1 /*
2 * Copyright (c) 2012 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 #include "webrtc/voice_engine/dtmf_inband.h"
12
13 #include <assert.h>
14
15 #include "webrtc/system_wrappers/interface/critical_section_wrapper.h"
16 #include "webrtc/system_wrappers/interface/trace.h"
17
18 namespace webrtc {
19
20 const int16_t Dtmf_a_times2Tab8Khz[8]=
21 {
22 27978, 26956, 25701, 24219,
23 19073, 16325, 13085, 9314
24 };
25
26 const int16_t Dtmf_a_times2Tab16Khz[8]=
27 {
28 31548, 31281, 30951, 30556,
29 29144, 28361, 27409, 26258
30 };
31
32 const int16_t Dtmf_a_times2Tab32Khz[8]=
33 {
34 32462,32394, 32311, 32210, 31849, 31647, 31400, 31098
35 };
36
37 // Second table is sin(2*pi*f/fs) in Q14
38
39 const int16_t Dtmf_ym2Tab8Khz[8]=
40 {
41 8527, 9315, 10163, 11036,
42 13322, 14206, 15021, 15708
43 };
44
45 const int16_t Dtmf_ym2Tab16Khz[8]=
46 {
47 4429, 4879, 5380, 5918,
48 7490, 8207, 8979, 9801
49 };
50
51 const int16_t Dtmf_ym2Tab32Khz[8]=
52 {
53 2235, 2468, 2728, 3010, 3853, 4249, 4685, 5164
54 };
55
56 const int16_t Dtmf_dBm0kHz[37]=
57 {
58 16141, 14386, 12821, 11427, 10184, 9077,
59 8090, 7210, 6426, 5727, 5104, 4549,
60 4054, 3614, 3221, 2870, 2558, 2280,
61 2032, 1811, 1614, 1439, 1282, 1143,
62 1018, 908, 809, 721, 643, 573,
63 510, 455, 405, 361, 322, 287,
64 256
65 };
66
67
DtmfInband(int32_t id)68 DtmfInband::DtmfInband(int32_t id) :
69 _critSect(*CriticalSectionWrapper::CreateCriticalSection()),
70 _id(id),
71 _outputFrequencyHz(8000),
72 _frameLengthSamples(0),
73 _remainingSamples(0),
74 _eventCode(0),
75 _attenuationDb(0),
76 _lengthMs(0),
77 _reinit(true),
78 _playing(false),
79 _delaySinceLastToneMS(1000)
80 {
81 memset(_oldOutputLow, 0, sizeof(_oldOutputLow));
82 memset(_oldOutputHigh, 0, sizeof(_oldOutputHigh));
83 }
84
~DtmfInband()85 DtmfInband::~DtmfInband()
86 {
87 delete &_critSect;
88 }
89
90 int
SetSampleRate(uint16_t frequency)91 DtmfInband::SetSampleRate(uint16_t frequency)
92 {
93 if (frequency != 8000 &&
94 frequency != 16000 &&
95 frequency != 32000)
96 {
97 // invalid sample rate
98 assert(false);
99 return -1;
100 }
101 _outputFrequencyHz = frequency;
102 return 0;
103 }
104
105 int
GetSampleRate(uint16_t & frequency)106 DtmfInband::GetSampleRate(uint16_t& frequency)
107 {
108 frequency = _outputFrequencyHz;
109 return 0;
110 }
111
112 void
Init()113 DtmfInband::Init()
114 {
115 _remainingSamples = 0;
116 _frameLengthSamples = 0;
117 _eventCode = 0;
118 _attenuationDb = 0;
119 _lengthMs = 0;
120 _reinit = true;
121 _oldOutputLow[0] = 0;
122 _oldOutputLow[1] = 0;
123 _oldOutputHigh[0] = 0;
124 _oldOutputHigh[1] = 0;
125 _delaySinceLastToneMS = 1000;
126 }
127
128 int
AddTone(uint8_t eventCode,int32_t lengthMs,int32_t attenuationDb)129 DtmfInband::AddTone(uint8_t eventCode,
130 int32_t lengthMs,
131 int32_t attenuationDb)
132 {
133 CriticalSectionScoped lock(&_critSect);
134
135 if (attenuationDb > 36 || eventCode > 15)
136 {
137 assert(false);
138 return -1;
139 }
140
141 if (IsAddingTone())
142 {
143 WEBRTC_TRACE(kTraceWarning, kTraceVoice, VoEId(_id,-1),
144 "DtmfInband::AddTone() new tone interrupts ongoing tone");
