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1022 1023 1024 1025 1026 1027 1028 1029 1030 1031 1032 1033 1034 1035 1036 1037 1038 1039 1040 1041 1042 1043 1044 1045 1046 1047 1048 1049 1050 1051 1052 1053 1054 1055 1056 1057 1058 1059 1060 1061 1062 1063 1064 1065 1066 1067 1068 1069 1070 1071 1072 1073 1074 1075 1076 1077 1078 1079 1080 1081 1082 1083 1084 1085 1086 1087 1088 1089 1090 1091 1092 1093 1094 1095 1096 1097 1098 1099 1100 1101 1102 1103 1104 1105 1106 1107 1108 1109 1110 1111 1112 1113 1114 1115 1116 1117 1118 1119 1120 1121 1122 1123 1124 1125 1126 1127 1128 1129 1130 1131 1132 1133 1134 1135 1136 1137 1138 1139 1140 1141 1142 1143 1144 1145 1146 1147 1148 1149 1150 1151 1152 1153 1154 1155 1156 1157 1158 1159 1160 1161 1162 1163 1164 1165 1166 1167 1168 1169 1170 1171 1172 1173 1174 1175 1176 1177 1178 1179 1180 | /* $Id: capi.c,v 1.1.2.1 2001/12/31 13:26:38 kai Exp $ * * ISDN lowlevel-module for the IBM ISDN-S0 Active 2000. * CAPI encoder/decoder * * Author Fritz Elfert * Copyright by Fritz Elfert <fritz@isdn4linux.de> * * This software may be used and distributed according to the terms * of the GNU General Public License, incorporated herein by reference. * * Thanks to Friedemann Baitinger and IBM Germany * */ #define __NO_VERSION__ #include "act2000.h" #include "capi.h" static actcapi_msgdsc valid_msg[] = { {{ 0x86, 0x02}, "DATA_B3_IND"}, /* DATA_B3_IND/CONF must be first because of speed!!! */ {{ 0x86, 0x01}, "DATA_B3_CONF"}, {{ 0x02, 0x01}, "CONNECT_CONF"}, {{ 0x02, 0x02}, "CONNECT_IND"}, {{ 0x09, 0x01}, "CONNECT_INFO_CONF"}, {{ 0x03, 0x02}, "CONNECT_ACTIVE_IND"}, {{ 0x04, 0x01}, "DISCONNECT_CONF"}, {{ 0x04, 0x02}, "DISCONNECT_IND"}, {{ 0x05, 0x01}, "LISTEN_CONF"}, {{ 0x06, 0x01}, "GET_PARAMS_CONF"}, {{ 0x07, 0x01}, "INFO_CONF"}, {{ 0x07, 0x02}, "INFO_IND"}, {{ 0x08, 0x01}, "DATA_CONF"}, {{ 0x08, 0x02}, "DATA_IND"}, {{ 0x40, 0x01}, "SELECT_B2_PROTOCOL_CONF"}, {{ 0x80, 0x01}, "SELECT_B3_PROTOCOL_CONF"}, {{ 0x81, 0x01}, "LISTEN_B3_CONF"}, {{ 0x82, 0x01}, "CONNECT_B3_CONF"}, {{ 0x82, 0x02}, "CONNECT_B3_IND"}, {{ 0x83, 0x02}, "CONNECT_B3_ACTIVE_IND"}, {{ 0x84, 0x01}, "DISCONNECT_B3_CONF"}, {{ 0x84, 0x02}, "DISCONNECT_B3_IND"}, {{ 0x85, 0x01}, "GET_B3_PARAMS_CONF"}, {{ 0x01, 0x01}, "RESET_B3_CONF"}, {{ 0x01, 0x02}, "RESET_B3_IND"}, /* {{ 0x87, 0x02, "HANDSET_IND"}, not implemented */ {{ 0xff, 0x01}, "MANUFACTURER_CONF"}, {{ 0xff, 0x02}, "MANUFACTURER_IND"}, #ifdef DEBUG_MSG /* Requests */ {{ 0x01, 0x00}, "RESET_B3_REQ"}, {{ 0x02, 0x00}, "CONNECT_REQ"}, {{ 0x04, 0x00}, "DISCONNECT_REQ"}, {{ 0x05, 0x00}, "LISTEN_REQ"}, {{ 0x06, 0x00}, "GET_PARAMS_REQ"}, {{ 0x07, 0x00}, "INFO_REQ"}, {{ 0x08, 0x00}, "DATA_REQ"}, {{ 0x09, 0x00}, "CONNECT_INFO_REQ"}, {{ 0x40, 0x00}, "SELECT_B2_PROTOCOL_REQ"}, {{ 0x80, 0x00}, "SELECT_B3_PROTOCOL_REQ"}, {{ 0x81, 0x00}, "LISTEN_B3_REQ"}, {{ 0x82, 0x00}, "CONNECT_B3_REQ"}, {{ 0x84, 0x00}, "DISCONNECT_B3_REQ"}, {{ 0x85, 0x00}, "GET_B3_PARAMS_REQ"}, {{ 0x86, 0x00}, "DATA_B3_REQ"}, {{ 0xff, 0x00}, "MANUFACTURER_REQ"}, /* Responses */ {{ 0x01, 0x03}, "RESET_B3_RESP"}, {{ 0x02, 0x03}, "CONNECT_RESP"}, {{ 0x03, 0x03}, "CONNECT_ACTIVE_RESP"}, {{ 0x04, 0x03}, "DISCONNECT_RESP"}, {{ 0x07, 0x03}, "INFO_RESP"}, {{ 0x08, 0x03}, "DATA_RESP"}, {{ 0x82, 0x03}, "CONNECT_B3_RESP"}, {{ 0x83, 0x03}, "CONNECT_B3_ACTIVE_RESP"}, {{ 0x84, 0x03}, "DISCONNECT_B3_RESP"}, {{ 0x86, 0x03}, "DATA_B3_RESP"}, {{ 0xff, 0x03}, "MANUFACTURER_RESP"}, #endif {{ 0x00, 0x00}, NULL}, }; #define num_valid_msg (sizeof(valid_msg)/sizeof(actcapi_msgdsc)) #define