/*****************************************************************************\ ** ** ** PBX4Linux ** ** ** **---------------------------------------------------------------------------** ** Copyright: Andreas Eversberg ** ** ** ** port ** ** ** \*****************************************************************************/ /* HOW TO audio? Audio flow has two ways: * from channel to the upper layer -> sound from mISDN channel -> announcement from vbox channel * from the upper layer to the channel -> sound from remote channel Audio is required: -> if local or remote channel is not mISDN -> if call is recorded (vbox) Functions: * PmISDN::txfromup -> audio from upper layer is buffered for later transmission to channel * PmISDN::handler -> buffered audio from upper layer or tones are transmitted via system clock * mISDN_handler -> rx-data from port to record() and upper layer -> tx-data from port (dsp) to record() * VboxPort::handler -> streaming announcement to upper layer -> recording announcement * VboxPort::message_epoint -> recording audio message from upper layer */ #include "main.h" /* enable to test conference mixing, even if only two members are bridged */ //#define TEST_CONFERENCE 1 #define SHORT_MIN -32768 #define SHORT_MAX 32767 class Port *port_first = NULL; unsigned int port_serial = 1; /* must be 1, because 0== no port */ struct port_bridge *p_bridge_first; static void remove_bridge(struct port_bridge *bridge, class Port *port); /* free epointlist relation */ void Port::free_epointlist(struct epoint_list *epointlist) { struct epoint_list *temp, **tempp; temp = p_epointlist; tempp = &p_epointlist; while(temp) { if (temp == epointlist) break; tempp = &temp->next; temp = temp->next; } if (temp == 0) { PERROR("SOFTWARE ERROR: epointlist not in port's list.\n"); return; } /* detach */ *tempp=temp->next; /* free */ PDEBUG(DEBUG_EPOINT, "PORT(%d) removed epoint from port\n", p_serial); FREE(temp, sizeof(struct epoint_list)); ememuse--; } void Port::free_epointid(unsigned int epoint_id) { struct epoint_list *temp, **tempp; temp = p_epointlist; tempp = &p_epointlist; while(temp) { if (temp->epoint_id == epoint_id) break; tempp = &temp->next; temp = temp->next; } if (temp == 0) { PERROR("epoint_id not in port's list.\n"); return; } /* detach */ *tempp=temp->next; /* free */ PDEBUG(DEBUG_EPOINT, "PORT(%d) removed epoint from port\n", p_serial); FREE(temp, sizeof(struct epoint_list)); ememuse--; } /* create new epointlist relation */ struct epoint_list *Port::epointlist_new(unsigned int epoint_id) { struct epoint_list *epointlist, **epointlistpointer; /* epointlist structure */ epointlist = (struct epoint_list *)MALLOC(sizeof(struct epoint_list)); if (!epointlist) FATAL("No memory for epointlist\n"); ememuse++; PDEBUG(DEBUG_EPOINT, "PORT(%d) allocating epoint_list.\n", p_serial); /* add epoint_list to chain */ epointlist->next = NULL; epointlistpointer = &p_epointlist; while(*epointlistpointer) epointlistpointer = &((*epointlistpointer)->next); *epointlistpointer = epointlist; /* link to epoint */ epointlist->epoint_id = epoint_id; epointlist->active = 1; return(epointlist); } /* * port constructor */ Port::Port(int type, const char *portname, struct port_settings *settings, struct interface *interface) { class Port *temp, **tempp; /* initialize object */ if (settings) memcpy(&p_settings, settings, sizeof(struct port_settings)); else { memset(&p_settings, 0, sizeof(p_settings)); } SCPY(p_name, portname); if (interface) { SCPY(p_interface_name, interface->name); SCPY(p_tones_interface, interface->tones_dir); } p_tone_dir[0] = '\0'; p_type = type; p_serial = port_serial++; p_tone_fh = -1; p_tone_fetched = NULL; p_tone_name[0] = '\0'; p_state = PORT_STATE_IDLE; p_epointlist = NULL; memset(&p_callerinfo, 0, sizeof(p_callerinfo)); memset(&p_dialinginfo, 0, sizeof(p_dialinginfo)); memset(&p_connectinfo, 0, sizeof(p_connectinfo)); memset(&p_redirinfo, 0, sizeof(p_redirinfo)); memset(&p_capainfo, 0, sizeof(p_capainfo)); p_echotest = 0; p_bridge = 0; /* call recording */ p_record = NULL; p_tap = 0; p_record_type = 0; p_record_length = 0; p_record_skip = 0; p_record_filename[0] = '\0'; p_record_buffer_readp = 0; p_record_buffer_writep = 0; p_record_buffer_dir = 0; /* VoOTP */ #ifdef WITH_VOOTP p_vootp = NULL; #endif /* D-O-V */ dov_init(); /* append port to chain */ next = NULL; temp = port_first; tempp = &port_first; while(temp) { tempp = &temp->next; temp = temp->next; } *tempp = this; classuse++; PDEBUG(DEBUG_PORT, "new port (%d) of type 0x%x, name '%s' interface '%s'\n", p_serial, type, portname, p_interface_name); } /* * port destructor */ Port::~Port(void) { class Port *temp, **tempp; struct lcr_msg *message; PDEBUG(DEBUG_PORT, "removing port (%d) of type 0x%x, name '%s' interface '%s'\n", p_serial, p_type, p_name, p_interface_name); #ifdef WITH_VOOTP if (p_vootp) { vootp_destroy(p_vootp); p_vootp = NULL; } #endif if (p_bridge) { PDEBUG(DEBUG_PORT, "Removing us from bridge %u\n", p_bridge->bridge_id); remove_bridge(p_bridge, this); } if (p_record) close_record(0, 0); dov_exit(); classuse--; /* disconnect port from endpoint */ while(p_epointlist) { /* send disconnect */ message = message_create(p_serial, p_epointlist->epoint_id, PORT_TO_EPOINT, MESSAGE_RELEASE); message->param.disconnectinfo.cause = 16; message->param.disconnectinfo.location = LOCATION_PRIVATE_LOCAL; message_put(message); /* remove endpoint */ free_epointlist(p_epointlist); } /* remove port from chain */ temp=port_first; tempp=&port_first; while(temp) { if (temp == this) break; tempp = &temp->next; temp = temp->next; } if (temp == NULL) FATAL("PORT(%s) port not in port's list.\n", p_name); /* detach */ *tempp=this->next; /* close open tones file */ if (p_tone_fh >= 0) { close(p_tone_fh); p_tone_fh = -1; fhuse--; } p_tone_fetched = NULL; } PORT_STATE_NAMES /* set new endpoint state */ void Port::new_state(int state) { PDEBUG(DEBUG_PORT, "PORT(%s) new state %s --> %s\n", p_name, state_name[p_state], state_name[state]); p_state = state; } /* * find the port with port_id */ class Port *find_port_id(unsigned int port_id) { class Port *port = port_first; while(port) { //printf("comparing: '%s' with '%s'\n", name, port->name); if (port->p_serial == port_id) return(port); port = port->next; } return(NULL); } /* * set echotest */ void Port::set_echotest(int echotest) { p_echotest = echotest; } /* * set the file in the tone directory with the given name */ void Port::set_tone(const char *dir, const char *name) { int fh; char filename[128]; if (name == NULL) name = ""; if (!dir || !dir[0]) { if (p_tones_interface[0]) dir = p_tones_interface; else dir = options.tones_dir; /* just in case we have no PmISDN instance */ } /* no counter, no eof, normal speed */ p_tone_counter = 0; p_tone_eof = 0; p_tone_speed = 1; p_tone_codec = CODEC_LAW; if (p_tone_fh >= 0) { close(p_tone_fh); p_tone_fh = -1; fhuse--; } p_tone_fetched = NULL; if (name[0]) { if (name[0] == '/') { SPRINT(p_tone_name, "%s", name); p_tone_dir[0] = '\0'; } else { SCPY(p_tone_dir, dir); SCPY(p_tone_name, name); } /* trigger playback */ update_load(); } else { p_tone_name[0]= '\0'; p_tone_dir[0]= '\0'; return; } if (!!strncmp(name,"cause_",6)) return; /* now we check if the cause exists, otherwhise we use error tone. */ if ((p_tone_fetched=open_tone_fetched(p_tone_dir, p_tone_name, &p_tone_codec, 0, 0))) { p_tone_fetched = NULL; return; } SPRINT(filename, "%s_loop", p_tone_name); if ((p_tone_fetched=open_tone_fetched(p_tone_dir, filename, &p_tone_codec, 0, 0))) { p_tone_fetched = NULL; return; } SPRINT(filename, "%s/%s/%s", SHARE_DATA, p_tone_dir, p_tone_name); if ((fh=open_tone(filename, &p_tone_codec, 0, 0)) >= 0) { close(fh); return; } SPRINT(filename, "%s/%s/%s_loop", SHARE_DATA, p_tone_dir, p_tone_name); if ((fh=open_tone(filename, &p_tone_codec, 0, 0)) >= 0) { close(fh); return; } if (!strcmp(name,"cause_00") || !strcmp(name,"cause_10")) { PDEBUG(DEBUG_PORT, "PORT(%s) Given Cause 0x%s has no tone, using release tone\n", p_name, name+6); SPRINT(p_tone_name,"release"); } else if (!strcmp(name,"cause_11")) { PDEBUG(DEBUG_PORT, "PORT(%s) Given Cause 0x%s has no tone, using busy tone\n", p_name, name+6); SPRINT(p_tone_name,"busy"); } else { PDEBUG(DEBUG_PORT, "PORT(%s) Given Cause 0x%s has no tone, using error tone\n", p_name, name+6); SPRINT(p_tone_name,"error"); } } void Port::set_display(const char *text) { } /* * set the file in the tone directory for vbox playback * also set the play_eof-flag */ void Port::set_vbox_tone(const char *dir, const char *name) { char filename[256]; p_tone_speed = 1; p_tone_counter = 0; p_tone_codec = CODEC_LAW; p_tone_eof = 1; if (p_tone_fh >= 0) { close(p_tone_fh); p_tone_fh = -1; fhuse--; } p_tone_fetched = NULL; SPRINT(p_tone_dir, dir); SPRINT(p_tone_name, name); /* trigger playback */ update_load(); /* now we check if the cause exists, otherwhise we use error tone. */ if (p_tone_dir[0]) { if ((p_tone_fetched=open_tone_fetched(p_tone_dir, p_tone_name, &p_tone_codec, &p_tone_size, &p_tone_left))) { PDEBUG(DEBUG_PORT, "PORT(%s) opening fetched tone: %s\n", p_name, p_tone_name); return; } SPRINT(filename, "%s/%s/%s", SHARE_DATA, p_tone_dir, p_tone_name); if ((p_tone_fh=open_tone(filename, &p_tone_codec, &p_tone_size, &p_tone_left)) >= 0) { fhuse++; PDEBUG(DEBUG_PORT, "PORT(%s) opening tone: %s\n", p_name, filename); return; } } else { SPRINT(filename, "%s", p_tone_name); if ((p_tone_fh=open_tone(filename, &p_tone_codec, &p_tone_size, &p_tone_left)) >= 0) { fhuse++; PDEBUG(DEBUG_PORT, "PORT(%s) opening tone: %s\n", p_name, filename); return; } } } /* * set the file in the given directory for vbox playback * also set the eof-flag * also set the counter-flag */ void Port::set_vbox_play(const