
            case ID_CCE: /* not implemented yet, but skip the bits */
495
125
#ifdef DRM
496
125
                hInfo->error = 32;
497
#else
498
                ele_this_frame++;
499
#ifdef COUPLING_DEC
500
                hInfo->error = coupling_channel_element(hDecoder, ld);
501
#else
502
                hInfo->error = 6;
503
#endif
504
#endif
505
125
                if (hInfo->error > 0)
506
125
                    return;
507
0
                break;
508
335k
            case ID_DSE:
509
335k
                ele_this_frame++;
510
335k
                data_stream_element(hDecoder, ld);
511
335k
                break;
512
325
            case ID_PCE:
513
325
                if (ele_this_frame != 0)
514
73
                {
515
73
                    hInfo->error = 31;
516
73
                    return;
517
73
                }
518
252
                ele_this_frame++;
519
                /* 14496-4: 5.6.4.1.2.1.3: */
520
                /* program_configuration_element()'s in access units shall be ignored */
521
252
                program_config_element(pce, ld);
522
                //if ((hInfo->error = program_config_element(pce, ld)) > 0)
523
                //    return;
524
                //hDecoder->pce_set = 1;
525
252
                break;
526
1.68k
            case ID_FIL:
527
1.68k
                ele_this_frame++;
528
                /* one sbr_info describes a channel_element not a channel! */
529
                /* if we encounter SBR data here: error */
530
                /* SBR data will be read directly in the SCE/LFE/CPE element */
531
1.68k
                if ((hInfo->error = fill_element(hDecoder, ld, drc
532
1.68k
#ifdef SBR_DEC
533
1.68k
                    , INVALID_SBR_ELEMENT
534
1.68k
#endif
535
1.68k
                    )) > 0)
536
108
                    return;
537
1.57k
                break;
538
465k
            }
539
461k
            if (ld->error != 0)
540
0
            {
541
0
                hInfo->error = 32;
542
0
                return;
543
0
            }
544
461k
        }
545
5.46k
#ifdef ERROR_RESILIENCE
546
5.46k
    } else {
547
        /* Table 262: er_raw_data_block() */
548
2.99k
        switch (hDecoder->channelConfiguration)
549
2.99k
        {
550
0
        case 1:
551
0
            decode_sce_lfe(hDecoder, hInfo, ld, ID_SCE);
552
0
            if (hInfo->error > 0)
553
0
                return;
554
0
            break;
555
1.21k
        case 2:
556
1.21k
            decode_cpe(hDecoder, hInfo, ld, ID_CPE);
557
1.21k
            if (hInfo->error > 0)
558
221
                return;
559
991
            break;
560
991
        case 3:
561
144
            decode_sce_lfe(hDecoder, hInfo, ld, ID_SCE);
562
144
            if (hInfo->error > 0)
563
14
                return;
564
130
            decode_cpe(hDecoder, hInfo, ld, ID_CPE);
565
130
            if (hInfo->error > 0)
566
13
                return;
567
117
            break;
568
498
        case 4:
569
498
            decode_sce_lfe(hDecoder, hInfo, ld, ID_SCE);
570
498
            if (hInfo->error > 0)
571
69
                return;
572
429
            decode_cpe(hDecoder, hInfo, ld, ID_CPE);
573
429
            if (hInfo->error > 0)
574
18
                return;
575
411
            decode_sce_lfe(hDecoder, hInfo, ld, ID_SCE);
576
411
            if (hInfo->error > 0)
577
3
                return;
578
408
            break;
579
606
        case 5:
580
606
            decode_sce_lfe(hDecoder, hInfo, ld, ID_SCE);
581
606
            if (hInfo->error > 0)
582
114
                return;
583
492
            decode_cpe(hDecoder, hInfo, ld, ID_CPE);
584
492
            if (hInfo->error > 0)
585
15
                return;
586
477
            decode_cpe(hDecoder, hInfo, ld, ID_CPE);
587
477
            if (hInfo->error > 0)
588
6
                return;
589
471
            break;
590
471
        case 6:
591
138
            decode_sce_lfe(hDecoder, hInfo, ld, ID_SCE);
592
138
            if (hInfo->error > 0)
593
27
                return;
594
111
            decode_cpe(hDecoder, hInfo, ld, ID_CPE);
595
111
            if (hInfo->error > 0)
596
5
                return;
597
106
            decode_cpe(hDecoder, hInfo, ld, ID_CPE);
598
106
            if (hInfo->error > 0)
599
6
                return;
600
100
            decode_sce_lfe(hDecoder, hInfo, ld, ID_LFE);
601
100
            if (hInfo->error > 0)
602
16
                return;
603
84
            break;
604
393
        case 7: /* 8 channels */
605
393
            decode_sce_lfe(hDecoder, hInfo, ld, ID_SCE);
606
393
            if (hInfo->error > 0)
607
22
                return;
608
371
            decode_cpe(hDecoder, hInfo, ld, ID_CPE);
609
371
            if (hInfo->error > 0)
610
21
                return;
611
350
            decode_cpe(hDecoder, hInfo, ld, ID_CPE);
612
350
            if (hInfo->error > 0)
613
10
                return;
614
340
            decode_cpe(hDecoder, hInfo, ld, ID_CPE);
615
340
            if (hInfo->error > 0)
616
32
                return;
617
308
            decode_sce_lfe(hDecoder, hInfo, ld, ID_LFE);
618
308
            if (hInfo->error > 0)
619
20
                return;
620
288
            break;
621
288
        default:
622
4
            hInfo->error = 7;
623
4
            return;
624
2.99k
        }
625
#if 0
626
        cnt = bits_to_decode() / 8;
627
        while (cnt >= 1)
628
        {
629
            cnt -= extension_payload(cnt);
630
        }
631
#endif
632
2.99k
    }
633
2.99k
#endif
634
635
    /* new in corrigendum 14496-3:2002 */
636
2.99k
#ifdef DRM
637
2.99k
    if (hDecoder->object_type != DRM_ER_LC
638
#if 0
639
        && !hDecoder->latm_header_present
640
#endif
641
2.99k
        )
642
2.99k
#endif
643
2.99k
    {
644
2.99k
        faad_byte_align(ld);
645
2.99k
    }
646
647
2.99k
    return;
648
8.45k
}
649
650
/* Table 4.4.4 and */
651
/* Table 4.4.9 */
652
static uint8_t single_lfe_channel_element(NeAACDecStruct *hDecoder, bitfile *ld,
653
                                          uint8_t channel, uint8_t *tag)
654
110k
{
655
110k
    uint8_t retval = 0;
656
110k
    element sce = {0};
657
110k
    ic_stream *ics = &(sce.ics1);
658
110k
    ALIGN int16_t spec_data[1024] = {0};
659
660
110k
    sce.element_instance_tag = (uint8_t)faad_getbits(ld, LEN_TAG
661
110k
        DEBUGVAR(1,38,"single_lfe_channel_element(): element_instance_tag"));
662
663
110k
    *tag = sce.element_instance_tag;
664
110k
    sce.channel = channel;
665
110k
    sce.paired_channel = -1;
666
667
110k
    retval = individual_channel_stream(hDecoder, &sce, ld, ics, 0, spec_data);
668
110k
    if (retval > 0)
669
559
        return retval;
670
671
    /* IS not allowed in single channel */
672
109k
    if (ics->is_used)
673
90
        return 32;
674
675
109k
#ifdef SBR_DEC
676
    /* check if next bitstream element is a fill element */
677
    /* if so, read it now so SBR decoding can be done in case of a file with SBR */
678
109k
    if (faad_showbits(ld, LEN_SE_ID) == ID_FIL)
679
13.8k
    {
680
13.8k
        faad_flushbits(ld, LEN_SE_ID);
681
682
        /* one sbr_info describes a channel_element not a channel! */
683
13.8k
        if ((retval = fill_element(hDecoder, ld, hDecoder->drc, hDecoder->fr_ch_ele)) > 0)
684
30
        {
685
30
            return retval;
686
30
        }
687
13.8k
    }
688
109k
#endif
689
690
    /* noiseless coding is done, spectral reconstruction is done now */
691
109k
    retval = reconstruct_single_channel(hDecoder, ics, &sce, spec_data);
692
109k
    if (retval > 0)
693
61
        return retval;
694
695
109k
    return 0;
696
109k
}
697
698
/* Table 4.4.5 */
699
static uint8_t channel_pair_element(NeAACDecStruct *hDecoder, bitfile *ld,
700
                                    uint8_t channels, uint8_t *tag)
701
21.4k
{
702
21.4k
    ALIGN int16_t spec_data1[1024] = {0};
703
21.4k
    ALIGN int16_t spec_data2[1024] = {0};
704
21.4k
    element cpe = {0};
705
21.4k
    ic_stream *ics1 = &(cpe.ics1);
706
21.4k
    ic_stream *ics2 = &(cpe.ics2);
707
21.4k
    uint8_t result;
708
709
21.4k
    cpe.channel        = channels;
710
21.4k
    cpe.paired_channel = channels+1;
711
712
21.4k
    cpe.element_instance_tag = (uint8_t)faad_getbits(ld, LEN_TAG
713
21.4k
        DEBUGVAR(1,39,"channel_pair_element(): element_instance_tag"));
714
21.4k
    *tag = cpe.element_instance_tag;
715
716
21.4k
    if ((cpe.common_window = faad_get1bit(ld
717
21.4k
        DEBUGVAR(1,40,"channel_pair_element(): common_window"))) & 1)
718
12.8k
    {
719
        /* both channels have common ics information */
720
12.8k
        if ((result = ics_info(hDecoder, ics1, ld, cpe.common_window)) > 0)
721
99
            return result;
722
723
12.7k
        ics1->ms_mask_present = (uint8_t)faad_getbits(ld, 2
724
12.7k
            DEBUGVAR(1,41,"channel_pair_element(): ms_mask_present"));
725
12.7k
        if (ics1->ms_mask_present == 3)
726
17
        {
727
            /* bitstream error */
728
17
            return 32;
729
17
        }
730
12.7k
        if (ics1->ms_mask_present == 1)
731
3.26k
        {
732
3.26k
            uint8_t g, sfb;
733
8.91k
            for (g = 0; g < ics1->num_window_groups; g++)
734
5.65k
            {
735
11.7k
                for (sfb = 0; sfb < ics1->max_sfb; sfb++)
736
6.11k
                {
737
6.11k
                    ics1->ms_used[g][sfb] = faad_get1bit(ld
738
6.11k
                        DEBUGVAR(1,42,"channel_pair_element(): faad_get1bit"));
739
6.11k
                }
740
5.65k
            }
741
3.26k
        }
742
743
12.7k
#ifdef ERROR_RESILIENCE
744
12.7k
        if ((hDecoder->object_type >= ER_OBJECT_START) && (ics1->predictor_data_present))
745
69
        {
746
69
            if ((
747
#ifdef LTP_DEC
748
                ics1->ltp.data_present =
749
#endif
750
69
                faad_get1bit(ld DEBUGVAR(1,50,"channel_pair_element(): ltp.data_present"))) & 1)
751
3
            {
752
#ifdef LTP_DEC
753
                if ((result = ltp_data(hDecoder, ics1, &(ics1->ltp), ld)) > 0)
754
                {
755
                    return result;
756
                }
757
#else
758
3
                return 26;
759
3
#endif
760
3
            }
761
69
        }
762
12.7k
#endif
763
764
12.7k
        memcpy(ics2, ics1, sizeof(ic_stream));
765
12.7k
    } else {
766
8.59k
        ics1->ms_mask_present = 0;
767
8.59k
    }
768
769
21.3k
    if ((result = individual_channel_stream(hDecoder, &cpe, ld, ics1,
770
21.3k
        0, spec_data1)) > 0)
771
345
    {
772
345
        return result;
773
345
    }
774
775
20.9k