num_valid_imsg 27 /* MANUFACTURER_IND */ /* * Check for a valid incoming CAPI message. * Return: * 0 = Invalid message * 1 = Valid message, no B-Channel-data * 2 = Valid message, B-Channel-data */ int actcapi_chkhdr(act2000_card * card, actcapi_msghdr *hdr) { int i; if (hdr->applicationID != 1) return 0; if (hdr->len < 9) return 0; for (i = 0; i < num_valid_imsg; i++) if ((hdr->cmd.cmd == valid_msg[i].cmd.cmd) && (hdr->cmd.subcmd == valid_msg[i].cmd.subcmd)) { return (i?1:2); } return 0; } #define ACTCAPI_MKHDR(l, c, s) { \ skb = alloc_skb(l + 8, GFP_ATOMIC); \ if (skb) { \ m = (actcapi_msg *)skb_put(skb, l + 8); \ m->hdr.len = l + 8; \ m->hdr.applicationID = 1; \ m->hdr.cmd.cmd = c; \ m->hdr.cmd.subcmd = s; \ m->hdr.msgnum = actcapi_nextsmsg(card); \ } else m = NULL;\ } #define ACTCAPI_CHKSKB if (!skb) { \ printk(KERN_WARNING "actcapi: alloc_skb failed\n"); \ return; \ } #define ACTCAPI_QUEUE_TX { \ actcapi_debug_msg(skb, 1); \ skb_queue_tail(&card->sndq, skb); \ act2000_schedule_tx(card); \ } int actcapi_listen_req(act2000_card *card) { __u16 eazmask = 0; int i; actcapi_msg *m; struct sk_buff *skb; for (i = 0; i < ACT2000_BCH; i++) eazmask |= card->bch[i].eazmask; ACTCAPI_MKHDR(9, 0x05, 0x00); if (!skb) { printk(KERN_WARNING "actcapi: alloc_skb failed\n"); return -ENOMEM; } m->msg.listen_req.controller = 0; m->msg.listen_req.infomask = 0x3f; /* All information */ m->msg.listen_req.eazmask = eazmask; m->msg.listen_req.simask = (eazmask)?0x86:0; /* All SI's */ ACTCAPI_QUEUE_TX; return 0; } int actcapi_connect_req(act2000_card *card, act2000_chan *chan, char *phone, char eaz, int si1, int si2) { actcapi_msg *m; struct sk_buff *skb; ACTCAPI_MKHDR((11 + strlen(phone)), 0x02, 0x00); if (!skb) { printk(KERN_WARNING "actcapi: alloc_skb failed\n"); chan->fsm_state = ACT2000_STATE_NULL; return -ENOMEM; } m->msg.connect_req.controller = 0; m->msg.connect_req.bchan = 0x83; m->msg.connect_req.infomask = 0x3f; m->msg.connect_req.si1 = si1; m->msg.connect_req.si2 = si2; m->msg.connect_req.eaz = eaz?eaz:'0'; m->msg.connect_req.addr.len = strlen(phone) + 1; m->msg.connect_req.addr.tnp = 0x81; memcpy(m->msg.connect_req.addr.num, phone, strlen(phone)); chan->callref = m->hdr.msgnum; ACTCAPI_QUEUE_TX; return 0; } static void actcapi_connect_b3_req(act2000_card *card, act2000_chan *chan) { actcapi_msg *m; struct sk_buff *skb; ACTCAPI_MKHDR(17, 0x82, 0x00); ACTCAPI_CHKSKB; m->msg.connect_b3_req.plci = chan->plci; memset(&m->msg.connect_b3_req.ncpi, 0, sizeof(m->msg.connect_b3_req.ncpi)); m->msg.connect_b3_req.ncpi.len = 13; m->msg.connect_b3_req.ncpi.modulo = 8; ACTCAPI_QUEUE_TX; } /* * Set net type (1TR6) or (EDSS1) */ int actcapi_manufacturer_req_net(act2000_card *card) { actcapi_msg *m; struct sk_buff *skb; ACTCAPI_MKHDR(5, 0xff, 0x00); if (!skb) { printk(KERN_WARNING "actcapi: alloc_skb failed\n"); return -ENOMEM; } m->msg.manufacturer_req_net.manuf_msg = 0x11; m->msg.manufacturer_req_net.controller = 1; m->msg.manufacturer_req_net.nettype = (card->ptype == ISDN_PTYPE_EURO)?1:0; ACTCAPI_QUEUE_TX; printk(KERN_INFO "act2000 %s: D-channel protocol now %s\n", card->interface.id, (card->ptype == ISDN_PTYPE_EURO)?"euro":"1tr6"); card->interface.features &= ~(ISDN_FEATURE_P_UNKNOWN | ISDN_FEATURE_P_EURO | ISDN_FEATURE_P_1TR6); card->interface.features |= ((card->ptype == ISDN_PTYPE_EURO)?ISDN_FEATURE_P_EURO:ISDN_FEATURE_P_1TR6); return 0; } /* * Switch V.42 on or off */ int actcapi_manufacturer_req_v42(act2000_card *card, ulong arg) { actcapi_msg *m; struct sk_buff *skb; ACTCAPI_MKHDR(8, 0xff, 0x00); if (!skb) { printk(KERN_WARNING "actcapi: alloc_skb failed\n"); return -ENOMEM; } m->msg.manufacturer_req_v42.manuf_msg = 0x10; m->msg.manufacturer_req_v42.controller = 0; m->msg.manufacturer_req_v42.v42control = (arg?1:0); ACTCAPI_QUEUE_TX; return 0; } /* * Set error-handler */ int actcapi_manufacturer_req_errh(act2000_card *card) { actcapi_msg *m; struct sk_buff *skb; ACTCAPI_MKHDR(4, 0xff, 0x00); if (!skb) { printk(KERN_WARNING "actcapi: alloc_skb failed\n"); return -ENOMEM; } m->msg.manufacturer_req_err.manuf_msg = 0x03; m->msg.manufacturer_req_err.controller = 0; ACTCAPI_QUEUE_TX; return 0; } /* * Set MSN-Mapping. */ int actcapi_manufacturer_req_msn(act2000_card *card) { msn_entry *p = card->msn_list; actcapi_msg *m; struct sk_buff *skb; int len; while (p) { int i; len = strlen(p->msn); for (i = 0; i < 2; i++) { ACTCAPI_MKHDR(6 + len, 0xff, 0x00); if (!skb) { printk(KERN_WARNING "actcapi: alloc_skb failed\n"); return -ENOMEM; } m->msg.manufacturer_req_msn.manuf_msg = 0x13 + i; m->msg.manufacturer_req_msn.controller = 0; m->msg.manufacturer_req_msn.msnmap.eaz = p->eaz; m->msg.manufacturer_req_msn.msnmap.len = len; memcpy(m->msg.manufacturer_req_msn.msnmap.msn, p->msn, len); ACTCAPI_QUEUE_TX; } p = p->next; } return 0; } void actcapi_select_b2_protocol_req(act2000_card *card, act2000_chan *chan) { actcapi_msg *m; struct sk_buff *skb; ACTCAPI_MKHDR(10, 0x40, 0x00); ACTCAPI_CHKSKB; m->msg.select_b2_protocol_req.plci = chan->plci; memset(&m->msg.select_b2_protocol_req.dlpd, 0, sizeof(m->msg.select_b2_protocol_req.dlpd)); m->msg.select_b2_protocol_req.dlpd.len = 6; switch (chan->l2prot) { case ISDN_PROTO_L2_TRANS: m->msg.select_b2_protocol_req.protocol = 0x03; m->msg.select_b2_protocol_req.dlpd.dlen = 4000; break; case ISDN_PROTO_L2_HDLC: m->msg.select_b2_protocol_req.protocol = 0x02; m->msg.select_b2_protocol_req.dlpd.dlen = 4000; break; case ISDN_PROTO_L2_X75I: case ISDN_PROTO_L2_X75UI: case ISDN_PROTO_L2_X75BUI: m->msg.select_b2_protocol_req.protocol = 0x01; m->msg.select_b2_protocol_req.dlpd.dlen = 4000; m->msg.select_b2_protocol_req.dlpd.laa = 3; m->msg.select_b2_protocol_req.dlpd.lab = 1; m->msg.select_b2_protocol_req.dlpd.win = 7; m->msg.select_b2_protocol_req.dlpd.modulo = 8; break; } ACTCAPI_QUEUE_TX; } static void actcapi_select_b3_protocol_req(act2000_card *card, act2000_chan *chan) { actcapi_msg *m; struct sk_buff *skb; ACTCAPI_MKHDR(17, 0x80, 0x00); ACTCAPI_CHKSKB; m->msg.select_b3_protocol_req.plci = chan->plci; memset(&m->msg.select_b3_protocol_req.ncpd, 0, sizeof(m->msg.select_b3_protocol_req.ncpd)); switch (chan->l3prot) { case ISDN_PROTO_L3_TRANS: m->msg.select_b3_protocol_req.protocol = 0x04; m->msg.select_b3_protocol_req.ncpd.len = 13; m->msg.select_b3_protocol_req.ncpd.modulo = 8; break; } ACTCAPI_QUEUE_TX; } static void actcapi_listen_b3_req(act2000_card *card, act2000_chan *chan) { actcapi_msg *m; struct sk_buff *skb; ACTCAPI_MKHDR(2, 0x81, 0x00); ACTCAPI_CHKSKB; m->msg.listen_b3_req.plci = chan->plci; ACTCAPI_QUEUE_TX; } static void actcapi_disconnect_req(act2000_card *card, act2000_chan *chan) { actcapi_msg *m; struct sk_buff *skb; ACTCAPI_MKHDR(3, 0x04, 0x00); ACTCAPI_CHKSKB; m->msg.disconnect_req.plci = chan->plci; m->msg.disconnect_req.cause = 0; ACTCAPI_QUEUE_TX; } void actcapi_disconnect_b3_req(act2000_card *card, act2000_chan *chan) { actcapi_msg *m; struct sk_buff *skb; ACTCAPI_MKHDR(17, 0x84, 0x00); ACTCAPI_CHKSKB; m->msg.disconnect_b3_req.ncci = chan->ncci; memset(&m->msg.disconnect_b3_req.ncpi, 