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1 /*
2  *  Copyright (c) 2014 The WebRTC project authors. All Rights Reserved.
3  *
4  *  Use of this source code is governed by a BSD-style license
5  *  that can be found in the LICENSE file in the root of the source
6  *  tree. An additional intellectual property rights grant can be found
7  *  in the file PATENTS.  All contributing project authors may
8  *  be found in the AUTHORS file in the root of the source tree.
9  */
10 
11 // Based on the WAV file format documentation at
12 // https://ccrma.stanford.edu/courses/422/projects/WaveFormat/ and
13 // http://www-mmsp.ece.mcgill.ca/Documents/AudioFormats/WAVE/WAVE.html
14 
15 #include "webrtc/common_audio/wav_header.h"
16 
17 #include <algorithm>
18 #include <cstring>
19 #include <limits>
20 #include <string>
21 
22 #include "webrtc/base/checks.h"
23 #include "webrtc/common_audio/include/audio_util.h"
24 
25 namespace webrtc {
26 namespace {
27 
28 struct ChunkHeader {
29   uint32_t ID;
30   uint32_t Size;
31 };
32 static_assert(sizeof(ChunkHeader) == 8, "ChunkHeader size");
33 
34 // We can't nest this definition in WavHeader, because VS2013 gives an error
35 // on sizeof(WavHeader::fmt): "error C2070: 'unknown': illegal sizeof operand".
36 struct FmtSubchunk {
37   ChunkHeader header;
38   uint16_t AudioFormat;
39   uint16_t NumChannels;
40   uint32_t SampleRate;
41   uint32_t ByteRate;
42   uint16_t BlockAlign;
43   uint16_t BitsPerSample;
44 };
45 static_assert(sizeof(FmtSubchunk) == 24, "FmtSubchunk size");
46 const uint32_t kFmtSubchunkSize = sizeof(FmtSubchunk) - sizeof(ChunkHeader);
47 
48 struct WavHeader {
49   struct {
50     ChunkHeader header;
51     uint32_t Format;
52   } riff;
53   FmtSubchunk fmt;
54   struct {
55     ChunkHeader header;
56   } data;
57 };
58 static_assert(sizeof(WavHeader) == kWavHeaderSize, "no padding in header");
59 
60 }  // namespace
61 
CheckWavParameters(size_t num_channels,int sample_rate,WavFormat format,size_t bytes_per_sample,size_t num_samples)62 bool CheckWavParameters(size_t num_channels,
63                         int sample_rate,
64                         WavFormat format,
65                         size_t bytes_per_sample,
66                         size_t num_samples) {
67   // num_channels, sample_rate, and bytes_per_sample must be positive, must fit
68   // in their respective fields, and their product must fit in the 32-bit
69   // ByteRate field.
70   if (num_channels == 0 || sample_rate <= 0 || bytes_per_sample == 0)
71     return false;
72   if (static_cast<uint64_t>(sample_rate) > std::numeric_limits<uint32_t>::max())
73     return false;
74   if (num_channels > std::numeric_limits<uint16_t>::max())
75     return false;
76   if (static_cast<uint64_t>(bytes_per_sample) * 8 >
77       std::numeric_limits<uint16_t>::max())
78     return false;
79   if (static_cast<uint64_t>(sample_rate) * num_channels * bytes_per_sample >
80       std::numeric_limits<uint32_t>::max())
81     return false;
82 
83   // format and bytes_per_sample must agree.
84   switch (format) {
85     case kWavFormatPcm:
86       // Other values may be OK, but for now we're conservative:
87       if (bytes_per_sample != 1 && bytes_per_sample != 2)
88         return false;
89       break;
90     case kWavFormatALaw:
91     case kWavFormatMuLaw:
92       if (bytes_per_sample != 1)
93         return false;
94       break;
95     default:
96       return false;
97   }
98 
99   // The number of bytes in the file, not counting the first ChunkHeader, must
100   // be less than 2^32; otherwise, the ChunkSize field overflows.
101   const size_t header_size = kWavHeaderSize - sizeof(ChunkHeader);
102   const size_t max_samples =
103       (std::numeric_limits<uint32_t>::max() - header_size) / bytes_per_sample;
104   if (num_samples > max_samples)
105     return false;
106 
107   // Each channel must have the same number of samples.
