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Defines | |
#define | DSP_DIGITMODE_DTMF 0 |
#define | DSP_DIGITMODE_MF 1 |
#define | DSP_DIGITMODE_MUTECONF (1 << 9) |
#define | DSP_DIGITMODE_MUTEMAX (1 << 10) |
#define | DSP_DIGITMODE_NOQUELCH (1 << 8) |
#define | DSP_DIGITMODE_RELAXDTMF (1 << 11) |
#define | DSP_FAXMODE_DETECT_ALL (DSP_FAXMODE_DETECT_CNG | DSP_FAXMODE_DETECT_CED) |
#define | DSP_FAXMODE_DETECT_CED (1 << 1) |
#define | DSP_FAXMODE_DETECT_CNG (1 << 0) |
#define | DSP_FEATURE_BUSY_DETECT (1 << 1) |
#define | DSP_FEATURE_CALL_PROGRESS (DSP_PROGRESS_TALK | DSP_PROGRESS_RINGING | DSP_PROGRESS_BUSY | DSP_PROGRESS_CONGESTION) |
#define | DSP_FEATURE_DIGIT_DETECT (1 << 3) |
#define | DSP_FEATURE_FAX_DETECT (1 << 4) |
#define | DSP_FEATURE_SILENCE_SUPPRESS (1 << 0) |
#define | DSP_PROGRESS_BUSY (1 << 18) |
#define | DSP_PROGRESS_CONGESTION (1 << 19) |
#define | DSP_PROGRESS_RINGING (1 << 17) |
#define | DSP_PROGRESS_TALK (1 << 16) |
#define | DSP_TONE_STATE_BUSY 4 |
#define | DSP_TONE_STATE_DIALTONE 2 |
#define | DSP_TONE_STATE_HUNGUP 8 |
#define | DSP_TONE_STATE_RINGING 1 |
#define | DSP_TONE_STATE_SILENCE 0 |
#define | DSP_TONE_STATE_SPECIAL1 5 |
#define | DSP_TONE_STATE_SPECIAL2 6 |
#define | DSP_TONE_STATE_SPECIAL3 7 |
#define | DSP_TONE_STATE_TALKING 3 |
Enumerations | |
enum | threshold { THRESHOLD_SILENCE = 0, THRESHOLD_MAX = 1 } |
Functions | |
int | ast_dsp_busydetect (struct ast_dsp *dsp) |
Return non-zero if historically this should be a busy, request that ast_dsp_silence has already been called. | |
int | ast_dsp_call_progress (struct ast_dsp *dsp, struct ast_frame *inf) |
Scans for progress indication in audio. | |
int | ast_dsp_digitdetect (struct ast_dsp *dsp, struct ast_frame *f) |
Return non-zero if DTMF hit was found. | |
void | ast_dsp_digitreset (struct ast_dsp *dsp) |
Reset DTMF detector. | |
void | ast_dsp_free (struct ast_dsp *dsp) |
int | ast_dsp_get_tcount (struct ast_dsp *dsp) |
Get tcount (Threshold counter). | |
int | ast_dsp_get_threshold_from_settings (enum threshold which) |
Get silence threshold from dsp.conf. | |
int | ast_dsp_get_tstate (struct ast_dsp *dsp) |
Get tstate (Tone State). | |
int | ast_dsp_getdigits (struct ast_dsp *dsp, char *buf, int max) |
Get pending DTMF/MF digits. | |
int | ast_dsp_init (void) |
Load dsp settings from dsp.conf. | |
ast_dsp * | ast_dsp_new (void) |
int | ast_dsp_noise (struct ast_dsp *dsp, struct ast_frame *f, int *totalnoise) |
Return non-zero if this is noise. Updates "totalnoise" with the total number of seconds of noise. | |
ast_frame * | ast_dsp_process (struct ast_channel *chan, struct ast_dsp *dsp, struct ast_frame *inf) |
Return AST_FRAME_NULL frames when there is silence, AST_FRAME_BUSY on busies, and call progress, all dependent upon which features are enabled. | |
int | ast_dsp_reload (void) |
Reloads dsp settings from dsp.conf. | |
void | ast_dsp_reset (struct ast_dsp *dsp) |
Reset total silence count. | |
void | ast_dsp_set_busy_compare (struct ast_dsp *dsp, int compare) |
Set if silence and noice lengths must be compared for busy. | |
void | ast_dsp_set_busy_count (struct ast_dsp *dsp, int cadences) |
Set number of required cadences for busy. | |
void | ast_dsp_set_busy_pattern (struct ast_dsp *dsp, int tonelength, int quietlength, int fuzzy) |
Set expected lengths of the busy tones. | |
int | ast_dsp_set_call_progress_zone (struct ast_dsp *dsp, char *zone) |
Set zone for doing progress detection. | |
int | ast_dsp_set_digitmode (struct ast_dsp *dsp, int digitmode) |
Set digit mode. | |
int | ast_dsp_set_faxmode (struct ast_dsp *dsp, int faxmode) |
Set fax mode. | |
void | ast_dsp_set_features (struct ast_dsp *dsp, int features) |
Select feature set. | |
void | ast_dsp_set_threshold (struct ast_dsp *dsp, int threshold) |
Set threshold value for silence. | |
int | ast_dsp_silence (struct ast_dsp *dsp, struct ast_frame *f, int *totalsilence) |
Return non-zero if this is silence. Updates "totalsilence" with the total number of seconds of silence. | |
int | ast_dsp_was_muted (struct ast_dsp *dsp) |
Returns true if DSP code was muting any fragment of the last processed frame. Muting (squelching) happens when DSP code removes DTMF/MF/generic tones from the audio. |
Definition in file dsp.h.
