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Issue 246853005: Fix SPS/PPS insertion logic in MP4StreamParser. (Closed) Base URL: svn://svn.chromium.org/chrome/trunk/src
Patch Set: Rebase Created 6 years, 8 months ago
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1 // Copyright 2014 The Chromium Authors. All rights reserved. 1 // Copyright 2014 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be 2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file. 3 // found in the LICENSE file.
4 4
5 #include "media/formats/mp4/avc.h" 5 #include "media/formats/mp4/avc.h"
6 6
7 #include <algorithm> 7 #include <algorithm>
8 #include <vector> 8 #include <vector>
9 9
10 #include "base/logging.h"
11 #include "media/base/decrypt_config.h"
12 #include "media/filters/h264_parser.h"
10 #include "media/formats/mp4/box_definitions.h" 13 #include "media/formats/mp4/box_definitions.h"
11 #include "media/formats/mp4/box_reader.h" 14 #include "media/formats/mp4/box_reader.h"
12 15
13 namespace media { 16 namespace media {
14 namespace mp4 { 17 namespace mp4 {
15 18
16 static const uint8 kAnnexBStartCode[] = {0, 0, 0, 1}; 19 static const uint8 kAnnexBStartCode[] = {0, 0, 0, 1};
17 static const int kAnnexBStartCodeSize = 4; 20 static const int kAnnexBStartCodeSize = 4;
18 21
19 static bool ConvertAVCToAnnexBInPlaceForLengthSize4(std::vector<uint8>* buf) { 22 static bool ConvertAVCToAnnexBInPlaceForLengthSize4(std::vector<uint8>* buf) {
20 const int kLengthSize = 4; 23 const int kLengthSize = 4;
21 size_t pos = 0; 24 size_t pos = 0;
22 while (pos + kLengthSize < buf->size()) { 25 while (pos + kLengthSize < buf->size()) {
23 int nal_size = (*buf)[pos]; 26 uint32 nal_size = (*buf)[pos];
24 nal_size = (nal_size << 8) + (*buf)[pos+1]; 27 nal_size = (nal_size << 8) + (*buf)[pos+1];
25 nal_size = (nal_size << 8) + (*buf)[pos+2]; 28 nal_size = (nal_size << 8) + (*buf)[pos+2];
26 nal_size = (nal_size << 8) + (*buf)[pos+3]; 29 nal_size = (nal_size << 8) + (*buf)[pos+3];
30
31 if (nal_size == 0) {
32 DVLOG(1) << "nal_size is 0";
33 return false;
34 }
35
27 std::copy(kAnnexBStartCode, kAnnexBStartCode + kAnnexBStartCodeSize, 36 std::copy(kAnnexBStartCode, kAnnexBStartCode + kAnnexBStartCodeSize,
28 buf->begin() + pos); 37 buf->begin() + pos);
29 pos += kLengthSize + nal_size; 38 pos += kLengthSize + nal_size;
30 } 39 }
31 return pos == buf->size(); 40 return pos == buf->size();
32 } 41 }
33 42
34 // static 43 // static
35 bool AVC::ConvertFrameToAnnexB(int length_size, std::vector<uint8>* buffer) { 44 bool AVC::ConvertFrameToAnnexB(int length_size, std::vector<uint8>* buffer) {
36 RCHECK(length_size == 1 || length_size == 2 || length_size == 4); 45 RCHECK(length_size == 1 || length_size == 2 || length_size == 4);
37 46
38 if (length_size == 4) 47 if (length_size == 4)
39 return ConvertAVCToAnnexBInPlaceForLengthSize4(buffer); 48 return ConvertAVCToAnnexBInPlaceForLengthSize4(buffer);
40 49
41 std::vector<uint8> temp; 50 std::vector<uint8> temp;
42 temp.swap(*buffer); 51 temp.swap(*buffer);
43 buffer->reserve(temp.size() + 32); 52 buffer->reserve(temp.size() + 32);
44 53
45 size_t pos = 0; 54 size_t pos = 0;
46 while (pos + length_size < temp.size()) { 55 while (pos + length_size < temp.size()) {
47 int nal_size = temp[pos]; 56 int nal_size = temp[pos];
48 if (length_size == 2) nal_size = (nal_size << 8) + temp[pos+1]; 57 if (length_size == 2) nal_size = (nal_size << 8) + temp[pos+1];
49 pos += length_size; 58 pos += length_size;
50 59
60 if (nal_size == 0) {
61 DVLOG(1) << "nal_size is 0";
62 return false;
63 }
64
51 RCHECK(pos + nal_size <= temp.size()); 65 RCHECK(pos + nal_size <= temp.size());
52 buffer->insert(buffer->end(), kAnnexBStartCode, 66 buffer->insert(buffer->end(), kAnnexBStartCode,
53 kAnnexBStartCode + kAnnexBStartCodeSize); 67 kAnnexBStartCode + kAnnexBStartCodeSize);
54 buffer->insert(buffer->end(), temp.begin() + pos, 68 buffer->insert(buffer->end(), temp.begin() + pos,
55 temp.begin() + pos + nal_size); 69 temp.begin() + pos + nal_size);
56 pos += nal_size; 70 pos += nal_size;
57 } 71 }
58 return pos == temp.size(); 72 return pos == temp.size();
59 } 73 }
60 74
61 // static 75 // static
76 bool AVC::InsertParamSetsAnnexB(const AVCDecoderConfigurationRecord& avc_config,
77 std::vector<uint8>* buffer,
78 std::vector<SubsampleEntry>* subsamples) {
79 DCHECK(AVC::IsValidAnnexB(*buffer));
80
81 scoped_ptr<H264Parser> parser(new H264Parser());
82 const uint8* start = &(*buffer)[0];
83 parser->SetStream(start, buffer->size());
84
85 H264NALU nalu;
86 if (parser->AdvanceToNextNALU(&nalu) != H264Parser::kOk)
87 return false;
88
89 std::vector<uint8>::iterator config_insert_point = buffer->begin();
90 std::vector<SubsampleEntry>::iterator subsamples_insert_point =
91 subsamples->begin();
92
93 if (nalu.nal_unit_type == H264NALU::kAUD) {
94 // Move insert point to just after the AUD.
