/* * Chan_Misdn -- Channel Driver for Asterisk * * Interface to mISDN * * Copyright (C) 2004, Christian Richter * * Christian Richter * * This program is free software, distributed under the terms of * the GNU General Public License */ #include "isdn_lib_intern.h" int misdn_ibuf_freecount(void *buf) { return ibuf_freecount( (ibuffer_t*)buf); } int misdn_ibuf_usedcount(void *buf) { return ibuf_usedcount( (ibuffer_t*)buf); } void misdn_ibuf_memcpy_r(char *to, void *buf, int len) { ibuf_memcpy_r( to, (ibuffer_t*)buf, len); } void misdn_ibuf_memcpy_w(void *buf, char *from, int len) { ibuf_memcpy_w((ibuffer_t*)buf, from, len); } struct misdn_stack* get_misdn_stack( void ); int misdn_lib_is_ptp(int port) { struct misdn_stack *stack=get_misdn_stack(); for ( ; stack; stack=stack->next) { if (stack->port == port) return stack->ptp; } return -1; } struct misdn_stack* get_stack_by_bc(struct misdn_bchannel *bc) { struct misdn_stack *stack=get_misdn_stack(); if (!bc) return NULL; for ( ; stack; stack=stack->next) { int i; for (i=0; i b_num; i++) { if ( bc->port == stack->port) return stack; } } return NULL; } void get_show_stack_details(int port, char *buf) { struct misdn_stack *stack=get_misdn_stack(); for ( ; stack; stack=stack->next) { if (stack->port == port) break; } if (stack) { sprintf(buf, "* Stack Addr: Port %d Type %s Prot. %s L2Link %s L1Link:%s", stack->upper_id & IF_CONTRMASK, stack->mode==NT_MODE?"NT":"TE", stack->ptp?"PTP":"PMP", stack->l2link?"UP":"DOWN", stack->l1link?"UP":"DOWN"); } else { buf[0]=0; } } static int nt_err_cnt =0 ; enum global_states { MISDN_INITIALIZING, MISDN_INITIALIZED } ; static enum global_states global_state=MISDN_INITIALIZING; #include #include #include #include #include #include #include "isdn_lib.h" struct misdn_lib { int midev; int midev_nt; pthread_t event_thread; pthread_t event_handler_thread; void *user_data; msg_queue_t upqueue; msg_queue_t activatequeue; sem_t new_msg; struct misdn_stack *stack_list; } ; #ifndef ECHOCAN_ON #define ECHOCAN_ON 123 #define ECHOCAN_OFF 124 #endif #define MISDN_DEBUG 0 struct misdn_bchannel *find_bc_by_l3id(struct misdn_stack *stack, unsigned long l3id); int setup_bc(struct misdn_bchannel *bc); int manager_isdn_handler(iframe_t *frm ,msg_t *msg); int misdn_lib_port_restart(int port); extern struct isdn_msg msgs_g[]; #define ISDN_PID_L3_B_USER 0x430000ff #define ISDN_PID_L4_B_USER 0x440000ff /* #define MISDN_IBUF_SIZE 1024 */ #define MISDN_IBUF_SIZE 512 /* Fine Tuning of Inband Signalling time */ #define TONE_ALERT_CNT 41 /* 1 Sec */ #define TONE_ALERT_SILENCE_CNT 200 /* 4 Sec */ #define TONE_BUSY_CNT 20 /* ? */ #define TONE_BUSY_SILENCE_CNT 48 /* ? */ static int entity; static struct misdn_lib *glob_mgr; unsigned char tone_425_flip[TONE_425_SIZE]; unsigned char tone_silence_flip[TONE_SILENCE_SIZE]; static void misdn_lib_isdn_event_catcher(void *arg); static int handle_event_nt(void *dat, void *arg); void stack_holder_add(struct misdn_stack *stack, struct misdn_bchannel *holder); void stack_holder_remove(struct misdn_stack *stack, struct misdn_bchannel *holder); struct misdn_bchannel *stack_holder_find(struct misdn_stack *stack, unsigned long l3id); /* from isdn_lib.h */ int init_bc(struct misdn_stack * stack, struct misdn_bchannel *bc, int midev, int port, int bidx, char *msn, int firsttime); struct misdn_stack* stack_te_init(int midev, int port, int ptp); void stack_te_destroy(struct misdn_stack* stack); /* user iface */ int te_lib_init( void ) ; /* returns midev */ void te_lib_destroy(int midev) ; struct misdn_bchannel *manager_find_bc_by_pid(int pid); struct misdn_bchannel *manager_find_bc_holded(struct misdn_bchannel* bc); unsigned char * manager_flip_buf_bits ( unsigned char * buf , int len); void manager_ph_control_block(struct misdn_bchannel *bc, int c1, void *c2, int c2_len); void manager_clean_bc(struct misdn_bchannel *bc ); void manager_bchannel_setup (struct misdn_bchannel *bc); void manager_bchannel_cleanup (struct misdn_bchannel *bc); int isdn_msg_get_index(struct isdn_msg msgs[], msg_t *frm, int nt); enum event_e isdn_msg_get_event(struct isdn_msg msgs[], msg_t *frm, int nt); int isdn_msg_parse_event(struct isdn_msg msgs[], msg_t *frm, struct misdn_bchannel *bc, int nt); char * isdn_get_info(struct isdn_msg msgs[], enum event_e event, int nt); msg_t * isdn_msg_build_event(struct isdn_msg msgs[], struct misdn_bchannel *bc, enum event_e event, int nt); void ec_chunk( struct misdn_bchannel *bc, unsigned char *rxchunk, unsigned char *txchunk, int chunk_size); /* end */ int bchdev_echocancel_activate(struct misdn_bchannel* dev); void bchdev_echocancel_deactivate(struct misdn_bchannel* dev); /* end */ static char *bearer2str(int cap) { static char *bearers[]={ "Speech", "Audio 3.1k", "Unres Digital", "Res Digital", "Unknown Bearer" }; switch (cap) { case INFO_CAPABILITY_SPEECH: return bearers[0]; break; case INFO_CAPABILITY_AUDIO_3_1K: return bearers[1]; break; case INFO_CAPABILITY_DIGITAL_UNRESTRICTED: return bearers[2]; break; case INFO_CAPABILITY_DIGITAL_RESTRICTED: return bearers[3]; break; default: return bearers[4]; break; } } static char flip_table[256]; void init_flip_bits(void) { int i,k; for (i = 0 ; i < 256 ; i++) { unsigned char sample = 0 ; for (k = 0; k<8; k++) { if ( i & 1 << k ) sample |= 0x80 >> k; } flip_table[i] = sample; } } static unsigned char * flip_buf_bits ( unsigned char * buf , int len) { int i; char * start = buf; for (i = 0 ; i < len; i++) { buf[i] = flip_table[buf[i]]; } return start; } msg_t *create_l2msg(int prim, int dinfo, int size) /* NT only */ { int i = 0; msg_t *dmsg; while(i < 10) { dmsg = prep_l3data_msg(prim, dinfo, size, 256, NULL); if (dmsg) return(dmsg); if (!i) printf("cannot allocate memory, trying again...\n"); i++; usleep(300000); } printf("cannot allocate memory, system overloaded.\n"); exit(-1); } msg_t *create_l3msg(int prim, int mt, int dinfo, int size, int ntmode) { int i = 0; msg_t *dmsg; Q931_info_t *qi; iframe_t *frm; if (!ntmode) size = sizeof(Q931_info_t)+2; while(i < 10) { if (ntmode) { dmsg = prep_l3data_msg(prim, dinfo, size, 256, NULL); if (dmsg) { return(dmsg); } } else { dmsg = alloc_msg(size+256+mISDN_HEADER_LEN+DEFAULT_HEADROOM); if (dmsg) { memset(msg_put(dmsg,size+mISDN_HEADER_LEN), 0, size+mISDN_HEADER_LEN); frm = (iframe_t *)dmsg->data; frm->prim = prim; frm->dinfo = dinfo; qi = (Q931_info_t *)(dmsg->data + mISDN_HEADER_LEN); qi->type = mt; return(dmsg); } } if (!i) printf("cannot allocate memory, trying again...\n"); i++; usleep(300000); } printf("cannot allocate memory, system overloaded.\n"); exit(-1); } int send_msg (int midev, struct misdn_bchannel *bc, msg_t *dmsg) { iframe_t *frm; frm = (iframe_t *)dmsg->data; struct misdn_stack *stack=get_stack_by_bc(bc); frm->addr = (stack->upper_id & IF_ADDRMASK) | IF_DOWN ; frm->dinfo = bc->l3_id; frm->len = (dmsg->len) - mISDN_HEADER_LEN; mISDN_write(midev, dmsg->data, dmsg->len, TIMEOUT_1SEC); free_msg(dmsg); return 0; } static int mypid=0; int misdn_cap_is_speech(int cap) /** Poor mans version **/ { if ( (cap != INFO_CAPABILITY_DIGITAL_UNRESTRICTED) && (cap != INFO_CAPABILITY_DIGITAL_RESTRICTED) ) return 1; return 0; } int misdn_inband_avail(struct misdn_bchannel *bc) { /*if ! early_bconnect we have never inband available*/ if ( ! bc->early_bconnect ) return 0; switch (bc->progress_indicator) { case INFO_PI_INBAND_AVAILABLE: case INFO_PI_CALL_NOT_E2E_ISDN: case INFO_PI_CALLED_NOT_ISDN: return 1; default: return 0; } return 0; } void dump_chan_list(struct misdn_stack *stack) { int i; for (i=0; i b_num; i++) { cb_log(3, stack->port, "Idx:%d stack->cchan:%d Chan:%d\n",i,stack->channels[i], i+1); } } static int find_free_chan_in_stack(struct misdn_stack *stack, int channel) { int i; if (channel < 0 || channel > MAX_BCHANS) { cb_log(4, stack->port, " !! out of bound call to find_free_chan_in_stack! (port:%d ch:%d)\n", stack->port, channel); return 0; } channel--; for (i = 0; i < stack->b_num; i++) { if (i != 15 && (channel < 0 || i == channel)) { /* skip E1 Dchannel ;) and work with chan preselection */ if (!stack->channels[i]) { cb_log (4, stack->port, " --> found chan%s: %d\n", channel>=0?" (preselected)":"", i+1); stack->channels[i] = 1; return i+1; } } } cb_log (4, stack->port, " !! NO FREE CHAN IN STACK\n"); dump_chan_list(stack); return 0; } int empty_chan_in_stack(struct misdn_stack *stack, int channel) { cb_log (4, stack?stack->port:0, " --> empty