#define DSP_DIGITMODE_DTMF 0 |
Detect DTMF digits
Definition at line 31 of file dsp.h.
Referenced by ast_dsp_new(), ast_dsp_set_digitmode(), dahdi_hangup(), dahdi_new(), dahdi_setoption(), sip_new(), ss_thread(), and store_config().
#define DSP_DIGITMODE_MF 1 |
#define DSP_DIGITMODE_MUTECONF (1 << 9) |
Mute conference
Definition at line 35 of file dsp.h.
Referenced by ast_dsp_set_digitmode(), dahdi_setoption(), and store_config().
#define DSP_DIGITMODE_MUTEMAX (1 << 10) |
Delay audio by a frame to try to extra quelch
Definition at line 36 of file dsp.h.
Referenced by ast_dsp_set_digitmode(), and dahdi_setoption().
#define DSP_DIGITMODE_NOQUELCH (1 << 8) |
#define DSP_DIGITMODE_RELAXDTMF (1 << 11) |
"Radio" mode (relaxed DTMF)
Definition at line 37 of file dsp.h.
Referenced by dahdi_setoption(), sip_new(), and store_config().
#define DSP_FAXMODE_DETECT_ALL (DSP_FAXMODE_DETECT_CNG | DSP_FAXMODE_DETECT_CED) |
#define DSP_FEATURE_BUSY_DETECT (1 << 1) |
#define DSP_FEATURE_CALL_PROGRESS (DSP_PROGRESS_TALK | DSP_PROGRESS_RINGING | DSP_PROGRESS_BUSY | DSP_PROGRESS_CONGESTION) |
#define DSP_FEATURE_DIGIT_DETECT (1 << 3) |
Definition at line 28 of file dsp.h.
Referenced by __oh323_new(), dahdi_new(), disable_dtmf_detect(), enable_dtmf_detect(), mgcp_new(), misdn_set_opt_exec(), read_config(), sip_dtmfmode(), sip_new(), sip_rtp_read(), and store_config().
#define DSP_FEATURE_FAX_DETECT (1 << 4) |
Definition at line 29 of file dsp.h.
Referenced by dahdi_new(), misdn_set_opt_exec(), read_config(), and sip_new().
#define DSP_FEATURE_SILENCE_SUPPRESS (1 << 0) |
#define DSP_PROGRESS_CONGESTION (1 << 19) |
#define DSP_PROGRESS_RINGING (1 << 17) |
#define DSP_PROGRESS_TALK (1 << 16) |
#define DSP_TONE_STATE_BUSY 4 |
#define DSP_TONE_STATE_RINGING 1 |
#define DSP_TONE_STATE_SILENCE 0 |
enum threshold |
Definition at line 61 of file dsp.h.
00061 { 00062 /* Array offsets */ 00063 THRESHOLD_SILENCE = 0, 00064 /* Always the last */ 00065 THRESHOLD_MAX = 1, 00066 };
int ast_dsp_busydetect | ( | struct ast_dsp * | dsp | ) |
Return non-zero if historically this should be a busy, request that ast_dsp_silence has already been called.
Definition at line 1149 of file dsp.c.
References ast_debug, ast_log(), buf, BUSY_MAX, BUSY_MIN, ast_dsp::busy_pattern_fuzzy, BUSY_PERCENT, ast_dsp::busy_quietlength, ast_dsp::busy_tonelength, ast_dsp::busycompare, ast_dsp::busycount, ast_dsp::busymaybe, ast_dsp::busytoneonly, DSP_HISTORY, ast_dsp::historicnoise, ast_dsp::historicsilence, LOG_ERROR, LOG_NOTICE, and option_debug.