108   if (num_samples % num_channels != 0)
109     return false;
110 
111   return true;
112 }
113 
114 #ifdef WEBRTC_ARCH_LITTLE_ENDIAN
WriteLE16(uint16_t * f,uint16_t x)115 static inline void WriteLE16(uint16_t* f, uint16_t x) { *f = x; }
WriteLE32(uint32_t * f,uint32_t x)116 static inline void WriteLE32(uint32_t* f, uint32_t x) { *f = x; }
WriteFourCC(uint32_t * f,char a,char b,char c,char d)117 static inline void WriteFourCC(uint32_t* f, char a, char b, char c, char d) {
118   *f = static_cast<uint32_t>(a)
119       | static_cast<uint32_t>(b) << 8
120       | static_cast<uint32_t>(c) << 16
121       | static_cast<uint32_t>(d) << 24;
122 }
123 
ReadLE16(uint16_t x)124 static inline uint16_t ReadLE16(uint16_t x) { return x; }
ReadLE32(uint32_t x)125 static inline uint32_t ReadLE32(uint32_t x) { return x; }
ReadFourCC(uint32_t x)126 static inline std::string ReadFourCC(uint32_t x) {
127   return std::string(reinterpret_cast<char*>(&x), 4);
128 }
129 #else
130 #error "Write be-to-le conversion functions"
131 #endif
132 
RiffChunkSize(size_t bytes_in_payload)133 static inline uint32_t RiffChunkSize(size_t bytes_in_payload) {
134   return static_cast<uint32_t>(
135       bytes_in_payload + kWavHeaderSize - sizeof(ChunkHeader));
136 }
137 
ByteRate(size_t num_channels,int sample_rate,size_t bytes_per_sample)138 static inline uint32_t ByteRate(size_t num_channels, int sample_rate,
139                                 size_t bytes_per_sample) {
140   return static_cast<uint32_t>(num_channels * sample_rate * bytes_per_sample);
141 }
142 
BlockAlign(size_t num_channels,size_t bytes_per_sample)143 static inline uint16_t BlockAlign(size_t num_channels,
144                                   size_t bytes_per_sample) {
145   return static_cast<uint16_t>(num_channels * bytes_per_sample);
146 }
147 
WriteWavHeader(uint8_t * buf,size_t num_channels,int sample_rate,WavFormat format,size_t bytes_per_sample,size_t num_samples)148 void WriteWavHeader(uint8_t* buf,
149                     size_t num_channels,
150                     int sample_rate,
151                     WavFormat format,
152                     size_t bytes_per_sample,
153                     size_t num_samples) {
154   RTC_CHECK(CheckWavParameters(num_channels, sample_rate, format,
155                                bytes_per_sample, num_samples));
156 
157   WavHeader header;
158   const size_t bytes_in_payload = bytes_per_sample * num_samples;
159 
160   WriteFourCC(&header.riff.header.ID, 'R', 'I', 'F', 'F');
161   WriteLE32(&header.riff.header.Size, RiffChunkSize(bytes_in_payload));
162   WriteFourCC(&header.riff.Format, 'W', 'A', 'V', 'E');
163 
164   WriteFourCC(&header.fmt.header.ID, 'f', 'm', 't', ' ');
165   WriteLE32(&header.fmt.header.Size, kFmtSubchunkSize);
166   WriteLE16(&header.fmt.AudioFormat, format);
167   WriteLE16(&header.fmt.NumChannels, static_cast<uint16_t>(num_channels));
168   WriteLE32(&header.fmt.SampleRate, sample_rate);
169   WriteLE32(&header.fmt.ByteRate, ByteRate(num_channels, sample_rate,
170                                            bytes_per_sample));
171   WriteLE16(&header.fmt.BlockAlign, BlockAlign(num_channels, bytes_per_sample));
172   WriteLE16(&header.fmt.BitsPerSample,
173             static_cast<uint16_t>(8 * bytes_per_sample));
174 
175   WriteFourCC(&header.data.header.ID, 'd', 'a', 't', 'a');
176   WriteLE32(&header.data.header.Size, static_cast<uint32_t>(bytes_in_payload));
177 
178   // Do an extra copy rather than writing everything to buf directly, since buf
179   // might not be correctly aligned.
180   memcpy(buf, &header, kWavHeaderSize);
181 }
182 
ReadWavHeader(ReadableWav * readable,size_t * num_channels,int * sample_rate,WavFormat * format,size_t * bytes_per_sample,size_t * num_samples)183 bool ReadWavHeader(ReadableWav* readable,
184                    size_t* num_channels,
185                    int* sample_rate,
186                    WavFormat* format,
187                    size_t* bytes_per_sample,
188                    size_t* num_samples) {
189   WavHeader header;
190   if (readable->Read(&header, kWavHeaderSize - sizeof(header.data)) !=
191       kWavHeaderSize - sizeof(header.data))
192     return false;
193 
194   const uint32_t fmt_size = ReadLE32(header.fmt.header.Size);
195   if (fmt_size != kFmtSubchunkSize) {
196     // There is an optional two-byte extension field permitted to be present
197     // with PCM, but which must be zero.
198     int16_t ext_size;
199     if (kFmtSubchunkSize + sizeof(ext_size) != fmt_size)
200       return false;
201     if (readable->Read(&ext_size, sizeof(ext_size)) != sizeof(ext_size))
202       return false;
203     if (ext_size != 0)
204       return false;
205   }
206   if (readable->Read(&header.data, sizeof(header.data)) != sizeof(header.data))
207     return false;
208 
209   // Parse needed fields.
210   *format = static_cast<WavFormat>(ReadLE16(header.fmt.AudioFormat));
211   *num_channels = ReadLE16(header.fmt.NumChannels);
212   *sample_rate = ReadLE32(header.fmt.SampleRate);
213   *bytes_per_sample = ReadLE16(header.fmt.BitsPerSample) / 8;
214   const size_t bytes_in_payload = ReadLE32(header.data.header.Size);
215   if (*bytes_per_sample == 0)
216     return false;
217   *num_samples = bytes_in_payload / *bytes_per_sample;
218 
219   // Sanity check remaining fields.
220   if (ReadFourCC(header.riff.header.ID) != "RIFF")
221     return false;
222   if (ReadFourCC(header.riff.Format) != "WAVE")
223     return false;
224   if (ReadFourCC(header.fmt.header.ID) != "fmt ")
225     return false;
226   if (ReadFourCC(header.data.header.ID) != "data")
227     return false;
228 
229   if (ReadLE32(header.riff.header.Size) < RiffChunkSize(bytes_in_payload))
230     return false;
231   if (ReadLE32(header.fmt.ByteRate) !=
232       ByteRate(*num_channels, *sample_rate, *bytes_per_sample))
233     return false;
234   if (ReadLE16(header.fmt.BlockAlign) !=
235       BlockAlign(*num_channels, *bytes_per_sample))
236     return false;
237 
238   return CheckWavParameters(*num_channels, *sample_rate, *format,
239                             *bytes_per_sample, *num_samples);
240 }
241 
242 
243 }  // namespace webrtc
244