chan %d\n",channel); stack->channels[channel-1] = 0; dump_chan_list(stack); return 0; } void empty_bc(struct misdn_bchannel *bc) { bc->state=STATE_NOTHING; bc->channel = 0; bc->in_use = 0; bc->send_dtmf=0; bc->nodsp=0; bc->nojitter=0; bc->time_usec=0; bc->rxgain=0; bc->txgain=0; bc->crypt=0; bc->curptx=0; bc->curprx=0; bc->crypt_key[0] = 0; bc->tone=TONE_NONE; bc->tone_cnt2 = bc->tone_cnt=0; bc->dnumplan=NUMPLAN_UNKNOWN; bc->onumplan=NUMPLAN_UNKNOWN; bc->rnumplan=NUMPLAN_UNKNOWN; bc->active = 0; bc->early_bconnect = 1; bc->ec_enable = 0; bc->ec_deftaps = 128; bc->ec_whenbridged = 0; bc->ec_training = 1; bc->orig=0; bc->cause=16; bc->out_cause=16; bc->pres=0 ; /* screened */ bc->evq=EVENT_NOTHING; bc->progress_coding=0; bc->progress_location=0; bc->progress_indicator=0; /** Set Default Bearer Caps **/ bc->capability=INFO_CAPABILITY_SPEECH; bc->law=INFO_CODEC_ALAW; bc->mode=0; bc->rate=0; bc->user1=0; bc->async=0; bc->urate=0; bc->info_dad[0] = 0; bc->display[0] = 0; bc->infos_pending[0] = 0; bc->oad[0] = 0; bc->dad[0] = 0; bc->orig_dad[0] = 0; bc->facility=FACILITY_NONE; bc->facility_calldeflect_nr[0]=0; bc->te_choose_channel = 0; } int clean_up_bc(struct misdn_bchannel *bc) { int ret=0; unsigned char buff[32]; struct misdn_stack * stack; if (!bc ) return -1; stack=get_stack_by_bc(bc); if (!stack) return -1; if (!bc->upset) { cb_log(5, stack->port, "$$$ Already cleaned up bc with stid :%x\n", bc->b_stid); return -1; } cb_log(5, stack->port, "$$$ Cleaning up bc with stid :%x\n", bc->b_stid); if ( misdn_cap_is_speech(bc->capability) && bc->ec_enable) { manager_ec_disable(bc); } mISDN_write_frame(stack->midev, buff, bc->layer_id, MGR_DELLAYER | REQUEST, 0, 0, NULL, TIMEOUT_1SEC); bc->b_stid = 0; bc->upset=0; return ret; } void clear_l3(struct misdn_stack *stack) { int i; for (i=0; ib_num; i++) { if (global_state == MISDN_INITIALIZED) { cb_event(EVENT_CLEANUP, &stack->bc[i], glob_mgr->user_data); empty_chan_in_stack(stack,i+1); empty_bc(&stack->bc[i]); clean_up_bc(&stack->bc[i]); } } } int set_chan_in_stack(struct misdn_stack *stack, int channel) { stack->channels[channel-1] = 1; return 0; } int chan_in_stack_free(struct misdn_stack *stack, int channel) { if (stack->channels[channel-1]) return 0; return 1; } static int newteid=0; #ifdef MISDNUSER_JOLLY #define MAXPROCS 0x100 #else #define MAXPROCS 0x10 #endif int misdn_lib_get_l1_up(struct misdn_stack *stack) { /* Pull Up L1 if we have JOLLY */ iframe_t act; act.prim = PH_ACTIVATE | REQUEST; act.addr = (stack->upper_id & IF_ADDRMASK) | IF_DOWN ; act.dinfo = 0; act.len = 0; return mISDN_write(stack->midev, &act, mISDN_HEADER_LEN+act.len, TIMEOUT_1SEC); } int misdn_lib_get_l2_up(struct misdn_stack *stack) { if (stack->ptp && (stack->mode == NT_MODE) ) { msg_t *dmsg; /* L2 */ dmsg = create_l2msg(DL_ESTABLISH | REQUEST, 0, 0); if (stack->nst.manager_l3(&stack->nst, dmsg)) free_msg(dmsg); } else { iframe_t act; act.prim = DL_ESTABLISH | REQUEST; act.addr = (stack->upper_id & IF_ADDRMASK) | IF_DOWN; act.dinfo = 0; act.len = 0; return mISDN_write(stack->midev, &act, mISDN_HEADER_LEN+act.len, TIMEOUT_1SEC); } return 0; } int misdn_lib_get_l2_status(struct misdn_stack *stack) { iframe_t act; #ifdef DL_STATUS act.prim = DL_STATUS | REQUEST; #else act.prim = DL_ESTABLISH | REQUEST; #endif act.addr = (stack->upper_id & IF_ADDRMASK) | IF_DOWN; act.dinfo = 0; act.len = 0; return mISDN_write(stack->midev, &act, mISDN_HEADER_LEN+act.len, TIMEOUT_1SEC); } static int create_process (int midev, struct misdn_bchannel *bc) { iframe_t ncr; int l3_id; int i; struct misdn_stack *stack=get_stack_by_bc(bc); int free_chan; if (stack->mode == NT_MODE) { free_chan = find_free_chan_in_stack(stack, bc->channel_preselected?bc->channel:0); if (!free_chan) return -1; bc->channel=free_chan; for (i=0; i <= MAXPROCS; i++) if (stack->procids[i]==0) break; if (i== MAXPROCS) { cb_log(0, stack->port, "Couldnt Create New ProcId Port:%d\n",stack->port); return -1; } stack->procids[i]=1; #ifdef MISDNUSER_JOLLY l3_id = 0xff00 | i; #else l3_id = 0xfff0 | i; #endif ncr.prim = CC_NEW_CR | REQUEST; ncr.addr = (stack->upper_id & IF_ADDRMASK) | IF_DOWN ; ncr.dinfo = l3_id; ncr.len = 0; bc->l3_id = l3_id; if (mypid>5000) mypid=0; bc->pid=mypid++; cb_log(3, stack->port, " --> new_l3id %x\n",l3_id); } else { if (stack->ptp || bc->te_choose_channel) { /* we know exactly which channels are in use */ free_chan = find_free_chan_in_stack(stack, bc->channel_preselected?bc->channel:0); if (!free_chan) return -1; bc->channel=free_chan; } else { /* other phones could have made a call also on this port (ptmp) */ bc->channel=0xff; } /* if we are in te-mode, we need to create a process first */ if (newteid++ > 0xffff) newteid = 0x0001; l3_id = (entity<<16) | newteid; /* preparing message */ ncr.prim = CC_NEW_CR | REQUEST; ncr.addr = (stack->upper_id & IF_ADDRMASK) | IF_DOWN ; ncr.dinfo =l3_id; ncr.len = 0; /* send message */ bc->l3_id = l3_id; if (mypid>5000) mypid=0; bc->pid=mypid++; cb_log(3, stack->port, "--> new_l3id %x\n",l3_id); mISDN_write(midev, &ncr, mISDN_HEADER_LEN+ncr.len, TIMEOUT_1SEC); } return l3_id; } void misdn_lib_setup_bc(struct misdn_bchannel *bc) { setup_bc(bc); } int setup_bc(struct misdn_bchannel *bc) { unsigned char buff[1025]; mISDN_pid_t pid; int ret; struct misdn_stack *stack=get_stack_by_bc(bc); int midev=stack->midev; int channel=bc->channel-1-(bc->channel>16); int b_stid=stack->b_stids[channel>=0?channel:0]; if (bc->nodsp ) clean_up_bc(bc); if ( !misdn_cap_is_speech(bc->capability)) clean_up_bc(bc); if (bc->upset) { cb_log(4, stack->port, "$$$ bc already upsetted stid :%x\n", b_stid); return -1; } cb_log(5, stack->port, "$$$ Setting up bc with stid :%x\n", b_stid); if (b_stid <= 0) { cb_log(0, stack->port," -- Stid <=0 at the moment on port:%d channel:%d\n",stack->port,channel); return 1; } bc->b_stid = b_stid; { layer_info_t li; memset(&li, 0, sizeof(li)); li.object_id = -1; li.extentions = 0; li.st = bc->b_stid; /* given idx */ if ( misdn_cap_is_speech(bc->capability) && !bc->nodsp && bc->async != 1) { cb_log(4, stack->port,"setup_bc: with dsp\n"); { int l = sizeof(li.name); strncpy(li.name, "B L4", l); li.name[l-1] = 0; } li.pid.layermask = ISDN_LAYER((4)); li.pid.protocol[4] = ISDN_PID_L4_B_USER; } else { cb_log(4, stack->port,"setup_bc: without dsp\n"); { int l = sizeof(li.name); strncpy(li.name, "B L3", l); li.name[l-1] = 0; } li.pid.layermask = ISDN_LAYER((3)); li.pid.protocol[3] = ISDN_PID_L3_B_USER; } ret = mISDN_new_layer(midev, &li); if (ret <= 0) { cb_log(0, stack->port,"New Layer Err: %d %s port:%d\n",ret,strerror(errno), stack->port); return(-EINVAL); } bc->layer_id = ret; } memset(&pid, 0, sizeof(pid)); bc->addr = ( bc->layer_id & IF_ADDRMASK) | IF_DOWN; cb_log(4, stack->port," --> Got Adr %x\n", bc->addr); cb_log(4, stack->port," --> Channel is %d\n", bc->channel); if (bc->async == 1 || bc->nodsp) { cb_log(4, stack->port," --> TRANSPARENT Mode (no DSP, no HDLC)\n"); pid.protocol[1] = ISDN_PID_L1_B_64TRANS; pid.protocol[2] = ISDN_PID_L2_B_TRANS; pid.protocol[3] = ISDN_PID_L3_B_USER; pid.layermask = ISDN_LAYER((1)) | ISDN_LAYER((2)) | ISDN_LAYER((3)); } else if ( misdn_cap_is_speech(bc->capability)) { cb_log(4, stack->port," --> TRANSPARENT Mode\n"); pid.protocol[1] = ISDN_PID_L1_B_64TRANS; pid.protocol[2] = ISDN_PID_L2_B_TRANS; pid.protocol[3] = ISDN_PID_L3_B_DSP; pid.protocol[4] = ISDN_PID_L4_B_USER; pid.layermask = ISDN_LAYER((1)) | ISDN_LAYER((2)) | ISDN_LAYER((3)) | ISDN_LAYER((4)); } else { cb_log(4, stack->port," --> HDLC Mode\n"); pid.protocol[1] = ISDN_PID_L1_B_64HDLC ; pid.protocol[2] = ISDN_PID_L2_B_TRANS ; pid.protocol[3] = ISDN_PID_L3_B_USER; pid.layermask = ISDN_LAYER((1)) | ISDN_LAYER((2)) | ISDN_LAYER((3)) ; } ret = mISDN_set_stack(midev, bc->b_stid, &pid); if (ret){ cb_log(5, stack->port,"$$$ Set Stack Err: %d %s\n",ret,strerror(errno)); mISDN_write_frame(midev, buff, bc->addr, MGR_DELLAYER | REQUEST, 0, 0, NULL, TIMEOUT_1SEC); return(-EINVAL); } bc->upset=1; return 0; } /** IFACE **/ int init_bc(struct misdn_stack *stack, struct misdn_bchannel *bc, int midev, int port, int bidx, char *msn, int firsttime) { unsigned char buff[1025]; iframe_t *frm = (iframe_t *)buff; int ret; if (!bc) return -1; cb_log(4, port, "Init.BC %d on port:%d\n",bidx, port); memset(bc, 0,sizeof(struct misdn_bchannel)); if (msn) { int l = sizeof(bc->msn); strncpy(bc->msn,msn, l); bc->msn[l-1] = 