01150 { 01151 int res = 0, x; 01152 int avgsilence = 0, hitsilence = 0; 01153 int avgtone = 0, hittone = 0; 01154 #ifdef DEBUG_DSP_BUSYDETECT 01155 char buf[16]; 01156 char silence_list[64]="", tone_list[64]=""; 01157 #endif 01158 01159 if (!dsp->busymaybe) 01160 return res; 01161 dsp->busymaybe = 0; 01162 01163 for (x=DSP_HISTORY - dsp->busycount;x<DSP_HISTORY;x++) { 01164 avgsilence += dsp->historicsilence[x]; 01165 avgtone += dsp->historicnoise[x]; 01166 } 01167 avgsilence /= dsp->busycount; 01168 avgtone /= dsp->busycount; 01169 #ifdef DEBUG_DSP_BUSYDETECT 01170 sprintf(silence_list,"Silences: "); 01171 sprintf(tone_list,"Tones: "); 01172 #endif 01173 for (x=DSP_HISTORY - dsp->busycount; x<DSP_HISTORY; x++) { 01174 #ifdef DEBUG_DSP_BUSYDETECT 01175 snprintf(buf, sizeof(buf), "%5d ", dsp->historicsilence[x]); 01176 strcat(silence_list, buf); 01177 snprintf(buf, sizeof(buf), "%5d ", dsp->historicnoise[x]); 01178 strcat(tone_list, buf); 01179 #endif 01180 if (!dsp->busytoneonly) { 01181 if (avgsilence > dsp->historicsilence[x]) { 01182 if (avgsilence - (avgsilence*BUSY_PERCENT/100) <= dsp->historicsilence[x]) 01183 hitsilence++; 01184 } else { 01185 if (avgsilence + (avgsilence*BUSY_PERCENT/100) >= dsp->historicsilence[x]) 01186 hitsilence++; 01187 } 01188 } 01189 if (avgtone > dsp->historicnoise[x]) { 01190 if (avgtone - (avgtone*BUSY_PERCENT/100) <= dsp->historicnoise[x]) 01191 hittone++; 01192 } else { 01193 if (avgtone + (avgtone*BUSY_PERCENT/100) >= dsp->historicnoise[x]) 01194 hittone++; 01195 } 01196 } 01197 #ifdef DEBUG_DSP_BUSYDETECT 01198 fprintf(stderr, "BUSY DETECTOR\n"); 01199 fprintf(stderr, "%s\n", tone_list); 01200 fprintf(stderr, "%s\n", silence_list) 01201 #endif 01202 if ((dsp->busytoneonly || 01203 (hitsilence >= dsp->busycount - 1 && avgsilence >= BUSY_MIN && avgsilence <= BUSY_MAX)) && 01204 (hittone >= dsp->busycount - 1 && avgtone >= BUSY_MIN && avgtone <= BUSY_MAX)) { 01205 if (dsp->busycompare) { 01206 if (dsp->busytoneonly) { 01207 res = 1; 01208 ast_log(LOG_ERROR, "You can't use busytoneonly together with busycompare"); 01209 } else { 01210 if (avgtone > avgsilence) { 01211 if (avgtone - avgtone*BUSY_PERCENT/100 <= avgsilence) 01212 res = 1; 01213 } else { 01214 if (avgtone + avgtone*BUSY_PERCENT/100 >= avgsilence) 01215 res = 1; 01216 } 01217 } 01218 } else { 01219 res = 1; 01220 } 01221 } 01222 /* If we know the expected busy tone length, check we are in the range */ 01223 if (res && (dsp->busy_tonelength > 0)) { 01224 if (abs(avgtone - dsp->busy_tonelength) > (dsp->busy_tonelength*dsp->busy_pattern_fuzzy/100)) { 01225 #ifdef BUSYDETECT_DEBUG 01226 ast_debug(5, "busy detector: avgtone of %d not close enough to desired %d\n", avgtone, dsp->busy_tonelength); 01227 #endif 01228 res = 0; 01229 } 01230 } 01231 /* If we know the expected busy tone silent-period length, check we are in the range */ 01232 if (res && (!dsp->busytoneonly) && (dsp->busy_quietlength > 0)) { 01233 if (abs(avgsilence - dsp->busy_quietlength) > (dsp->busy_quietlength*dsp->busy_pattern_fuzzy/100)) { 01234 #ifdef BUSYDETECT_DEBUG 01235 ast_debug(5, "busy detector: avgsilence of %d not close enough to desired %d\n", avgsilence, dsp->busy_quietlength); 01236 #endif 01237 res = 0; 01238 } 01239 } 01240 if (res) { 01241 if (option_debug) 01242 ast_log(LOG_NOTICE, "ast_dsp_busydetect detected busy sequence, avgtone: %d, avgsilence %d\n", avgtone, avgsilence); 01243 } else { 01244 ast_debug(5, "busy detector: FAILED with avgtone: %d, avgsilence %d\n", avgtone, avgsilence); 01245 } 01246 return res; 01247 }
Scans for progress indication in audio.
Definition at line 1077 of file dsp.c.
References __ast_dsp_call_progress(), AST_FORMAT_SLINEAR, AST_FRAME_VOICE, ast_log(), ast_frame::data, ast_frame::datalen, ast_frame::frametype, LOG_WARNING, ast_frame::ptr, and ast_frame::subclass.
