/* * Copyright (c) 1997, 2001 Hellmuth Michaelis. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * *--------------------------------------------------------------------------- * * i4b daemon - controller state support routines * ---------------------------------------------- * * $FreeBSD$ * * last edit-date: [Sun Oct 21 11:02:15 2001] * *---------------------------------------------------------------------------*/ #include #include #include "isdnd.h" static int init_controller_state(int controller, int ctrl_type, int card_type, int tei, int nbch); /*---------------------------------------------------------------------------* * get name of a controller *---------------------------------------------------------------------------*/ const char * name_of_controller(int ctrl_type, int card_type) { static char *passive_card[] = { "Teles S0/8", "Teles S0/16", "Teles S0/16.3", "AVM A1 or Fritz!Card", "Teles S0/16.3 PnP", "Creatix S0 PnP", "USRobotics Sportster ISDN TA", "Dr. Neuhaus NICCY Go@", "Sedlbauer win speed", "Dynalink IS64PH", "ISDN Master, MasterII or Blaster", "AVM PCMCIA Fritz!Card", "ELSA QuickStep 1000pro/ISA", "ELSA QuickStep 1000pro/PCI", "Siemens I-Talk", "ELSA MicroLink ISDN/MC", "ELSA MicroLink MCall", "ITK ix1 micro", "AVM Fritz!Card PCI", "ELSA PCC-16", "AVM Fritz!Card PnP", "Siemens I-Surf 2.0 PnP", "Asuscom ISDNlink 128K PnP", "ASUSCOM P-IN100-ST-D (Winbond W6692)", "Teles S0/16.3c PnP", "AcerISDN P10 PnP", "TELEINT ISDN SPEED No. 1", "Cologne Chip HFC-S PCI based", "Traverse Tech NETjet-S / Teles PCI-TJ", "Eicon.Diehl DIVA 2.0 / 2.02 ISA PnP", "Compaq Microcom 610", }; static char *daic_card[] = { "EICON.Diehl S", "EICON.Diehl SX/SXn", "EICON.Diehl SCOM", "EICON.Diehl QUADRO", }; static char *capi_card[] = { "AVM T1 PCI", "AVM B1 PCI", "AVM B1 ISA", }; if(ctrl_type == CTRL_PASSIVE) { int index = card_type - CARD_TYPEP_8; if (index >= 0 && index < (sizeof passive_card / sizeof passive_card[0])) return passive_card[index]; } else if(ctrl_type == CTRL_DAIC) { int index = card_type - CARD_TYPEA_DAIC_S; if (index >= 0 && index < (sizeof daic_card / sizeof daic_card[0] )) return daic_card[index]; } else if(ctrl_type == CTRL_TINADD) { return "Stollmann tina-dd"; } else if(ctrl_type == CTRL_CAPI) { int index = card_type - CARD_TYPEC_AVM_T1_PCI; if (index >= 0 && index < (sizeof capi_card / sizeof capi_card[0] )) return capi_card[index]; } return "unknown card type"; } /*---------------------------------------------------------------------------* * init controller state array *---------------------------------------------------------------------------*/ void init_controller(void) { int i; int max = 1; msg_ctrl_info_req_t mcir; for(i=0; i < max; i++) { mcir.controller = i; if((ioctl(isdnfd, I4B_CTRL_INFO_REQ, &mcir)) < 0) { log(LL_ERR, "init_controller: ioctl I4B_CTRL_INFO_REQ failed: %s", strerror(errno)); do_exit(1); } if((ncontroller = max = mcir.ncontroller) == 0) { log(LL_ERR, "init_controller: no ISDN controller found!"); do_exit(1); } if(mcir.ctrl_type == -1 || mcir.card_type == -1) { log(LL_ERR, "init_controller: ctrl/card is invalid!"); do_exit(1); } /* init controller tab */ if((init_controller_state(i, mcir.ctrl_type, mcir.card_type, mcir.tei, mcir.nbch)) == ERROR) { log(LL_ERR, "init_controller: init_controller_state for controller %d failed", i); do_exit(1); } } DBGL(DL_RCCF, (log(LL_DBG, "init_controller: found %d ISDN controller(s)", max))); } /*--------------------------------------------------------------------------* * init controller state table entry *--------------------------------------------------------------------------*/ static int init_controller_state(int controller, int ctrl_type, int card_type, int tei, int nbch) { int i; if((controller < 0) || (controller >= ncontroller)) { log(LL_ERR, "init_controller_state: invalid controller number [%d]!", controller); return(ERROR); } /* init controller tab */ switch (ctrl_type) { case CTRL_PASSIVE: if((card_type > CARD_TYPEP_UNK) && (card_type <= CARD_TYPEP_MAX)) { isdn_ctrl_tab[controller].ctrl_type = ctrl_type; isdn_ctrl_tab[controller].card_type = card_type; isdn_ctrl_tab[controller].state = CTRL_UP; } else { log(LL_ERR, "init_controller_state: unknown card type %d", card_type); return(ERROR); } break; case CTRL_DAIC: isdn_ctrl_tab[controller].ctrl_type = ctrl_type; isdn_ctrl_tab[controller].card_type = card_type; isdn_ctrl_tab[controller].state = CTRL_DOWN; break; case CTRL_TINADD: isdn_ctrl_tab[controller].ctrl_type = ctrl_type; isdn_ctrl_tab[controller].card_type = 0; isdn_ctrl_tab[controller].state = CTRL_DOWN; break; case CTRL_CAPI: isdn_ctrl_tab[controller].ctrl_type = ctrl_type; isdn_ctrl_tab[controller].card_type = card_type; isdn_ctrl_tab[controller].state = CTRL_UP; break; default: log(LL_ERR, "init_controller_state: unknown controller type %d", ctrl_type); return(ERROR); } isdn_ctrl_tab[controller].nbch = nbch; isdn_ctrl_tab[controller].freechans = nbch; for (i = 0; i < nbch; i++) isdn_ctrl_tab[controller].stateb[i] = CHAN_IDLE; isdn_ctrl_tab[controller].tei = tei; isdn_ctrl_tab[controller].l1stat = LAYER_IDLE; isdn_ctrl_tab[controller].l2stat = LAYER_IDLE; log(LL_DMN, "init_controller_state: controller %d is %s", controller, name_of_controller(isdn_ctrl_tab[controller].ctrl_type, isdn_ctrl_tab[controller].card_type)); return(GOOD); } /*--------------------------------------------------------------------------* * init active or capi controller *--------------------------------------------------------------------------*/ void init_active_controller(void) { int ret; int unit = 0; int controller; char cmdbuf[MAXPATHLEN+128]; for(controller = 0; controller < ncontroller; controller++) { if(isdn_ctrl_tab[controller].ctrl_type == CTRL_TINADD) { DBGL(DL_RCCF, (log(LL_DBG, "init_active_controller, tina-dd %d: executing [%s %d]", unit, tinainitprog, unit))); snprintf(cmdbuf, sizeof(cmdbuf), "%s %d", tinainitprog, unit); if((ret = system(cmdbuf)) != 0) { log(LL_ERR, "init_active_controller, tina-dd %d: %s returned %d!", unit, tinainitprog, ret); do_exit(1); } } /* * Generic microcode loading. If a controller has * defined a microcode file, load it using the * I4B_CTRL_DOWNLOAD ioctl. */ if(isdn_ctrl_tab[controller].firmware != NULL) { int fd, ret; struct isdn_dr_prot idp; struct isdn_download_request idr; fd = open(isdn_ctrl_tab[controller].firmware, O_RDONLY); if (fd < 0) { log(LL_ERR, "init_active_controller %d: open %s: %s!", controller, isdn_ctrl_tab[controller].firmware, strerror(errno)); do_exit(1); } idp.bytecount = lseek(fd, 0, SEEK_END); idp.microcode = mmap(0, idp.bytecount, PROT_READ, MAP_SHARED, fd, 0); if (idp.microcode == MAP_FAILED) { log(LL_ERR, "init_active_controller %d: mmap %s: %s!", controller, isdn_ctrl_tab[controller].firmware, strerror(errno)); do_exit(1); } DBGL(DL_RCCF, (log(LL_DBG, "init_active_controller %d: loading firmware from [%s]", controller, isdn_ctrl_tab[controller].firmware))); idr.controller = controller; idr.numprotos = 1; idr.protocols = &idp; ret = ioctl(isdnfd, I4B_CTRL_DOWNLOAD, &idr, sizeof(idr)); if (ret) { log(LL_ERR, "init_active_controller %d: load %s: %s!", controller, isdn_ctrl_tab[controller].firmware, strerror(errno)); do_exit(1); } munmap(idp.microcode, idp.bytecount); close(fd); } } } /*--------------------------------------------------------------------------* * init controller D-channel ISDN protocol *--------------------------------------------------------------------------*/ void init_controller_protocol(void) { int controller; msg_prot_ind_t mpi; for(controller = 0; controller < ncontroller; controller++) { mpi.controller = controller; mpi.protocol = isdn_ctrl_tab[controller].protocol; if((ioctl(isdnfd, I4B_PROT_IND, &mpi)) < 0) { log(LL_ERR, "init_controller_protocol: ioctl I4B_PROT_IND failed: %s", strerror(errno)); do_exit(1); } } } /*--------------------------------------------------------------------------* * set controller state to UP/DOWN *--------------------------------------------------------------------------*/ int set_controller_state(int controller, int state) { if((controller < 0) || (controller >= ncontroller)) { log(LL_ERR, "set_controller_state: invalid controller number [%d]!", controller); return(ERROR); } if(state == CTRL_UP) { isdn_ctrl_tab[controller].state = CTRL_UP; DBGL(DL_CNST, (log(LL_DBG, "set_controller_state: controller [%d] set UP!", controller))); } else if (state == CTRL_DOWN) { isdn_ctrl_tab[controller].state = CTRL_DOWN; DBGL(DL_CNST, (log(LL_DBG, "set_controller_state: controller [%d] set DOWN!", controller))); } else { log(LL_ERR, "set_controller_state: invalid controller state [%d]!", state); return(ERROR); } return(GOOD); } /*--------------------------------------------------------------------------* * get controller state *--------------------------------------------------------------------------*/ int get_controller_state(int controller) { if((controller < 0) || (controller >= ncontroller)) { log(LL_ERR, "set_controller_state: invalid controller number [%d]!", controller); return(ERROR); } return(isdn_ctrl_tab[controller].state); } /*--------------------------------------------------------------------------* * decrement