#ifdef ERROR_RESILIENCE
776
20.9k
    if (cpe.common_window && (hDecoder->object_type >= ER_OBJECT_START) &&
777
659
        (ics1->predictor_data_present))
778
50
    {
779
50
        if ((
780
#ifdef LTP_DEC
781
            ics1->ltp2.data_present =
782
#endif
783
50
            faad_get1bit(ld DEBUGVAR(1,50,"channel_pair_element(): ltp.data_present"))) & 1)
784
3
        {
785
#ifdef LTP_DEC
786
            if ((result = ltp_data(hDecoder, ics1, &(ics1->ltp2), ld)) > 0)
787
            {
788
                return result;
789
            }
790
#else
791
3
            return 26;
792
3
#endif
793
3
        }
794
50
    }
795
20.9k
#endif
796
797
20.9k
    if ((result = individual_channel_stream(hDecoder, &cpe, ld, ics2,
798
20.9k
        0, spec_data2)) > 0)
799
147
    {
800
147
        return result;
801
147
    }
802
803
20.8k
#ifdef SBR_DEC
804
    /* check if next bitstream element is a fill element */
805
    /* if so, read it now so SBR decoding can be done in case of a file with SBR */
806
20.8k
    if (faad_showbits(ld, LEN_SE_ID) == ID_FIL)
807
12.4k
    {
808
12.4k
        faad_flushbits(ld, LEN_SE_ID);
809
810
        /* one sbr_info describes a channel_element not a channel! */
811
12.4k
        if ((result = fill_element(hDecoder, ld, hDecoder->drc, hDecoder->fr_ch_ele)) > 0)
812
16
        {
813
16
            return result;
814
16
        }
815
12.4k
    }
816
20.8k
#endif
817
818
    /* noiseless coding is done, spectral reconstruction is done now */
819
20.8k
    if ((result = reconstruct_channel_pair(hDecoder, ics1, ics2, &cpe,
820
20.8k
        spec_data1, spec_data2)) > 0)
821
74
    {
822
74
        return result;
823
74
    }
824
825
20.7k
    return 0;
826
20.8k
}
827
828
/* Table 4.4.6 */
829
static uint8_t ics_info(NeAACDecStruct *hDecoder, ic_stream *ics, bitfile *ld,
830
                        uint8_t common_window)
831
140k
{
832
140k
    uint8_t retval = 0;
833
140k
    uint8_t ics_reserved_bit;
834
835
140k
    ics_reserved_bit = faad_get1bit(ld
836
140k
        DEBUGVAR(1,43,"ics_info(): ics_reserved_bit"));
837
140k
    if (ics_reserved_bit != 0)
838
263
        return 32;
839
139k
    ics->window_sequence = (uint8_t)faad_getbits(ld, 2
840
139k
        DEBUGVAR(1,44,"ics_info(): window_sequence"));
841
139k
    ics->window_shape = faad_get1bit(ld
842
139k
        DEBUGVAR(1,45,"ics_info(): window_shape"));
843
844
#ifdef LD_DEC
845
    /* No block switching in LD */
846
    if ((hDecoder->object_type == LD) && (ics->window_sequence != ONLY_LONG_SEQUENCE))
847
        return 32;
848
#endif
849
850
139k
    if (ics->window_sequence == EIGHT_SHORT_SEQUENCE)
851
15.6k
    {
852
15.6k
        ics->max_sfb = (uint8_t)faad_getbits(ld, 4
853
15.6k
            DEBUGVAR(1,46,"ics_info(): max_sfb (short)"));
854
15.6k
        ics->scale_factor_grouping = (uint8_t)faad_getbits(ld, 7
855
15.6k
            DEBUGVAR(1,47,"ics_info(): scale_factor_grouping"));
856
124k
    } else {
857
124k
        ics->max_sfb = (uint8_t)faad_getbits(ld, 6
858
124k
            DEBUGVAR(1,48,"ics_info(): max_sfb (long)"));
859
124k
    }
860
861
    /* get the grouping information */
862
139k
    if ((retval = window_grouping_info(hDecoder, ics)) > 0)
863
56
        return retval;
864
865
866
    /* should be an error */
867
    /* check the range of max_sfb */
868
139k
    if (ics->max_sfb > ics->num_swb)
869
0
        return 16;
870
871
139k
    if (ics->window_sequence != EIGHT_SHORT_SEQUENCE)
872
124k
    {
873
124k
        if ((ics->predictor_data_present = faad_get1bit(ld
874
124k
            DEBUGVAR(1,49,"ics_info(): predictor_data_present"))) & 1)
875
9.73k
        {
876
9.73k
            if (hDecoder->object_type == MAIN) /* MPEG2 style AAC predictor */
877
2.46k
            {
878
2.46k
                uint8_t sfb;
879
2.46k
                uint8_t predictor_reset, predictor_reset_group_number, prediction_used;
880
2.46k
                uint8_t limit = min(ics->max_sfb, max_pred_sfb(hDecoder->sf_index));
881
882
2.46k
                predictor_reset = faad_get1bit(ld DEBUGVAR(1,53,"ics_info(): pred.predictor_reset"));
883
2.46k
                if (predictor_reset)
884
2.27k
                {
885
2.27k
                    predictor_reset_group_number =
886
2.27k
                        (uint8_t)faad_getbits(ld, 5 DEBUGVAR(1,54,"ics_info(): pred.predictor_reset_group_number"));
887
2.27k
                } else {
888
184
                    predictor_reset_group_number = 0;
889
184
                }
890
891
16.3k
                for (sfb = 0; sfb < limit; sfb++)
892
13.9k
                {
893
13.9k
                    prediction_used = faad_get1bit(ld DEBUGVAR(1,55,"ics_info(): pred.prediction_used"));
894
#ifdef MAIN_DEC
895
                    ics->pred.prediction_used[sfb] = prediction_used;
896
#endif
897
13.9k
                }
898
#ifdef MAIN_DEC
899
                ics->pred.limit = limit;
900
                ics->pred.predictor_reset = predictor_reset;
901
                ics->pred.predictor_reset_group_number = predictor_reset_group_number;
902
#else
903
2.46k
                (void)predictor_reset_group_number;
904
2.46k
                (void)prediction_used;
905
2.46k
#endif
906
2.46k
            }
907
#ifdef LTP_DEC
908
            else { /* Long Term Prediction */
909
                if (hDecoder->object_type < ER_OBJECT_START)
910
                {
911
                    if ((ics->ltp.data_present = faad_get1bit(ld
912
                        DEBUGVAR(1,50,"ics_info(): ltp.data_present"))) & 1)
913
                    {
914
                        if ((retval = ltp_data(hDecoder, ics, &(ics->ltp), ld)) > 0)
915
                        {
916
                            return retval;
917
                        }
918
                    }
919
                    if (common_window)
920
                    {
921
                        if ((ics->ltp2.data_present = faad_get1bit(ld
922
                            DEBUGVAR(1,51,"ics_info(): ltp2.data_present"))) & 1)
923
                        {
924
                            if ((retval = ltp_data(hDecoder, ics, &(ics->ltp2), ld)) > 0)
925
                            {
926
                                return retval;
927
                            }
928
                        }
929
                    }
930
                }
931
#ifdef ERROR_RESILIENCE
932
                if (!common_window && (hDecoder->object_type >= ER_OBJECT_START))
933
                {
934
                    if ((ics->ltp.data_present = faad_get1bit(ld
935
                        DEBUGVAR(1,50,"ics_info(): ltp.data_present"))) & 1)
936
                    {
937
                        if ((retval = ltp_data(hDecoder, ics, &(ics->ltp), ld)) > 0)
938
                        {
939
                            return retval;
940
                        }
941
                    }
942
                }
943
#endif  /* ERROR_RESILIENCE */
944
            }
945
#else  /* LTP_DEC */
946
9.73k
            (void)common_window;
947
9.73k
#endif  /* LTP_DEC */
948
9.73k
        }
949
124k
    }
950
951
139k
    return retval;
952
139k
}
953
954
/* Table 4.4.7 */
955
static uint8_t pulse_data(ic_stream *ics, pulse_info *pul, bitfile *ld)
956
6.66k
{
957
6.66k
    uint8_t i;
958
959
6.66k
    pul->number_pulse = (uint8_t)faad_getbits(ld, 2
960
6.66k
        DEBUGVAR(1,56,"pulse_data(): number_pulse"));
961
6.66k
    pul->pulse_start_sfb = (uint8_t)faad_getbits(ld, 6
962
6.66k
        DEBUGVAR(1,57,"pulse_data(): pulse_start_sfb"));
963
964
    /* check the range of pulse_start_sfb */
965
6.66k
    if (pul->pulse_start_sfb > ics->num_swb)
966
46
        return 16;
967
968
15.8k
    for (i = 0; i < pul->number_pulse+1; i++)
969
9.23k
    {
970
9.23k
        pul->pulse_offset[i] = (uint8_t)faad_getbits(ld, 5
971
9.23k
            DEBUGVAR(1,58,"pulse_data(): pulse_offset"));
972
#if 0
973
        printf("%d\n", pul->pulse_offset[i]);
974
#endif
975
9.23k
        pul->pulse_amp[i] = (uint8_t)faad_getbits(ld, 4
976
9.23k
            DEBUGVAR(1,59,"pulse_data(): pulse_amp"));
977
#if 0
978
        printf("%d\n", pul->pulse_amp[i]);
979
#endif
980
9.23k
    }
981
982
6.62k
    return 0;
983
6.66k
}
984
985
#ifdef COUPLING_DEC
986
/* Table 4.4.8: Currently just for skipping the bits... */
987
static uint8_t coupling_channel_element(NeAACDecStruct *hDecoder, bitfile *ld)
988
{
989
    uint8_t c, result = 0;
990
    uint8_t ind_sw_cce_flag = 0;
991
    uint8_t num_gain_element_lists = 0;
992
    uint8_t num_coupled_elements = 0;
993
994
    element el_empty = {0};
995
    ic_stream ics_empty = {0};
996
    int16_t sh_data[1024];
997
998
    c = faad_getbits(ld, LEN_TAG
999
        DEBUGVAR(1,900,"coupling_channel_element(): element_instance_tag"));
1000
1001
    ind_sw_cce_flag = faad_get1bit(ld
1002
        DEBUGVAR(1,901,"coupling_channel_element(): ind_sw_cce_flag"));
1003
    num_coupled_elements = faad_getbits(ld, 3
1004
        DEBUGVAR(1,902,"coupling_channel_element(): num_coupled_elements"));
1005
1006
    for (c = 0; c < num_coupled_elements + 1; c++)
1007
    {
1008
        uint8_t cc_target_is_cpe, cc_target_tag_select;
1009
1010
        num_gain_element_lists++;
1011
1012
        cc_target_is_cpe = faad_get1bit(ld
1013
            DEBUGVAR(1,903,"coupling_channel_element(): cc_target_is_cpe"));
1014
        cc_target_tag_select = faad_getbits(ld, 4
1015
            DEBUGVAR(1,904,"coupling_channel_element(): cc_target_tag_select"));
1016
1017
        if (cc_target_is_cpe)
1018
        {
1019
            uint8_t cc_l = faad_get1bit(ld
1020
                DEBUGVAR(1,905,"coupling_channel_element(): cc_l"));
1021
            uint8_t cc_r = faad_get1bit(ld
1022
                DEBUGVAR(1,906,"coupling_channel_element(): cc_r"));
1023
1024
            if (cc_l && cc_r)
1025
                num_gain_element_lists++;
1026
        }
1027
    }
1028
1029
    faad_get1bit(ld
1030
        DEBUGVAR(1,907,"coupling_channel_element(): cc_domain"));
1031
    faad_get1bit(ld
1032
        DEBUGVAR(1,908,"coupling_channel_element(): gain_element_sign"));
1033
    faad_getbits(ld, 2
1034
        DEBUGVAR(1,909,"coupling_channel_element(): gain_element_scale"));
1035
1036
    if ((result = individual_channel_stream(hDecoder, &el_empty, ld, &ics_empty,
1037
        0, sh_data)) > 0)
1038
    {
1039
        return result;
1040
    }
1041
1042
    /* IS not allowed in single channel */
1043
    if (ics->is_used)
1044
        return 32;
1045
1046
    for (c = 1; c < num_gain_element_lists; c++)
1047
    {
1048
        uint8_t cge;