01078 { 01079 if (inf->frametype != AST_FRAME_VOICE) { 01080 ast_log(LOG_WARNING, "Can't check call progress of non-voice frames\n"); 01081 return 0; 01082 } 01083 if (inf->subclass != AST_FORMAT_SLINEAR) { 01084 ast_log(LOG_WARNING, "Can only check call progress in signed-linear frames\n"); 01085 return 0; 01086 } 01087 return __ast_dsp_call_progress(dsp, inf->data.ptr, inf->datalen / 2); 01088 }
Return non-zero if DTMF hit was found.
void ast_dsp_digitreset | ( | struct ast_dsp * | dsp | ) |
Reset DTMF detector.
Definition at line 1569 of file dsp.c.
References digit_detect_state_t::current_digits, ast_dsp::digit_state, ast_dsp::digitmode, digit_detect_state_t::digits, digit_detect_state_t::dtmf, ast_dsp::dtmf_began, goertzel_reset(), digit_detect_state_t::mf, s, and digit_detect_state_t::td.
Referenced by ss_thread().
01570 { 01571 int i; 01572 01573 dsp->dtmf_began = 0; 01574 if (dsp->digitmode & DSP_DIGITMODE_MF) { 01575 mf_detect_state_t *s = &dsp->digit_state.td.mf; 01576 /* Reinitialise the detector for the next block */ 01577 for (i = 0; i < 6; i++) { 01578 goertzel_reset(&s->tone_out[i]); 01579 } 01580 s->hits[4] = s->hits[3] = s->hits[2] = s->hits[1] = s->hits[0] = s->current_hit = 0; 01581 s->current_sample = 0; 01582 } else { 01583 dtmf_detect_state_t *s = &dsp->digit_state.td.dtmf; 01584 /* Reinitialise the detector for the next block */ 01585 for (i = 0; i < 4; i++) { 01586 goertzel_reset(&s->row_out[i]); 01587 goertzel_reset(&s->col_out[i]); 01588 } 01589 s->lasthit = s->current_hit = 0; 01590 s->energy = 0.0; 01591 s->current_sample = 0; 01592 s->hits = 0; 01593 s->misses = 0; 01594 } 01595 01596 dsp->digit_state.digits[0] = '\0'; 01597 dsp->digit_state.current_digits = 0; 01598 }
void ast_dsp_free | ( | struct ast_dsp * | dsp | ) |
Definition at line 1527 of file dsp.c.
References ast_free.
Referenced by __ast_play_and_record(), __oh323_destroy(), background_detect_exec(), cl_dequeue_chan(), cleanup_connection(), conf_run(), dahdi_hangup(), do_waiting(), handle_recordfile(), isAnsweringMachine(), mgcp_hangup(), sip_dtmfmode(), sip_hangup(), sip_rtp_read(), ss_thread(), and unload_module().
01528 { 01529 ast_free(dsp); 01530 }
int ast_dsp_get_tcount | ( | struct ast_dsp * | dsp | ) |
Get tcount (Threshold counter).
Definition at line 1661 of file dsp.c.
References ast_dsp::tcount.
01662 { 01663 return dsp->tcount; 01664 }
int ast_dsp_get_threshold_from_settings | ( | enum threshold | which | ) |
Get silence threshold from dsp.conf.
Definition at line 1688 of file dsp.c.
References thresholds.
Referenced by app_exec(), ast_record_review(), conf_run(), do_waiting(), handle_recordfile(), load_config(), and setup_privacy_args().
01689 { 01690 return thresholds[which]; 01691 }
int ast_dsp_get_tstate | ( | struct ast_dsp * | dsp | ) |
Get tstate (Tone State).
Definition at line 1656 of file dsp.c.
References ast_dsp::tstate.
01657 { 01658 return dsp->tstate; 01659 }
int ast_dsp_getdigits | ( | struct ast_dsp * | dsp, | |
char * | buf, | |||
int | max | |||
) |
Get pending DTMF/MF digits.
int ast_dsp_init | ( | void | ) |
Load dsp settings from dsp.conf.
Definition at line 1693 of file dsp.c.
References _dsp_init().
Referenced by main().
01694 { 01695 return _dsp_init(0); 01696 }
struct ast_dsp* ast_dsp_new | ( | void | ) |
Definition at line 1487 of file dsp.c.
References ast_calloc, ast_digit_detect_init(), ast_dsp_prog_reset(), ast_fax_detect_init(), BUSY_PAT_PERCENT, DEFAULT_THRESHOLD, DSP_DIGITMODE_DTMF, DSP_HISTORY, and ast_dsp::threshold.
Referenced by __ast_play_and_record(), __oh323_new(), background_detect_exec(), conf_run(), dahdi_new(), do_waiting(), handle_recordfile(), isAnsweringMachine(), mgcp_new(), misdn_set_opt_exec(), read_config(), sip_dtmfmode(), sip_new(), and store_config().