145 }
146
147 ReInit();
148
149 _frameLengthSamples = static_cast<int16_t> (_outputFrequencyHz / 100);
150 _eventCode = static_cast<int16_t> (eventCode);
151 _attenuationDb = static_cast<int16_t> (attenuationDb);
152 _remainingSamples = static_cast<int32_t>
153 (lengthMs * (_outputFrequencyHz / 1000));
154 _lengthMs = lengthMs;
155
156 return 0;
157 }
158
159 int
ResetTone()160 DtmfInband::ResetTone()
161 {
162 CriticalSectionScoped lock(&_critSect);
163
164 ReInit();
165
166 _frameLengthSamples = static_cast<int16_t> (_outputFrequencyHz / 100);
167 _remainingSamples = static_cast<int32_t>
168 (_lengthMs * (_outputFrequencyHz / 1000));
169
170 return 0;
171 }
172
173 int
StartTone(uint8_t eventCode,int32_t attenuationDb)174 DtmfInband::StartTone(uint8_t eventCode,
175 int32_t attenuationDb)
176 {
177 CriticalSectionScoped lock(&_critSect);
178
179 if (attenuationDb > 36 || eventCode > 15)
180 {
181 assert(false);
182 return -1;
183 }
184
185 if (IsAddingTone())
186 {
187 return -1;
188 }
189
190 ReInit();
191
192 _frameLengthSamples = static_cast<int16_t> (_outputFrequencyHz / 100);
193 _eventCode = static_cast<int16_t> (eventCode);
194 _attenuationDb = static_cast<int16_t> (attenuationDb);
195 _playing = true;
196
197 return 0;
198 }
199
200 int
StopTone()201 DtmfInband::StopTone()
202 {
203 CriticalSectionScoped lock(&_critSect);
204
205 if (!_playing)
206 {
207 return 0;
208 }
209
210 _playing = false;
211
212 return 0;
213 }
214
215 // Shall be called between tones
216 void
ReInit()217 DtmfInband::ReInit()
218 {
219 _reinit = true;
220 }
221
222 bool
IsAddingTone()223 DtmfInband::IsAddingTone()
224 {
225 CriticalSectionScoped lock(&_critSect);
226 return (_remainingSamples > 0 || _playing);
227 }
228
229 int
Get10msTone(int16_t output[320],uint16_t & outputSizeInSamples)230 DtmfInband::Get10msTone(int16_t output[320],
231 uint16_t& outputSizeInSamples)
232 {
233 CriticalSectionScoped lock(&_critSect);
234 if (DtmfFix_generate(output,
235 _eventCode,
236 _attenuationDb,
237 _frameLengthSamples,
238 _outputFrequencyHz) == -1)
239 {
240 return -1;
241 }
242 _remainingSamples -= _frameLengthSamples;
243 outputSizeInSamples = _frameLengthSamples;
244 _delaySinceLastToneMS = 0;
245 return 0;
246 }
247
248 void
UpdateDelaySinceLastTone()249 DtmfInband::UpdateDelaySinceLastTone()
250 {
251 _delaySinceLastToneMS += kDtmfFrameSizeMs;
252 // avoid wraparound
253 if (_delaySinceLastToneMS > (1<<30))
254 {
255 _delaySinceLastToneMS = 1000;
256 }
257 }
258
259 uint32_t
DelaySinceLastTone() const260 DtmfInband::DelaySinceLastTone() const
261 {
262 return _delaySinceLastToneMS;
263 }
264
265 int16_t
DtmfFix_generate(int16_t * decoded,int16_t value,int16_t volume,int16_t frameLen,int16_t fs)266 DtmfInband::DtmfFix_generate(int16_t *decoded,
267 int16_t value,
268 int16_t volume,
269 int16_t frameLen,
270 int16_t fs)
271 {
272 const int16_t *a_times2Tbl;
273 const int16_t *y2_Table;
274 int16_t a1_times2 = 0, a2_times2 = 0;
275
276 if (fs==8000) {
277 a_times2Tbl=Dtmf_a_times2Tab8Khz;
278 y2_Table=Dtmf_ym2Tab8Khz;