char *name, int offset) { struct lcr_msg *message; /* use ser_box_tone() */ set_vbox_tone("", name); if (p_tone_fh < 0) return; /* enable counter */ p_tone_counter = 1; /* seek */ if (p_tone_name[0]) { /* send message with counter value */ if (p_tone_size>=0 && ACTIVE_EPOINT(p_epointlist)) { message = message_create(p_serial, ACTIVE_EPOINT(p_epointlist), PORT_TO_EPOINT, MESSAGE_TONE_COUNTER); message->param.counter.current = offset; message->param.counter.max = p_tone_size; message_put(message); } } } /* * set the playback speed (for recording playback with different speeds) */ void Port::set_vbox_speed(int speed) { /* enable vbox play mode */ p_tone_speed = speed; } /* * read from the given file as specified in port_set_tone and return sample data * if the tone ends, the result may be less samples than requested */ int Port::read_audio(unsigned char *buffer, int length) { int l = 0,len; int nodata=0; /* to detect 0-length files and avoid endless reopen */ char filename[128]; int tone_left_before; /* temp variable to determine the change in p_tone_left */ /* nothing */ if (length == 0) return(0); len = length; /* if there is no tone set, use silence */ if (!p_tone_name[0]) return(0); /* if the file pointer is not open, we open it */ if (p_tone_fh<0 && p_tone_fetched==NULL) { if (p_tone_dir[0]) { SPRINT(filename, "%s", p_tone_name); /* if file does not exist */ if (!(p_tone_fetched=open_tone_fetched(p_tone_dir, filename, &p_tone_codec, &p_tone_size, &p_tone_left))) { SPRINT(filename, "%s/%s/%s", SHARE_DATA, p_tone_dir, p_tone_name); /* if file does not exist */ if ((p_tone_fh=open_tone(filename, &p_tone_codec, &p_tone_size, &p_tone_left)) < 0) { PDEBUG(DEBUG_PORT, "PORT(%s) no tone: %s\n", p_name, filename); goto try_loop; } fhuse++; } } else { SPRINT(filename, "%s", p_tone_name); /* if file does not exist */ if ((p_tone_fh=open_tone(filename, &p_tone_codec, &p_tone_size, &p_tone_left)) < 0) { PDEBUG(DEBUG_PORT, "PORT(%s) no tone: %s\n", p_name, filename); goto try_loop; } fhuse++; } PDEBUG(DEBUG_PORT, "PORT(%s) opening %stone: %s\n", p_name, p_tone_fetched?"fetched ":"", filename); } read_more: /* file descriptor is open read data */ tone_left_before = p_tone_left; if (p_tone_fh >= 0) { l = read_tone(p_tone_fh, buffer, p_tone_codec, len, p_tone_size, &p_tone_left, p_tone_speed); if (l<0 || l>len) /* paranoia */ l=0; buffer += l; len -= l; } if (p_tone_fetched) { l = read_tone_fetched(&p_tone_fetched, buffer, len, p_tone_size, &p_tone_left, p_tone_speed); if (l<0 || l>len) /* paranoia */ l=0; buffer += l; len -= l; } /* if counter is enabled, we check if we have a change */ if (p_tone_counter && p_tone_size>=0 && ACTIVE_EPOINT(p_epointlist)) { /* if we jumed to the next second */ if (((p_tone_size-p_tone_left)/8000) != (p_tone_size-tone_left_before)/8000) { //printf("\nsize=%d left=%d\n\n",p_tone_size,p_tone_left); struct lcr_msg *message; message = message_create(p_serial, ACTIVE_EPOINT(p_epointlist), PORT_TO_EPOINT, MESSAGE_TONE_COUNTER); message->param.counter.current = (p_tone_size-p_tone_left)/8000; message->param.counter.max = -1; message_put(message); } } if (len==0) return(length-len); if (p_tone_fh >= 0) { close(p_tone_fh); p_tone_fh = -1; fhuse--; } p_tone_fetched = NULL; if (l) nodata=0; /* if the file has 0-length */ if (nodata>1) { PDEBUG(DEBUG_PORT, "PORT(%s) 0-length loop: %s\n", p_name, filename); p_tone_name[0]=0; p_tone_dir[0]=0; return(length-len); } /* if eof is reached, or if the normal file cannot be opened, continue with the loop file if possible */ try_loop: if (p_tone_eof && ACTIVE_EPOINT(p_epointlist)) { struct lcr_msg *message; message = message_create(p_serial, ACTIVE_EPOINT(p_epointlist), PORT_TO_EPOINT, MESSAGE_TONE_EOF); message_put(message); } if (p_tone_dir[0]) { /* if file does not exist */ SPRINT(filename, "%s_loop", p_tone_name); if (!(p_tone_fetched=open_tone_fetched(p_tone_dir, filename, &p_tone_codec, &p_tone_size, &p_tone_left))) { SPRINT(filename, "%s/%s/%s_loop", SHARE_DATA, p_tone_dir, p_tone_name); /* if file does not exist */ if ((p_tone_fh=open_tone(filename, &p_tone_codec, &p_tone_size, &p_tone_left)) < 0) { PDEBUG(DEBUG_PORT, "PORT(%s) no tone loop: %s\n",p_name, filename); p_tone_dir[0] = '\0'; p_tone_name[0] = '\0'; return(length-len); } fhuse++; } } else { SPRINT(filename, "%s_loop", p_tone_name); /* if file does not exist */ if ((p_tone_fh=open_tone(filename, &p_tone_codec, &p_tone_size, &p_tone_left)) < 0) { PDEBUG(DEBUG_PORT, "PORT(%s) no tone loop: %s\n",p_name, filename); p_tone_dir[0] = '\0'; p_tone_name[0] = '\0'; return(length-len); } fhuse++; } nodata++; PDEBUG(DEBUG_PORT, "PORT(%s) opening %stone: %s\n", p_name, p_tone_fetched?"fetched ":"", filename); /* now we have opened the loop */ goto read_more; } /* Endpoint sends messages to the port * This is called by the message_epoint, inherited by child