0; } empty_bc(bc); bc->upset=0; bc->port=stack->port; bc->nt=stack->mode==NT_MODE?1:0; { ibuffer_t* ibuf= init_ibuffer(MISDN_IBUF_SIZE); ibuffer_t* mbuf= init_ibuffer(MISDN_IBUF_SIZE); if (!ibuf) return -1; if (!mbuf) return -1; clear_ibuffer( ibuf); clear_ibuffer( mbuf); ibuf->rsem=malloc(sizeof(sem_t)); mbuf->rsem=malloc(sizeof(sem_t)); bc->astbuf=ibuf; bc->misdnbuf=mbuf; if (sem_init(ibuf->rsem,1,0)<0) sem_init(ibuf->rsem,0,0); if (sem_init(mbuf->rsem,1,0)< 0) sem_init(mbuf->rsem,0,0); } { stack_info_t *stinf; ret = mISDN_get_stack_info(midev, stack->port, buff, sizeof(buff)); if (ret < 0) { cb_log(0, port, "%s: Cannot get stack info for port:%d (ret=%d)\n", __FUNCTION__, port, ret); return -1; } stinf = (stack_info_t *)&frm->data.p; cb_log(4, port, " --> Child %x\n",stinf->child[bidx]); } return 0; } struct misdn_stack * stack_nt_init(struct misdn_stack *stack, int midev, int port) { int ret; layer_info_t li; interface_info_t ii; cb_log(4, port, "Init. Stack on port:%d\n",port); stack->mode = NT_MODE; stack->lower_id = mISDN_get_layerid(midev, stack->d_stid, 1); if (stack->lower_id <= 0) { cb_log(0, port, "%s: Cannot get layer(%d) id of port:%d\n", __FUNCTION__, 1, port); return(NULL); } memset(&li, 0, sizeof(li)); { int l = sizeof(li.name); strncpy(li.name,"net l2", l); li.name[l-1] = 0; } li.object_id = -1; li.extentions = 0; li.pid.protocol[2] = ISDN_PID_L2_LAPD_NET; li.pid.layermask = ISDN_LAYER((2)); li.st = stack->d_stid; stack->upper_id = mISDN_new_layer(midev, &li); if (stack->upper_id <= 0) { cb_log(0, port, "%s: Cannot add layer %d of port:%d\n", __FUNCTION__, 2, port); return(NULL); } cb_log(4, port, "NT Stacks upper_id %x\n",stack->upper_id); memset(&ii, 0, sizeof(ii)); ii.extentions = EXT_IF_EXCLUSIV; ii.owner = stack->upper_id; ii.peer = stack->lower_id; ii.stat = IF_DOWN; ret = mISDN_connect(midev, &ii); if (ret) { cb_log(0, port, "%s: Cannot connect layer %d of port:%d exclusively.\n", __FUNCTION__, 2, port); return(NULL); } /* create nst (nt-mode only) */ { memset(&stack->nst, 0, sizeof(net_stack_t)); memset(&stack->mgr, 0, sizeof(manager_t)); stack->mgr.nst = &stack->nst; stack->nst.manager = &stack->mgr; stack->nst.l3_manager = handle_event_nt; stack->nst.device = midev; stack->nst.cardnr = port; stack->nst.d_stid = stack->d_stid; #ifdef MISDNUSER_JOLLY stack->nst.feature = FEATURE_NET_HOLD; if (stack->ptp) stack->nst.feature |= FEATURE_NET_PTP; if (stack->pri) stack->nst.feature |= FEATURE_NET_CRLEN2 | FEATURE_NET_EXTCID; #endif stack->nst.l1_id = stack->lower_id; stack->nst.l2_id = stack->upper_id; msg_queue_init(&stack->nst.down_queue); Isdnl2Init(&stack->nst); Isdnl3Init(&stack->nst); } misdn_lib_get_l1_up(stack); if (stack->ptp) { misdn_lib_get_l2_up(stack); stack->l2link=0; } return stack; } struct misdn_stack* stack_te_init( int midev, int port, int ptp ) { int ret; unsigned char buff[1025]; iframe_t *frm = (iframe_t *)buff; stack_info_t *stinf; int i; layer_info_t li; interface_info_t ii; struct misdn_stack *stack = malloc(sizeof(struct misdn_stack)); if (!stack ) return NULL; //cb_log(2, "Init. Stack on port:%d\n",port); cb_log(4, port, "Init. Stack on port:%d\n",port); memset(stack,0,sizeof(struct misdn_stack)); for (i=0; ichannels[i]=0; stack->port=port; stack->midev=midev; stack->ptp=ptp; stack->holding=NULL; stack->pri=0; msg_queue_init(&stack->downqueue); /* query port's requirements */ ret = mISDN_get_stack_info(midev, port, buff, sizeof(buff)); if (ret < 0) { cb_log(0, port, "%s: Cannot get stack info for port:%d (ret=%d)\n", __FUNCTION__, port, ret); return(NULL); } stinf = (stack_info_t *)&frm->data.p; stack->d_stid = stinf->id; stack->b_num = stinf->childcnt; for (i=0; ichildcnt; i++) stack->b_stids[i] = stinf->child[i]; switch(stinf->pid.protocol[0] & ~ISDN_PID_FEATURE_MASK) { case ISDN_PID_L0_TE_S0: //cb_log(2, "TE Stack\n"); stack->mode = TE_MODE; break; case ISDN_PID_L0_NT_S0: cb_log(4, port, "NT Stack\n"); return stack_nt_init(stack,midev,port); break; case ISDN_PID_L0_TE_U: break; case ISDN_PID_L0_NT_U: break; case ISDN_PID_L0_TE_UP2: break; case ISDN_PID_L0_NT_UP2: break; case ISDN_PID_L0_TE_E1: cb_log(4, port, "TE S2M Stack\n"); stack->mode = TE_MODE; stack->pri=1; break; case ISDN_PID_L0_NT_E1: cb_log(4, port, "TE S2M Stack\n"); stack->mode = NT_MODE; stack->pri=1; return stack_nt_init(stack,midev,port); break; default: cb_log(0, port, "unknown port(%d) type 0x%08x\n", port, stinf->pid.protocol[0]); } if (stinf->pid.protocol[2] & ISDN_PID_L2_DF_PTP ) { /* || (nt&&ptp) || pri */ stack->ptp = 1; } else { stack->ptp = 0; } stack->lower_id = mISDN_get_layerid(midev, stack->d_stid, 3); if (stack->lower_id <= 0) { cb_log(0, stack->port, "No lower Id port:%d\n", stack->port); return(NULL); } memset(&li, 0, sizeof(li)); { int l = sizeof(li.name); strncpy(li.name, "user L4", l); li.name[l-1] = 0; } li.object_id = -1; li.extentions = 0; li.pid.protocol[4] = ISDN_PID_L4_CAPI20; li.pid.layermask = ISDN_LAYER((4)); li.st = stack->d_stid; stack->upper_id = mISDN_new_layer(midev, &li); if (stack->upper_id <= 0) { cb_log(0, stack->port, "No Upper ID port:%d\n",stack->port); return(NULL); } memset(&ii, 0, sizeof(ii)); ii.extentions = EXT_IF_EXCLUSIV | EXT_IF_CREATE; ii.owner = stack->upper_id; ii.peer = stack->lower_id; ii.stat = IF_DOWN; ret = mISDN_connect(midev, &ii); if (ret) { cb_log(0, stack->port, "No Connect port:%d\n", stack->port); return NULL; } misdn_lib_get_l1_up(stack); misdn_lib_get_l2_status(stack); /* initially, we assume that the link is NOT up */ stack->l2link = 0; stack->l1link = 0; stack->next=NULL; return stack; } void stack_te_destroy(struct misdn_stack* stack) { char buf[1024]; if (!stack) return; if (stack->lower_id) mISDN_write_frame(stack->midev, buf, stack->lower_id, MGR_DELLAYER | REQUEST, 0, 0, NULL, TIMEOUT_1SEC); if (stack->upper_id) mISDN_write_frame(stack->midev, buf, stack->upper_id, MGR_DELLAYER | REQUEST, 0, 0, NULL, TIMEOUT_1SEC); } struct misdn_stack * find_stack_by_addr(int addr) { struct misdn_stack *stack; for (stack=glob_mgr->stack_list; stack; stack=stack->next) { if ( stack->upper_id == addr) return stack; } return NULL; } struct misdn_stack * find_stack_by_port(int port) { struct misdn_stack *stack; for (stack=glob_mgr->stack_list; stack; stack=stack->next) if (stack->port == port) return stack; return NULL; } struct misdn_stack * find_stack_by_mgr(manager_t* mgr_nt) { struct misdn_stack *stack; for (stack=glob_mgr->stack_list; stack; stack=stack->next) if ( &stack->mgr == mgr_nt) return stack; return NULL; } struct misdn_bchannel *find_bc_by_masked_l3id(struct misdn_stack *stack, unsigned long l3id, unsigned long mask) { int i; for (i=0; ib_num; i++) { if ( (stack->bc[i].l3_id & mask) == (l3id & mask)) return &stack->bc[i] ; } return stack_holder_find(stack,l3id); } struct misdn_bchannel *find_bc_by_l3id(struct misdn_stack *stack, unsigned long l3id) { int i; for (i=0; ib_num; i++) { if (stack->bc[i].l3_id == l3id) return &stack->bc[i] ; } return stack_holder_find(stack,l3id); } struct misdn_bchannel *find_bc_holded(struct misdn_stack *stack) { int i; for (i=0; ib_num; i++) { if (stack->bc[i].holded ) return &stack->bc[i] ; } return NULL; } struct misdn_bchannel *find_bc_by_addr(unsigned long addr) { int port = addr & IF_CONTRMASK; struct misdn_stack* stack; int i; for (stack=glob_mgr->stack_list; stack; stack=stack->next) { if (stack->port == port) { for (i=0; i< stack->b_num; i++) { if (stack->bc[i].addr==addr) { return &stack->bc[i]; } } } } return NULL; } int handle_event ( struct misdn_bchannel *bc, enum event_e event, iframe_t *frm) { struct misdn_stack *stack=get_stack_by_bc(bc); if (stack->mode == TE_MODE) { switch (event) { case EVENT_CONNECT_ACKNOWLEDGE: manager_bchannel_activate(bc); break; case EVENT_CONNECT: if ( *bc->crypt_key ) { cb_log(4, stack->port, "ENABLING BLOWFISH port:%d channel:%d oad%d:%s dad%d:%s\n", stack->port, bc->channel, bc->onumplan,bc->oad, bc->dnumplan,bc->dad); manager_ph_control_block(bc, BF_ENABLE_KEY, bc->crypt_key, strlen(bc->crypt_key) ); } case EVENT_SETUP: if (bc->channel>0 && bc->channel<255) set_chan_in_stack(stack, bc->channel); break; case EVENT_ALERTING: case EVENT_PROGRESS: case EVENT_PROCEEDING: case EVENT_SETUP_ACKNOWLEDGE: { struct misdn_stack *stack=find_stack_by_port(frm->addr&IF_CONTRMASK); if (!stack) return -1; if (bc->channel == 0xff) { bc->channel=find_free_chan_in_stack(stack, 0); if (!bc->channel) { cb_log(0, stack->port, "Any Channel Requested, but we have no more!!