01488 { 01489 struct ast_dsp *dsp; 01490 01491 if ((dsp = ast_calloc(1, sizeof(*dsp)))) { 01492 dsp->threshold = DEFAULT_THRESHOLD; 01493 dsp->features = DSP_FEATURE_SILENCE_SUPPRESS; 01494 dsp->busycount = DSP_HISTORY; 01495 dsp->digitmode = DSP_DIGITMODE_DTMF; 01496 dsp->faxmode = DSP_FAXMODE_DETECT_CNG; 01497 dsp->busy_pattern_fuzzy = BUSY_PAT_PERCENT; 01498 #ifdef BUSYDETECT_TONEONLY 01499 dsp->busytoneonly = 1; 01500 #ifdef BUSYDETECT_COMPARE_TONE_AND_SILENCE 01501 #error "You can't use BUSYDETECT_TONEONLY together with BUSYDETECT_COMPARE_TONE_AND_SILENCE"); 01502 #endif 01503 #else 01504 dsp->busytoneonly = 0; 01505 #ifdef BUSYDETECT_COMPARE_TONE_AND_SILENCE 01506 dsp->busycompare = 1; 01507 #else 01508 dsp->busycompare = 0; 01509 #endif 01510 #endif 01511 /* Initialize digit detector */ 01512 ast_digit_detect_init(&dsp->digit_state, dsp->digitmode & DSP_DIGITMODE_MF); 01513 dsp->display_inband_dtmf_warning = 1; 01514 /* Initialize initial DSP progress detect parameters */ 01515 ast_dsp_prog_reset(dsp); 01516 /* Initialize fax detector */ 01517 ast_fax_detect_init(dsp); 01518 } 01519 return dsp; 01520 }
Return non-zero if this is noise. Updates "totalnoise" with the total number of seconds of noise.
Definition at line 1267 of file dsp.c.
References __ast_dsp_silence_noise(), AST_FORMAT_SLINEAR, AST_FRAME_VOICE, ast_log(), f, len(), LOG_WARNING, and s.
Referenced by do_waiting().
01268 { 01269 short *s; 01270 int len; 01271 01272 if (f->frametype != AST_FRAME_VOICE) { 01273 ast_log(LOG_WARNING, "Can't calculate noise on a non-voice frame\n"); 01274 return 0; 01275 } 01276 if (f->subclass != AST_FORMAT_SLINEAR) { 01277 ast_log(LOG_WARNING, "Can only calculate noise on signed-linear frames :(\n"); 01278 return 0; 01279 } 01280 s = f->data.ptr; 01281 len = f->datalen/2; 01282 return __ast_dsp_silence_noise(dsp, s, len, NULL, totalnoise); 01283 }
struct ast_frame* ast_dsp_process | ( | struct ast_channel * | chan, | |
struct ast_dsp * | dsp, | |||
struct ast_frame * | inf | |||
) |
Return AST_FRAME_NULL frames when there is silence, AST_FRAME_BUSY on busies, and call progress, all dependent upon which features are enabled.
Definition at line 1286 of file dsp.c.
References __ast_dsp_silence_noise(), AST_ALAW, AST_FORMAT_ALAW, AST_FORMAT_SLINEAR, AST_FORMAT_ULAW, AST_FRAME_VOICE, ast_getformatname(), ast_log(), AST_MULAW, ast_frame::data, ast_frame::datalen, ast_dsp::display_inband_dtmf_warning, DSP_FEATURE_BUSY_DETECT, DSP_FEATURE_SILENCE_SUPPRESS, ast_dsp::features, ast_frame::frametype, len(), LOG_WARNING, ast_dsp::mute_fragments, ast_frame::ptr, and ast_frame::subclass.
Referenced by dahdi_read(), mgcp_rtp_read(), oh323_rtp_read(), process_ast_dsp(), sip_rtp_read(), and usbradio_read().
01287 { 01288 int silence; 01289 int res; 01290 int digit = 0, fax_digit = 0; 01291 int x; 01292 short *shortdata; 01293 unsigned char *odata; 01294 int len; 01295 struct ast_frame *outf = NULL; 01296 01297 if (!af) 01298 return NULL; 01299 if (af->frametype != AST_FRAME_VOICE) 01300 return af; 01301 01302 odata = af->data.ptr; 01303 len = af->datalen; 01304 /* Make sure we have short data */ 01305 switch (af->subclass) { 01306 case AST_FORMAT_SLINEAR: 01307 shortdata = af->data.ptr; 01308 len = af->datalen / 2; 01309 break; 01310 case AST_FORMAT_ULAW: 01311 shortdata = alloca(af->datalen * 2); 01312 for (x = 0;x < len; x++) 01313 shortdata[x] = AST_MULAW(odata[x]); 01314 break; 01315 case AST_FORMAT_ALAW: 01316 shortdata = alloca(af->datalen * 2); 01317 for (x = 0; x < len; x++) 01318 shortdata[x] = AST_ALAW(odata[x]); 01319 break; 01320 default: 01321 /*Display warning only once. Otherwise you would get hundreds of warnings every second */ 01322 if (dsp->display_inband_dtmf_warning) 01323 