classes. * Therefor a return 1 means: "already handled here" */ //extern struct lcr_msg *dddebug; int Port::message_epoint(unsigned int epoint_id, int message_id, union parameter *param) { /* check if we got audio data from one remote port */ switch(message_id) { case MESSAGE_TONE: /* play tone */ PDEBUG(DEBUG_PORT, "PORT(%s) setting tone '%s' dir '%s'\n", p_name, param->tone.name, param->tone.dir); set_tone(param->tone.dir,param->tone.name); return 1; case MESSAGE_VBOX_TONE: /* play tone of answering machine */ PDEBUG(DEBUG_PORT, "PORT(%s) set answering machine tone '%s' '%s'\n", p_name, param->tone.dir, param->tone.name); set_vbox_tone(param->tone.dir, param->tone.name); return 1; case MESSAGE_VBOX_PLAY: /* play recording of answering machine */ PDEBUG(DEBUG_PORT, "PORT(%s) set answering machine file to play '%s' (offset %d seconds)\n", p_name, param->play.file, param->play.offset); set_vbox_play(param->play.file, param->play.offset); return 1; case MESSAGE_VBOX_PLAY_SPEED: /* set speed of playback (recording of answering machine) */ PDEBUG(DEBUG_PORT, "PORT(%s) set answering machine playback speed %d (times)\n", p_name, param->speed); set_vbox_speed(param->speed); return 1; case MESSAGE_BRIDGE: /* create / join / leave / destroy bridge */ PDEBUG(DEBUG_PORT, "PORT(%s) bridging to id %d\n", p_name, param->bridge_id); bridge(param->bridge_id); return 1; #ifdef WITH_VOOTP case MESSAGE_VOOTP: /* enable / disable VoOTP */ PDEBUG(DEBUG_PORT, "PORT(%s) VoOTP enabled: %d\n", p_name, param->vootp.enable); set_vootp(¶m->vootp); return 1; #endif case MESSAGE_DOV_REQUEST: /* Data-Over-Voice message */ PDEBUG(DEBUG_PORT, "PORT(%s) sending data over voice message (len=%d)\n", p_name, param->dov.length); dov_sendmsg(param->dov.data, param->dov.length, (enum dov_type)param->dov.type, param->dov.level); return 1; case MESSAGE_DOV_LISTEN: /* Data-Over-Voice listen order */ PDEBUG(DEBUG_PORT, "PORT(%s) sending data over voice listen order\n", p_name); dov_listen((enum dov_type)param->dov.type); return 1; } return 0; } /* wave header structure */ struct fmt { unsigned short stereo; /* 1 = mono, 2 = stereo */ unsigned short channels; /* number of channels */ unsigned int sample_rate; /* sample rate */ unsigned int data_rate; /* data rate */ unsigned short bytes_sample; /* bytes per sample (all channels) */ unsigned short bits_sample; /* bits per sample (one channel) */ }; /* * open record file (actually a wave file with empty header which will be * written before close, because we do not know the size yet) * type=1 record annoucement, type=0 record audio stream, type=2 record vbox */ int Port::open_record(int type, int vbox, int skip, char *extension, int anon_ignore, const char *vbox_email, int vbox_email_file) { /* RIFFxxxxWAVEfmt xxxx(fmt-size)dataxxxx... */ char dummyheader[8+4+8+sizeof(fmt)+8]; char filename[256]; time_t now; struct tm *now_tm; int __attribute__((__unused__)) ret; if (!extension) { PERROR("Port(%d) not an extension\n", p_serial); return(0); } SCPY(p_record_extension, extension); p_record_anon_ignore = anon_ignore; SCPY(p_record_vbox_email, vbox_email); p_record_vbox_email_file = vbox_email_file; if (p_record) { PERROR("Port(%d) already recording\n", p_serial); return(0); } if (vbox != 0) SPRINT(filename, "%s/%s/vbox", EXTENSION_DATA, p_record_extension); else SPRINT(filename, "%s/%s/recordings", EXTENSION_DATA, p_record_extension); if (mkdir(filename, 0755) < 0) { if (errno != EEXIST) { PERROR("Port(%d) cannot create directory '%s'\n", p_serial, filename); return(0); } } if (vbox == 1) UPRINT(strchr(filename,'\0'), "/announcement"); else { time(&now); now_tm = localtime(&now); UPRINT(strchr(filename,'\0'), "/%04d-%02d-%02d_%02d%02d%02d", now_tm->tm_year+1900, now_tm->tm_mon+1, now_tm->tm_mday, now_tm->tm_hour, now_tm->tm_min, now_tm->tm_sec); } if (vbox == 2) { p_record_vbox_year = now_tm->tm_year; p_record_vbox_mon = now_tm->tm_mon; p_record_vbox_mday = now_tm->tm_mday; p_record_vbox_hour = now_tm->tm_hour; p_record_vbox_min = now_tm->tm_min; } /* check, if file exists (especially when an extension calls the same extension) */ if (vbox != 1) if ((p_record = fopen(filename, "r"))) { fclose(p_record); SCAT(filename, "_2nd"); } p_record = fopen(filename, "w"); if (!p_record) { PERROR("Port(%d) cannot record because file cannot be opened '%s'\n", p_serial, filename); return(0); } update_rxoff(); fduse++; p_record_type = type; p_record_vbox = vbox; p_record_skip = skip; p_record_length = 0; switch(p_record_type) { case CODEC_MONO: case CODEC_STEREO: case CODEC_8BIT: memset(&dummyheader, 0, sizeof(dummyheader)); ret = fwrite(dummyheader, sizeof(dummyheader), 1, p_record); break; case CODEC_LAW: break; } UCPY(p_record_filename, filename); PDEBUG(DEBUG_PORT, "Port(%d) recording started with file name '%s'\n", p_serial, filename); return(1); } /* * close the recoding file, put header in front and rename */ void Port::close_record(int beep, int mute) { static signed short beep_mono[256]; unsigned int size = 0, wsize = 0; struct fmt fmt; char filename[512], indexname[512]; FILE *fp; int i, ii; char number[256], callerid[256]; char *p; struct caller_info callerinfo; const char *valid_chars = "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ01234567890_.