1049
1050
        if (ind_sw_cce_flag)
1051
        {
1052
            cge = 1;
1053
        } else {
1054
            cge = faad_get1bit(ld
1055
                DEBUGVAR(1,910,"coupling_channel_element(): common_gain_element_present"));
1056
        }
1057
1058
        if (cge)
1059
        {
1060
            huffman_scale_factor(ld);
1061
        } else {
1062
            uint8_t g, sfb;
1063
1064
            for (g = 0; g < ics_empty.num_window_groups; g++)
1065
            {
1066
                for (sfb = 0; sfb < ics_empty.max_sfb; sfb++)
1067
                {
1068
                    if (ics_empty.sfb_cb[g][sfb] != ZERO_HCB)
1069
                        huffman_scale_factor(ld);
1070
                }
1071
            }
1072
        }
1073
    }
1074
1075
    return 0;
1076
}
1077
#endif
1078
1079
/* Table 4.4.10 */
1080
static uint16_t data_stream_element(NeAACDecStruct *hDecoder, bitfile *ld)
1081
335k
{
1082
335k
    uint8_t byte_aligned;
1083
335k
    uint16_t i, count;
1084
335k
    (void)hDecoder;  /* TODO: remove parameter; rename method; why result is unused? */
1085
1086
335k
    /* element_instance_tag = */ faad_getbits(ld, LEN_TAG
1087
335k
        DEBUGVAR(1,60,"data_stream_element(): element_instance_tag"));
1088
335k
    byte_aligned = faad_get1bit(ld
1089
335k
        DEBUGVAR(1,61,"data_stream_element(): byte_aligned"));
1090
335k
    count = (uint16_t)faad_getbits(ld, 8
1091
335k
        DEBUGVAR(1,62,"data_stream_element(): count"));
1092
335k
    if (count == 255)
1093
2.53k
    {
1094
2.53k
        count += (uint16_t)faad_getbits(ld, 8
1095
2.53k
            DEBUGVAR(1,63,"data_stream_element(): extra count"));
1096
2.53k
    }
1097
335k
    if (byte_aligned)
1098
97.8k
        faad_byte_align(ld);
1099
1100
17.0M
    for (i = 0; i < count; i++)
1101
16.7M
    {
1102
16.7M
        faad_getbits(ld, LEN_BYTE
1103
16.7M
            DEBUGVAR(1,64,"data_stream_element(): data_stream_byte"));
1104
16.7M
    }
1105
1106
335k
    return count;
1107
335k
}
1108
1109
/* Table 4.4.11 */
1110
static uint8_t fill_element(NeAACDecStruct *hDecoder, bitfile *ld, drc_info *drc
1111
#ifdef SBR_DEC
1112
                            ,uint8_t sbr_ele
1113
#endif
1114
                            )
1115
27.9k
{
1116
27.9k
    uint16_t count;
1117
27.9k
#ifdef SBR_DEC
1118
27.9k
    uint8_t bs_extension_type;
1119
27.9k
#endif
1120
1121
27.9k
    count = (uint16_t)faad_getbits(ld, 4
1122
27.9k
        DEBUGVAR(1,65,"fill_element(): count"));
1123
27.9k
    if (count == 15)
1124
2.58k
    {
1125
2.58k
        count += (uint16_t)faad_getbits(ld, 8
1126
2.58k
            DEBUGVAR(1,66,"fill_element(): extra count")) - 1;
1127
2.58k
    }
1128
1129
27.9k
    if (count > 0)
1130
26.2k
    {
1131
26.2k
#ifdef SBR_DEC
1132
26.2k
        bs_extension_type = (uint8_t)faad_showbits(ld, 4);
1133
1134
26.2k
        if ((bs_extension_type == EXT_SBR_DATA) ||
1135
8.53k
            (bs_extension_type == EXT_SBR_DATA_CRC))
1136
26.1k
        {
1137
26.1k
            if (sbr_ele == INVALID_SBR_ELEMENT)
1138
33
                return 24;
1139
1140
26.0k
            if (!hDecoder->sbr[sbr_ele])
1141
22.3k
            {
1142
22.3k
                hDecoder->sbr[sbr_ele] = sbrDecodeInit(hDecoder->frameLength,
1143
22.3k
                    hDecoder->element_id[sbr_ele], 2*get_sample_rate(hDecoder->sf_index),
1144
22.3k
                    hDecoder->downSampledSBR
1145
22.3k
#ifdef DRM
1146
22.3k
                    , 0
1147
22.3k
#endif
1148
22.3k
                    );
1149
22.3k
            }
1150
26.0k
            if (!hDecoder->sbr[sbr_ele])
1151
0
                return 19;
1152
1153
26.0k
            hDecoder->sbr_present_flag = 1;
1154
1155
            /* parse the SBR data */
1156
26.0k
            hDecoder->sbr[sbr_ele]->ret = sbr_extension_data(ld, hDecoder->sbr[sbr_ele], count,
1157
26.0k
                hDecoder->postSeekResetFlag);
1158
1159
#if 0
1160
            if (hDecoder->sbr[sbr_ele]->ret > 0)
1161
            {
1162
                printf("%s\n", NeAACDecGetErrorMessage(hDecoder->sbr[sbr_ele]->ret));
1163
            }
1164
#endif
1165
1166
26.0k
#if (defined(PS_DEC) || defined(DRM_PS))
1167
26.0k
            if (hDecoder->sbr[sbr_ele]->ps_used)
1168
3.79k
            {
1169
3.79k
                hDecoder->ps_used[sbr_ele] = 1;
1170
1171
                /* set element independent flag to 1 as well */
1172
3.79k
                hDecoder->ps_used_global = 1;
1173
3.79k
            }
1174
26.0k
#endif
1175
26.0k
        } else {
1176
121
#endif
1177
#ifndef DRM
1178
            while (count > 0)
1179
            {
1180
                uint16_t payload_bytes = extension_payload(ld, drc, count);
1181
                if (payload_bytes <= count) {
1182
                    count -= payload_bytes;
1183
                } else {
1184
                    count = 0;
1185
                }
1186
            }
1187
#else
1188
121
            (void)drc;
1189
121
            return 30;
1190
121
#endif
1191
121
#ifdef SBR_DEC
1192
121
        }
1193
26.2k
#endif
1194
26.2k
    }
1195
1196
27.8k
    return 0;
1197
27.9k
}
1198
1199
/* Table 4.4.12 */
1200
#ifdef SSR_DEC
1201
static void gain_control_data(bitfile *ld, ic_stream *ics)
1202
{
1203
    uint8_t bd, wd, ad;
1204
    ssr_info *ssr = &(ics->ssr);
1205
1206
    ssr->max_band = (uint8_t)faad_getbits(ld, 2
1207
        DEBUGVAR(1,1000,"gain_control_data(): max_band"));
1208
1209
    if (ics->window_sequence == ONLY_LONG_SEQUENCE)
1210
    {
1211
        for (bd = 1; bd <= ssr->max_band; bd++)
1212
        {
1213
            for (wd = 0; wd < 1; wd++)
1214
            {
1215
                ssr->adjust_num[bd][wd] = (uint8_t)faad_getbits(ld, 3
1216
                    DEBUGVAR(1,1001,"gain_control_data(): adjust_num"));
1217
1218
                for (ad = 0; ad < ssr->adjust_num[bd][wd]; ad++)
1219
                {
1220
                    ssr->alevcode[bd][wd][ad] = (uint8_t)faad_getbits(ld, 4
1221
                        DEBUGVAR(1,1002,"gain_control_data(): alevcode"));
1222
                    ssr->aloccode[bd][wd][ad] = (uint8_t)faad_getbits(ld, 5
1223
                        DEBUGVAR(1,1003,"gain_control_data(): aloccode"));
1224
                }
1225
            }
1226
        }
1227
    } else if (ics->window_sequence == LONG_START_SEQUENCE) {
1228
        for (bd = 1; bd <= ssr->max_band; bd++)
1229
        {
1230
            for (wd = 0; wd < 2; wd++)
1231
            {
1232
                ssr->adjust_num[bd][wd] = (uint8_t)faad_getbits(ld, 3
1233
                    DEBUGVAR(1,1001,"gain_control_data(): adjust_num"));
1234
1235
                for (ad = 0; ad < ssr->adjust_num[bd][wd]; ad++)
1236
                {
1237
                    ssr->alevcode[bd][wd][ad] = (uint8_t)faad_getbits(ld, 4
1238
                        DEBUGVAR(1,1002,"gain_control_data(): alevcode"));
1239
                    if (wd == 0)
1240
                    {
1241
                        ssr->aloccode[bd][wd][ad] = (uint8_t)faad_getbits(ld, 4
1242
                            DEBUGVAR(1,1003,"gain_control_data(): aloccode"));
1243
                    } else {
1244
                        ssr->aloccode[bd][wd][ad] = (uint8_t)faad_getbits(ld, 2
1245
                            DEBUGVAR(1,1003,"gain_control_data(): aloccode"));
1246
                    }
1247
                }
1248
            }
1249
        }
1250
    } else if (ics->window_sequence == EIGHT_SHORT_SEQUENCE) {
1251
        for (bd = 1; bd <= ssr->max_band; bd++)
1252
        {
1253
            for (wd = 0; wd < 8; wd++)
1254
            {
1255
                ssr->adjust_num[bd][wd] = (uint8_t)faad_getbits(ld, 3
1256
                    DEBUGVAR(1,1001,"gain_control_data(): adjust_num"));
1257
1258
                for (ad = 0; ad < ssr->adjust_num[bd][wd]; ad++)
1259
                {
1260
                    ssr->alevcode[bd][wd][ad] = (uint8_t)faad_getbits(ld, 4
1261
                        DEBUGVAR(1,1002,"gain_control_data(): alevcode"));
1262
                    ssr->aloccode[bd][wd][ad] = (uint8_t)faad_getbits(ld, 2
1263
                        DEBUGVAR(1,1003,"gain_control_data(): aloccode"));
1264
                }
1265
            }
1266
        }
1267
    } else if (ics->window_sequence == LONG_STOP_SEQUENCE) {
1268
        for (bd = 1; bd <= ssr->max_band; bd++)
1269
        {
1270
            for (wd = 0; wd < 2; wd++)
1271
            {
1272
                ssr->adjust_num[bd][wd] = (uint8_t)faad_getbits(ld, 3
1273
                    DEBUGVAR(1,1001,"gain_control_data(): adjust_num"));
1274
1275
                for (ad = 0; ad < ssr->adjust_num[bd][wd]; ad++)
1276
                {
1277
                    ssr->alevcode[bd][wd][ad] = (uint8_t)faad_getbits(ld, 4
1278
                        DEBUGVAR(1,1002,"gain_control_data(): alevcode"));
1279
1280
                    if (wd == 0)
1281
                    {
1282
                        ssr->aloccode[bd][wd][ad] = (uint8_t)faad_getbits(ld, 4
1283
                            DEBUGVAR(1,1003,"gain_control_data(): aloccode"));
1284
                    } else {
1285
                        ssr->aloccode[bd][wd][ad] = (uint8_t)faad_getbits(ld, 5
1286
                            DEBUGVAR(1,1003,"gain_control_data(): aloccode"));
1287
                    }
1288
                }
1289
            }
1290
        }
1291
    }
1292
}
1293
#endif
1294
1295
#ifdef DRM
1296
/* Table 4.4.13 ASME */
1297
void DRM_aac_scalable_main_element(NeAACDecStruct *hDecoder, NeAACDecFrameInfo *hInfo,
1298
                                   bitfile *ld, program_config *pce, drc_info *drc)
1299
817
{
1300
817
    uint8_t channels = hDecoder->fr_channels = 0;
1301
817
    uint8_t this_layer_stereo = (hDecoder->channelConfiguration > 1) ? 1 : 0;
1302
817
    element cpe = {0};
1303
817
    ic_stream *ics1 = &(cpe.ics1);
1304
817
    ic_stream *ics2 = &(cpe.ics2);
1305
817
    ALIGN int16_t spec_data1[1024] = {0};
1306
817
    ALIGN int16_t spec_data2[1024] = {0};
1307
1308
817
    (void)drc;  /* TODO: remove unused parameter? */
1309
817
    (void)pce;  /* TODO: remove unused parameter? */
1310
1311
817
    hDecoder->fr_ch_ele = 0;
1312
1313
817
    hInfo->error = DRM_aac_scalable_main_header(hDecoder, ics1, ics2, ld, this_layer_stereo);
1314
817
    if (hInfo->error > 0)
1315
13
        return;
1316
1317
804
    cpe.common_window = 1;
1318
804
    if (this_layer_stereo)
1319
252
    {
1320
252
        hDecoder->element_id[0] = ID_CPE;
1321
252
        if (hDecoder->element_output_channels[hDecoder->fr_ch_ele] == 0)