\n"); break; } } if (stack->mode == TE_MODE) { setup_bc(bc); } } default: break; } } else { /** NT MODE **/ } return 0; } int handle_new_process(struct misdn_stack *stack, iframe_t *frm) { struct misdn_bchannel* bc=misdn_lib_get_free_bc(frm->addr&IF_CONTRMASK, 0); if (!bc) { cb_log(0, 0, " --> !! lib: No free channel!\n"); return -1; } cb_log(4, stack->port, " --> new_process: New L3Id: %x\n",frm->dinfo); bc->l3_id=frm->dinfo; if (mypid>5000) mypid=0; bc->pid=mypid++; return 0; } int handle_cr ( iframe_t *frm) { struct misdn_stack *stack=find_stack_by_port(frm->addr&IF_CONTRMASK); if (!stack) return -1; switch (frm->prim) { case CC_NEW_CR|INDICATION: cb_log(4, stack->port, " --> lib: NEW_CR Ind with l3id:%x port:%d\n",frm->dinfo, stack->port); handle_new_process(stack, frm); return 1; case CC_NEW_CR|CONFIRM: return 1; case CC_NEW_CR|REQUEST: return 1; case CC_RELEASE_CR|REQUEST: return 1; case CC_RELEASE_CR|CONFIRM: break; case CC_RELEASE_CR|INDICATION: cb_log(4, stack->port, " --> lib: RELEASE_CR Ind with l3id:%x\n",frm->dinfo); { struct misdn_bchannel *bc=find_bc_by_l3id(stack, frm->dinfo); struct misdn_bchannel dummybc; if (!bc) { cb_log(4, stack->port, " --> Didn't found BC so temporarly creating dummy BC (l3id:%x) on port:%d\n", frm->dinfo, stack->port); memset (&dummybc,0,sizeof(dummybc)); dummybc.port=stack->port; dummybc.l3_id=frm->dinfo; bc=&dummybc; } if (bc) { cb_log(4, stack->port, " --> lib: CLEANING UP l3id: %x\n",frm->dinfo); empty_chan_in_stack(stack,bc->channel); empty_bc(bc); clean_up_bc(bc); dump_chan_list(stack); bc->pid = 0; cb_event(EVENT_CLEANUP, bc, glob_mgr->user_data); if (bc->stack_holder) { cb_log(4,stack->port, "REMOVEING Holder\n"); stack_holder_remove( stack, bc); free(bc); } } else { if (stack->mode == NT_MODE) cb_log(4, stack->port, "BC with dinfo: %x not found.. (prim was %x and addr %x)\n",frm->dinfo, frm->prim, frm->addr); } return 1; } break; } return 0; } /*Emptys bc if it's reserved (no SETUP out yet)*/ void misdn_lib_release(struct misdn_bchannel *bc) { struct misdn_stack *stack=get_stack_by_bc(bc); if (!stack) { cb_log(1,0,"misdn_release: No Stack found\n"); return; } if (bc->channel>=0) { empty_chan_in_stack(stack,bc->channel); empty_bc(bc); } clean_up_bc(bc); } int misdn_lib_get_port_up (int port) { /* Pull Up L1 if we have JOLLY */ struct misdn_stack *stack; for (stack=glob_mgr->stack_list; stack; stack=stack->next) { if (stack->port == port) { if (!stack->l1link) misdn_lib_get_l1_up(stack); if (!stack->l2link) misdn_lib_get_l2_up(stack); return 0; } } return 0; } int misdn_lib_send_facility(struct misdn_bchannel *bc, enum facility_type fac, void *data) { bc->facility=fac; strcpy(bc->facility_calldeflect_nr,(char*)data); misdn_lib_send_event(bc,EVENT_FACILITY); return 0; } int misdn_lib_port_up(int port) { struct misdn_stack *stack; for (stack=glob_mgr->stack_list; stack; stack=stack->next) { if (stack->port == port) { if (stack->mode == NT_MODE) { if (stack->l1link) return 1; else return 0; } else { if (stack->l1link) return 1; else return 0; } } } return -1; } int handle_event_nt(void *dat, void *arg) { manager_t *mgr = (manager_t *)dat; msg_t *msg = (msg_t *)arg; #ifdef MISDNUSER_JOLLY mISDNuser_head_t *hh; #else mISDN_head_t *hh; #endif struct misdn_stack *stack=find_stack_by_mgr(mgr); int port; if (!msg || !mgr) return(-EINVAL); #ifdef MISDNUSER_JOLLY hh=(mISDNuser_head_t*)msg->data; #else hh=(mISDN_head_t*)msg->data; #endif port=hh->dinfo & IF_CONTRMASK; cb_log(4, stack->port, " --> lib: prim %x dinfo %x port: %d\n",hh->prim, hh->dinfo ,stack->port); { switch(hh->prim){ case CC_RETRIEVE|INDICATION: { iframe_t frm; /* fake te frm to add callref to global callreflist */ frm.dinfo = hh->dinfo; frm.addr=stack->upper_id; frm.prim = CC_NEW_CR|INDICATION; if (handle_cr(&frm)< 0) { msg_t *dmsg; cb_log(4, stack->port, "Patch from MEIDANIS:Sending RELEASE_COMPLETE %x (No free Chan for you..)\n", hh->dinfo); dmsg = create_l3msg(CC_RELEASE_COMPLETE | REQUEST,MT_RELEASE_COMPLETE, hh->dinfo,sizeof(RELEASE_COMPLETE_t), 1); stack->nst.manager_l3(&stack->nst, dmsg); free_msg(msg); return 0; } struct misdn_bchannel *bc=find_bc_by_l3id(stack, hh->dinfo); cb_event(EVENT_NEW_BC, bc, glob_mgr->user_data); struct misdn_bchannel *hold_bc=stack_holder_find(stack,bc->l3_id); if (hold_bc) { cb_log(4, stack->port, "REMOVEING Holder\n"); stack_holder_remove(stack, hold_bc); free(hold_bc); } } break; case CC_SETUP|CONFIRM: { struct misdn_bchannel *bc=find_bc_by_l3id(stack, hh->dinfo); int l3id = *((int *)(((u_char *)msg->data)+ mISDNUSER_HEAD_SIZE)); cb_log(4, bc?stack->port:0, " --> lib: Event_ind:SETUP CONFIRM [NT] : new L3ID is %x\n",l3id ); if (!bc) { cb_log(4, 0, "Bc Not found (after SETUP CONFIRM)\n"); return 0; } bc->l3_id=l3id; cb_event(EVENT_NEW_L3ID, bc, glob_mgr->user_data); } free_msg(msg); return 0; case CC_SETUP|INDICATION: { iframe_t frm; /* fake te frm to add callref to global callreflist */ frm.dinfo = hh->dinfo; frm.addr=stack->upper_id; frm.prim = CC_NEW_CR|INDICATION; if (handle_cr(&frm)< 0) { msg_t *dmsg; cb_log(4, stack->port, "Patch from MEIDANIS:Sending RELEASE_COMPLETE %x (No free Chan for you..)\n", hh->dinfo); dmsg = create_l3msg(CC_RELEASE_COMPLETE | REQUEST,MT_RELEASE_COMPLETE, hh->dinfo,sizeof(RELEASE_COMPLETE_t), 1); stack->nst.manager_l3(&stack->nst, dmsg); free_msg(msg); return 0; } } break; case CC_CONNECT|INDICATION: case CC_ALERTING|INDICATION: case CC_PROCEEDING|INDICATION: { struct misdn_bchannel *bc=find_bc_by_l3id(stack, hh->dinfo); if (!bc) { msg_t *dmsg; cb_log(0, stack->port,"!!!! We didn't found our bc, dinfo:%x port:%d\n",hh->dinfo, stack->port); cb_log(0, stack->port, "Releaseing call %x (No free Chan for you..)\n", hh->dinfo); dmsg = create_l3msg(CC_RELEASE_COMPLETE | REQUEST,MT_RELEASE_COMPLETE, hh->dinfo,sizeof(RELEASE_COMPLETE_t), 1); stack->nst.manager_l3(&stack->nst, dmsg); free_msg(msg); return 0; } setup_bc(bc); } break; case CC_DISCONNECT|INDICATION: { struct misdn_bchannel *bc=find_bc_by_l3id(stack, hh->dinfo); if (!bc) { bc=find_bc_by_masked_l3id(stack, hh->dinfo, 0xffff0000); if (bc) { //repair reject bug int myprocid=bc->l3_id&0x0000ffff; hh->dinfo=(hh->dinfo&0xffff0000)|myprocid; cb_log(4,stack->port,"Repaired reject Bug, new dinfo: %x\n",hh->dinfo); } } } break; case CC_RELEASE_COMPLETE|INDICATION: break; case CC_SUSPEND|INDICATION: { msg_t *dmsg; cb_log(4, stack->port, " --> Got Suspend, sending Reject for now\n"); dmsg = create_l3msg(CC_SUSPEND_REJECT | REQUEST,MT_SUSPEND_REJECT, hh->dinfo,sizeof(RELEASE_COMPLETE_t), 1); stack->nst.manager_l3(&stack->nst, dmsg); free_msg(msg); return 0; } break; case CC_RESUME|INDICATION: break; case CC_RELEASE|CONFIRM: { struct misdn_bchannel *bc=find_bc_by_l3id(stack, hh->dinfo); cb_log(4, stack->port, " --> RELEASE CONFIRM, sending RELEASE_COMPLETE\n"); if (bc) misdn_lib_send_event(bc,EVENT_RELEASE_COMPLETE); } hh->prim=CC_RELEASE|INDICATION; break; case CC_RELEASE|INDICATION: break; case CC_RELEASE_CR|INDICATION: { struct misdn_bchannel *bc=find_bc_by_l3id(stack, hh->dinfo); struct misdn_bchannel dummybc; iframe_t frm; /* fake te frm to remove callref from global callreflist */ frm.dinfo = hh->dinfo; frm.addr=stack->upper_id; frm.prim = CC_RELEASE_CR|INDICATION; cb_log(4, stack->port, " --> Faking Realease_cr for %x\n",frm.addr); /** removing procid **/ if (!bc) { cb_log(4, stack->port, " --> Didn't found BC so temporarly creating dummy BC (l3id:%x) on port:%d\n", hh->dinfo, stack->port); memset (&dummybc,0,sizeof(dummybc)); dummybc.port=stack->port; dummybc.l3_id=hh->dinfo; bc=&dummybc; } if (bc) { #ifdef MISDNUSER_JOLLY if ( (bc->l3_id & 0xff00) == 0xff00) { cb_log(4, stack->port, " --> Removing Process Id:%x on port:%d\n", bc->l3_id&0xff, stack->port); stack->procids[bc->l3_id&0xff] = 0 ; } #else if ( (bc->l3_id & 0xfff0) == 0xfff0) { cb_log(4, stack->port, " --> Removing Process Id:%x on port:%d\n", bc->l3_id&0xf, stack->port); stack->procids[bc->l3_id&0xf] = 0 ; } #endif } else cb_log(0, stack->port, "Couldnt find BC so I couldnt remove the Process!!!! this is bad Port:%d\n", stack->port ); handle_cr(&frm); free_msg(msg); return 0 ; } break; case CC_NEW_CR|INDICATION: /* Got New CR for bchan, for now I handle this one in */ /* connect_ack, Need to be changed */ { struct misdn_bchannel *bc=find_bc_by_l3id(stack, hh->dinfo); int l3id = *((int *)(((u_char *)msg->data)+ mISDNUSER_HEAD_SIZE)); if (!bc) { cb_log(0, 0, " --> In NEW_CR: didn't found bc ??