-!$%&/()=+*;~"; int __attribute__((__unused__)) ret; if (!p_record) return; PDEBUG(DEBUG_PORT, "data still in record buffer: %d (dir %d)\n", (p_record_buffer_writep - p_record_buffer_readp) & RECORD_BUFFER_MASK, p_record_buffer_dir); memcpy(&callerinfo, &p_callerinfo, sizeof(struct caller_info)); // apply_callerid_restriction(p_record_anon_ignore, callerinfo.id, &callerinfo.ntype, &callerinfo.present, &callerinfo.screen, callerinfo.extension, callerinfo.name); SCPY(number, p_dialinginfo.id); SCPY(callerid, numberrize_callerinfo(callerinfo.id, callerinfo.ntype, options.national, options.international)); if (callerid[0] == '\0') { if (callerinfo.present == INFO_PRESENT_RESTRICTED) UCPY(callerid,"anonymous"); else UCPY(callerid,"unknown"); } /* change verboten digits */ p = callerid; while((p=strchr(p,'*'))) *(p++) = 'x'; p = callerid; while((p=strchr(p,'/'))) *(p++) = 'x'; p = number; while((p=strchr(p,'*'))) *(p++) = 'x'; p = number; while((p=strchr(p,'/'))) *(p++) = 'x'; i = 0; ii = strlen(callerid); while(i < ii) { if (!strchr(valid_chars, callerid[i])) callerid[i] = '_'; i++; } i = 0; ii = strlen(number); while(i < ii) { if (!strchr(valid_chars, number[i])) number[i] = '_'; i++; } /* mute */ if (mute && p_record_type==CODEC_MONO) { i = p_record_length; if (i > mute) i = mute; fseek(p_record, -(i<<1), SEEK_END); p_record_length -= (i<<1); } /* add beep to the end of recording */ if (beep && p_record_type==CODEC_MONO) { i = 0; while(i < 256) { beep_mono[i] = (signed short)(sin((double)i / 5.688888888889 * 2.0 * 3.1415927) * 2000.0); i++; } i = 0; while(i < beep) { ret = fwrite(beep_mono, sizeof(beep_mono), 1, p_record); i += sizeof(beep_mono); p_record_length += sizeof(beep_mono); } } /* complete header */ switch(p_record_type) { case CODEC_MONO: case CODEC_STEREO: case CODEC_8BIT: /* cue */ fprintf(p_record, "cue %c%c%c%c%c%c%c%c", 4, 0, 0, 0, 0,0,0,0); /* LIST */ fprintf(p_record, "LIST%c%c%c%cadtl", 4, 0, 0, 0); /* go to header */ fseek(p_record, 0, SEEK_SET); /* WAVEfmt xxxx(fmt-size)dataxxxx[data]cue xxxx0000LISTxxxxadtl*/ size = p_record_length; wsize = 4+8+sizeof(fmt)+8+size+8+4+8+4; /* RIFF */ fprintf(p_record, "RIFF%c%c%c%c", (unsigned char)(wsize&0xff), (unsigned char)((wsize>>8)&0xff), (unsigned char)((wsize>>16)&0xff), (unsigned char)(wsize>>24)); /* WAVE */ fprintf(p_record, "WAVE"); /* fmt */ fprintf(p_record, "fmt %c%c%c%c", (unsigned int)sizeof(fmt), 0, 0, 0); switch(p_record_type) { case CODEC_MONO: fmt.stereo = 1; fmt.channels = 1; fmt.sample_rate = 8000; /* samples/sec */ fmt.data_rate = 16000; /* full data rate */ fmt.bytes_sample = 2; /* all channels */ fmt.bits_sample = 16; /* one channel */ break; case CODEC_STEREO: fmt.stereo = 1; fmt.channels = 2; fmt.sample_rate = 8000; /* samples/sec */ fmt.data_rate = 32000; /* full data rate */ fmt.bytes_sample = 4; /* all channels */ fmt.bits_sample = 16; /* one channel */ break; case CODEC_8BIT: fmt.stereo = 1; fmt.channels = 1; fmt.sample_rate = 8000; /* samples/sec */ fmt.data_rate = 8000; /* full data rate */ fmt.bytes_sample = 1; /* all channels */ fmt.bits_sample = 8; /* one channel */ break; } ret = fwrite(&fmt, sizeof(fmt), 1, p_record); /* data */ fprintf(p_record, "data%c%c%c%c", (unsigned char)(size&0xff), (unsigned char)((size>>8)&0xff), (unsigned char)((size>>16)&0xff), (unsigned char)(size>>24)); /* rename file */ if (p_record_vbox == 1) SPRINT(filename, "%s.wav", p_record_filename); else SPRINT(filename, "%s_%s-%s.wav", p_record_filename, callerid, number); break; case CODEC_LAW: /* rename file */ if (p_record_vbox == 1) SPRINT(filename, "%s.isdn", p_record_filename); else SPRINT(filename, "%s_%s-%s.isdn", p_record_filename, callerid, number); break; } fclose(p_record); fduse--; p_record = NULL; update_rxoff(); if (rename(p_record_filename, filename) < 0) { PERROR("Port(%d) cannot rename from '%s' to '%s'\n", p_serial, p_record_filename, filename); return; } PDEBUG(DEBUG_PORT, "Port(%d) recording is written and renamed to '%s' and must have the following size:%lu raw:%lu samples:%lu\n", p_serial, filename, wsize+8, size, size>>1); if (p_record_vbox == 2) { SPRINT(indexname, "%s/%s/vbox/index", EXTENSION_DATA, p_record_extension); if ((fp = fopen(indexname,"a"))) { fduse++; /* remove path from file name */ p = filename; while(strchr(p, '/')) p = strchr(p, '/')+1; fprintf(fp, "%s %d %d %d %d %d %s\n", p, p_record_vbox_year, p_record_vbox_mon, p_record_vbox_mday, p_record_vbox_hour, p_record_vbox_min, callerid); fclose(fp); fduse--; } else { PERROR("Port(%d) cannot open index file '%s' to append.