1322
180
            hDecoder->element_output_channels[hDecoder->fr_ch_ele] = 2;
1323
552
    } else {
1324
552
        hDecoder->element_id[0] = ID_SCE;
1325
552
    }
1326
1327
804
    if (this_layer_stereo)
1328
252
    {
1329
252
        cpe.channel        = 0;
1330
252
        cpe.paired_channel = 1;
1331
252
    }
1332
1333
1334
    /* Stereo2 / Mono1 */
1335
804
    ics1->tns_data_present = faad_get1bit(ld);
1336
1337
#if defined(LTP_DEC)
1338
    ics1->ltp.data_present = faad_get1bit(ld);
1339
#elif defined (DRM)
1340
804
    if(faad_get1bit(ld)) {
1341
8
         hInfo->error = 26;
1342
8
         return;
1343
8
    }
1344
#else
1345
    faad_get1bit(ld);
1346
#endif
1347
1348
796
    hInfo->error = side_info(hDecoder, &cpe, ld, ics1, 1);
1349
796
    if (hInfo->error > 0)
1350
84
        return;
1351
712
    if (this_layer_stereo)
1352
201
    {
1353
        /* Stereo3 */
1354
201
        ics2->tns_data_present = faad_get1bit(ld);
1355
#ifdef LTP_DEC
1356
        ics1->ltp.data_present =
1357
#endif
1358
201
            faad_get1bit(ld);
1359
201
        hInfo->error = side_info(hDecoder, &cpe, ld, ics2, 1);
1360
201
        if (hInfo->error > 0)
1361
29
            return;
1362
201
    }
1363
    /* Stereo4 / Mono2 */
1364
683
    if (ics1->tns_data_present)
1365
132
        tns_data(ics1, &(ics1->tns), ld);
1366
683
    if (this_layer_stereo)
1367
172
    {
1368
        /* Stereo5 */
1369
172
        if (ics2->tns_data_present)
1370
74
            tns_data(ics2, &(ics2->tns), ld);
1371
172
    }
1372
1373
683
#ifdef DRM
1374
    /* CRC check */
1375
683
    if (hDecoder->object_type == DRM_ER_LC)
1376
683
    {
1377
683
        if ((hInfo->error = (uint8_t)faad_check_CRC(ld, (uint16_t)faad_get_processed_bits(ld) - 8)) > 0)
1378
175
            return;
1379
683
    }
1380
508
#endif
1381
1382
    /* Stereo6 / Mono3 */
1383
    /* error resilient spectral data decoding */
1384
508
    if ((hInfo->error = reordered_spectral_data(hDecoder, ics1, ld, spec_data1)) > 0)
1385
23
    {
1386
23
        return;
1387
23
    }
1388
485
    if (this_layer_stereo)
1389
54
    {
1390
        /* Stereo7 */
1391
        /* error resilient spectral data decoding */
1392
54
        if ((hInfo->error = reordered_spectral_data(hDecoder, ics2, ld, spec_data2)) > 0)
1393
3
        {
1394
3
            return;
1395
3
        }
1396
54
    }
1397
1398
1399
482
#ifdef DRM
1400
482
#ifdef SBR_DEC
1401
    /* In case of DRM we need to read the SBR info before channel reconstruction */
1402
482
    if ((hDecoder->sbr_present_flag == 1) && (hDecoder->object_type == DRM_ER_LC))
1403
448
    {
1404
448
        bitfile ld_sbr = {0};
1405
448
        uint32_t i;
1406
448
        uint16_t count = 0;
1407
448
        uint8_t *revbuffer;
1408
448
        uint8_t *prevbufstart;
1409
448
        uint8_t *pbufend;
1410
1411
        /* all forward bitreading should be finished at this point */
1412
448
        uint32_t bitsconsumed = faad_get_processed_bits(ld);
1413
448
        uint32_t buffer_size = faad_origbitbuffer_size(ld);
1414
448
        uint8_t *buffer = (uint8_t*)faad_origbitbuffer(ld);
1415
1416
448
        if (bitsconsumed + 8 > buffer_size*8)
1417
132
        {
1418
132
            hInfo->error = 14;
1419
132
            return;
1420
132
        }
1421
1422
316
        if (!hDecoder->sbr[0])
1423
232
        {
1424
232
            hDecoder->sbr[0] = sbrDecodeInit(hDecoder->frameLength, hDecoder->element_id[0],
1425
232
                2*get_sample_rate(hDecoder->sf_index), 0 /* ds SBR */, 1);
1426
232
        }
1427
316
        if (!hDecoder->sbr[0])
1428
0
        {
1429
0
            hInfo->error = 19;
1430
0
            return;
1431
0
        }
1432
1433
        /* Reverse bit reading of SBR data in DRM audio frame */
1434
316
        revbuffer = (uint8_t*)faad_malloc(buffer_size*sizeof(uint8_t));
1435
316
        prevbufstart = revbuffer;
1436
316
        pbufend = &buffer[buffer_size - 1];
1437
6.16M
        for (i = 0; i < buffer_size; i++)
1438
6.15M
            *prevbufstart++ = reverse_byte(*pbufend--);
1439
1440
        /* Set SBR data */
1441
        /* consider 8 bits from AAC-CRC */
1442
        /* SBR buffer size is original buffer size minus AAC buffer size */
1443
316
        count = (uint16_t)bit2byte(buffer_size*8 - bitsconsumed);
1444
316
        faad_initbits(&ld_sbr, revbuffer, count);
1445
1446
316
        hDecoder->sbr[0]->sample_rate = get_sample_rate(hDecoder->sf_index);
1447
316
        hDecoder->sbr[0]->sample_rate *= 2;
1448
1449
316
        faad_getbits(&ld_sbr, 8); /* Skip 8-bit CRC */
1450
1451
316
        hDecoder->sbr[0]->ret = sbr_extension_data(&ld_sbr, hDecoder->sbr[0], count, hDecoder->postSeekResetFlag);
1452
316
#if (defined(PS_DEC) || defined(DRM_PS))
1453
316
        if (hDecoder->sbr[0]->ps_used)
1454
203
        {
1455
203
            hDecoder->ps_used[0] = 1;
1456
203
            hDecoder->ps_used_global = 1;
1457
203
        }
1458
316
#endif
1459
1460
316
        if (ld_sbr.error)
1461
4
        {
1462
4
            hDecoder->sbr[0]->ret = 1;
1463
4
        }
1464
1465
        /* check CRC */
1466
        /* no need to check it if there was already an error */
1467
316
        if (hDecoder->sbr[0]->ret == 0)
1468
153
            hDecoder->sbr[0]->ret = (uint8_t)faad_check_CRC(&ld_sbr, (uint16_t)faad_get_processed_bits(&ld_sbr) - 8);
1469
1470
        /* SBR data was corrupted, disable it until the next header */
1471
316
        if (hDecoder->sbr[0]->ret != 0)
1472
187
        {
1473
187
            hDecoder->sbr[0]->header_count = 0;
1474
187
        }
1475
1476
316
        faad_endbits(&ld_sbr);
1477
1478
316
        if (revbuffer)
1479
316
            faad_free(revbuffer);
1480
316
    }
1481
350
#endif
1482
350
#endif
1483
1484
350
    if (this_layer_stereo)
1485
48
    {
1486
48
        hInfo->error = reconstruct_channel_pair(hDecoder, ics1, ics2, &cpe, spec_data1, spec_data2);
1487
48
        if (hInfo->error > 0)
1488
8
            return;
1489
302
    } else {
1490
302
        hInfo->error = reconstruct_single_channel(hDecoder, ics1, &cpe, spec_data1);
1491
302
        if (hInfo->error > 0)
1492
3
            return;
1493
302
    }
1494
1495
    /* map output channels position to internal data channels */
1496
339
    if (hDecoder->element_output_channels[hDecoder->fr_ch_ele] == 2)
1497
339
    {
1498
        /* this might be faulty when pce_set is true */
1499
339
        hDecoder->internal_channel[channels] = channels;
1500
339
        hDecoder->internal_channel[channels+1] = channels+1;
1501
339
    } else {
1502
0
        hDecoder->internal_channel[channels] = channels;
1503
0
    }
1504
1505
339
    hDecoder->fr_channels += hDecoder->element_output_channels[hDecoder->fr_ch_ele];
1506
339
    hDecoder->fr_ch_ele++;
1507
1508
339
    return;
1509
350
}
1510
1511
/* Table 4.4.15 */
1512
static int8_t DRM_aac_scalable_main_header(NeAACDecStruct *hDecoder, ic_stream *ics1, ic_stream *ics2,
1513
                                           bitfile *ld, uint8_t this_layer_stereo)
1514
817
{
1515
817
    uint8_t retval = 0;
1516
817
    uint8_t ics_reserved_bit;
1517
1518
817
    ics_reserved_bit = faad_get1bit(ld
1519
817
        DEBUGVAR(1,300,"aac_scalable_main_header(): ics_reserved_bits"));
1520
817
    if (ics_reserved_bit != 0)
1521
4
        return 32;
1522
813
    ics1->window_sequence = (uint8_t)faad_getbits(ld, 2
1523
813
        DEBUGVAR(1,301,"aac_scalable_main_header(): window_sequence"));
1524
813
    ics1->window_shape = faad_get1bit(ld
1525
813
        DEBUGVAR(1,302,"aac_scalable_main_header(): window_shape"));
1526
1527
813
    if (ics1->window_sequence == EIGHT_SHORT_SEQUENCE)
1528
178
    {
1529
178
        ics1->max_sfb = (uint8_t)faad_getbits(ld, 4
1530
178
            DEBUGVAR(1,303,"aac_scalable_main_header(): max_sfb (short)"));
1531
178
        ics1->scale_factor_grouping = (uint8_t)faad_getbits(ld, 7
1532
178
            DEBUGVAR(1,304,"aac_scalable_main_header(): scale_factor_grouping"));
1533
635
    } else {
1534
635
        ics1->max_sfb = (uint8_t)faad_getbits(ld, 6
1535
635
            DEBUGVAR(1,305,"aac_scalable_main_header(): max_sfb (long)"));
1536
635
    }
1537
1538
    /* get the grouping information */
1539
813
    if ((retval = window_grouping_info(hDecoder, ics1)) > 0)
1540
6
        return retval;
1541
1542
    /* should be an error */
1543
    /* check the range of max_sfb */
1544
807
    if (ics1->max_sfb > ics1->num_swb)
1545
0
        return 16;
1546
1547
807
    if (this_layer_stereo)
1548
255
    {
1549
255
        ics1->ms_mask_present = (uint8_t)faad_getbits(ld, 2
1550
255
            DEBUGVAR(1,306,"aac_scalable_main_header(): ms_mask_present"));
1551
255
        if (ics1->ms_mask_present == 3)
1552
3
        {
1553
            /* bitstream error */
1554
3
            return 32;
1555
3
        }
1556
252
        if (ics1->ms_mask_present == 1)
1557
69
        {
1558
69
            uint8_t g, sfb;
1559
308
            for (g = 0; g < ics1->num_window_groups; g++)
1560
239
            {
1561
2.09k
                for (sfb = 0; sfb < ics1->max_sfb; sfb++)
1562
1.86k
                {
1563
1.86k
                    ics1->ms_used[g][sfb] = faad_get1bit(ld
1564
1.86k
                        DEBUGVAR(1,307,"aac_scalable_main_header(): faad_get1bit"));
1565
1.86k
                }
1566
239
            }
1567
69
        }
1568
1569
252
        memcpy(ics2, ics1, sizeof(ic_stream));
1570
552
    } else {
1571
552
        ics1->ms_mask_present = 0;
1572
552
    }
1573
1574
804
    return 0;
1575
807
}
1576
#endif
1577
1578
static uint8_t side_info(NeAACDecStruct *hDecoder, element *ele,
1579
                         bitfile *ld, ic_stream *ics, uint8_t scal_flag)
1580
153k
{
1581
153k
    uint8_t result;
1582
1583
153k
    ics->global_gain = (uint8_t)faad_getbits(ld, 8
1584
153k
        DEBUGVAR(1,67,"individual_channel_stream(): global_gain"));
1585
1586
153k
    if (!ele->common_window && !scal_flag)
1587
127k
    {
1588
127k
        if ((result = ics_info(hDecoder, ics, ld, ele->common_window)) > 0)
1589
220
            return result;
1590
127k
    }
1591
1592
153k
    if ((result = section_data(hDecoder, ics, ld)) > 0)
1593
652
        return result;
1594
1595
152k
    if ((result = scale_factor_data(hDecoder, ics, ld)) > 0)
1596
7
        return result;
1597
1598
152k
    if (!scal_flag)
1599
151k
    {
1600
        /**
1601
         **  NOTE: It could be that pulse data is available in scalable AAC too,
1602
         **        as said in Amendment 1, this could be only the case for ER AAC,