\n"); return -1;}; #ifdef MISDNUSER_JOLLY if (((l3id&0xff00)!=0xff00) && ((bc->l3_id&0xff00)==0xff00)) { cb_log(4, stack->port, " --> Removing Process Id:%x on port:%d\n", 0xff&bc->l3_id, stack->port); stack->procids[bc->l3_id&0xff] = 0 ; } #else if (((l3id&0xfff0)!=0xfff0) && ((bc->l3_id&0xfff0)==0xfff0)) { cb_log(4, stack->port, "Removing Process Id:%x on port:%d\n", 0xf&bc->l3_id, stack->port); stack->procids[bc->l3_id&0xf] = 0 ; } #endif cb_log(4, stack->port, "lib: Event_ind:CC_NEW_CR : very new L3ID is %x\n",l3id ); bc->l3_id =l3id; cb_event(EVENT_NEW_L3ID, bc, glob_mgr->user_data); free_msg(msg); return 0; } case DL_ESTABLISH | INDICATION: case DL_ESTABLISH | CONFIRM: { cb_log(4, stack->port, "%% GOT L2 Activate Info port:%d\n",stack->port); stack->l2link = 1; free_msg(msg); return 0; } break; case DL_RELEASE | INDICATION: case DL_RELEASE | CONFIRM: { cb_log(4, stack->port, "%% GOT L2 DeActivate Info port:%d\n",stack->port); stack->l2link = 0; /** Clean the L3 here **/ if (cb_clearl3_true()) clear_l3(stack); free_msg(msg); return 0; } break; } } { /* Parse Events and fire_up to App. */ struct misdn_bchannel *bc; struct misdn_bchannel dummybc; enum event_e event = isdn_msg_get_event(msgs_g, msg, 1); bc=find_bc_by_l3id(stack, hh->dinfo); if (!bc) { cb_log(4, stack->port, " --> Didn't found BC so temporarly creating dummy BC (l3id:%x) on port:%d\n", hh->dinfo, stack->port); memset (&dummybc,0,sizeof(dummybc)); dummybc.port=stack->port; dummybc.l3_id=hh->dinfo; bc=&dummybc; } if (bc ) { isdn_msg_parse_event(msgs_g,msg,bc, 1); if(!isdn_get_info(msgs_g,event,1)) { cb_log(4, stack->port, "Unknown Event Ind: prim %x dinfo %x\n",hh->prim, hh->dinfo); } else { cb_event(event, bc, glob_mgr->user_data); } } else { cb_log(4, stack->port, "No BC found with l3id: prim %x dinfo %x\n",hh->prim, hh->dinfo); } free_msg(msg); } return 0; } int handle_timers(msg_t* msg) { iframe_t *frm= (iframe_t*)msg->data; struct misdn_stack *stack; /* Timer Stuff */ switch (frm->prim) { case MGR_INITTIMER | CONFIRM: case MGR_ADDTIMER | CONFIRM: case MGR_DELTIMER | CONFIRM: case MGR_REMOVETIMER | CONFIRM: free_msg(msg); return(1); } if (frm->prim==(MGR_TIMER | INDICATION) ) { for (stack = glob_mgr->stack_list; stack; stack = stack->next) { itimer_t *it; if (stack->mode != NT_MODE) continue; it = stack->nst.tlist; /* find timer */ for(it=stack->nst.tlist; it; it=it->next) { if (it->id == (int)frm->addr) break; } if (it) { int ret; ret = mISDN_write_frame(stack->midev, msg->data, frm->addr, MGR_TIMER | RESPONSE, 0, 0, NULL, TIMEOUT_1SEC); test_and_clear_bit(FLG_TIMER_RUNING, (long unsigned int *)&it->Flags); ret = it->function(it->data); free_msg(msg); return 1; } } cb_log(0, 0, "Timer Msg without Timer ??\n"); free_msg(msg); return 1; } return 0; } static int do_tone(struct misdn_bchannel *bc, int len) { char buf[4096 + mISDN_HEADER_LEN]; iframe_t *frm= (iframe_t*)buf; int r; struct misdn_stack *stack=get_stack_by_bc(bc); if (bc->tone == TONE_NONE) return 0; frm->prim = DL_DATA|REQUEST; frm->dinfo = 0; frm->addr = bc->addr | IF_DOWN; bc->tone_cnt+=len; if (bc->tone_cnt < TONE_425_SIZE) return 1; switch(bc->tone) { case TONE_DIAL: { frm->len = TONE_425_SIZE; memcpy(&buf[mISDN_HEADER_LEN], tone_425_flip,TONE_425_SIZE); r=mISDN_write(stack->midev, buf, frm->len + mISDN_HEADER_LEN, TIMEOUT_1SEC); if (rlen) { perror("Error written less than told bytes :(\n"); } } break; case TONE_ALERTING: bc->tone_cnt2++; if (bc->tone_cnt2 <= TONE_ALERT_CNT) { frm->len = TONE_425_SIZE; memcpy(&buf[mISDN_HEADER_LEN], tone_425_flip,TONE_425_SIZE); r=mISDN_write(stack->midev, buf, frm->len + mISDN_HEADER_LEN, TIMEOUT_1SEC); if (rlen) { perror("Error written less than told bytes :(\n"); } } else if (bc->tone_cnt2 <= (TONE_ALERT_SILENCE_CNT)) { frm->len = TONE_SILENCE_SIZE; memcpy(&buf[mISDN_HEADER_LEN], tone_silence_flip ,TONE_SILENCE_SIZE); r=mISDN_write(stack->midev, buf, frm->len + mISDN_HEADER_LEN, TIMEOUT_1SEC); } else { bc->tone_cnt2=-1; } break; case TONE_BUSY: bc->tone_cnt2++; if (bc->tone_cnt2 <= TONE_BUSY_CNT) { frm->len = TONE_425_SIZE; memcpy(&buf[mISDN_HEADER_LEN], tone_425_flip,TONE_425_SIZE); r=mISDN_write(stack->midev, buf, frm->len + mISDN_HEADER_LEN, TIMEOUT_1SEC); if (rlen) { perror("Error written less than told bytes :(\n"); } } else if (bc->tone_cnt2 <= (TONE_BUSY_SILENCE_CNT)) { frm->len = TONE_SILENCE_SIZE; memcpy(&buf[mISDN_HEADER_LEN], tone_silence_flip ,TONE_SILENCE_SIZE); r=mISDN_write(stack->midev, buf, frm->len + mISDN_HEADER_LEN, TIMEOUT_1SEC); } else { bc->tone_cnt2=-1; } break; case TONE_FILE: break; case TONE_NONE: return 0; } bc->tone_cnt -= TONE_425_SIZE ; return 1; } int handle_bchan(msg_t *msg) { iframe_t *frm= (iframe_t*)msg->data; struct misdn_bchannel *bc; bc=find_bc_by_addr(frm->addr); if (!bc) return 0 ; struct misdn_stack *stack=get_stack_by_bc(bc); if (!stack) return 0; switch (frm->prim) { case PH_ACTIVATE | INDICATION: case DL_ESTABLISH | INDICATION: cb_log(4, stack->port, "BCHAN: ACT Ind\n"); free_msg(msg); return 1; case PH_ACTIVATE | CONFIRM: case DL_ESTABLISH | CONFIRM: cb_log(4, stack->port, "BCHAN: bchan ACT Confirm\n"); free_msg(msg); return 1; case PH_DEACTIVATE | INDICATION: case DL_RELEASE | INDICATION: cb_log (4, stack->port, "BCHAN: DeACT Ind\n"); free_msg(msg); return 1; case PH_DEACTIVATE | CONFIRM: case DL_RELEASE | CONFIRM: cb_log(4, stack->port, "BCHAN: DeACT Conf\n"); free_msg(msg); return 1; case PH_CONTROL|INDICATION: { unsigned long cont = *((unsigned long *)&frm->data.p); cb_log(4, stack->port, "PH_CONTROL: port:%d channel:%d oad%d:%s dad%d:%s \n", stack->port, bc->channel, bc->onumplan,bc->oad, bc->dnumplan,bc->dad); if ((cont&~DTMF_TONE_MASK) == DTMF_TONE_VAL) { int dtmf = cont & DTMF_TONE_MASK; cb_log(4, stack->port, " --> DTMF TONE: %c\n",dtmf); bc->dtmf=dtmf; cb_event(EVENT_DTMF_TONE, bc, glob_mgr->user_data); free_msg(msg); return 1; } if (cont == BF_REJECT) { cb_log(4, stack->port, " --> BF REJECT\n"); free_msg(msg); return 1; } if (cont == BF_ACCEPT) { cb_log(4, stack->port, " --> BF ACCEPT\n"); free_msg(msg); return 1; } } break; case PH_DATA|INDICATION: case DL_DATA|INDICATION: { bc->bframe = (void*)&frm->data.i; bc->bframe_len = frm->len; /** Anyway flip the bufbits **/ if ( misdn_cap_is_speech(bc->capability) ) flip_buf_bits(bc->bframe, bc->bframe_len); #if MISDN_DEBUG cb_log(0, stack->port, "DL_DATA INDICATION Len %d\n", frm->len); #endif if (bc->active && frm->len > 0) { if ( !do_tone(bc, frm->len) ) { if ( misdn_cap_is_speech(bc->capability)) { if ( !bc->nojitter ) { char buf[4096 + mISDN_HEADER_LEN]; iframe_t *txfrm= (iframe_t*)buf; int len, r; len = ibuf_usedcount(bc->misdnbuf); if (len < frm->len) { /** send nothing * till we are synced **/ } else { txfrm->prim = DL_DATA|REQUEST; txfrm->dinfo = 0; txfrm->addr = bc->addr; /* | IF_DOWN; */ txfrm->len = frm->len; ibuf_memcpy_r(&buf[mISDN_HEADER_LEN], bc->misdnbuf,frm->len); cb_log(9, stack->port, "Transmitting %d samples 2 misdn\n", txfrm->len); r=mISDN_write(stack->midev, buf, txfrm->len + mISDN_HEADER_LEN, 8000 ); } } } cb_event( EVENT_BCHAN_DATA, bc, glob_mgr->user_data); } } free_msg(msg); return 1; } case PH_DATA | CONFIRM: case DL_DATA|CONFIRM: #if MISDN_DEBUG cb_log(0, stack->port, "Data confirmed\n"); #endif free_msg(msg); return 1; break; case DL_DATA|RESPONSE: #if MISDN_DEBUG cb_log(0, stack->port, "Data response\n"); #endif break; case DL_DATA | REQUEST: break; } return 0; } int handle_frm_nt(msg_t *msg) { iframe_t *frm= (iframe_t*)msg->data; struct misdn_stack *stack; int err=0; stack=find_stack_by_addr((frm->addr & IF_ADDRMASK ) ); if (!stack || stack->mode != NT_MODE) { return 0; } if ((err=stack->nst.l1_l2(&stack->nst,msg))) { if (nt_err_cnt > 0 ) { if (nt_err_cnt < 100) { nt_err_cnt++; cb_log(0, stack->port, "NT Stack sends us error: %d port:%d\n", err,stack->port); } else if (nt_err_cnt < 105){ cb_log(0, stack->port, "NT Stack sends us error: %d port:%d over 100 times, so I'll stop this message\n", err,stack->port); nt_err_cnt = - 1; } } free_msg(msg); return 1; } return 1; } int handle_frm(msg_t *msg) { iframe_t *frm = (iframe_t*) msg->data; struct misdn_stack *stack=find_stack_by_addr(frm->addr & IF_ADDRMASK); if (!stack || stack->mode != TE_MODE) { return 0; } { struct misdn_bchannel *bc; if(handle_cr(frm)) { free_msg(msg); return 