0, sizeof(m->msg.disconnect_b3_req.ncpi)); m->msg.disconnect_b3_req.ncpi.len = 13; m->msg.disconnect_b3_req.ncpi.modulo = 8; chan->fsm_state = ACT2000_STATE_BHWAIT; ACTCAPI_QUEUE_TX; } void actcapi_connect_resp(act2000_card *card, act2000_chan *chan, __u8 cause) { actcapi_msg *m; struct sk_buff *skb; ACTCAPI_MKHDR(3, 0x02, 0x03); ACTCAPI_CHKSKB; m->msg.connect_resp.plci = chan->plci; m->msg.connect_resp.rejectcause = cause; if (cause) { chan->fsm_state = ACT2000_STATE_NULL; chan->plci = 0x8000; } else chan->fsm_state = ACT2000_STATE_IWAIT; ACTCAPI_QUEUE_TX; } static void actcapi_connect_active_resp(act2000_card *card, act2000_chan *chan) { actcapi_msg *m; struct sk_buff *skb; ACTCAPI_MKHDR(2, 0x03, 0x03); ACTCAPI_CHKSKB; m->msg.connect_resp.plci = chan->plci; if (chan->fsm_state == ACT2000_STATE_IWAIT) chan->fsm_state = ACT2000_STATE_IBWAIT; ACTCAPI_QUEUE_TX; } static void actcapi_connect_b3_resp(act2000_card *card, act2000_chan *chan, __u8 rejectcause) { actcapi_msg *m; struct sk_buff *skb; ACTCAPI_MKHDR((rejectcause?3:17), 0x82, 0x03); ACTCAPI_CHKSKB; m->msg.connect_b3_resp.ncci = chan->ncci; m->msg.connect_b3_resp.rejectcause = rejectcause; if (!rejectcause) { memset(&m->msg.connect_b3_resp.ncpi, 0, sizeof(m->msg.connect_b3_resp.ncpi)); m->msg.connect_b3_resp.ncpi.len = 13; m->msg.connect_b3_resp.ncpi.modulo = 8; chan->fsm_state = ACT2000_STATE_BWAIT; } ACTCAPI_QUEUE_TX; } static void actcapi_connect_b3_active_resp(act2000_card *card, act2000_chan *chan) { actcapi_msg *m; struct sk_buff *skb; ACTCAPI_MKHDR(2, 0x83, 0x03); ACTCAPI_CHKSKB; m->msg.connect_b3_active_resp.ncci = chan->ncci; chan->fsm_state = ACT2000_STATE_ACTIVE; ACTCAPI_QUEUE_TX; } static void actcapi_info_resp(act2000_card *card, act2000_chan *chan) { actcapi_msg *m; struct sk_buff *skb; ACTCAPI_MKHDR(2, 0x07, 0x03); ACTCAPI_CHKSKB; m->msg.info_resp.plci = chan->plci; ACTCAPI_QUEUE_TX; } static void actcapi_disconnect_b3_resp(act2000_card *card, act2000_chan *chan) { actcapi_msg *m; struct sk_buff *skb; ACTCAPI_MKHDR(2, 0x84, 0x03); ACTCAPI_CHKSKB; m->msg.disconnect_b3_resp.ncci = chan->ncci; chan->ncci = 0x8000; chan->queued = 0; ACTCAPI_QUEUE_TX; } static void actcapi_disconnect_resp(act2000_card *card, act2000_chan *chan) { actcapi_msg *m; struct sk_buff *skb; ACTCAPI_MKHDR(2, 0x04, 0x03); ACTCAPI_CHKSKB; m->msg.disconnect_resp.plci = chan->plci; chan->plci = 0x8000; ACTCAPI_QUEUE_TX; } static int new_plci(act2000_card *card, __u16 plci) { int i; for (i = 0; i < ACT2000_BCH; i++) if (card->bch[i].plci == 0x8000) { card->bch[i].plci = plci; return i; } return -1; } static int find_plci(act2000_card *card, __u16 plci) { int i; for (i = 0; i < ACT2000_BCH; i++) if (card->bch[i].plci == plci) return i; return -1; } static int find_ncci(act2000_card *card, __u16 ncci) { int i; for (i = 0; i < ACT2000_BCH; i++) if (card->bch[i].ncci == ncci) return i; return -1; } static int find_dialing(act2000_card *card, __u16 callref) { int i; for (i = 0; i < ACT2000_BCH; i++) if ((card->bch[i].callref == callref) && (card->bch[i].fsm_state == ACT2000_STATE_OCALL)) return i; return -1; } static int actcapi_data_b3_ind(act2000_card *card, struct sk_buff *skb) { __u16 plci; __u16 ncci; __u16 controller; __u8 blocknr; int chan; actcapi_msg *msg = (actcapi_msg *)skb->data; EVAL_NCCI(msg->msg.data_b3_ind.fakencci, plci, controller, ncci); chan = find_ncci(card, ncci); if (chan < 0) return 0; if (card->bch[chan].fsm_state != ACT2000_STATE_ACTIVE) return 0; if (card->bch[chan].plci != plci) return 0; blocknr = msg->msg.data_b3_ind.blocknr; skb_pull(skb, 19); card->interface.rcvcallb_skb(card->myid, chan, skb); if (!