1603
         **        though. (have to check this out later)
1604
         **/
1605
        /* get pulse data */
1606
151k
        if ((ics->pulse_data_present = faad_get1bit(ld
1607
151k
            DEBUGVAR(1,68,"individual_channel_stream(): pulse_data_present"))) & 1)
1608
6.66k
        {
1609
6.66k
            if ((result = pulse_data(ics, &(ics->pul), ld)) > 0)
1610
46
                return result;
1611
6.66k
        }
1612
1613
        /* get tns data */
1614
151k
        if ((ics->tns_data_present = faad_get1bit(ld
1615
151k
            DEBUGVAR(1,69,"individual_channel_stream(): tns_data_present"))) & 1)
1616
15.7k
        {
1617
15.7k
#ifdef ERROR_RESILIENCE
1618
15.7k
            if (hDecoder->object_type < ER_OBJECT_START)
1619
15.3k
#endif
1620
15.3k
                tns_data(ics, &(ics->tns), ld);
1621
15.7k
        }
1622
1623
        /* get gain control data */
1624
151k
        if ((ics->gain_control_data_present = faad_get1bit(ld
1625
151k
            DEBUGVAR(1,70,"individual_channel_stream(): gain_control_data_present"))) & 1)
1626
63
        {
1627
#ifdef SSR_DEC
1628
            if (hDecoder->object_type != SSR)
1629
                return 1;
1630
            else
1631
                gain_control_data(ld, ics);
1632
#else
1633
63
            return 1;
1634
63
#endif
1635
63
        }
1636
151k
    }
1637
1638
152k
#ifdef ERROR_RESILIENCE
1639
152k
    if (hDecoder->aacSpectralDataResilienceFlag)
1640
4.20k
    {
1641
4.20k
        ics->length_of_reordered_spectral_data = (uint16_t)faad_getbits(ld, 14
1642
4.20k
            DEBUGVAR(1,147,"individual_channel_stream(): length_of_reordered_spectral_data"));
1643
1644
4.20k
        if (hDecoder->channelConfiguration == 2)
1645
601
        {
1646
601
            if (ics->length_of_reordered_spectral_data > 6144)
1647
60
                ics->length_of_reordered_spectral_data = 6144;
1648
3.60k
        } else {
1649
3.60k
            if (ics->length_of_reordered_spectral_data > 12288)
1650
100
                ics->length_of_reordered_spectral_data = 12288;
1651
3.60k
        }
1652
1653
4.20k
        ics->length_of_longest_codeword = (uint8_t)faad_getbits(ld, 6
1654
4.20k
            DEBUGVAR(1,148,"individual_channel_stream(): length_of_longest_codeword"));
1655
4.20k
        if (ics->length_of_longest_codeword >= 49)
1656
207
            ics->length_of_longest_codeword = 49;
1657
4.20k
    }
1658
1659
    /* RVLC spectral data is put here */
1660
152k
    if (hDecoder->aacScalefactorDataResilienceFlag)
1661
6.71k
    {
1662
6.71k
        if ((result = rvlc_decode_scale_factors(ics, ld)) > 0)
1663
26
            return result;
1664
6.71k
    }
1665
152k
#endif
1666
1667
152k
    return 0;
1668
152k
}
1669
1670
/* Table 4.4.24 */
1671
static uint8_t individual_channel_stream(NeAACDecStruct *hDecoder, element *ele,
1672
                                         bitfile *ld, ic_stream *ics, uint8_t scal_flag,
1673
                                         int16_t *spec_data)
1674
152k
{
1675
152k
    uint8_t result;
1676
1677
152k
    result = side_info(hDecoder, ele, ld, ics, scal_flag);
1678
152k
    if (result > 0)
1679
901
        return result;
1680
1681
151k
    if (hDecoder->object_type >= ER_OBJECT_START)
1682
10.0k
    {
1683
10.0k
        if (ics->tns_data_present)
1684
316
            tns_data(ics, &(ics->tns), ld);
1685
10.0k
    }
1686
1687
151k
#ifdef DRM
1688
    /* CRC check */
1689
151k
    if (hDecoder->object_type == DRM_ER_LC)
1690
0
    {
1691
0
        if ((result = (uint8_t)faad_check_CRC(ld, (uint16_t)faad_get_processed_bits(ld) - 8)) > 0)
1692
0
            return result;
1693
0
    }
1694
151k
#endif
1695
1696
151k
#ifdef ERROR_RESILIENCE
1697
151k
    if (hDecoder->aacSpectralDataResilienceFlag)
1698
3.49k
    {
1699
        /* error resilient spectral data decoding */
1700
3.49k
        if ((result = reordered_spectral_data(hDecoder, ics, ld, spec_data)) > 0)
1701
72
        {
1702
72
            return result;
1703
72
        }
1704
148k
    } else {
1705
148k
#endif
1706
        /* decode the spectral data */
1707
148k
        if ((result = spectral_data(hDecoder, ics, ld, spec_data)) > 0)
1708
49
        {
1709
49
            return result;
1710
49
        }
1711
148k
#ifdef ERROR_RESILIENCE
1712
148k
    }
1713
151k
#endif
1714
1715
    /* pulse coding reconstruction */
1716
151k
    if (ics->pulse_data_present)
1717
6.60k
    {
1718
6.60k
        if (ics->window_sequence != EIGHT_SHORT_SEQUENCE)
1719
6.58k
        {
1720
6.58k
            if ((result = pulse_decode(ics, spec_data, hDecoder->frameLength)) > 0)
1721
10
                return result;
1722
6.58k
        } else {
1723
19
            return 2; /* pulse coding not allowed for short blocks */
1724
19
        }
1725
6.60k
    }
1726
1727
151k
    return 0;
1728
151k
}
1729
1730
/* Table 4.4.25 */
1731
static uint8_t section_data(NeAACDecStruct *hDecoder, ic_stream *ics, bitfile *ld)
1732
153k
{
1733
153k
    uint8_t g;
1734
153k
    uint8_t sect_esc_val, sect_bits;
1735
153k
    uint8_t sect_lim; /* 51 or 120, anyways less than 127. */
1736
1737
153k
    if (ics->window_sequence == EIGHT_SHORT_SEQUENCE) {
1738
17.3k
        sect_bits = 3;
1739
17.3k
        sect_lim = 8 * 15;
1740
135k
    } else {
1741
135k
        sect_bits = 5;
1742
135k
        sect_lim = MAX_SFB;
1743
135k
    }
1744
153k
    sect_esc_val = (1u<<sect_bits) - 1;
1745
1746
#if 0
1747
    printf("\ntotal sfb %d\n", ics->max_sfb);
1748
    printf("   sect    top     cb\n");
1749
#endif
1750
1751
398k
    for (g = 0; g < ics->num_window_groups; g++)
1752
246k
    {
1753
246k
        uint8_t k = 0;
1754
246k
        uint8_t i = 0;
1755
1756
312k
        while (k < ics->max_sfb)
1757
66.9k
        {
1758
66.9k
#ifdef ERROR_RESILIENCE
1759
66.9k
            uint8_t vcb11 = 0;
1760
66.9k
#endif
1761
66.9k
            uint8_t sfb;
1762
66.9k
            uint8_t sect_len_incr;
1763
66.9k
            uint8_t sect_len = 0;
1764
66.9k
            uint8_t sect_cb_bits = 4;
1765
1766
            /* if "faad_getbits" detects error and returns "0", "k" is never
1767
               incremented and we cannot leave the while loop */
1768
66.9k
            if (ld->error != 0)
1769
0
                return 14;
1770
66.9k
            if (i >= sect_lim)
1771
369
                return 15;
1772
1773
66.6k
#ifdef ERROR_RESILIENCE
1774
66.6k
            if (hDecoder->aacSectionDataResilienceFlag)
1775
19.5k
                sect_cb_bits = 5;
1776
66.6k
#endif
1777
1778
66.6k
            ics->sect_cb[g][i] = (uint8_t)faad_getbits(ld, sect_cb_bits
1779
66.6k
                DEBUGVAR(1,71,"section_data(): sect_cb"));
1780
1781
66.6k
            if (ics->sect_cb[g][i] == 12)
1782
65
                return 32;
1783
1784
#if 0
1785
            printf("%d\n", ics->sect_cb[g][i]);
1786
#endif
1787
1788
#ifndef DRM
1789
            if (ics->sect_cb[g][i] == NOISE_HCB)
1790
                ics->noise_used = 1;
1791
#else
1792
            /* PNS not allowed in DRM */
1793
66.5k
            if (ics->sect_cb[g][i] == NOISE_HCB)
1794
13
                return 29;
1795
66.5k
#endif
1796
66.5k
            if (ics->sect_cb[g][i] == INTENSITY_HCB2 || ics->sect_cb[g][i] == INTENSITY_HCB)
1797
1.99k
                ics->is_used = 1;
1798
1799
66.5k
#ifdef ERROR_RESILIENCE
1800
66.5k
            if (hDecoder->aacSectionDataResilienceFlag)
1801
19.5k
            {
1802
19.5k
                if ((ics->sect_cb[g][i] == 11) ||
1803
19.3k
                    ((ics->sect_cb[g][i] >= 16) && (ics->sect_cb[g][i] <= 32)))
1804
4.91k
                {
1805
4.91k
                    vcb11 = 1;
1806
4.91k
                }
1807
19.5k
            }
1808
66.5k
            if (vcb11)
1809
4.91k
            {
1810
4.91k
                sect_len_incr = 1;
1811
61.6k
            } else {
1812
61.6k
#endif
1813
61.6k
                sect_len_incr = (uint8_t)faad_getbits(ld, sect_bits
1814
61.6k
                    DEBUGVAR(1,72,"section_data(): sect_len_incr"));
1815
61.6k
#ifdef ERROR_RESILIENCE
1816
61.6k
            }
1817
66.5k
#endif
1818
67.2k
            while (sect_len_incr == sect_esc_val /* &&
1819
66.5k
                (k+sect_len < ics->max_sfb)*/)
1820
747
            {
1821
747
                sect_len += sect_len_incr;
1822
747
                if (sect_len > sect_lim)
1823
9
                    return 15;
1824
738
                sect_len_incr = (uint8_t)faad_getbits(ld, sect_bits
1825
738
                    DEBUGVAR(1,72,"section_data(): sect_len_incr"));
1826
738
            }
1827
1828
66.5k
            sect_len += sect_len_incr;
1829
1830
66.5k
            ics->sect_start[g][i] = k;
1831
66.5k
            ics->sect_end[g][i] = k + sect_len;
1832
1833
#if 0
1834
            printf("%d\n", ics->sect_start[g][i]);
1835
#endif
1836
#if 0
1837
            printf("%d\n", ics->sect_end[g][i]);
1838
#endif
1839
1840
66.5k
            if (sect_len > sect_lim)
1841
12
                return 15;
1842
66.5k
            if (k + sect_len > sect_lim)
1843
9
                return 15;
1844
1845
201k
            for (sfb = k; sfb < k + sect_len; sfb++)
1846
135k
            {
1847
135k
                ics->sfb_cb[g][sfb] = ics->sect_cb[g][i];
1848
#if 0
1849
                printf("%d\n", ics->sfb_cb[g][sfb]);
1850
#endif
1851
135k
            }
1852
1853
#if 0
1854
            printf(" %6d %6d %6d\n",
1855
                i,
1856
                ics->sect_end[g][i],
1857
                ics->sect_cb[g][i]);
1858
#endif
1859
1860
66.5k
            k += sect_len; /* k <= sect_lim */
1861
66.5k
            i++;
1862
66.5k
        }
1863
245k
        ics->num_sec[g] = i;
1864
1865
        /* the sum of all sect_len_incr elements for a given window
1866
         * group shall equal max_sfb */
1867
245k
        if (k != ics->max_sfb)
1868
175
        {
1869
175
            return 32;
1870
175
        }
1871
#if 0
1872
        printf("%d\n", ics->num_sec[g]);
1873
#endif
1874
245k
    }
1875
1876
#if 0
1877
    printf("\n");
1878
#endif
1879
1880
152k
    return 0;
1881
153k
}
1882
1883
/*
1884
 *  decode_scale_factors()
1885
 *   decodes the scalefactors from the bitstream
1886
 */
1887
/*
1888
 * All scalefactors (and also the stereo positions and pns energies) are
1889
 * transmitted using Huffman coded DPCM relative to the previous active
1890
 * scalefactor (respectively previous stereo position or previous pns energy,
1891
 * see subclause 4.6.2 and 4.6.3). The first active scalefactor is
1892
 * differentially coded relative to the global gain.