95 config_insert_point += (nalu.data + nalu.size) - start;
96
97 if (!subsamples->empty()) {
98 int64 first_subsample_size =
99 (*subsamples)[0].clear_bytes + (*subsamples)[0].cypher_bytes;
100
101 if (first_subsample_size != (config_insert_point - buffer->begin()))
102 return false;
103
104 subsamples_insert_point++;
105 }
106
107 }
108
109 // Clear |parser| and |start| since they aren't needed anymore and
110 // will hold stale pointers once the insert happens.
111 parser.reset();
112 start = NULL;
113
114 std::vector<uint8> param_sets;
115 std::vector<SubsampleEntry> config_subsamples;
116 RCHECK(AVC::ConvertConfigToAnnexB(avc_config,
117 &param_sets,
118 &config_subsamples));
119
120 if (!subsamples->empty()) {
121 subsamples->insert(subsamples_insert_point,
122 config_subsamples.begin(),
123 config_subsamples.end());
124 }
125
126 buffer->insert(config_insert_point,
127 param_sets.begin(), param_sets.end());
128
129 DCHECK(AVC::IsValidAnnexB(*buffer));
130 return true;
131 }
132
133 // static
62 bool AVC::ConvertConfigToAnnexB( 134 bool AVC::ConvertConfigToAnnexB(
63 const AVCDecoderConfigurationRecord& avc_config, 135 const AVCDecoderConfigurationRecord& avc_config,
64 std::vector<uint8>* buffer) { 136 std::vector<uint8>* buffer,
137 std::vector<SubsampleEntry>* subsamples) {
65 DCHECK(buffer->empty()); 138 DCHECK(buffer->empty());
66 buffer->clear(); 139 buffer->clear();
67 int total_size = 0; 140 int total_size = 0;
68 for (size_t i = 0; i < avc_config.sps_list.size(); i++) 141 for (size_t i = 0; i < avc_config.sps_list.size(); i++)
69 total_size += avc_config.sps_list[i].size() + kAnnexBStartCodeSize; 142 total_size += avc_config.sps_list[i].size() + kAnnexBStartCodeSize;
70 for (size_t i = 0; i < avc_config.pps_list.size(); i++) 143 for (size_t i = 0; i < avc_config.pps_list.size(); i++)
71 total_size += avc_config.pps_list[i].size() + kAnnexBStartCodeSize; 144 total_size += avc_config.pps_list[i].size() + kAnnexBStartCodeSize;
72 buffer->reserve(total_size); 145 buffer->reserve(total_size);
73 146
74 for (size_t i = 0; i < avc_config.sps_list.size(); i++) { 147 for (size_t i = 0; i < avc_config.sps_list.size(); i++) {
75 buffer->insert(buffer->end(), kAnnexBStartCode, 148 buffer->insert(buffer->end(), kAnnexBStartCode,
76 kAnnexBStartCode + kAnnexBStartCodeSize); 149 kAnnexBStartCode + kAnnexBStartCodeSize);
77 buffer->insert(buffer->end(), avc_config.sps_list[i].begin(), 150 buffer->insert(buffer->end(), avc_config.sps_list[i].begin(),
78 avc_config.sps_list[i].end()); 151 avc_config.sps_list[i].end());
152
153 SubsampleEntry entry;
154 entry.clear_bytes = kAnnexBStartCodeSize + avc_config.sps_list[i].size();
155 entry.cypher_bytes = 0;
156 subsamples->push_back(entry);
79 } 157 }
80 158
81 for (size_t i = 0; i < avc_config.pps_list.size(); i++) { 159 for (size_t i = 0; i < avc_config.pps_list.size(); i++) {
82 buffer->insert(buffer->end(), kAnnexBStartCode, 160 buffer->insert(buffer->end(), kAnnexBStartCode,
83 kAnnexBStartCode + kAnnexBStartCodeSize); 161 kAnnexBStartCode + kAnnexBStartCodeSize);
84 buffer->insert(buffer->end(), avc_config.pps_list[i].begin(), 162 buffer->insert(buffer->end(), avc_config.pps_list[i].begin(),
85 avc_config.pps_list[i].end()); 163 avc_config.pps_list[i].end());
164
165 SubsampleEntry entry;
166 entry.clear_bytes = kAnnexBStartCodeSize + avc_config.pps_list[i].size();
167 entry.cypher_bytes = 0;
168 subsamples->push_back(entry);
86 } 169 }
87 return true; 170 return true;
88 } 171 }
89 172
173 // Verifies AnnexB NALU order according to ISO/IEC 14496-10 Section 7.4.1.2.3