\n", p_serial, indexname); } /* send email with sample*/ if (p_record_vbox_email[0]) { send_mail(p_record_vbox_email_file?filename:(char *)"", callerid, callerinfo.extension, callerinfo.name, p_record_vbox_email, p_record_vbox_year, p_record_vbox_mon, p_record_vbox_mday, p_record_vbox_hour, p_record_vbox_min, p_record_extension); } } } /* * recording function * Records all data from down and from up into one single stream. * Both streams may have gaps or jitter. * A Jitter buffer for both streams is used to compensate jitter. * * If one stream (dir) received packets, they are stored to a * buffer to wait for the other stream (dir), so both streams can * be combined. If the buffer is full, it's content is written * without mixing stream. (assuming only one stram (dir) exists.) * A flag is used to indicate what stream is currently in buffer. * * NOTE: First stereo sample (odd) is from down, second is from up. */ void Port::record(unsigned char *data, int length, int dir_fromup) { unsigned char write_buffer[1024], *d; signed short *s; int free, i, ii; signed int sample; int __attribute__((__unused__)) ret; /* no recording */ if (!p_record || !length) return; /* skip data from local caller (dtmf input) */ if (p_record_skip && !dir_fromup) { /* more to skip than we have */ if (p_record_skip > length) { p_record_skip -= length; return; } /* less to skip */ data += p_record_skip; length -= p_record_skip; p_record_skip = 0; } //printf("dir=%d len=%d\n", dir_fromup, length); free = ((p_record_buffer_readp - p_record_buffer_writep - 1) & RECORD_BUFFER_MASK); //PDEBUG(DEBUG_PORT, "record(data,%d,%d): free=%d, p_record_buffer_dir=%d, p_record_buffer_readp=%d, p_record_buffer_writep=%d.\n", length, dir_fromup, free, p_record_buffer_dir, p_record_buffer_readp, p_record_buffer_writep); /* the buffer stores the same data stream */ if (dir_fromup == p_record_buffer_dir) { same_again: //printf("same free=%d length=%d\n", free, length); /* first write what we can to the buffer */ while(free && length) { p_record_buffer[p_record_buffer_writep] = audio_law_to_s32[*data++]; p_record_buffer_writep = (p_record_buffer_writep + 1) & RECORD_BUFFER_MASK; free--; length--; } /* all written, so we return */ if (!length) return; /* still data left, buffer is full, so we need to write a chunk to file */ switch(p_record_type) { case CODEC_MONO: s = (signed short *)write_buffer; i = 0; while(i < 256) { *s++ = p_record_buffer[p_record_buffer_readp]; p_record_buffer_readp = (p_record_buffer_readp + 1) & RECORD_BUFFER_MASK; i++; } ret = fwrite(write_buffer, 512, 1, p_record); p_record_length += 512; break; case CODEC_STEREO: s = (signed short *)write_buffer; if (p_record_buffer_dir) { i = 0; while(i < 256) { *s++ = 0; /* nothing from down */ *s++ = p_record_buffer[p_record_buffer_readp]; p_record_buffer_readp = (p_record_buffer_readp + 1) & RECORD_BUFFER_MASK; i++; } } else { i = 0; while(i < 256) { *s++ = p_record_buffer[p_record_buffer_readp]; *s++ = 0; /* nothing from up */ p_record_buffer_readp = (p_record_buffer_readp + 1) & RECORD_BUFFER_MASK; i++; } } ret = fwrite(write_buffer, 1024, 1, p_record); p_record_length += 1024; break; case CODEC_8BIT: d = write_buffer; i = 0; while(i < 256) { *d++ = ((unsigned short)(p_record_buffer[p_record_buffer_readp]+0x8000)) >> 8; p_record_buffer_readp = (p_record_buffer_readp + 1) & RECORD_BUFFER_MASK; i++; } ret = fwrite(write_buffer, 512, 1, p_record); p_record_length += 512; break; case CODEC_LAW: d = write_buffer; i = 0; while(i < 256) { *d++ = audio_s16_to_law[p_record_buffer[p_record_buffer_readp] & 0xffff]; p_record_buffer_readp = (p_record_buffer_readp + 1) & RECORD_BUFFER_MASK; i++; } ret = fwrite(write_buffer, 256, 1, p_record); p_record_length += 256; break; } /* because we still have data, we write again */ free += 256; goto same_again; } /* the buffer stores the other stream */ different_again: /* if buffer empty, change it */ if (p_record_buffer_readp == p_record_buffer_writep) { p_record_buffer_dir = dir_fromup; goto same_again; } /* how much data can we mix ? */ ii = (p_record_buffer_writep - p_record_buffer_readp) & RECORD_BUFFER_MASK; if (length < ii) ii = length; if (ii > 256) ii = 256; //printf("same ii=%d length=%d\n", ii, length); //PDEBUG(DEBUG_PORT, "record(data,%d,%d): free=%d, p_record_buffer_dir=%d, p_record_buffer_readp=%d, p_record_buffer_writep=%d: mixing %d bytes.