1893
 */
1894
static uint8_t decode_scale_factors(ic_stream *ics, bitfile *ld)
1895
145k
{
1896
145k
    uint8_t g, sfb;
1897
145k
    int16_t t;
1898
1899
145k
    int16_t scale_factor = ics->global_gain;
1900
145k
    int16_t is_position = 0;
1901
145k
    int16_t scale_factor_max = 255;
1902
#ifdef FIXED_POINT
1903
    /* TODO: consider rolling out to regular build. */
1904
#ifdef FUZZING_BUILD_MODE_UNSAFE_FOR_PRODUCTION
1905
    /* The value is inexact, adjusted to current fuzzer findings. */
1906
    scale_factor_max = 165;
1907
#endif  // FUZZING_BUILD_MODE_UNSAFE_FOR_PRODUCTION
1908
#endif  // FIXED_POINT
1909
#ifndef DRM
1910
    int8_t noise_pcm_flag = 1;
1911
    int16_t noise_energy = ics->global_gain - 90;
1912
#endif
1913
1914
381k
    for (g = 0; g < ics->num_window_groups; g++)
1915
236k
    {
1916
348k
        for (sfb = 0; sfb < ics->max_sfb; sfb++)
1917
112k
        {
1918
112k
            switch (ics->sfb_cb[g][sfb])
1919
112k
            {
1920
70.7k
            case ZERO_HCB: /* zero book */
1921
70.7k
                ics->scale_factors[g][sfb] = 0;
1922
//#define SF_PRINT
1923
#ifdef SF_PRINT
1924
                printf("%d\n", ics->scale_factors[g][sfb]);
1925
#endif
1926
70.7k
                break;
1927
5.23k
            case INTENSITY_HCB: /* intensity books */
1928
7.09k
            case INTENSITY_HCB2:
1929
1930
                /* decode intensity position */
1931
7.09k
                t = huffman_scale_factor(ld);
1932
7.09k
                is_position += (t - 60);
1933
7.09k
                ics->scale_factors[g][sfb] = is_position;
1934
#ifdef SF_PRINT
1935
                printf("%d\n", ics->scale_factors[g][sfb]);
1936
#endif
1937
1938
7.09k
                break;
1939
0
            case NOISE_HCB: /* noise books */
1940
1941
#ifndef DRM
1942
                /* decode noise energy */
1943
                if (noise_pcm_flag)
1944
                {
1945
                    noise_pcm_flag = 0;
1946
                    t = (int16_t)faad_getbits(ld, 9
1947
                        DEBUGVAR(1,73,"scale_factor_data(): first noise")) - 256;
1948
                } else {
1949
                    t = huffman_scale_factor(ld);
1950
                    t -= 60;
1951
                }
1952
                noise_energy += t;
1953
                ics->scale_factors[g][sfb] = noise_energy;
1954
#ifdef SF_PRINT
1955
                printf("%d\n", ics->scale_factors[g][sfb]);
1956
#endif
1957
#else
1958
                /* PNS not allowed in DRM */
1959
0
                return 29;
1960
0
#endif
1961
1962
0
                break;
1963
34.3k
            default: /* spectral books */
1964
1965
                /* ics->scale_factors[g][sfb] must be between 0 and 255 */
1966
1967
34.3k
                ics->scale_factors[g][sfb] = 0;
1968
1969
                /* decode scale factor */
1970
34.3k
                t = huffman_scale_factor(ld);
1971
34.3k
                scale_factor += (t - 60);
1972
34.3k
                if (scale_factor < 0 || scale_factor > 255)
1973
7
                    return 4;
1974
34.3k
                ics->scale_factors[g][sfb] = min(scale_factor, scale_factor_max);
1975
#ifdef SF_PRINT
1976
                printf("%d\n", ics->scale_factors[g][sfb]);
1977
#endif
1978
1979
34.3k
                break;
1980
112k
            }
1981
112k
        }
1982
236k
    }
1983
1984
145k
    return 0;
1985
145k
}
1986
1987
/* Table 4.4.26 */
1988
static uint8_t scale_factor_data(NeAACDecStruct *hDecoder, ic_stream *ics, bitfile *ld)
1989
152k
{
1990
152k
    uint8_t ret = 0;
1991
#ifdef PROFILE
1992
    int64_t count = faad_get_ts();
1993
#endif
1994
1995
152k
#ifdef ERROR_RESILIENCE
1996
152k
    if (!hDecoder->aacScalefactorDataResilienceFlag)
1997
145k
    {
1998
145k
#endif
1999
145k
        ret = decode_scale_factors(ics, ld);
2000
145k
#ifdef ERROR_RESILIENCE
2001
145k
    } else {
2002
        /* In ER AAC the parameters for RVLC are seperated from the actual
2003
           data that holds the scale_factors.
2004
           Strangely enough, 2 parameters for HCR are put inbetween them.
2005
        */
2006
6.71k
        ret = rvlc_scale_factor_data(ics, ld);
2007
6.71k
    }
2008
152k
#endif
2009
2010
#ifdef PROFILE
2011
    count = faad_get_ts() - count;
2012
    hDecoder->scalefac_cycles += count;
2013
#endif
2014
2015
152k
    return ret;
2016
152k
}
2017
2018
/* Table 4.4.27 */
2019
static void tns_data(ic_stream *ics, tns_info *tns, bitfile *ld)
2020
15.8k
{
2021
15.8k
    uint8_t w, filt, i, coef_bits;
2022
15.8k
    uint8_t n_filt_bits = 2;
2023
15.8k
    uint8_t length_bits = 6;
2024
15.8k
    uint8_t order_bits = 5;
2025
2026
15.8k
    if (ics->window_sequence == EIGHT_SHORT_SEQUENCE)
2027
1.29k
    {
2028
1.29k
        n_filt_bits = 1;
2029
1.29k
        length_bits = 4;
2030
1.29k
        order_bits = 3;
2031
1.29k
    }
2032
2033
40.8k
    for (w = 0; w < ics->num_windows; w++)
2034
24.9k
    {
2035
24.9k
        uint8_t start_coef_bits = 3;
2036
24.9k
        tns->n_filt[w] = (uint8_t)faad_getbits(ld, n_filt_bits
2037
24.9k
            DEBUGVAR(1,74,"tns_data(): n_filt"));
2038
#if 0
2039
        printf("%d\n", tns->n_filt[w]);
2040
#endif
2041
2042
24.9k
        if (tns->n_filt[w])
2043
8.43k
        {
2044
8.43k
            if ((tns->coef_res[w] = faad_get1bit(ld
2045
8.43k
                DEBUGVAR(1,75,"tns_data(): coef_res"))) & 1)
2046
2.89k
                start_coef_bits = 4;
2047
#if 0
2048
            printf("%d\n", tns->coef_res[w]);
2049
#endif
2050
8.43k
        }
2051
2052
36.3k
        for (filt = 0; filt < tns->n_filt[w]; filt++)
2053
11.4k
        {
2054
11.4k
            tns->length[w][filt] = (uint8_t)faad_getbits(ld, length_bits
2055
11.4k
                DEBUGVAR(1,76,"tns_data(): length"));
2056
#if 0
2057
            printf("%d\n", tns->length[w][filt]);
2058
#endif
2059
11.4k
            tns->order[w][filt]  = (uint8_t)faad_getbits(ld, order_bits
2060
11.4k
                DEBUGVAR(1,77,"tns_data(): order"));
2061
#if 0
2062
            printf("%d\n", tns->order[w][filt]);
2063
#endif
2064
11.4k
            if (tns->order[w][filt])
2065
5.38k
            {
2066
5.38k
                tns->direction[w][filt] = faad_get1bit(ld
2067
5.38k
                    DEBUGVAR(1,78,"tns_data(): direction"));
2068
#if 0
2069
                printf("%d\n", tns->direction[w][filt]);
2070
#endif
2071
5.38k
                tns->coef_compress[w][filt] = faad_get1bit(ld
2072
5.38k
                    DEBUGVAR(1,79,"tns_data(): coef_compress"));
2073
#if 0
2074
                printf("%d\n", tns->coef_compress[w][filt]);
2075
#endif
2076
2077
5.38k
                coef_bits = start_coef_bits - tns->coef_compress[w][filt];
2078
30.4k
                for (i = 0; i < tns->order[w][filt]; i++)
2079
25.0k
                {
2080
25.0k
                    tns->coef[w][filt][i] = (uint8_t)faad_getbits(ld, coef_bits
2081
25.0k
                        DEBUGVAR(1,80,"tns_data(): coef"));
2082
#if 0
2083
                    printf("%d\n", tns->coef[w][filt][i]);
2084
#endif
2085
25.0k
                }
2086
5.38k
            }
2087
11.4k
        }
2088
24.9k
    }
2089
15.8k
}
2090
2091
#ifdef LTP_DEC
2092
/* Table 4.4.28 */
2093
static uint8_t ltp_data(NeAACDecStruct *hDecoder, ic_stream *ics, ltp_info *ltp, bitfile *ld)
2094
{
2095
    uint8_t sfb, w;
2096
2097
    ltp->lag = 0;
2098
2099
#ifdef LD_DEC
2100
    if (hDecoder->object_type == LD)
2101
    {
2102
        ltp->lag_update = (uint8_t)faad_getbits(ld, 1
2103
            DEBUGVAR(1,142,"ltp_data(): lag_update"));
2104
2105
        if (ltp->lag_update)
2106
        {
2107
            ltp->lag = (uint16_t)faad_getbits(ld, 10
2108
                DEBUGVAR(1,81,"ltp_data(): lag"));
2109
        }
2110
    } else {
2111
#endif
2112
        ltp->lag = (uint16_t)faad_getbits(ld, 11
2113
            DEBUGVAR(1,81,"ltp_data(): lag"));
2114
#ifdef LD_DEC
2115
    }
2116
#endif
2117
2118
    /* Check length of lag */
2119
    if (ltp->lag > (hDecoder->frameLength << 1))
2120
        return 18;
2121
2122
    ltp->coef = (uint8_t)faad_getbits(ld, 3
2123
        DEBUGVAR(1,82,"ltp_data(): coef"));
2124
2125
    if (ics->window_sequence == EIGHT_SHORT_SEQUENCE)
2126
    {
2127
        for (w = 0; w < ics->num_windows; w++)
2128
        {
2129
            if ((ltp->short_used[w] = faad_get1bit(ld
2130
                DEBUGVAR(1,83,"ltp_data(): short_used"))) & 1)
2131
            {
2132
                ltp->short_lag_present[w] = faad_get1bit(ld
2133
                    DEBUGVAR(1,84,"ltp_data(): short_lag_present"));
2134
                if (ltp->short_lag_present[w])
2135
                {
2136
                    ltp->short_lag[w] = (uint8_t)faad_getbits(ld, 4
2137
                        DEBUGVAR(1,85,"ltp_data(): short_lag"));
2138
                }
2139
            }
2140
        }
2141
    } else {
2142
        ltp->last_band = (ics->max_sfb < MAX_LTP_SFB ? ics->max_sfb : MAX_LTP_SFB);
2143
2144
        for (sfb = 0; sfb < ltp->last_band; sfb++)
2145
        {
2146
            ltp->long_used[sfb] = faad_get1bit(ld
2147
                DEBUGVAR(1,86,"ltp_data(): long_used"));
2148
        }
2149
    }
2150
2151
    return 0;
2152
}
2153
#endif
2154
2155
/* Table 4.4.29 */
2156
static uint8_t spectral_data(NeAACDecStruct *hDecoder, ic_stream *ics, bitfile *ld,
2157
                             int16_t *spectral_data)
2158
148k
{
2159
148k
    int8_t i;
2160
148k
    uint8_t g;
2161
148k
    uint16_t inc, k, p = 0;
2162
148k
    uint8_t groups = 0;
2163
148k
    uint8_t sect_cb;
2164
148k
    uint8_t result;
2165
148k
    uint16_t nshort = hDecoder->frameLength/8;
2166
2167
#ifdef PROFILE
2168
    int64_t count = faad_get_ts();
2169
#endif
2170
2171
387k
    for(g = 0; g < ics->num_window_groups; g++)
2172
239k
    {
2173
239k
        p = groups*nshort;
2174
2175
268k
        for (i = 0; i < ics->num_sec[g]; i++)
2176
29.2k
        {
2177
29.2k
            sect_cb = ics->sect_cb[g][i];
2178
2179
29.2k
            inc = (sect_cb >= FIRST_PAIR_HCB) ? 2 : 4;
2180
2181
29.2k
            switch (sect_cb)
2182
29.2k
            {
2183
10.2k
            case ZERO_HCB:
2184
10.2k
            case NOISE_HCB:
2185
10.9k
            case INTENSITY_HCB:
2186
11.3k
            case INTENSITY_HCB2:
2187
//#define SD_PRINT
2188
#ifdef SD_PRINT
2189
                {
2190
                    int j;
2191
                    for (j = ics->sect_sfb_offset[g][ics->sect_start[g][i]]; j < ics->sect_sfb_offset[g][ics->sect_end[g][i]]; j++)
2192
                    {
2193
                        printf("%d\n", 0);
2194
                    }
2195
                }
2196
#endif
2197
//#define SFBO_PRINT
2198
#ifdef SFBO_PRINT
2199
                printf("%d\n", ics->sect_sfb_offset[g][ics->sect_start[g][i]]);
2200
#endif
2201
11.3k
                p += (ics->sect_sfb_offset[g][ics->sect_end[g][i]] -
2202
11.3k
                    ics->sect_sfb_offset[g][ics->sect_start[g][i]]);
2203
11.3k
                break;
2204
17.9k
            default:
2205
#ifdef SFBO_PRINT
2206
                printf("%d\n", ics->sect_sfb_offset[g][ics->sect_start[g][i]]);
2207
#endif
2208
17.9k
                for (k = ics->sect_sfb_offset[g][ics->sect_start[g][i]];
2209
228k
                     k < ics->sect_sfb_offset[g][ics->sect_end[g][i]]; k += inc)
2210
211k
                {
2211
211k
                    if ((result = huffman_spectral_data(sect_cb, ld, &spectral_data[p])) > 0)
2212
49
                        return result;
2213
#ifdef SD_PRINT
2214
                    {
2215
                        int j;
2216
                        for (j = p; j < p+inc; j++)
2217
                        {
2218
                            printf("%d\n", spectral_data[j]);
2219
                        }
2220
                    }
2221
#endif
2222
211k
                    p += inc;
2223
211k
                }
2224
17.8k
                break;
2225
29.2k
            }
2226
29.2k
        }
2227
239k
        groups += ics->window_group_length[g];
2228
239k
    }
2229
2230
#ifdef PROFILE
2231
    count = faad_get_ts() - count;
2232
    hDecoder->spectral_cycles += count;
2233
#endif
2234
2235
148k
    return 0;
2236
148k
}
2237
2238
#ifndef DRM
2239
/* Table 4.4.30 */
2240
static uint16_t extension_payload(bitfile *ld, drc_info *drc, uint16_t count)
2241
{
2242
    uint16_t i, n, dataElementLength;
2243
    uint8_t dataElementLengthPart;
2244
    uint8_t align = 4, data_element_version, loopCounter;
2245
2246
    uint8_t extension_type = (uint8_t)faad_getbits(ld, 4
2247
        DEBUGVAR(1,87,"extension_payload(): extension_type"));
2248
2249
    switch (extension_type)
2250
    {
2251
    case EXT_DYNAMIC_RANGE:
2252
        drc->present = 1;
2253
        n = dynamic_range_info(ld, drc);
2254
        return n;
2255
    case EXT_FILL_DATA:
2256
        /* fill_nibble = */ faad_getbits(ld, 4
2257
            DEBUGVAR(1,136,"extension_payload(): fill_nibble")); /* must be '0000' */
2258
        for (i = 0; i < count-1; i++)
2259
        {
2260
            /* fill_byte[i] = */ faad_getbits(ld, 8
2261
                DEBUGVAR(1,88,"extension_payload(): fill_byte")); /* must be '10100101' */
2262
        }
2263
        return count;
2264
    case EXT_DATA_ELEMENT:
2265
        data_element_version = (uint8_t)faad_getbits(ld, 4
2266
            DEBUGVAR(1,400,"extension_payload(): data_element_version"));
2267
        switch (data_element_version)
2268
        {
2269
        case ANC_DATA:
2270
            loopCounter = 0;
2271
            dataElementLength = 0;
2272
            do {
2273
                dataElementLengthPart = (uint8_t)faad_getbits(ld, 8
2274
                    DEBUGVAR(1,401,"extension_payload(): dataElementLengthPart"));
2275
                dataElementLength += dataElementLengthPart;
2276
                loopCounter++;
2277
            } while (dataElementLengthPart == 255);
2278
2279
            for (i = 0; i < dataElementLength; i++)
2280
            {
2281
                /* data_element_byte[i] = */ faad_getbits(ld, 8
2282
                    DEBUGVAR(1,402,"extension_payload(): data_element_byte"));
2283
                return (dataElementLength+loopCounter+1);
2284
            }
2285
        default:
2286
            align = 0;
2287
        }
2288
    case EXT_FIL:
2289
    default:
2290
        faad_getbits(ld, align
2291
            DEBUGVAR(1,88,"extension_payload(): fill_nibble"));
2292
        for (i = 0; i < count-1; i++)
2293
        {
2294
            /* other_bits[i] = */ faad_getbits(ld, 8
2295
               DEBUGVAR(1,89,"extension_payload(): fill_bit"));
2296
        }
2297
        return count;
2298
    }
2299
}
2300
2301
/* Table 4.4.31 */
2302
static uint8_t dynamic_range_info(bitfile *ld, drc_info *drc)
2303
{
2304
    uint8_t i, n = 1;
2305
    uint8_t band_incr;
2306
2307
    drc->num_bands = 1;
2308
2309
    if (faad_get1bit(ld
2310
        DEBUGVAR(1,90,"dynamic_range_info(): has instance_tag")) & 1)
2311
    {
2312
        drc->pce_instance_tag = (uint8_t)faad_getbits(ld, 4
2313
            DEBUGVAR(1,91,"dynamic_range_info(): pce_instance_tag"));
2314
        /* drc->drc_tag_reserved_bits = */ faad_getbits(ld, 4
2315
            DEBUGVAR(1,92,"dynamic_range_info(): drc_tag_reserved_bits"));
2316
        n++;
2317
    }
2318
2319
    drc->excluded_chns_present = faad_get1bit(ld
2320
        DEBUGVAR(1,93,"dynamic_range_info(): excluded_chns_present"));
2321
    if (drc->excluded_chns_present == 1)
2322
    {
2323
        n += excluded_channels(ld, drc);
2324
    }
2325
2326
    if (faad_get1bit(ld
2327
        DEBUGVAR(1,94,"dynamic_range_info(): has bands data")) & 1)
2328
    {
2329
        band_incr = (uint8_t)faad_getbits(ld, 4
2330
            DEBUGVAR(1,95,"dynamic_range_info(): band_incr"));
2331
        /* drc->drc_bands_reserved_bits = */ faad_getbits(ld, 4
2332
            DEBUGVAR(1,96,"dynamic_range_info(): drc_bands_reserved_bits"));
2333
        n++;
2334
        drc->num_bands += band_incr;
2335
2336
        for (i = 0; i < drc->num_bands; i++)
2337
        {
2338
            drc->band_top[i] = (uint8_t)faad_getbits(ld, 8
2339
                DEBUGVAR(1,97,"dynamic_range_info(): band_top"));
2340
            n++;
2341
        }
2342
    }
2343
2344
    if (faad_get1bit(ld
2345
        DEBUGVAR(1,98,"dynamic_range_info(): has prog_ref_level")) & 1)
2346
    {
2347
        drc->prog_ref_level = (uint8_t)faad_getbits(ld, 7
2348
            DEBUGVAR(1,99,"dynamic_range_info(): prog_ref_level"));
2349
        /* drc->prog_ref_level_reserved_bits = */ faad_get1bit(ld
2350
            DEBUGVAR(1,100,"dynamic_range_info(): prog_ref_level_reserved_bits"));
2351
        n++;
2352
    }
2353
2354
    for (i = 0; i < drc->num_bands; i++)
2355
    {
2356
        drc->dyn_rng_sgn[i] = faad_get1bit(ld
2357
            DEBUGVAR(1,101,"dynamic_range_info(): dyn_rng_sgn"));
2358
        drc->dyn_rng_ctl[i] = (uint8_t)faad_getbits(ld, 7
2359
            DEBUGVAR(1,102,"dynamic_range_info(): dyn_rng_ctl"));
2360
        n++;
2361
    }
2362
2363
    return n;
2364
}
2365
2366
/* Table 4.4.32 */
2367
static uint8_t excluded_channels(bitfile *ld, drc_info *drc)
2368
{
2369
    uint8_t i, n = 0;
2370
    uint8_t num_excl_chan = 7;
2371
2372
    for (i = 0; i < 7; i++)
2373
    {
2374
        drc->exclude_mask[i] = faad_get1bit(ld
2375
            DEBUGVAR(1,103,"excluded_channels(): exclude_mask"));
2376
    }
2377
    n++;
2378
2379
    while ((drc->additional_excluded_chns[n-1] = faad_get1bit(ld
2380
        DEBUGVAR(1,104,"excluded_channels(): additional_excluded_chns"))) == 1)
2381
    {
2382
        if (i >= MAX_CHANNELS - num_excl_chan - 7)
2383
            return n;
2384
        for (i = num_excl_chan; i < num_excl_chan+7; i++)
2385
        {
2386
            drc->exclude_mask[i] = faad_get1bit(ld
2387
                DEBUGVAR(1,105,"excluded_channels(): exclude_mask"));
2388
        }
2389
        n++;
2390
        num_excl_chan += 7;
2391
    }
2392
2393
    return n;
2394
}
2395
#endif
2396
2397
/* Annex A: Audio Interchange Formats */
2398
2399
/* Table 1.A.2 */
2400
void get_adif_header(adif_header *adif, bitfile *ld)
2401
115
{
2402
115
    uint8_t i;
2403
2404
    /* adif_id[0] = */ faad_getbits(ld, 8
2405
115
        DEBUGVAR(1,106,"get_adif_header(): adif_id[0]"));
2406
115
    /* adif_id[1] = */ faad_getbits(ld, 8
2407
115
        DEBUGVAR(1,107,"get_adif_header(): adif_id[1]"));
2408
115
    /* adif_id[2] = */ faad_getbits(ld, 8
2409
115
        DEBUGVAR(1,108,"get_adif_header(): adif_id[2]"));
2410
115
    /* adif_id[3] = */ faad_getbits(ld, 8
2411
115
        DEBUGVAR(1,109,"get_adif_header(): adif_id[3]"));
2412
115
    adif->copyright_id_present = faad_get1bit(ld
2413
115
        DEBUGVAR(1,110,"get_adif_header(): copyright_id_present"));
2414
115
    if(adif->copyright_id_present)
2415
14
    {
2416
140
        for (i = 0; i < 72/8; i++)
2417
126
        {
2418
126
            adif->copyright_id[i] = (int8_t)faad_getbits(ld, 8
2419
126
                DEBUGVAR(1,111,"get_adif_header(): copyright_id"));
2420
126
        }
2421
14
        adif->copyright_id[i] = 0;
2422
14
    }
2423
115
    adif->original_copy  = faad_get1bit(ld
2424
115
        DEBUGVAR(1,112,"get_adif_header(): original_copy"));
2425
115
    adif->home = faad_get1bit(ld
2426
115
        DEBUGVAR(1,113,"get_adif_header(): home"));
2427
115
    adif->bitstream_type = faad_get1bit(ld
2428
115
        DEBUGVAR(1,114,"get_adif_header(): bitstream_type"));
2429
115
    adif->bitrate = faad_getbits(ld, 23
2430
115
        DEBUGVAR(1,115,"get_adif_header(): bitrate"));
2431
115
    adif->num_program_config_elements = (uint8_t)faad_getbits(ld, 4
2432
115
        DEBUGVAR(1,116,"get_adif_header(): num_program_config_elements"));
2433
2434
1.51k
    for (i = 0; i < adif->num_program_config_elements + 1; i++)
2435
1.39k
    {
2436
1.39k
        if(adif->bitstream_type == 0)
2437
449
        {
2438
449
            adif->adif_buffer_fullness = faad_getbits(ld, 20
2439
449
                DEBUGVAR(1,117,"get_adif_header(): adif_buffer_fullness"));
2440
948
        } else {
2441
948
            adif->adif_buffer_fullness = 0;
2442
948
        }
2443
2444
1.39k
        program_config_element(&adif->pce[i], ld);
2445
1.39k
    }
2446
115
}
2447
2448
/* Table 1.A.5 */
2449
uint8_t adts_frame(adts_header *adts, bitfile *ld)