ast_log(LOG_WARNING, "Inband DTMF is not supported on codec %s. Use RFC2833\n", ast_getformatname(af->subclass)); 01324 dsp->display_inband_dtmf_warning = 0; 01325 return af; 01326 } 01327 01328 /* Initially we do not want to mute anything */ 01329 dsp->mute_fragments = 0; 01330 01331 /* Need to run the silence detection stuff for silence suppression and busy detection */ 01332 if ((dsp->features & DSP_FEATURE_SILENCE_SUPPRESS) || (dsp->features & DSP_FEATURE_BUSY_DETECT)) { 01333 res = __ast_dsp_silence_noise(dsp, shortdata, len, &silence, NULL); 01334 } 01335 01336 if ((dsp->features & DSP_FEATURE_SILENCE_SUPPRESS) && silence) { 01337 memset(&dsp->f, 0, sizeof(dsp->f)); 01338 dsp->f.frametype = AST_FRAME_NULL; 01339 ast_frfree(af); 01340 return ast_frisolate(&dsp->f); 01341 } 01342 if ((dsp->features & DSP_FEATURE_BUSY_DETECT) && ast_dsp_busydetect(dsp)) { 01343 chan->_softhangup |= AST_SOFTHANGUP_DEV; 01344 memset(&dsp->f, 0, sizeof(dsp->f)); 01345 dsp->f.frametype = AST_FRAME_CONTROL; 01346 dsp->f.subclass = AST_CONTROL_BUSY; 01347 ast_frfree(af); 01348 ast_debug(1, "Requesting Hangup because the busy tone was detected on channel %s\n", chan->name); 01349 return ast_frisolate(&dsp->f); 01350 } 01351 01352 if ((dsp->features & DSP_FEATURE_FAX_DETECT)) { 01353 if ((dsp->faxmode & DSP_FAXMODE_DETECT_CNG) && tone_detect(dsp, &dsp->cng_tone_state, shortdata, len)) { 01354 fax_digit = 'f'; 01355 } 01356 01357 if ((dsp->faxmode & DSP_FAXMODE_DETECT_CED) && tone_detect(dsp, &dsp->ced_tone_state, shortdata, len)) { 01358 fax_digit = 'e'; 01359 } 01360 } 01361 01362 if (dsp->features & (DSP_FEATURE_DIGIT_DETECT | DSP_FEATURE_BUSY_DETECT)) { 01363 if (dsp->digitmode & DSP_DIGITMODE_MF) 01364 digit = mf_detect(dsp, &dsp->digit_state, shortdata, len, (dsp->digitmode & DSP_DIGITMODE_NOQUELCH) == 0, (dsp->digitmode & DSP_DIGITMODE_RELAXDTMF)); 01365 else 01366 digit = dtmf_detect(dsp, &dsp->digit_state, shortdata, len, (dsp->digitmode & DSP_DIGITMODE_NOQUELCH) == 0, (dsp->digitmode & DSP_DIGITMODE_RELAXDTMF)); 01367 01368 if (dsp->digit_state.current_digits) { 01369 int event = 0; 01370 char event_digit = 0; 01371 01372 if (!dsp->dtmf_began) { 01373 /* We have not reported DTMF_BEGIN for anything yet */ 01374 01375 if (dsp->features & DSP_FEATURE_DIGIT_DETECT) { 01376 event = AST_FRAME_DTMF_BEGIN; 01377 event_digit = dsp->digit_state.digits[0]; 01378 } 01379 dsp->dtmf_began = 1; 01380 01381 } else if (dsp->digit_state.current_digits > 1 || digit != dsp->digit_state.digits[0]) { 01382 /* Digit changed. This means digit we have reported with DTMF_BEGIN ended */ 01383 if (dsp->features & DSP_FEATURE_DIGIT_DETECT) { 01384 event = AST_FRAME_DTMF_END; 01385 event_digit = dsp->digit_state.digits[0]; 01386 } 01387 memmove(dsp->digit_state.digits, dsp->digit_state.digits + 1, dsp->digit_state.current_digits); 01388 dsp->digit_state.current_digits--; 01389 dsp->dtmf_began = 0; 01390 01391 if (dsp->features & DSP_FEATURE_BUSY_DETECT) { 01392 /* Reset Busy Detector as we have some confirmed activity */ 01393 memset(dsp->historicsilence, 0, sizeof(dsp->historicsilence)); 01394 memset(dsp->historicnoise, 0, sizeof(dsp->historicnoise)); 01395 ast_debug(1, "DTMF Detected - Reset busydetector\n"); 01396 } 01397 } 01398 01399 if (event) { 01400 memset(&dsp->f, 0, sizeof(dsp->f)); 01401 dsp->f.frametype = event; 01402 dsp->f.subclass = event_digit; 01403 outf = &dsp->f; 01404 goto done; 01405 } 01406 } 01407 } 01408 01409 if (fax_digit) { 01410 /* Fax was detected - digit is either 'f' or 'e' */ 01411 01412 memset(&dsp->f, 0, sizeof(dsp->f)); 01413 dsp->f.frametype = AST_FRAME_DTMF; 01414 dsp->f.subclass = fax_digit; 01415 outf = &dsp->f; 01416 goto done; 01417 } 01418 01419 if ((dsp->features & DSP_FEATURE_CALL_PROGRESS)) { 