\n", length, dir_fromup, free, p_record_buffer_dir, p_record_buffer_readp, p_record_buffer_writep, ii); /* write data mixed with the buffer */ switch(p_record_type) { case CODEC_MONO: s = (signed short *)write_buffer; i = 0; while(i < ii) { sample = p_record_buffer[p_record_buffer_readp] + audio_law_to_s32[*data++]; p_record_buffer_readp = (p_record_buffer_readp + 1) & RECORD_BUFFER_MASK; if (sample < SHORT_MIN) sample = SHORT_MIN; if (sample > SHORT_MAX) sample = SHORT_MAX; *s++ = sample; i++; } ret = fwrite(write_buffer, ii<<1, 1, p_record); p_record_length += (ii<<1); break; case CODEC_STEREO: s = (signed short *)write_buffer; if (p_record_buffer_dir) { i = 0; while(i < ii) { *s++ = audio_law_to_s32[*data++]; *s++ = p_record_buffer[p_record_buffer_readp]; p_record_buffer_readp = (p_record_buffer_readp + 1) & RECORD_BUFFER_MASK; i++; } } else { i = 0; while(i < ii) { *s++ = p_record_buffer[p_record_buffer_readp]; *s++ = audio_law_to_s32[*data++]; p_record_buffer_readp = (p_record_buffer_readp + 1) & RECORD_BUFFER_MASK; i++; } } ret = fwrite(write_buffer, ii<<2, 1, p_record); p_record_length += (ii<<2); break; case CODEC_8BIT: d = write_buffer; i = 0; while(i < ii) { sample = p_record_buffer[p_record_buffer_readp] + audio_law_to_s32[*data++]; p_record_buffer_readp = (p_record_buffer_readp + 1) & RECORD_BUFFER_MASK; if (sample < SHORT_MIN) sample = SHORT_MIN; if (sample > SHORT_MAX) sample = SHORT_MAX; *d++ = (sample+0x8000) >> 8; i++; } ret = fwrite(write_buffer, ii, 1, p_record); p_record_length += ii; break; case CODEC_LAW: d = write_buffer; i = 0; while(i < ii) { sample = p_record_buffer[p_record_buffer_readp] + audio_law_to_s32[*data++]; p_record_buffer_readp = (p_record_buffer_readp + 1) & RECORD_BUFFER_MASK; if (sample < SHORT_MIN) sample = SHORT_MIN; if (sample > SHORT_MAX) sample = SHORT_MAX; *d++ = audio_s16_to_law[sample & 0xffff]; i++; } ret = fwrite(write_buffer, ii, 1, p_record); p_record_length += ii; break; } length -= ii; /* still data */ if (length) goto different_again; /* no data (maybe buffer) */ return; } void Port::tap(unsigned char *data, int length, int dir_fromup) { } void Port::update_rxoff(void) { } void Port::update_load(void) { } /* * bridge handling */ int bridge_timeout(struct lcr_timer *timer, void *instance, int index); static void remove_bridge(struct port_bridge *bridge, class Port *port) { struct port_bridge **temp = &p_bridge_first; while (*temp) { if (*temp == bridge) { struct port_bridge_member **memberp = &bridge->first, *member; /* loop until we are found */ while(*memberp) { if ((*memberp)->port == port) { member = *memberp; *memberp = member->next; FREE(member, sizeof(struct port_bridge_member)); memuse--; #ifndef TEST_CONFERENCE if (bridge->first && bridge->first->next && !bridge->first->next->next) { #else if (bridge->first && !bridge->first->next) { #endif PDEBUG(DEBUG_PORT, "bridge %u is no conference anymore\n", bridge->bridge_id); del_timer(&bridge->timer); } break; } memberp = &((*memberp)->next); } /* if bridge is empty, remove it */ if (bridge->first == NULL) { PDEBUG(DEBUG_PORT, "Remove bridge %u\n", bridge->bridge_id); *temp = bridge->next; FREE(bridge, sizeof(struct port_bridge)); memuse--; } return; } temp = &((*temp)->next); } PERROR("Bridge %p not found in list\n", bridge); } void Port::bridge(unsigned int bridge_id) { struct port_bridge_member **memberp; /* Remove bridge, if we leave bridge or if we join a different bridge. */ if (p_bridge && bridge_id != p_bridge->bridge_id) { PDEBUG(DEBUG_PORT, "Remove port %u from bridge %u, because out new bridge is %u\n", p_serial, p_bridge->bridge_id, bridge_id); remove_bridge(p_bridge, this); p_bridge = NULL; } /* if we leave bridge */ if (!bridge_id) return; /* find bridge */ if (!p_bridge) { struct port_bridge *temp = p_bridge_first; while (temp) { if (temp->bridge_id == bridge_id) break; temp = temp->next; } p_bridge = temp; if (p_bridge) PDEBUG(DEBUG_PORT, "Port %d found existing bridge %u.\n", p_serial, p_bridge->bridge_id); } /* create bridge */ if (!p_bridge) { struct port_bridge **temp = &p_bridge_first; p_bridge = (struct port_bridge *) MALLOC(sizeof(struct port_bridge)); memuse++; p_bridge->bridge_id = bridge_id; /* attach bridge instance to list */ while (*temp) temp = &((*temp)->next); *temp = p_bridge; PDEBUG(DEBUG_PORT, "Port %d creating not existing bridge %u.\n", p_serial, p_bridge->bridge_id); } /* attach to bridge */ memberp = &p_bridge->first; while(*memberp) { if ((*memberp)->port == this) { /* already joined */ return; } memberp = &((*memberp)->next); } *memberp = (struct port_bridge_member *) MALLOC(sizeof(struct port_bridge_member)); memuse++; (*memberp)->port = this; /* check if bridge becomes a conference */ #ifndef TEST_CONFERENCE if (p_bridge->first->next && p_bridge->first->next->next && !p_bridge->first->next->next->next) { p_bridge->first->next->next->write_p = 0; p_bridge->first->next->next->min_space = 0; memset(p_bridge->first->next->next->buffer, silence, sizeof((*memberp)->buffer)); #else if (p_bridge->first->next && !p_bridge->first->next->next) { #endif p_bridge->first->next->write_p = 0; p_bridge->first->next->min_space = 0; memset(p_bridge->first->next->buffer, silence, sizeof((*memberp)->buffer)); p_bridge->first->write_p = 0; p_bridge->first->min_space = 0; memset(p_bridge->first->buffer, silence, sizeof((*memberp)->buffer)); memset(p_bridge->sum_buffer, 0, sizeof(p_bridge->sum_buffer)); p_bridge->read_p = 0; add_timer(&p_bridge->timer, bridge_timeout, p_bridge, 0); schedule_timer(&p_bridge->timer, 0, 20000); /* 20 MS */ p_bridge->sample_count = 0; PDEBUG(DEBUG_PORT, "bridge %u became a conference\n", p_bridge->bridge_id); } } /* send data to remote Port or add to sum buffer */ int Port::bridge_tx(unsigned char *data, int len) { int write_p, space; struct port_bridge_member *member; signed long *sum; unsigned char *buf; #ifdef WITH_VOOTP if (p_vootp) vootp_encrypt_stream(p_vootp, data, len); #endif /* less than two ports, so drop */ if (!p_bridge || !p_bridge->first || !p_bridge->first->next) return -EIO; #ifndef TEST_CONFERENCE /* two ports, so bridge */ if (!p_bridge->first->next->next) { if (p_bridge->first->port == this) return p_bridge->first->next->port->bridge_rx(data, len); if (p_bridge->first->next->port == this) return p_bridge->first->port->bridge_rx(data, len); return -EINVAL; } #endif /* more than two ports... */ member = p_bridge->first; while (member) { if (member->port == this) break; member = member->next; } if (!member) return -EINVAL; write_p = member->write_p; /* calculate space, so write pointer will not overrun (or reach) read pointer in ring buffer */ space = (p_bridge->read_p - write_p - 1) & (BRIDGE_BUFFER - 1); /* clip len, if it does not fit */ if (space < len) len = space; /* apply audio samples to sum buffer */ sum = p_bridge->sum_buffer; buf = member->buffer; while (len--) { sum[write_p] += audio_law_to_s32[*data]; buf[write_p] = *data++; write_p = (write_p + 1) & (BRIDGE_BUFFER - 1); } /* raise write pointer */ member->write_p = write_p; return 0; } int bridge_timeout(struct lcr_timer *timer, void *instance, int index) { struct port_bridge *bridge = (struct port_bridge *)instance; struct port_bridge_member *member = bridge->first; unsigned long long timer_time; signed long *sum, sample; unsigned char buffer[160], *buf, *d; int i, read_p, space; bridge->sample_count += 160; /* schedule exactly 20ms from last schedule */ timer_time = timer->timeout.tv_sec * MICRO_SECONDS + timer->timeout.tv_usec; timer_time += 20000; /* 20 MS */ timer->timeout.tv_sec = timer_time / MICRO_SECONDS; timer->timeout.tv_usec = timer_time % MICRO_SECONDS; timer->active = 1; while (member) { /* calculate transmit data */ read_p = bridge->read_p; sum = bridge->sum_buffer; buf = member->buffer; d = buffer; for (i = 0; i < 160; i++) { sample = sum[read_p]; sample -= audio_law_to_s32[buf[read_p]]; buf[read_p] = silence; if (sample < SHORT_MIN) sample = SHORT_MIN; if (sample > SHORT_MAX) sample = SHORT_MAX; *d++ = audio_s16_to_law[sample & 0xffff]; read_p = (read_p + 1) & (BRIDGE_BUFFER - 1); } /* send data */ member->port->bridge_rx(buffer, 160); /* raise write pointer, if read pointer would overrun them */ space = ((member->write_p - bridge->read_p) & (BRIDGE_BUFFER - 1)) - 160; if (space < 0) { space = 0; member->write_p = read_p; // PDEBUG(DEBUG_PORT, "bridge %u member %d has buffer underrun\n", bridge->bridge_id, member->port->p_serial); } /* find minimum delay */ if (space < member->min_space) member->min_space = space; /* check if we should reduce buffer */ if (bridge->sample_count >= 8000*5) { /* reduce buffer by minimum delay */ // PDEBUG(DEBUG_PORT, "bridge %u member %d has min space of %d samples\n", bridge->bridge_id, member->port->p_serial, member->min_space); member->write_p = (member->write_p - member->min_space) & (BRIDGE_BUFFER - 1); member->min_space = 1000000; /* infinite */ } member = member->next; } /* clear sample data */ read_p = bridge->read_p; sum = bridge->sum_buffer; for (i = 0; i < 160; i++) { sum[read_p] = 0; read_p = (read_p + 1) & (BRIDGE_BUFFER - 1); } /* raise read pointer */ bridge->read_p = read_p; if (bridge->sample_count >= 8000*5) bridge->sample_count = 0; return 0; } /* receive data from remote Port */ int Port::bridge_rx(unsigned char *data, int len) { #ifdef WITH_VOOTP if (p_vootp) vootp_decrypt_stream(p_vootp, data, len); #endif return 0; } #ifdef WITH_VOOTP static void vootp_info(void *priv, const char *text) { class Port *port = (class Port *)priv; char display[strlen(text) + 1]; SCPY(display, text); if (display[0]) display[strlen(display) - 1] = '\0'; port->set_display(display); } void Port::set_vootp(struct param_vootp *vootp) { if (p_vootp) { vootp_destroy(p_vootp); p_vootp = NULL; } if (vootp->enable) { p_vootp = vootp_create(this, (options.law=='a'), options.otp_dir, NULL, NULL, vootp->id, vootp_info); // vootp_loglevel(VOOTP_LOGL_DEBUG); if (!p_vootp) { struct lcr_msg *message; message = message_create(p_serial, p_epointlist->epoint_id, PORT_TO_EPOINT, MESSAGE_VOOTP); message->param.vootp.failed = 1; message_put(message); } } } #endif