2450
5.65k
{
2451
    /* faad_byte_align(ld); */
2452
5.65k
    if (adts_fixed_header(adts, ld))
2453
5.47k
        return 5;
2454
175
    adts_variable_header(adts, ld);
2455
175
    adts_error_check(adts, ld);
2456
2457
175
    return 0;
2458
5.65k
}
2459
2460
/* Table 1.A.6 */
2461
static uint8_t adts_fixed_header(adts_header *adts, bitfile *ld)
2462
5.65k
{
2463
5.65k
    uint16_t i;
2464
5.65k
    uint8_t sync_err = 1;
2465
2466
    /* try to recover from sync errors */
2467
4.21M
    for (i = 0; i < 768; i++)
2468
4.20M
    {
2469
4.20M
        adts->syncword = (uint16_t)faad_showbits(ld, 12);
2470
4.20M
        if (adts->syncword != 0xFFF)
2471
4.20M
        {
2472
4.20M
            faad_getbits(ld, 8
2473
4.20M
                DEBUGVAR(0,0,""));
2474
4.20M
        } else {
2475
175
            sync_err = 0;
2476
175
            faad_getbits(ld, 12
2477
175
                DEBUGVAR(1,118,"adts_fixed_header(): syncword"));
2478
175
            break;
2479
175
        }
2480
4.20M
    }
2481
5.65k
    if (sync_err)
2482
5.47k
        return 5;
2483
2484
175
    adts->id = faad_get1bit(ld
2485
175
        DEBUGVAR(1,119,"adts_fixed_header(): id"));
2486
175
    adts->layer = (uint8_t)faad_getbits(ld, 2
2487
175
        DEBUGVAR(1,120,"adts_fixed_header(): layer"));
2488
175
    adts->protection_absent = faad_get1bit(ld
2489
175
        DEBUGVAR(1,121,"adts_fixed_header(): protection_absent"));
2490
175
    adts->profile = (uint8_t)faad_getbits(ld, 2
2491
175
        DEBUGVAR(1,122,"adts_fixed_header(): profile"));
2492
175
    adts->sf_index = (uint8_t)faad_getbits(ld, 4
2493
175
        DEBUGVAR(1,123,"adts_fixed_header(): sf_index"));
2494
175
    adts->private_bit = faad_get1bit(ld
2495
175
        DEBUGVAR(1,124,"adts_fixed_header(): private_bit"));
2496
175
    adts->channel_configuration = (uint8_t)faad_getbits(ld, 3
2497
175
        DEBUGVAR(1,125,"adts_fixed_header(): channel_configuration"));
2498
175
    adts->original = faad_get1bit(ld
2499
175
        DEBUGVAR(1,126,"adts_fixed_header(): original"));
2500
175
    adts->home = faad_get1bit(ld
2501
175
        DEBUGVAR(1,127,"adts_fixed_header(): home"));
2502
2503
175
    if (adts->old_format == 1)
2504
0
    {
2505
        /* Removed in corrigendum 14496-3:2002 */
2506
0
        if (adts->id == 0)
2507
0
        {
2508
0
            adts->emphasis = (uint8_t)faad_getbits(ld, 2
2509
0
                DEBUGVAR(1,128,"adts_fixed_header(): emphasis"));
2510
0
        }
2511
0
    }
2512
2513
175
    return 0;
2514
5.65k
}
2515
2516
/* Table 1.A.7 */
2517
static void adts_variable_header(adts_header *adts, bitfile *ld)
2518
175
{
2519
175
    adts->copyright_identification_bit = faad_get1bit(ld
2520
175
        DEBUGVAR(1,129,"adts_variable_header(): copyright_identification_bit"));
2521
175
    adts->copyright_identification_start = faad_get1bit(ld
2522
175
        DEBUGVAR(1,130,"adts_variable_header(): copyright_identification_start"));
2523
175
    adts->aac_frame_length = (uint16_t)faad_getbits(ld, 13
2524
175
        DEBUGVAR(1,131,"adts_variable_header(): aac_frame_length"));
2525
175
    adts->adts_buffer_fullness = (uint16_t)faad_getbits(ld, 11
2526
175
        DEBUGVAR(1,132,"adts_variable_header(): adts_buffer_fullness"));
2527
175
    adts->no_raw_data_blocks_in_frame = (uint8_t)faad_getbits(ld, 2
2528
175
        DEBUGVAR(1,133,"adts_variable_header(): no_raw_data_blocks_in_frame"));
2529
175
}
2530
2531
/* Table 1.A.8 */
2532
static void adts_error_check(adts_header *adts, bitfile *ld)
2533
175
{
2534
175
    if (adts->protection_absent == 0)
2535
55
    {
2536
55
        adts->crc_check = (uint16_t)faad_getbits(ld, 16
2537
55
            DEBUGVAR(1,134,"adts_error_check(): crc_check"));
2538
55
    }
2539
175
}
2540
2541
/* LATM parsing functions */
2542
#if 0
2543
2544
static uint32_t latm_get_value(bitfile *ld)
2545
{
2546
    uint32_t l, value;
2547
    uint8_t bytesForValue;
2548
2549
    bytesForValue = (uint8_t)faad_getbits(ld, 2);
2550
    value = 0;
2551
    for(l=0; l<bytesForValue; l++)
2552
        value = (value << 8) | (uint8_t)faad_getbits(ld, 8);
2553
2554
    return value;
2555
}
2556
2557
static uint32_t latmParsePayload(latm_header *latm, bitfile *ld)
2558
{
2559
    //assuming there's only one program with a single layer and 1 subFrame,
2560
    //allStreamsSametimeframing is set,
2561
    uint32_t framelen;
2562
    uint8_t tmp;
2563
2564
    //this should be the payload length field for the current configuration
2565
    framelen = 0;
2566
    if(latm->framelen_type==0)
2567
    {
2568
        do
2569
        {
2570
            tmp = (uint8_t)faad_getbits(ld, 8);
2571
            framelen += tmp;
2572
        } while(tmp==0xff);
2573
    }
2574
    else if(latm->framelen_type==1)
2575
        framelen=latm->frameLength;
2576
2577
    return framelen;
2578
}
2579
2580
static uint32_t latmAudioMuxElement(latm_header *latm, bitfile *ld)
2581
{
2582
    uint32_t ascLen, asc_bits=0;
2583
    uint32_t x1, y1, m, n, i;
2584
    program_config pce;
2585
    mp4AudioSpecificConfig mp4ASC;
2586
2587
    latm->useSameStreamMux = (uint8_t)faad_getbits(ld, 1);
2588
    if(!latm->useSameStreamMux)
2589
    {
2590
        //parseSameStreamMuxConfig
2591
        latm->version = (uint8_t) faad_getbits(ld, 1);
2592
        if(latm->version)
2593
            latm->versionA = (uint8_t) faad_getbits(ld, 1);
2594
        if(latm->versionA)
2595
        {
2596
            //dunno the payload format for versionA
2597
            fprintf(stderr, "versionA not supported\n");
2598
            return 0;
2599
        }
2600
        if(latm->version) //read taraBufferFullness
2601
            latm_get_value(ld);
2602
        latm->allStreamsSameTimeFraming = (uint8_t)faad_getbits(ld, 1);
2603
        latm->numSubFrames = (uint8_t)faad_getbits(ld, 6) + 1;
2604
        latm->numPrograms = (uint8_t)faad_getbits(ld, 4) + 1;
2605
        latm->numLayers = faad_getbits(ld, 3) + 1;
2606
        if(latm->numPrograms>1 || !latm->allStreamsSameTimeFraming || latm->numSubFrames>1 || latm->numLayers>1)
2607
        {
2608
            fprintf(stderr, "\r\nUnsupported LATM configuration: %d programs/ %d subframes, %d layers, allstreams: %d\n",
2609
                latm->numPrograms, latm->numSubFrames, latm->numLayers, latm->allStreamsSameTimeFraming);
2610
            return 0;
2611
        }
2612
        ascLen = 0;
2613
        if(latm->version)
2614
            ascLen = latm_get_value(ld);
2615
2616
        x1 = faad_get_processed_bits(ld);
2617
        if(AudioSpecificConfigFromBitfile(ld, &mp4ASC, &pce, 0, 1) < 0)
2618
            return 0;
2619
2620
        //horrid hack to unread the ASC bits and store them in latm->ASC
2621
        //the correct code would rely on an ideal faad_ungetbits()
2622
        y1 = faad_get_processed_bits(ld);
2623
        if((y1-x1) <= MAX_ASC_BYTES*8)
2624
        {
2625
            faad_rewindbits(ld);
2626
            m = x1;
2627
            while(m>0)
2628
            {
2629
                n = min(m, 32);
2630
                faad_getbits(ld, n);
2631
                m -= n;
2632
            }
2633
2634
            i = 0;
2635
            m = latm->ASCbits = y1 - x1;
2636
            while(m > 0)
2637
            {
2638
                n = min(m, 8);
2639
                latm->ASC[i++] = (uint8_t) faad_getbits(ld, n);
2640
                m -= n;
2641
            }
2642
        }
2643
2644
        asc_bits = y1-x1;
2645
2646
        if(ascLen>asc_bits)
2647
            faad_getbits(ld, ascLen-asc_bits);
2648
2649
        latm->framelen_type = (uint8_t) faad_getbits(ld, 3);
2650
        if(latm->framelen_type == 0)
2651
        {
2652
            latm->frameLength = 0;
2653
            faad_getbits(ld, 8); //buffer fullness for frame_len_type==0, useless
2654
        }
2655
        else if(latm->framelen_type == 1)
2656
        {
2657
            latm->frameLength = faad_getbits(ld, 9);
2658
            if(latm->frameLength==0)
2659
            {
2660
                fprintf(stderr, "Invalid frameLength: 0\r\n");
2661
                return 0;
2662
            }
2663
            latm->frameLength = (latm->frameLength+20)*8;
2664
        }
2665
        else
2666
        {   //hellish CELP or HCVX stuff, discard
2667
            fprintf(stderr, "Unsupported CELP/HCVX framelentype: %d\n", latm->framelen_type);
2668
            return 0;
2669
        }
2670
2671
        latm->otherDataLenBits = 0;
2672
        if(faad_getbits(ld, 1))
2673
        {   //other data present
2674
            int esc, tmp;
2675
            if(latm->version)
2676
                latm->otherDataLenBits = latm_get_value(ld);
2677
            else do
2678
            {
2679
                esc = faad_getbits(ld, 1);
2680
                tmp = faad_getbits(ld, 8);
2681
                latm->otherDataLenBits = (latm->otherDataLenBits << 8) + tmp;
2682
            } while(esc);
2683
        }
2684
        if(faad_getbits(ld, 1)) //crc
2685
            faad_getbits(ld, 8);
2686
        latm->inited = 1;
2687
      }
2688
2689
      //read payload
2690
      if(latm->inited)
2691
          return latmParsePayload(latm, ld);
2692
      else
2693
          return 0;
2694
}
2695
2696
uint32_t faad_latm_frame(latm_header *latm, bitfile *ld)
2697
{
2698
    uint16_t len;
2699
    uint32_t initpos, endpos, firstpos, ret;
2700
2701
    firstpos = faad_get_processed_bits(ld);
2702
    while (ld->bytes_left)
2703
    {
2704
        faad_byte_align(ld);
2705
        if(faad_showbits(ld, 11) != 0x2B7)
2706
        {
2707
            faad_getbits(ld, 8);
2708
            continue;
2709
        }
2710
        faad_getbits(ld, 11);
2711
        len = faad_getbits(ld, 13);
2712
        if(!len)
2713
            continue;
2714
        initpos = faad_get_processed_bits(ld);
2715
        ret = latmAudioMuxElement(latm, ld);
2716
        endpos = faad_get_processed_bits(ld);
2717
        if(ret>0)
2718
            return (len*8)-(endpos-initpos);
2719
        //faad_getbits(ld, initpos-endpos); //go back to initpos, but is valid a getbits(-N) ?
2720
    }
2721
    return 0xFFFFFFFF;
2722
}
2723
#endif