279 } else if (fs==16000) {
280 a_times2Tbl=Dtmf_a_times2Tab16Khz;
281 y2_Table=Dtmf_ym2Tab16Khz;
282 } else if (fs==32000) {
283 a_times2Tbl=Dtmf_a_times2Tab32Khz;
284 y2_Table=Dtmf_ym2Tab32Khz;
285 } else {
286 return(-1);
287 }
288
289 if ((value==1)||(value==2)||(value==3)||(value==12)) {
290 a1_times2=a_times2Tbl[0];
291 if (_reinit) {
292 _oldOutputLow[0]=y2_Table[0];
293 _oldOutputLow[1]=0;
294 }
295 } else if ((value==4)||(value==5)||(value==6)||(value==13)) {
296 a1_times2=a_times2Tbl[1];
297 if (_reinit) {
298 _oldOutputLow[0]=y2_Table[1];
299 _oldOutputLow[1]=0;
300 }
301 } else if ((value==7)||(value==8)||(value==9)||(value==14)) {
302 a1_times2=a_times2Tbl[2];
303 if (_reinit) {
304 _oldOutputLow[0]=y2_Table[2];
305 _oldOutputLow[1]=0;
306 }
307 } else if ((value==10)||(value==0)||(value==11)||(value==15)) {
308 a1_times2=a_times2Tbl[3];
309 if (_reinit) {
310 _oldOutputLow[0]=y2_Table[3];
311 _oldOutputLow[1]=0;
312 }
313 }
314 if ((value==1)||(value==4)||(value==7)||(value==10)) {
315 a2_times2=a_times2Tbl[4];
316 if (_reinit) {
317 _oldOutputHigh[0]=y2_Table[4];
318 _oldOutputHigh[1]=0;
319 _reinit=false;
320 }
321 } else if ((value==2)||(value==5)||(value==8)||(value==0)) {
322 a2_times2=a_times2Tbl[5];
323 if (_reinit) {
324 _oldOutputHigh[0]=y2_Table[5];
325 _oldOutputHigh[1]=0;
326 _reinit=false;
327 }
328 } else if ((value==3)||(value==6)||(value==9)||(value==11)) {
329 a2_times2=a_times2Tbl[6];
330 if (_reinit) {
331 _oldOutputHigh[0]=y2_Table[6];
332 _oldOutputHigh[1]=0;
333 _reinit=false;
334 }
335 } else if ((value==12)||(value==13)||(value==14)||(value==15)) {
336 a2_times2=a_times2Tbl[7];
337 if (_reinit) {
338 _oldOutputHigh[0]=y2_Table[7];
339 _oldOutputHigh[1]=0;
340 _reinit=false;
341 }
342 }
343
344 return (DtmfFix_generateSignal(a1_times2,
345 a2_times2,
346 volume,
347 decoded,
348 frameLen));
349 }
350
351 int16_t
DtmfFix_generateSignal(int16_t a1_times2,int16_t a2_times2,int16_t volume,int16_t * signal,int16_t length)352 DtmfInband::DtmfFix_generateSignal(int16_t a1_times2,
353 int16_t a2_times2,
354 int16_t volume,
355 int16_t *signal,
356 int16_t length)
357 {
358 int i;
359
360 /* Generate Signal */
361 for (i=0;i<length;i++) {
362 int32_t tempVal;
363 int16_t tempValLow, tempValHigh;
364
365 /* Use recursion formula y[n] = a*2*y[n-1] - y[n-2] */
366 tempValLow = (int16_t)(((( (int32_t)(a1_times2 *
367 _oldOutputLow[1])) + 8192) >> 14) - _oldOutputLow[0]);
368 tempValHigh = (int16_t)(((( (int32_t)(a2_times2 *
369 _oldOutputHigh[1])) + 8192) >> 14) - _oldOutputHigh[0]);
370
371 /* Update memory */
372 _oldOutputLow[0]=_oldOutputLow[1];
373 _oldOutputLow[1]=tempValLow;
374 _oldOutputHigh[0]=_oldOutputHigh[1];
375 _oldOutputHigh[1]=tempValHigh;
376
377 tempVal = (int32_t)(kDtmfAmpLow * tempValLow) +
378 (int32_t)(kDtmfAmpHigh * tempValHigh);
379
380 /* Norm the signal to Q14 */
381 tempVal=(tempVal+16384)>>15;
382
383 /* Scale the signal to correct dbM0 value */
384 signal[i]=(int16_t)((tempVal*Dtmf_dBm0kHz[volume]+8192)>>14);
385 }
386
387 return(0);
388 }
389
390 } // namespace webrtc
391