01420 res = __ast_dsp_call_progress(dsp, shortdata, len); 01421 if (res) { 01422 switch (res) { 01423 case AST_CONTROL_ANSWER: 01424 case AST_CONTROL_BUSY: 01425 case AST_CONTROL_RINGING: 01426 case AST_CONTROL_CONGESTION: 01427 case AST_CONTROL_HANGUP: 01428 memset(&dsp->f, 0, sizeof(dsp->f)); 01429 dsp->f.frametype = AST_FRAME_CONTROL; 01430 dsp->f.subclass = res; 01431 dsp->f.src = "dsp_progress"; 01432 if (chan) 01433 ast_queue_frame(chan, &dsp->f); 01434 break; 01435 default: 01436 ast_log(LOG_WARNING, "Don't know how to represent call progress message %d\n", res); 01437 } 01438 } 01439 } 01440 01441 done: 01442 /* Mute fragment of the frame */ 01443 for (x = 0; x < dsp->mute_fragments; x++) { 01444 memset(shortdata + dsp->mute_data[x].start, 0, sizeof(int16_t) * (dsp->mute_data[x].end - dsp->mute_data[x].start)); 01445 } 01446 01447 switch (af->subclass) { 01448 case AST_FORMAT_SLINEAR: 01449 break; 01450 case AST_FORMAT_ULAW: 01451 for (x = 0; x < len; x++) 01452 odata[x] = AST_LIN2MU((unsigned short) shortdata[x]); 01453 break; 01454 case AST_FORMAT_ALAW: 01455 for (x = 0; x < len; x++) 01456 odata[x] = AST_LIN2A((unsigned short) shortdata[x]); 01457 break; 01458 } 01459 01460 if (outf) { 01461 if (chan) 01462 ast_queue_frame(chan, af); 01463 ast_frfree(af); 01464 return ast_frisolate(outf); 01465 } else { 01466 return af; 01467 } 01468 }
int ast_dsp_reload | ( | void | ) |
Reloads dsp settings from dsp.conf.
Definition at line 1698 of file dsp.c.
References _dsp_init().
01699 { 01700 return _dsp_init(1); 01701 }
void ast_dsp_reset | ( | struct ast_dsp * | dsp | ) |
Reset total silence count.
Definition at line 1600 of file dsp.c.
References ast_dsp::freqs, ast_dsp::gsamps, ast_dsp::historicnoise, ast_dsp::historicsilence, ast_dsp::ringtimeout, ast_dsp::totalsilence, goertzel_state_t::v2, and goertzel_state_t::v3.
01601 { 01602 int x; 01603 01604 dsp->totalsilence = 0; 01605 dsp->gsamps = 0; 01606 for (x=0;x<4;x++) 01607 dsp->freqs[x].v2 = dsp->freqs[x].v3 = 0.0; 01608 memset(dsp->historicsilence, 0, sizeof(dsp->historicsilence)); 01609 memset(dsp->historicnoise, 0, sizeof(dsp->historicnoise)); 01610 dsp->ringtimeout= 0; 01611 }
void ast_dsp_set_busy_compare | ( | struct ast_dsp * | dsp, | |
int | compare | |||
) |
Set if silence and noice lengths must be compared for busy.
Definition at line 1549 of file dsp.c.
References ast_dsp::busycompare.
Referenced by dahdi_new().
01550 { 01551 if (compare > 0) 01552 dsp->busycompare = 1; 01553 else 01554 dsp->busycompare = 0; 01555 }
void ast_dsp_set_busy_count | ( | struct ast_dsp * | dsp, | |
int | cadences | |||
) |
Set number of required cadences for busy.
Definition at line 1540 of file dsp.c.
References ast_dsp::busycount, and DSP_HISTORY.
Referenced by dahdi_new().
01541 { 01542 if (cadences < 4) 01543 cadences = 4; 01544 if (cadences > DSP_HISTORY) 01545 cadences = DSP_HISTORY; 01546 dsp->busycount = cadences; 01547 }
void ast_dsp_set_busy_pattern | ( | struct ast_dsp * | dsp, | |
int | tonelength, | |||
int | quietlength, | |||
int | fuzzy | |||
) |
Set expected lengths of the busy tones.
Definition at line 1557 of file dsp.c.
References ast_debug, ast_dsp::busy_pattern_fuzzy, ast_dsp::busy_quietlength, ast_dsp::busy_tonelength, and ast_dsp::busytoneonly.
Referenced by dahdi_new().
01558 { 01559 dsp->busy_tonelength = tonelength; 01560 if (quietlength > 0) 01561 dsp->busy_quietlength = quietlength; 01562 else 01563 dsp->busytoneonly = 1; 01564 ast_debug(1, "dsp busy pattern set to %d,%d\n", tonelength, quietlength); 01565 if( fuzzy > 0 && fuzzy < 50 ) 01566 dsp->busy_pattern_fuzzy = fuzzy; 01567 }
int ast_dsp_set_call_progress_zone | ( | struct ast_dsp * | dsp, | |
char * | zone | |||
) |
Set zone for doing progress detection.