1; } bc=find_bc_by_l3id(stack, frm->dinfo); if (bc ) { enum event_e event = isdn_msg_get_event(msgs_g, msg, 0); enum event_response_e response=RESPONSE_OK; isdn_msg_parse_event(msgs_g,msg,bc, 0); /** Preprocess some Events **/ handle_event(bc, event, frm); /* shoot up event to App: */ cb_log(5, stack->port, "lib Got Prim: Addr %x prim %x dinfo %x\n",frm->addr, frm->prim, frm->dinfo); if(!isdn_get_info(msgs_g,event,0)) cb_log(0, stack->port, "Unknown Event Ind: Addr:%x prim %x dinfo %x\n",frm->addr, frm->prim, frm->dinfo); else response=cb_event(event, bc, glob_mgr->user_data); #if 1 if (event == EVENT_SETUP) { switch (response) { case RESPONSE_IGNORE_SETUP_WITHOUT_CLOSE: cb_log(0, stack->port, "TOTALY IGNORING SETUP: port:%d\n", frm->addr&IF_CONTRMASK); break; case RESPONSE_IGNORE_SETUP: /* I think we should send CC_RELEASE_CR, but am not sure*/ empty_chan_in_stack(stack, bc->channel); empty_bc(bc); cb_log(0, stack->port, "GOT IGNORE SETUP: port:%d\n", frm->addr&IF_CONTRMASK); break; case RESPONSE_OK: cb_log(4, stack->port, "GOT SETUP OK: port:%d\n", frm->addr&IF_CONTRMASK); break; default: break; } } cb_log(5, stack->port, "Freeing Msg on prim:%x port:%d\n",frm->prim, frm->addr&IF_CONTRMASK); free_msg(msg); return 1; #endif } else { cb_log(0, stack->port, "NO BC FOR STACK: port:%d\n", frm->addr&IF_CONTRMASK); } } cb_log(4, stack->port, "TE_FRM_HANDLER: Returning 0 on prim:%x port:%d\n",frm->prim, frm->addr&IF_CONTRMASK); return 0; } int handle_l1(msg_t *msg) { iframe_t *frm = (iframe_t*) msg->data; struct misdn_stack *stack = find_stack_by_port(frm->addr & IF_CONTRMASK); int i ; if (!stack) return 0 ; switch (frm->prim) { case PH_ACTIVATE | CONFIRM: case PH_ACTIVATE | INDICATION: cb_log (1, stack->port, "L1: PH L1Link Up! port:%d\n",stack->port); stack->l1link=1; if (stack->mode==NT_MODE) { if (stack->nst.l1_l2(&stack->nst, msg)) free_msg(msg); } else { free_msg(msg); } for (i=0;ib_num; i++) { if (stack->bc[i].evq != EVENT_NOTHING) { cb_log(4, stack->port, "Fireing Queued Event %s because L1 got up\n", isdn_get_info(msgs_g, stack->bc[i].evq, 0)); misdn_lib_send_event(&stack->bc[i],stack->bc[i].evq); stack->bc[i].evq=EVENT_NOTHING; } } return 1; case PH_DEACTIVATE | CONFIRM: case PH_DEACTIVATE | INDICATION: cb_log (1, stack->port, "L1: PH L1Link Down! port:%d\n",stack->port); for (i=0; ib_num; i++) { if (global_state == MISDN_INITIALIZED) { cb_event(EVENT_CLEANUP, &stack->bc[i], glob_mgr->user_data); } } if (stack->mode==NT_MODE) { if (stack->nst.l1_l2(&stack->nst, msg)) free_msg(msg); } else { free_msg(msg); } stack->l1link=0; stack->l2link=0; return 1; } return 0; } int handle_l2(msg_t *msg) { iframe_t *frm = (iframe_t*) msg->data; struct misdn_stack *stack = find_stack_by_addr(frm->addr & IF_ADDRMASK); if (!stack) return 0 ; switch(frm->prim) { #ifdef DL_STATUS case DL_STATUS | INDICATION: case DL_STATUS | CONFIRM: cb_log (3, stack->port, "L2: DL_STATUS! port:%d\n", stack->port); switch (frm->dinfo) { case SDL_ESTAB: cb_log (4, stack->port, " --> SDL_ESTAB port:%d\n", stack->port); stack->l1link=1; goto dl_estab; case SDL_REL: cb_log (4, stack->port, " --> SDL_REL port:%d\n", stack->port); stack->l1link=0; misdn_lib_get_l2_up(stack); goto dl_rel; } break; #endif case DL_ESTABLISH | INDICATION: case DL_ESTABLISH | CONFIRM: #ifdef DL_STATUS dl_estab: #endif { cb_log (3, stack->port, "L2: L2Link Up! port:%d\n", stack->port); stack->l2link=1; free_msg(msg); return 1; } break; case DL_RELEASE | INDICATION: case DL_RELEASE | CONFIRM: #ifdef DL_STATUS dl_rel: #endif { cb_log (3, stack->port, "L2: L2Link Down! port:%d\n", stack->port); stack->l2link=0; free_msg(msg); return 1; } break; } return 0; } int handle_mgmt(msg_t *msg) { iframe_t *frm = (iframe_t*) msg->data; if ( (frm->prim & 0x0f0000) == 0x0f0000) { cb_log(5, 0, "$$$ MGMT FRAME: prim %x addr %x dinfo %x\n",frm->prim, frm->addr, frm->dinfo) ; free_msg(msg); return 1; } return 0; } msg_t *fetch_msg(int midev) { msg_t *msg=alloc_msg(MAX_MSG_SIZE); int r; fd_set rdfs; if (!msg) { cb_log(0, 0, "fetch_msg: alloc msg failed !!"); return NULL; } FD_ZERO(&rdfs); FD_SET(midev,&rdfs); mISDN_select(FD_SETSIZE, &rdfs, NULL, NULL, NULL); if (FD_ISSET(midev, &rdfs)) { r=mISDN_read(midev,msg->data,MAX_MSG_SIZE,0); msg->len=r; if (r==0) { free_msg(msg); /* danger, cauz usualy freeing in main_loop */ printf ("Got empty Msg?\n"); return NULL; } return msg; } else { printf ("Select timeout\n"); } return NULL; } static void misdn_lib_isdn_event_catcher(void *arg) { struct misdn_lib *mgr = arg; int zero_frm=0 , fff_frm=0 ; int midev= mgr->midev; int port; //cb_log(5, 0, "In event_catcher thread\n"); while (1) { msg_t *msg = fetch_msg(midev); iframe_t *frm; if (!msg) continue; frm = (iframe_t*) msg->data; port = frm->addr&IF_CONTRMASK; /** When we make a call from NT2Ast we get this frames **/ if (frm->len == 0 && frm->addr == 0 && frm->dinfo == 0 && frm->prim == 0 ) { zero_frm++; free_msg(msg); continue; } else { if (zero_frm) { cb_log(0, port, "*** Alert: %d zero_frms caught\n", zero_frm); zero_frm = 0 ; } } /** I get this sometimes after setup_bc **/ if (frm->len == 0 && frm->dinfo == 0 && frm->prim == 0xffffffff ) { fff_frm++; free_msg(msg); continue; } else { if (fff_frm) { cb_log(0, port, "*** Alert: %d fff_frms caught\n", fff_frm); fff_frm = 0 ; } } manager_isdn_handler(frm, msg); } } /** App Interface **/ int te_lib_init() { char buff[1025]; iframe_t *frm=(iframe_t*)buff; int midev=mISDN_open(); int ret; memset(buff,0,1025); if (midev<=0) return midev; /* create entity for layer 3 TE-mode */ mISDN_write_frame(midev, buff, 0, MGR_NEWENTITY | REQUEST, 0, 0, NULL, TIMEOUT_1SEC); ret = mISDN_read_frame(midev, frm, sizeof(iframe_t), 0, MGR_NEWENTITY | CONFIRM, TIMEOUT_1SEC); if (ret < mISDN_HEADER_LEN) { noentity: fprintf(stderr, "cannot request MGR_NEWENTITY from mISDN: %s\n",strerror(errno)); exit(-1); } entity = frm->dinfo & 0xffff ; if (!entity) goto noentity; return midev; } void te_lib_destroy(int midev) { char buf[1024]; mISDN_write_frame(midev, buf, 0, MGR_DELENTITY | REQUEST, entity, 0, NULL, TIMEOUT_1SEC); cb_log(4, 0, "Entetity deleted\n"); mISDN_close(midev); cb_log(4, 0, "midev closed\n"); } void misdn_lib_transfer(struct misdn_bchannel* holded_bc) { holded_bc->holded=0; } struct misdn_bchannel *manager_find_bc_by_pid(int pid) { struct misdn_stack *stack; int i; for (stack=glob_mgr->stack_list; stack; stack=stack->next) { for (i=0; ib_num; i++) if (stack->bc[i].pid == pid) return &stack->bc[i]; } return NULL; } struct misdn_bchannel *manager_find_bc_holded(struct misdn_bchannel* bc) { struct misdn_stack *stack=get_stack_by_bc(bc); return find_bc_holded(stack); } struct misdn_bchannel* misdn_lib_get_free_bc(int port, int channel) { struct misdn_stack *stack; int i; if (channel < 0 || channel > MAX_BCHANS) return NULL; for (stack=glob_mgr->stack_list; stack; stack=stack->next) { if (stack->port == port) { if (channel > 0) { if (channel <= stack->b_num) { for (i = 0; i < stack->b_num; i++) { if (stack->bc[i].in_use && stack->bc[i].channel == channel) { return NULL; } } } else return NULL; } for (i = 0; i < stack->b_num; i++) { if (!stack->bc[i].in_use) { stack->bc[i].channel = channel; stack->bc[i].channel_preselected = channel?1:0; stack->bc[i].in_use = 1; return &stack->bc[i]; } } return NULL; } } return NULL; } void misdn_lib_log_ies(struct misdn_bchannel *bc) { if (!bc) return; struct misdn_stack *stack=get_stack_by_bc(bc); if (!stack) return; cb_log(2, stack->port, " --> mode:%s cause:%d ocause:%d rad:%s\n", stack->mode==NT_MODE?"NT":"TE", bc->cause, bc->out_cause, bc->rad); cb_log(2, stack->port, " --> info_dad:%s onumplan:%c dnumplan:%c rnumplan:%c\n", bc->info_dad, bc->onumplan>=0?'0'+bc->onumplan:' ', bc->dnumplan>=0?'0'+bc->dnumplan:' ', bc->rnumplan>=0?'0'+bc->rnumplan:' ' ); cb_log(2, stack->port, " --> channel:%d caps:%s pi:%x keypad:%s\n", bc->channel, bearer2str(bc->capability),bc->progress_indicator, bc->keypad); cb_log(3, stack->port, " --> urate:%d rate:%d mode:%d user1:%d\n", bc->urate, bc->rate, bc->mode,bc->user1); cb_log(3, stack->port, " --> pid:%d addr:%x l3id:%x\n", bc->pid, bc->addr, bc->l3_id); cb_log(4, stack->port, " --> bc:%x h:%d sh:%d\n", bc, bc->holded, bc->stack_holder); } int misdn_lib_send_event(struct misdn_bchannel *bc, enum event_e event ) { msg_t *msg; int err = -1 ; if (!bc) goto ERR; struct misdn_stack *stack=get_stack_by_bc(bc); if ( stack->mode == NT_MODE && !stack->l1link) { /** Queue Event **/ bc->evq=event; cb_log(1, stack->port, "Queueing Event %s because L1 is down (btw. Activating L1)\n", isdn_get_info(msgs_g, event, 0)); { /* Pull Up L1 */ iframe_t act; act.prim = PH_ACTIVATE | REQUEST; act.addr = (stack->upper_id & IF_ADDRMASK) | IF_DOWN ; act.dinfo = 0; act.len = 0; mISDN_write(glob_mgr->midev, &act, mISDN_HEADER_LEN+act.len, TIMEOUT_1SEC); } return 0; } cb_log(1, stack->port, "I SEND:%s oad:%s dad:%s port:%d\n", isdn_get_info(msgs_g, event, 0), bc->oad, bc->dad, stack->port); misdn_lib_log_ies(bc); switch (event) { case EVENT_SETUP: if (create_process(glob_mgr->midev, bc)<0) { cb_log(0, stack->port, " No free channel at the moment @ send_event\n"); err=-ENOCHAN; goto ERR; } break; case EVENT_CONNECT: case EVENT_PROGRESS: case EVENT_ALERTING: case EVENT_PROCEEDING: case EVENT_SETUP_ACKNOWLEDGE: case EVENT_RETRIEVE_ACKNOWLEDGE: if (stack->mode == NT_MODE) { if (bc->channel <=0 ) { /* else we have the channel already */ bc->channel = find_free_chan_in_stack(stack, 0); if (!bc->channel) { cb_log(0, stack->port, " No free channel at the moment\n"); err=-ENOCHAN; goto ERR; } } /* Its that i generate channels */ } setup_bc(bc); if ( event == EVENT_CONNECT ) { if ( *bc->crypt_key ) { cb_log(4, stack->port, " --> ENABLING BLOWFISH port:%d channel:%d oad%d:%s dad%d:%s \n", stack->port, bc->channel, bc->onumplan,bc->oad, bc->dnumplan,bc->dad); manager_ph_control_block(bc, BF_ENABLE_KEY, bc->crypt_key, strlen(bc->crypt_key) ); } if ( misdn_cap_is_speech(bc->capability)) { if (!bc->nodsp) manager_ph_control(bc, DTMF_TONE_START, 0); if (bc->ec_enable) manager_ec_enable(bc); if (bc->txgain != 0) { cb_log(4, stack->port, "--> Changing txgain to %d\n", bc->txgain); manager_ph_control(bc, VOL_CHANGE_TX, bc->txgain); } if ( bc->rxgain != 0 ) { cb_log(4, stack->port, "--> Changing rxgain to %d\n", bc->rxgain); manager_ph_control(bc, VOL_CHANGE_RX, bc->rxgain); } } } if (event == EVENT_RETRIEVE_ACKNOWLEDGE) { manager_bchannel_activate(bc); } break; case EVENT_HOLD_ACKNOWLEDGE: { struct misdn_bchannel *holded_bc=malloc(sizeof(struct misdn_bchannel)); memcpy(holded_bc,bc,sizeof(struct misdn_bchannel)); holded_bc->holded=1; stack_holder_add(stack,holded_bc); if (stack->mode == NT_MODE) { empty_chan_in_stack(stack,bc->channel); empty_bc(bc); clean_up_bc(bc); } /** we set it up later at RETRIEVE_ACK again.**/ holded_bc->upset=0; holded_bc->active=0; cb_event( EVENT_NEW_BC, holded_bc, glob_mgr->user_data); } break; case EVENT_RELEASE: break; case EVENT_RELEASE_COMPLETE: empty_chan_in_stack(stack,bc->channel); empty_bc(bc); clean_up_bc(bc); break; case EVENT_CONNECT_ACKNOWLEDGE: if (misdn_cap_is_speech(bc->capability)) { if ( !bc->nodsp) manager_ph_control(bc, DTMF_TONE_START, 0); if (bc->ec_enable) manager_ec_enable(bc); if ( bc->txgain != 0 ) { cb_log(4, stack->port, "--> Changing txgain to %d\n", bc->txgain); manager_ph_control(bc, VOL_CHANGE_TX, bc->txgain); } if ( bc->rxgain != 0 ) { cb_log(4, stack->port, "--> Changing rxgain to %d\n", bc->rxgain); manager_ph_control(bc, VOL_CHANGE_RX, bc->rxgain); } } break; default: break; } /* Later we should think about sending bchannel data directly to misdn. */ msg = isdn_msg_build_event(msgs_g, bc, event, stack->mode==NT_MODE?1:0); msg_queue_tail(&stack->downqueue, msg); sem_post(&glob_mgr->new_msg); return 0; ERR: return -1; } int manager_isdn_handler(iframe_t *frm ,msg_t *msg) { if (frm->dinfo==(signed long)0xffffffff && frm->prim==(PH_DATA|CONFIRM)) { printf("SERIOUS BUG, dinfo == 0xffffffff, prim == PH_DATA | CONFIRM !!!!\n"); } if (handle_timers(msg)) return 0 ; if (handle_mgmt(msg)) return 0 ; if (handle_l2(msg)) return 0 ; /* Its important to handle l1 AFTER l2 */ if (handle_l1(msg)) return 0 ; if (handle_bchan(msg)) return 0 ; /** Handle L2/3 Signalling after bchans **/ if (handle_frm_nt(msg)) return 0 ; if (handle_frm(msg)) return 0 ; cb_log(0, frm->addr&IF_CONTRMASK, "Unhandled Message: prim %x len %d from addr %x, dinfo %x on port: %d\n",frm->prim, frm->len, frm->addr, frm->dinfo, frm->addr&IF_CONTRMASK); free_msg(msg); return 0; } int misdn_lib_get_port_info(int port) { msg_t *msg=alloc_msg(MAX_MSG_SIZE); iframe_t *frm; struct misdn_stack *stack=find_stack_by_port(port); if (!msg) { cb_log(0, port, "misgn_lib_get_port: alloc_msg failed!\n"); return -1; } frm=(iframe_t*)msg->data; if (!stack ) { cb_log(0, port, "There is no Stack on Port:%d\n",port); return -1; } /* activate bchannel */ frm->prim = CC_STATUS_ENQUIRY | REQUEST; frm->addr = stack->upper_id; frm->dinfo = 0; frm->len = 0; msg_queue_tail(&glob_mgr->activatequeue, msg); sem_post(&glob_mgr->new_msg); return 0; } int misdn_lib_port_restart(int port) { struct misdn_stack *stack=find_stack_by_port(port); cb_log(0, port, "Restarting Port:%d\n",port); if (stack) { cb_log(0, port, "Stack:%p\n",stack); clear_l3(stack); { msg_t *msg=alloc_msg(MAX_MSG_SIZE); iframe_t *frm; if (!msg) { cb_log(0, port, "port_restart: alloc_msg fialed\n"); return -1; } frm=(iframe_t*)msg->data; /* we must activate if we are deactivated */ /* activate bchannel */ frm->prim = DL_RELEASE | REQUEST; frm->addr = stack->upper_id ; frm->dinfo = 0; frm->len = 0; msg_queue_tail(&glob_mgr->activatequeue, msg); sem_post(&glob_mgr->new_msg); } return 0; stack_te_destroy(stack); { struct misdn_stack *tmpstack; struct misdn_stack *newstack=stack_te_init(stack->midev ,port, stack->ptp); if (stack == glob_mgr->stack_list) { struct misdn_stack *n=glob_mgr->stack_list->next; glob_mgr->stack_list = newstack ; glob_mgr->stack_list->next = n; } else { for (tmpstack=glob_mgr->stack_list; tmpstack->next; tmpstack=tmpstack->next) if (tmpstack->next == stack) break; if (!tmpstack->next) { cb_log(0, port, "Stack to restart not found\n"); return 0; } else { struct misdn_stack *n=tmpstack->next->next; tmpstack->next=newstack; newstack->next=n; } } { int i; for(i=0;ib_num; i++) { int r; if ((r=init_bc(newstack, &newstack->bc[i], newstack->midev,port,i, "", 1))<0) { cb_log(0, port, "Got Err @ init_bc :%d\n",r); return 0; } } } free(stack); } } return 0; } sem_t handler_started; void manager_event_handler(void *arg) { sem_post(&handler_started); while (1) { struct misdn_stack *stack; msg_t *msg; /** wait for events **/ sem_wait(&glob_mgr->new_msg); for (msg=msg_dequeue(&glob_mgr->activatequeue); msg; msg=msg_dequeue(&glob_mgr->activatequeue) ) { iframe_t *frm = (iframe_t*) msg->data ; switch ( frm->prim) { case MGR_SETSTACK | REQUEST : break; default: mISDN_write(glob_mgr->midev, frm, mISDN_HEADER_LEN+frm->len, TIMEOUT_1SEC); free_msg(msg); } } for (stack=glob_mgr->stack_list; stack; stack=stack->next ) { while ( (msg=msg_dequeue(&stack->downqueue)) ) { if (stack->mode == NT_MODE ){ if (stack->nst.manager_l3(&stack->nst, msg)) cb_log(0, stack->port, "Error@ Sending Message in NT-Stack.\n"); } else { if (msg) { iframe_t *frm = (iframe_t *)msg->data; struct misdn_bchannel *bc = find_bc_by_l3id(stack, frm->dinfo); if (bc) send_msg(glob_mgr->midev, bc, msg); } } } } } } int misdn_lib_maxports_get() { /** BE AWARE WE HAVE NO CB_LOG HERE! **/ int i = mISDN_open(); int max=0; if (i<0) return -1; max = mISDN_get_stack_count(i); mISDN_close(i); return max; } int misdn_lib_init(char *portlist, struct misdn_lib_iface *iface, void *user_data) { struct misdn_lib *mgr=calloc(1, sizeof(struct misdn_lib)); char *tok, *tokb; char plist[1024]; int midev; int port_count=0; cb_log = iface->cb_log; cb_event = iface->cb_event; cb_clearl3_true = iface->cb_clearl3_true; glob_mgr = mgr; msg_init(); debug_init(0 , NULL, NULL, NULL); if (!portlist || (*portlist == 0) ) return 1; init_flip_bits(); { strncpy(plist,portlist, 1024); plist[1023] = 0; } memcpy(tone_425_flip,tone_425,TONE_425_SIZE); flip_buf_bits(tone_425_flip,TONE_425_SIZE); memcpy(tone_silence_flip,tone_SILENCE,TONE_SILENCE_SIZE); flip_buf_bits(tone_silence_flip,TONE_SILENCE_SIZE); midev=te_lib_init(); mgr->midev=midev; port_count=mISDN_get_stack_count(midev); msg_queue_init(&mgr->activatequeue); if (sem_init(&mgr->new_msg, 1, 0)<0) sem_init(&mgr->new_msg, 0, 0); for (tok=strtok_r(plist," ,",&tokb ); tok; tok=strtok_r(NULL," ,",&tokb)) { int port = atoi(tok); struct misdn_stack *stack; static int first=1; int ptp=0; if (strstr(tok, "ptp")) ptp=1; if (port > port_count) { cb_log(0, port, "Couldn't Initialize Port:%d since we have only %d