174 bool AVC::IsValidAnnexB(const std::vector<uint8>& buffer) {
175 DVLOG(1) << __FUNCTION__;
176
177 if (buffer.empty())
178 return true;
179
180 H264Parser parser;
181 parser.SetStream(&buffer[0], buffer.size());
182
183 typedef enum {
184 kAUDAllowed,
185 kBeforeFirstVCL, // VCL == nal_unit_types 1-5
186 kAfterFirstVCL,
187 kEOStreamAllowed,
188 kNoMoreDataAllowed,
189 } NALUOrderState;
190
191 H264NALU nalu;
192 NALUOrderState order_state = kAUDAllowed;
193 int last_nalu_type = H264NALU::kUnspecified;
194 bool done = false;
195 while (!done) {
196 switch (parser.AdvanceToNextNALU(&nalu)) {
197 case H264Parser::kOk:
198 DVLOG(1) << "nal_unit_type " << nalu.nal_unit_type;
199
200 switch (nalu.nal_unit_type) {
201 case H264NALU::kAUD:
202 if (order_state > kAUDAllowed) {
203 DVLOG(1) << "Unexpected AUD in order_state " << order_state;
204 return false;
205 }
206 order_state = kBeforeFirstVCL;
207 break;
208
209 case H264NALU::kSEIMessage:
210 case H264NALU::kReserved14:
211 case H264NALU::kReserved15:
212 case H264NALU::kReserved16:
213 case H264NALU::kReserved17:
214 case H264NALU::kReserved18:
215 case H264NALU::kPPS:
216 case H264NALU::kSPS:
217 if (order_state > kBeforeFirstVCL) {
218 DVLOG(1) << "Unexpected NALU type " << nalu.nal_unit_type
219 << " in order_state " << order_state;
220 return false;
221 }
222 order_state = kBeforeFirstVCL;
223 break;
224
225 case H264NALU::kSPSExt:
226 if (last_nalu_type != H264NALU::kSPS) {
227 DVLOG(1) << "SPS extension does not follow an SPS.";
228 return false;
229 }
230 break;
231
232 case H264NALU::kNonIDRSlice:
233 case H264NALU::kSliceDataA:
234 case H264NALU::kSliceDataB:
235 case H264NALU::kSliceDataC:
236 case H264NALU::kIDRSlice:
237 if (order_state > kAfterFirstVCL) {
238 DVLOG(1) << "Unexpected VCL in order_state " << order_state;
239 return false;
240 }
241 order_state = kAfterFirstVCL;
242 break;
243
244 case H264NALU::kCodedSliceAux:
245 if (order_state != kAfterFirstVCL) {
246 DVLOG(1) << "Unexpected extension in order_state " << order_state;
247 return false;
248 }
249 break;
250
251 case H264NALU::kEOSeq:
252 if (order_state != kAfterFirstVCL) {
253 DVLOG(1) << "Unexpected EOSeq in order_state " << order_state;
254 return false;
255 }
256 order_state = kEOStreamAllowed;
257 break;
258
259 case H264NALU::kEOStream:
260 if (order_state < kAfterFirstVCL) {
261 DVLOG(1) << "Unexpected EOStream in order_state " << order_state;
262 return false;
263 }
264 order_state = kNoMoreDataAllowed;
265 break;
266
267 case H264NALU::kFiller:
268 case H264NALU::kUnspecified:
269 if (!(order_state >= kAfterFirstVCL &&
270 order_state < kEOStreamAllowed)) {
271 DVLOG(1) << "Unexpected NALU type " << nalu.nal_unit_type
272 << " in order_state " << order_state;
273 return false;
274 }
275 break;
276
277 default:
278 DCHECK_GE(nalu.nal_unit_type, 20);
279 if (nalu.nal_unit_type >= 20 && nalu.nal_unit_type <= 31 &&
280 order_state != kAfterFirstVCL) {
281 DVLOG(1) << "Unexpected NALU type " << nalu.nal_unit_type
282 << " in order_state " << order_state;
283 return false;
284 }
285 }
286 last_nalu_type = nalu.nal_unit_type;
287 break;
288
289 case H264Parser::kInvalidStream:
290 return false;
291
292 case H264Parser::kUnsupportedStream:
293 NOTREACHED() << "AdvanceToNextNALU() returned kUnsupportedStream!";
294 return false;
295
296 case H264Parser::kEOStream:
297 done = true;
298 }
299 }
300
301 return order_state >= kAfterFirstVCL;
302 }
303
90 } // namespace mp4 304 } // namespace mp4
91 } // namespace media 305 } // namespace media
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