Definition at line 1637 of file dsp.c.
References aliases, ARRAY_LEN, ast_dsp_prog_reset(), progalias::mode, name, and ast_dsp::progmode.
Referenced by dahdi_new().
01638 { 01639 int x; 01640 01641 for (x = 0; x < ARRAY_LEN(aliases); x++) { 01642 if (!strcasecmp(aliases[x].name, zone)) { 01643 dsp->progmode = aliases[x].mode; 01644 ast_dsp_prog_reset(dsp); 01645 return 0; 01646 } 01647 } 01648 return -1; 01649 }
int ast_dsp_set_digitmode | ( | struct ast_dsp * | dsp, | |
int | digitmode | |||
) |
Set digit mode.
Definition at line 1613 of file dsp.c.
References ast_digit_detect_init(), ast_dsp::digit_state, ast_dsp::digitmode, DSP_DIGITMODE_DTMF, DSP_DIGITMODE_MUTECONF, and DSP_DIGITMODE_MUTEMAX.
Referenced by dahdi_hangup(), dahdi_new(), dahdi_setoption(), mgcp_new(), sip_new(), ss_thread(), and store_config().
01614 { 01615 int new; 01616 int old; 01617 01618 old = dsp->digitmode & (DSP_DIGITMODE_DTMF | DSP_DIGITMODE_MF | DSP_DIGITMODE_MUTECONF | DSP_DIGITMODE_MUTEMAX); 01619 new = digitmode & (DSP_DIGITMODE_DTMF | DSP_DIGITMODE_MF | DSP_DIGITMODE_MUTECONF | DSP_DIGITMODE_MUTEMAX); 01620 if (old != new) { 01621 /* Must initialize structures if switching from MF to DTMF or vice-versa */ 01622 ast_digit_detect_init(&dsp->digit_state, new & DSP_DIGITMODE_MF); 01623 } 01624 dsp->digitmode = digitmode; 01625 return 0; 01626 }
int ast_dsp_set_faxmode | ( | struct ast_dsp * | dsp, | |
int | faxmode | |||
) |
Set fax mode.
Definition at line 1628 of file dsp.c.
References ast_fax_detect_init(), and ast_dsp::faxmode.
01629 { 01630 if (dsp->faxmode != faxmode) { 01631 ast_fax_detect_init(dsp); 01632 } 01633 dsp->faxmode = faxmode; 01634 return 0; 01635 }
void ast_dsp_set_features | ( | struct ast_dsp * | dsp, | |
int | features | |||
) |
Select feature set.
Definition at line 1522 of file dsp.c.
References ast_dsp::features.
Referenced by __oh323_new(), dahdi_new(), disable_dtmf_detect(), enable_dtmf_detect(), mgcp_new(), misdn_set_opt_exec(), read_config(), sip_dtmfmode(), sip_new(), sip_rtp_read(), and store_config().
01523 { 01524 dsp->features = features; 01525 }
void ast_dsp_set_threshold | ( | struct ast_dsp * | dsp, | |
int | threshold | |||
) |
Set threshold value for silence.
Definition at line 1532 of file dsp.c.
References ast_dsp::threshold.
Referenced by __ast_play_and_record(), dahdi_new(), do_waiting(), handle_recordfile(), and isAnsweringMachine().
01533 { 01534 if (threshold < 256) 01535 dsp->threshold = 256; 01536 else 01537 dsp->threshold = threshold; 01538 }
Return non-zero if this is silence. Updates "totalsilence" with the total number of seconds of silence.
Definition at line 1249 of file dsp.c.
References __ast_dsp_silence_noise(), AST_FORMAT_SLINEAR, AST_FRAME_VOICE, ast_log(), f, len(), LOG_WARNING, and s.
Referenced by __ast_play_and_record(), background_detect_exec(), conf_run(), do_waiting(), handle_recordfile(), and isAnsweringMachine().
01250 { 01251 short *s; 01252 int len; 01253 01254 if (f->frametype != AST_FRAME_VOICE) { 01255 ast_log(LOG_WARNING, "Can't calculate silence on a non-voice frame\n"); 01256 return 0; 01257 } 01258 if (f->subclass != AST_FORMAT_SLINEAR) { 01259 ast_log(LOG_WARNING, "Can only calculate silence on signed-linear frames :(\n"); 01260 return 0; 01261 } 01262 s = f->data.ptr; 01263 len = f->datalen/2; 01264 return __ast_dsp_silence_noise(dsp, s, len, totalsilence, NULL); 01265 }
int ast_dsp_was_muted | ( | struct ast_dsp * | dsp | ) |
Returns true if DSP code was muting any fragment of the last processed frame. Muting (squelching) happens when DSP code removes DTMF/MF/generic tones from the audio.
Definition at line 1651 of file dsp.c.
References ast_dsp::mute_fragments.
Referenced by dahdi_read().
01652 { 01653 return (dsp->mute_fragments > 0); 01654 }