number of free channels for controller *--------------------------------------------------------------------------*/ int decr_free_channels(int controller) { if((controller < 0) || (controller >= ncontroller)) { log(LL_ERR, "decr_free_channels: invalid controller number [%d]!", controller); return(ERROR); } if(isdn_ctrl_tab[controller].freechans > 0) { (isdn_ctrl_tab[controller].freechans)--; DBGL(DL_CNST, (log(LL_DBG, "decr_free_channels: ctrl %d, now %d chan free", controller, isdn_ctrl_tab[controller].freechans))); return(GOOD); } else { log(LL_ERR, "decr_free_channels: controller [%d] already 0 free chans!", controller); return(ERROR); } } /*--------------------------------------------------------------------------* * increment number of free channels for controller *--------------------------------------------------------------------------*/ int incr_free_channels(int controller) { if((controller < 0) || (controller >= ncontroller)) { log(LL_ERR, "incr_free_channels: invalid controller number [%d]!", controller); return(ERROR); } if(isdn_ctrl_tab[controller].freechans < isdn_ctrl_tab[controller].nbch) { (isdn_ctrl_tab[controller].freechans)++; DBGL(DL_CNST, (log(LL_DBG, "incr_free_channels: ctrl %d, now %d chan free", controller, isdn_ctrl_tab[controller].freechans))); return(GOOD); } else { log(LL_ERR, "incr_free_channels: controller [%d] already %d free chans!", controller, isdn_ctrl_tab[controller].nbch); return(ERROR); } } /*--------------------------------------------------------------------------* * get number of free channels for controller *--------------------------------------------------------------------------*/ int get_free_channels(int controller) { if((controller < 0) || (controller >= ncontroller)) { log(LL_ERR, "get_free_channels: invalid controller number [%d]!", controller); return(ERROR); } DBGL(DL_CNST, (log(LL_DBG, "get_free_channels: ctrl %d, %d chan free", controller, isdn_ctrl_tab[controller].freechans))); return(isdn_ctrl_tab[controller].freechans); } /*--------------------------------------------------------------------------* * set channel state to busy *--------------------------------------------------------------------------*/ int set_channel_busy(int controller, int channel) { if((controller < 0) || (controller >= ncontroller)) { log(LL_ERR, "set_channel_busy: invalid controller number [%d]!", controller); return(ERROR); } if ((channel < 0) || (channel >= isdn_ctrl_tab[controller].nbch)) { log(LL_ERR, "set_channel_busy: controller [%d] invalid channel [%d]!", controller, channel); return(ERROR); } if(isdn_ctrl_tab[controller].stateb[channel] == CHAN_RUN) { DBGL(DL_CNST, (log(LL_DBG, "set_channel_busy: controller [%d] channel B%d already busy!", controller, channel+1))); } else { isdn_ctrl_tab[controller].stateb[channel] = CHAN_RUN; DBGL(DL_CNST, (log(LL_DBG, "set_channel_busy: controller [%d] channel B%d set to BUSY!", controller, channel+1))); } return(GOOD); } /*--------------------------------------------------------------------------* * set channel state to idle *--------------------------------------------------------------------------*/ int set_channel_idle(int controller, int channel) { if((controller < 0) || (controller >= ncontroller)) { log(LL_ERR, "set_channel_idle: invalid controller number [%d]!", controller); return(ERROR); } if ((channel < 0) || (channel >= isdn_ctrl_tab[controller].nbch)) { log(LL_ERR, "set_channel_busy: controller [%d] invalid channel [%d]!", controller, channel); return(ERROR); } if (isdn_ctrl_tab[controller].stateb[channel] == CHAN_IDLE) { DBGL(DL_CNST, (log(LL_DBG, "set_channel_idle: controller [%d] channel B%d already idle!", controller, channel+1))); } else { isdn_ctrl_tab[controller].stateb[channel] = CHAN_IDLE; DBGL(DL_CNST, (log(LL_DBG, "set_channel_idle: controller [%d] channel B%d set to IDLE!", controller, channel+1))); } return(GOOD); } /*--------------------------------------------------------------------------* * return channel state *--------------------------------------------------------------------------*/ int ret_channel_state(int controller, int channel) { if((controller < 0) || (controller >= ncontroller)) { log(LL_ERR, "ret_channel_state: invalid controller number [%d]!", controller); return(ERROR); } if ((channel < 0) || (channel >= isdn_ctrl_tab[controller].nbch)) { log(LL_ERR, "set_channel_busy: controller [%d] invalid channel [%d]!", controller, channel); return(ERROR); } return(isdn_ctrl_tab[controller].stateb[channel]); } /* EOF */