ports\n",port, port_count); exit(1); } stack=stack_te_init(midev, port, ptp); if (!stack) { perror("init_stack"); exit(1); } if (stack && first) { mgr->stack_list=stack; first=0; { int i; for(i=0;ib_num; i++) { int r; if ((r=init_bc(stack, &stack->bc[i], stack->midev,port,i, "", 1))<0) { cb_log(0, port, "Got Err @ init_bc :%d\n",r); exit(1); } } } continue; } if (stack) { struct misdn_stack * help; for ( help=mgr->stack_list; help; help=help->next ) if (help->next == NULL) break; help->next=stack; { int i; for(i=0;ib_num; i++) { int r; if ((r=init_bc(stack, &stack->bc[i], stack->midev,port,i, "",1 ))<0) { cb_log(0, port, "Got Err @ init_bc :%d\n",r); exit(1); } } } } } if (sem_init(&handler_started, 1, 0)<0) sem_init(&handler_started, 0, 0); cb_log(4, 0, "Starting Event Handler\n"); pthread_create( &mgr->event_handler_thread, NULL,(void*)manager_event_handler, mgr); sem_wait(&handler_started) ; cb_log(4, 0, "Starting Event Catcher\n"); pthread_create( &mgr->event_thread, NULL, (void*)misdn_lib_isdn_event_catcher, mgr); cb_log(4, 0, "Event Catcher started\n"); global_state= MISDN_INITIALIZED; return (mgr == NULL); } void misdn_lib_destroy() { struct misdn_stack *help; int i; for ( help=glob_mgr->stack_list; help; help=help->next ) { for(i=0;ib_num; i++) { char buf[1024]; mISDN_write_frame(help->midev, buf, help->bc[i].addr, MGR_DELLAYER | REQUEST, 0, 0, NULL, TIMEOUT_1SEC); help->bc[i].addr = 0; } cb_log (1, help->port, "Destroying port:%d\n", help->port); stack_te_destroy(help); } if (global_state == MISDN_INITIALIZED) { cb_log(4, 0, "Killing Handler Thread\n"); if ( pthread_cancel(glob_mgr->event_handler_thread) == 0 ) { cb_log(4, 0, "Joining Handler Thread\n"); pthread_join(glob_mgr->event_handler_thread, NULL); } cb_log(4, 0, "Killing Main Thread\n"); if ( pthread_cancel(glob_mgr->event_thread) == 0 ) { cb_log(4, 0, "Joining Main Thread\n"); pthread_join(glob_mgr->event_thread, NULL); } } cb_log(1, 0, "Closing mISDN device\n"); te_lib_destroy(glob_mgr->midev); } char *manager_isdn_get_info(enum event_e event) { return isdn_get_info(msgs_g , event, 0); } void manager_bchannel_activate(struct misdn_bchannel *bc) { msg_t *msg=alloc_msg(MAX_MSG_SIZE); iframe_t *frm; struct misdn_stack *stack=get_stack_by_bc(bc); if (!msg) { cb_log(0, stack->port, "bchannel_activate: alloc_msg failed !"); return ; } frm=(iframe_t*)msg->data; /* we must activate if we are deactivated */ clear_ibuffer(bc->misdnbuf); clear_ibuffer(bc->astbuf); if (bc->active) return; cb_log(5, stack->port, "$$$ Bchan Activated addr %x\n", bc->addr); /* activate bchannel */ frm->prim = DL_ESTABLISH | REQUEST; frm->addr = bc->addr ; frm->dinfo = 0; frm->len = 0; msg_queue_tail(&glob_mgr->activatequeue, msg); sem_post(&glob_mgr->new_msg); bc->active=1; return ; } void manager_bchannel_deactivate(struct misdn_bchannel * bc) { iframe_t dact; struct misdn_stack *stack=get_stack_by_bc(bc); if (!bc->active) return; cb_log(5, stack->port, "$$$ Bchan deActivated addr %x\n", bc->addr); bc->tone=TONE_NONE; dact.prim = DL_RELEASE | REQUEST; dact.addr = bc->addr; dact.dinfo = 0; dact.len = 0; mISDN_write(stack->midev, &dact, mISDN_HEADER_LEN+dact.len, TIMEOUT_1SEC); clear_ibuffer(bc->misdnbuf); clear_ibuffer(bc->astbuf); bc->active=0; return; } int manager_tx2misdn_frm(struct misdn_bchannel *bc, void *data, int len) { struct misdn_stack *stack=get_stack_by_bc(bc); if (!bc->active) return -1; if ( misdn_cap_is_speech(bc->capability) ) flip_buf_bits(data,len); if ( !bc->nojitter && misdn_cap_is_speech(bc->capability) ) { if (len > ibuf_freecount(bc->misdnbuf)) { len=ibuf_freecount(bc->misdnbuf); } ibuf_memcpy_w(bc->misdnbuf, (unsigned char*)data, len); } else { char buf[4096 + mISDN_HEADER_LEN]; iframe_t *frm= (iframe_t*)buf; int r; frm->prim = DL_DATA|REQUEST; frm->dinfo = 0; frm->addr = bc->addr | IF_DOWN; frm->len = len; memcpy(&buf[mISDN_HEADER_LEN], data,len); if ( misdn_cap_is_speech(bc->capability)) cb_log(4, stack->port, "Writing %d bytes\n",len); cb_log(9, stack->port, "Wrinting %d bytes 2 mISDN\n",len); r=mISDN_write(stack->midev, buf, frm->len + mISDN_HEADER_LEN, TIMEOUT_INFINIT); } return 0; } void manager_send_tone (struct misdn_bchannel *bc, enum tone_e tone) { if (tone != TONE_NONE) manager_bchannel_activate(bc); bc->tone=tone; bc->tone_cnt2=-1; bc->tone_cnt=0; } /* * send control information to the channel (dsp-module) */ void manager_ph_control(struct misdn_bchannel *bc, int c1, int c2) { unsigned char buffer[mISDN_HEADER_LEN+sizeof(int)+sizeof(int)]; iframe_t *ctrl = (iframe_t *)buffer; /* preload data */ unsigned long *d = (unsigned long *)&ctrl->data.p; struct misdn_stack *stack=get_stack_by_bc(bc); ctrl->prim = PH_CONTROL | REQUEST; ctrl->addr = bc->addr; ctrl->dinfo = 0; ctrl->len = sizeof(unsigned long)*2; *d++ = c1; *d++ = c2; mISDN_write(stack->midev, ctrl, mISDN_HEADER_LEN+ctrl->len, TIMEOUT_1SEC); } /* * send control information to the channel (dsp-module) */ void manager_ph_control_block(struct misdn_bchannel *bc, int c1, void *c2, int c2_len) { unsigned char buffer[mISDN_HEADER_LEN+sizeof(int)+c2_len]; iframe_t *ctrl = (iframe_t *)buffer; unsigned long *d = (unsigned long *)&ctrl->data.p; struct misdn_stack *stack=get_stack_by_bc(bc); ctrl->prim = PH_CONTROL | REQUEST; ctrl->addr = bc->addr; ctrl->dinfo = 0; ctrl->len = sizeof(unsigned long) + c2_len; *d++ = c1; memcpy(d, c2, c2_len); mISDN_write(stack->midev, ctrl, mISDN_HEADER_LEN+ctrl->len, TIMEOUT_1SEC); } void manager_clean_bc(struct misdn_bchannel *bc ) { struct misdn_stack *stack=get_stack_by_bc(bc); if (bc->state == STATE_CONNECTED) misdn_lib_send_event(bc,EVENT_DISCONNECT); empty_chan_in_stack(stack, bc->channel); empty_bc(bc); misdn_lib_send_event(bc,EVENT_RELEASE_COMPLETE); } void stack_holder_add(struct misdn_stack *stack, struct misdn_bchannel *holder) { struct misdn_bchannel *help; cb_log(4,stack->port, "*HOLDER: add %x\n",holder->l3_id); holder->stack_holder=1; if (!stack ) return ; holder->next=NULL; if (!stack->holding) { stack->holding = holder; return; } for (help=stack->holding; help; help=help->next) { if (!help->next) { help->next=holder; } } } void stack_holder_remove(struct misdn_stack *stack, struct misdn_bchannel *holder) { struct misdn_bchannel *h1; if (!holder->stack_holder) return; cb_log(4,stack->port, "*HOLDER: remove %x\n",holder->l3_id); if (!stack || ! stack->holding) return; if (holder == stack->holding) { stack->holding = stack->holding->next; return; } for (h1=stack->holding; h1; h1=h1->next) { if (h1->next == holder) { h1->next=h1->next->next; return ; } } } struct misdn_bchannel *stack_holder_find(struct misdn_stack *stack, unsigned long l3id) { struct misdn_bchannel *help; cb_log(4,stack?stack->port:0, "*HOLDER: find %x\n",l3id); if (!stack) return NULL; for (help=stack->holding; help; help=help->next) { if (help->l3_id == l3id) { cb_log(4,stack->port, "*HOLDER: found bc\n"); return help; } } cb_log(4,stack->port, "*HOLDER: find nothing\n"); return NULL; } void manager_ec_enable(struct misdn_bchannel *bc) { int ec_arr[2]; struct misdn_stack *stack=get_stack_by_bc(bc); cb_log(1, stack?stack->port:0,"Sending Control ECHOCAN_ON taps:%d training:%d\n",bc->ec_deftaps, bc->ec_training); switch (bc->ec_deftaps) { case 4: case 8: case 16: case 32: case 64: case 128: case 256: case 512: case 1024: cb_log(4, stack->port, "Taps is %d\n",bc->ec_deftaps); break; default: cb_log(0, stack->port, "Taps should be power of 2\n"); bc->ec_deftaps=128; } ec_arr[0]=bc->ec_deftaps; ec_arr[1]=bc->ec_training; manager_ph_control_block(bc, ECHOCAN_ON, ec_arr, sizeof(ec_arr)); } void manager_ec_disable(struct misdn_bchannel *bc) { struct misdn_stack *stack=get_stack_by_bc(bc); cb_log(1, stack?stack->port:0, "Sending Control ECHOCAN_OFF\n"); manager_ph_control(bc, ECHOCAN_OFF, 0); } struct misdn_stack* get_misdn_stack() { return glob_mgr->stack_list; } void misdn_lib_bridge( struct misdn_bchannel * bc1, struct misdn_bchannel *bc2) { manager_ph_control(bc1, CMX_RECEIVE_OFF, 0); manager_ph_control(bc2, CMX_RECEIVE_OFF, 0); manager_ph_control(bc1, CMX_CONF_JOIN, (bc1->pid<<1) +1); manager_ph_control(bc2, CMX_CONF_JOIN, (bc1->pid<<1) +1); } void misdn_lib_split_bridge( struct misdn_bchannel * bc1, struct misdn_bchannel *bc2) { manager_ph_control(bc1, CMX_RECEIVE_ON, 0) ; manager_ph_control(bc2, CMX_RECEIVE_ON, 0); manager_ph_control(bc1, CMX_CONF_SPLIT, (bc1->pid<<1) +1); manager_ph_control(bc2, CMX_CONF_SPLIT, (bc1->pid<<1) +1); }