(skb = alloc_skb(11, GFP_ATOMIC))) { printk(KERN_WARNING "actcapi: alloc_skb failed\n"); return 1; } msg = (actcapi_msg *)skb_put(skb, 11); msg->hdr.len = 11; msg->hdr.applicationID = 1; msg->hdr.cmd.cmd = 0x86; msg->hdr.cmd.subcmd = 0x03; msg->hdr.msgnum = actcapi_nextsmsg(card); msg->msg.data_b3_resp.ncci = ncci; msg->msg.data_b3_resp.blocknr = blocknr; ACTCAPI_QUEUE_TX; return 1; } /* * Walk over ackq, unlink DATA_B3_REQ from it, if * ncci and blocknr are matching. * Decrement queued-bytes counter. */ static int handle_ack(act2000_card *card, act2000_chan *chan, __u8 blocknr) { unsigned long flags; struct sk_buff *skb; struct sk_buff *tmp; struct actcapi_msg *m; int ret = 0; save_flags(flags); cli(); skb = skb_peek(&card->ackq); restore_flags(flags); if (!skb) { printk(KERN_WARNING "act2000: handle_ack nothing found!\n"); return 0; } tmp = skb; while (1) { m = (actcapi_msg *)tmp->data; if ((((m->msg.data_b3_req.fakencci >> 8) & 0xff) == chan->ncci) && (m->msg.data_b3_req.blocknr == blocknr)) { /* found corresponding DATA_B3_REQ */ skb_unlink(tmp); chan->queued -= m->msg.data_b3_req.datalen; if (m->msg.data_b3_req.flags) ret = m->msg.data_b3_req.datalen; dev_kfree_skb(tmp); if (chan->queued < 0) chan->queued = 0; return ret; } save_flags(flags); cli(); tmp = skb_peek((struct sk_buff_head *)tmp); restore_flags(flags); if ((tmp == skb) || (tmp == NULL)) { /* reached end of queue */ printk(KERN_WARNING "act2000: handle_ack nothing found!\n"); return 0; } } } void actcapi_dispatch(act2000_card *card) { struct sk_buff *skb; actcapi_msg *msg; __u16 ccmd; int chan; int len; act2000_chan *ctmp; isdn_ctrl cmd; char tmp[170]; while ((skb = skb_dequeue(&card->rcvq))) { actcapi_debug_msg(skb, 0); msg = (actcapi_msg *)skb->data; ccmd = ((msg->hdr.cmd.cmd << 8) | msg->hdr.cmd.subcmd); switch (ccmd) { case 0x8602: /* DATA_B3_IND */ if (actcapi_data_b3_ind(card, skb)) return; break; case 0x8601: /* DATA_B3_CONF */ chan = find_ncci(card, msg->msg.data_b3_conf.ncci); if ((chan >= 0) && (card->bch[chan].fsm_state == ACT2000_STATE_ACTIVE)) { if (msg->msg.data_b3_conf.info != 0) printk(KERN_WARNING "act2000: DATA_B3_CONF: %04x\n", msg->msg.data_b3_conf.info); len = handle_ack(card, &card->bch[chan], msg->msg.data_b3_conf.blocknr); if (len) { cmd.driver = card->myid; cmd.command = ISDN_STAT_BSENT; cmd.arg = chan; cmd.parm.length = len; card->interface.statcallb(&cmd); } } break; case 0x0201: /* CONNECT_CONF */ chan = find_dialing(card, msg->hdr.msgnum); if (chan >= 0) { if (msg->msg.connect_conf.info) { card->bch[chan].fsm_state = ACT2000_STATE_NULL; cmd.driver = card->myid; cmd.command = ISDN_STAT_DHUP; cmd.arg = chan; card->interface.statcallb(&cmd); } else { card->bch[chan].fsm_state = ACT2000_STATE_OWAIT; card->bch[chan].plci = msg->msg.connect_conf.plci; } } break; case 0x0202: /* CONNECT_IND */ chan = new_plci(card, msg->msg.connect_ind.plci); if (chan < 0) { ctmp = (act2000_chan *)tmp; ctmp->plci = msg->msg.connect_ind.plci; actcapi_connect_resp(card, ctmp, 0x11); /* All Card-Cannels busy */ } else { card->bch[chan].fsm_state = ACT2000_STATE_ICALL; cmd.driver = card->myid; cmd.command = ISDN_STAT_ICALL; cmd.arg = chan; cmd.parm.setup.si1 = msg->msg.connect_ind.si1; cmd.parm.setup.si2 = msg->msg.connect_ind.si2; if (card->ptype == ISDN_PTYPE_EURO) strcpy(cmd.parm.setup.eazmsn, act2000_find_eaz(card, msg->msg.connect_ind.eaz)); else { cmd.parm.setup.eazmsn[0] = msg->msg.connect_ind.eaz; cmd.parm.setup.eazmsn[1] = 0; } memset(cmd.parm.setup.phone, 0, sizeof(cmd.parm.setup.phone)); memcpy(cmd.parm.setup.phone, msg->msg.connect_ind.addr.num, msg->msg.connect_ind.addr.len - 1); cmd.parm.setup.plan = msg->msg.connect_ind.addr.tnp; cmd.parm.setup.screen = 0; if (card->interface.statcallb(&cmd) == 2) actcapi_connect_resp(card, &card->bch[chan], 0x15); /* Reject Call */ } break; case 0x0302: /* CONNECT_ACTIVE_IND */ chan = find_plci(card, msg->msg.connect_active_ind.plci); if (chan >= 0) switch (card->bch[chan].fsm_state) { case ACT2000_STATE_IWAIT: actcapi_connect_active_resp(card, &card->bch[chan]); break; case ACT2000_STATE_OWAIT: actcapi_connect_active_resp(card, &card->bch[chan]); actcapi_select_b2_protocol_req(card, &card->bch[chan]); break; } break; case 0x8202: /* CONNECT_B3_IND */ chan = find_plci(card, msg->msg.connect_b3_ind.plci); if ((chan >= 0) && (card->bch[chan].fsm_state == ACT2000_STATE_IBWAIT)) { card->bch[chan].ncci = msg->msg.connect_b3_ind.ncci; actcapi_connect_b3_resp(card, &card->bch[chan], 0); } else { ctmp = (act2000_chan *)tmp; ctmp->ncci = msg->msg.connect_b3_ind.ncci; actcapi_connect_b3_resp(card, ctmp, 0x11); /* All Card-Cannels busy */ } break; case 0x8302: /* CONNECT_B3_ACTIVE_IND */ chan = find_ncci(card, msg->msg.connect_b3_active_ind.ncci); if ((chan >= 0) && (card->bch[chan].fsm_state == ACT2000_STATE_BWAIT)) { actcapi_connect_b3_active_resp(card, &card->bch[chan]); cmd.driver = card->myid; cmd.command = ISDN_STAT_BCONN; cmd.arg = chan; card->interface.statcallb(&cmd); } break; case 0x8402: /* DISCONNECT_B3_IND */ chan = find_ncci(card, msg->msg.disconnect_b3_ind.ncci); if (chan >= 0) { ctmp = &card->bch[chan]; actcapi_disconnect_b3_resp(card, ctmp); switch (ctmp->fsm_state) { case ACT2000_STATE_ACTIVE: ctmp->fsm_state = ACT2000_STATE_DHWAIT2; cmd.driver = card->myid; cmd.command = ISDN_STAT_BHUP; cmd.arg = chan; card->interface.statcallb(&cmd); break; case ACT2000_STATE_BHWAIT2: actcapi_disconnect_req(card, ctmp); ctmp->fsm_state = ACT2000_STATE_DHWAIT; cmd.driver = card->myid; cmd.command = ISDN_STAT_BHUP; cmd.arg = chan; card->interface.statcallb(&cmd); break; } } break; case 0x0402: /* DISCONNECT_IND */ chan = find_plci(card, msg->msg.disconnect_ind.plci); if (chan >= 0) { ctmp = &card->bch[chan]; actcapi_disconnect_resp(card, ctmp); ctmp->fsm_state = ACT2000_STATE_NULL; cmd.driver = card->myid; cmd.command = ISDN_STAT_DHUP; cmd.arg = chan; card->interface.statcallb(&cmd); } else { ctmp = (act2000_chan *)tmp; ctmp->plci = msg->msg.disconnect_ind.plci; actcapi_disconnect_resp(card, ctmp); } break; case 0x4001: /* SELECT_B2_PROTOCOL_CONF */ chan = find_plci(card, msg->msg.select_b2_protocol_conf.plci); if (chan >= 0) switch (card->bch[chan].fsm_state) { case ACT2000_STATE_ICALL: case ACT2000_STATE_OWAIT: ctmp = &card->bch[chan]; if (msg->msg.select_b2_protocol_conf.info == 0) actcapi_select_b3_protocol_req(card, ctmp); else { ctmp->fsm_state = ACT2000_STATE_NULL; cmd.driver = card->myid; cmd.command = ISDN_STAT_DHUP; cmd.arg = chan; card->interface.statcallb(&cmd); } break; } break; case 0x8001: /* SELECT_B3_PROTOCOL_CONF */ chan = find_plci(card, msg->msg.select_b3_protocol_conf.plci); if (chan >= 0) switch (card->bch[chan].fsm_state) { case ACT2000_STATE_ICALL: case ACT2000_STATE_OWAIT: ctmp = &card->bch[chan]; if (msg->msg.select_b3_protocol_conf.info == 0) actcapi_listen_b3_req(card, ctmp); else { ctmp->fsm_state = ACT2000_STATE_NULL; cmd.driver = card->myid; cmd.command = ISDN_STAT_DHUP; cmd.arg = chan; card->interface.statcallb(&cmd); } } break; case 0x8101: /* LISTEN_B3_CONF */ chan = find_plci(card, msg->msg.listen_b3_conf.plci); if (chan >= 0) switch (card->bch[chan].fsm_state) { case ACT2000_STATE_ICALL: ctmp = &card->bch[chan]; if (msg->msg.listen_b3_conf.info == 0) actcapi_connect_resp(card, ctmp, 0); else { ctmp->fsm_state = ACT2000_STATE_NULL; cmd.driver = card->myid; cmd.command = ISDN_STAT_DHUP; cmd.arg = chan; card->interface.statcallb(&cmd); } break; case ACT2000_STATE_OWAIT: ctmp = &card->bch[chan]; if (msg->msg.listen_b3_conf.info == 0) { actcapi_connect_b3_req(card, ctmp); ctmp->fsm_state = ACT2000_STATE_OBWAIT; cmd.driver = card->myid; cmd.command = ISDN_STAT_DCONN; cmd.arg = chan; card->interface.statcallb(&cmd); } else { ctmp->fsm_state = ACT2000_STATE_NULL; cmd.driver = card->myid; cmd.command = ISDN_STAT_DHUP; cmd.arg = chan; card->interface.statcallb(&cmd); } break; } break; case 0x8201: /* CONNECT_B3_CONF */ chan = find_plci(card, msg->msg.connect_b3_conf.plci); if ((chan >= 0) && (card->bch[chan].fsm_state == ACT2000_STATE_OBWAIT)) { ctmp = &card->bch[chan]; if (msg->msg.connect_b3_conf.info) { ctmp->fsm_state = ACT2000_STATE_NULL; cmd.driver = card->myid; cmd.command = ISDN_STAT_DHUP; cmd.arg = chan; card->interface.statcallb(&cmd); } else { ctmp->ncci = msg->msg.connect_b3_conf.ncci; ctmp->fsm_state = ACT2000_STATE_BWAIT; } } break; case 0x8401: /* DISCONNECT_B3_CONF */ chan = find_ncci(card, msg->msg.disconnect_b3_conf.ncci); if ((chan >= 0) && (card->bch[chan].fsm_state == ACT2000_STATE_BHWAIT)) card->bch[chan].fsm_state = ACT2000_STATE_BHWAIT2; break; case 0x0702: /* INFO_IND */ chan = find_plci(card, msg->msg.info_ind.plci); if (chan >= 0) /* TODO: Eval Charging info / cause */ actcapi_info_resp(card, &card->bch[chan]); break; case 0x0401: /* LISTEN_CONF */ case 0x0501: /* LISTEN_CONF */ case 0xff01: /* MANUFACTURER_CONF */ break; case 0xff02: /* MANUFACTURER_IND */ if (msg->msg.manuf_msg == 3) { memset(tmp, 0, sizeof(tmp)); strncpy(tmp, &msg->msg.manufacturer_ind_err.errstring, msg->hdr.len - 16); if (msg->msg.manufacturer_ind_err.errcode) printk(KERN_WARNING "act2000: %s\n", tmp); else { printk(KERN_DEBUG "act2000: %s\n", tmp); if ((!strncmp(tmp, "INFO: Trace buffer con", 22)) || (!strncmp(tmp, "INFO: Compile Date/Tim", 22))) { card->flags |= ACT2000_FLAGS_RUNNING; cmd.command = ISDN_STAT_RUN; cmd.driver = card->myid; cmd.arg = 0; actcapi_manufacturer_req_net(card); actcapi_manufacturer_req_msn(card); actcapi_listen_req(card); card->interface.statcallb(&cmd); } } } break; default: printk(KERN_WARNING "act2000: UNHANDLED Message %04x\n", ccmd); break; } dev_kfree_skb(skb); } } #ifdef DEBUG_MSG static void actcapi_debug_caddr(actcapi_addr *addr) { char tmp[30]; printk(KERN_DEBUG " Alen = %d\n", addr->len); if (addr->len > 0) printk(KERN_DEBUG " Atnp = 0x%02x\n", addr->tnp); if (addr->len > 1) { memset(tmp, 0, 30); memcpy(tmp, addr->num, addr->len - 1); printk(KERN_DEBUG " Anum = '%s'\n", tmp); } } static void actcapi_debug_ncpi(actcapi_ncpi *ncpi) { printk(KERN_DEBUG " ncpi.len = %d\n", ncpi->len); if (ncpi->len >= 2) printk(KERN_DEBUG " ncpi.lic = 0x%04x\n", ncpi->lic); if (ncpi->len >= 4) printk(KERN_DEBUG " ncpi.hic = 0x%04x\n", ncpi->hic); if (ncpi->len >= 6) printk(KERN_DEBUG " ncpi.ltc = 0x%04x\n", ncpi->ltc); if (ncpi->len >= 8) printk(KERN_DEBUG " ncpi.htc = 0x%04x\n", ncpi->htc); if (ncpi->len >= 10) printk(KERN_DEBUG " ncpi.loc = 0x%04x\n", ncpi->loc); if (ncpi->len >= 12) printk(KERN_DEBUG " ncpi.hoc = 0x%04x\n", ncpi->hoc); if (ncpi->len >= 13) printk(KERN_DEBUG " ncpi.mod = %d\n", ncpi->modulo); } static void actcapi_debug_dlpd(actcapi_dlpd *dlpd) { printk(KERN_DEBUG " dlpd.len = %d\n", dlpd->len); if (dlpd->len >= 2) printk(KERN_DEBUG " dlpd.dlen = 0x%04x\n", dlpd->dlen); if (dlpd->len >= 3) printk(KERN_DEBUG " dlpd.laa = 0x%02x\n", dlpd->laa); if (dlpd->len >= 4) printk(KERN_DEBUG " dlpd.lab = 0x%02x\n", dlpd->lab); if (dlpd->len >= 5) printk(KERN_DEBUG " dlpd.modulo = %d\n", dlpd->modulo); if (dlpd->len >= 6) printk(KERN_DEBUG " dlpd.win = %d\n", dlpd->win); } #ifdef DEBUG_DUMP_SKB static void dump_skb(struct sk_buff *skb) { char tmp[80]; char *p = skb->data; char *t = tmp; int i; for (i = 0; i < skb->len; i++) { t += sprintf(t, "%02x ", *p++ & 0xff); if ((i & 0x0f) == 8) { printk(KERN_DEBUG "dump: %s\n", tmp); t = tmp; } } if (i & 0x07) printk(KERN_DEBUG "dump: %s\n", tmp); } #endif void actcapi_debug_msg(struct sk_buff *skb, int direction) { actcapi_msg *msg = (actcapi_msg *)skb->data; char *descr; int i; char tmp[170]; #ifndef DEBUG_DATA_MSG if (msg->hdr.cmd.cmd == 0x86) return; #endif descr = "INVALID"; #ifdef DEBUG_DUMP_SKB dump_skb(skb); #endif for (i = 0; i < num_valid_msg; i++) if ((msg->hdr.cmd.cmd == valid_msg[i].cmd.cmd) && (msg->hdr.cmd.subcmd == valid_msg[i].cmd.subcmd)) { descr = valid_msg[i].description; break; } printk(KERN_DEBUG "%s %s msg\n", direction?"Outgoing":"Incoming", descr); printk(KERN_DEBUG " ApplID = %d\n", msg->hdr.applicationID); printk(KERN_DEBUG " Len = %d\n", msg->hdr.len); printk(KERN_DEBUG " MsgNum = 0x%04x\n", msg->hdr.msgnum); printk(KERN_DEBUG " Cmd = 0x%02x\n", msg->hdr.cmd.cmd); printk(KERN_DEBUG " SubCmd = 0x%02x\n", msg->hdr.cmd.subcmd); switch (i) { case 0: /* DATA B3 IND */ printk(KERN_DEBUG " BLOCK = 0x%02x\n", msg->msg.data_b3_ind.blocknr); break; case 2: /* CONNECT CONF */ printk(KERN_DEBUG " PLCI = 0x%04x\n", msg->msg.connect_conf.plci); printk(KERN_DEBUG " Info = 0x%04x\n", msg->msg.connect_conf.info); break; case 3: /* CONNECT IND */ printk(KERN_DEBUG " PLCI = 0x%04x\n", msg->msg.connect_ind.plci); printk(KERN_DEBUG " Contr = %d\n", msg->msg.connect_ind.controller); printk(KERN_DEBUG " SI1 = %d\n", msg->msg.connect_ind.si1); printk(KERN_DEBUG " SI2 = %d\n", msg->msg.connect_ind.si2); printk(KERN_DEBUG " EAZ = '%c'\n", msg->msg.connect_ind.eaz); actcapi_debug_caddr(&msg->msg.connect_ind.addr); break; case 5: /* CONNECT ACTIVE IND */ printk(KERN_DEBUG " PLCI = 0x%04x\n", msg->msg.connect_active_ind.plci); actcapi_debug_caddr(&msg->msg.connect_active_ind.addr); break; case 8: /* LISTEN CONF */ printk(KERN_DEBUG " Contr = %d\n", msg->msg.listen_conf.controller); printk(KERN_DEBUG " Info = 0x%04x\n", msg->msg.listen_conf.info); break; case 11: /* INFO IND */ printk(KERN_DEBUG " PLCI = 0x%04x\n", msg->msg.info_ind.plci); printk(KERN_DEBUG " Imsk = 0x%04x\n", msg->msg.info_ind.nr.mask); if (msg->hdr.len > 12) { int l = msg->hdr.len - 12; int j; char *p = tmp; for (j = 0; j < l ; j++) p += sprintf(p, "%02x ", msg->msg.info_ind.el.display[j]); printk(KERN_DEBUG " D = '%s'\n", tmp); } break; case 14: /* SELECT B2 PROTOCOL CONF */ printk(KERN_DEBUG " PLCI = 0x%04x\n", msg->msg.select_b2_protocol_conf.plci); printk(KERN_DEBUG " Info = 0x%04x\n", msg->msg.select_b2_protocol_conf.info); break; case 15: /* SELECT B3 PROTOCOL CONF */ printk(KERN_DEBUG " PLCI = 0x%04x\n", msg->msg.select_b3_protocol_conf.plci); printk(KERN_DEBUG " Info = 0x%04x\n", msg->msg.select_b3_protocol_conf.info); break; case 16: /* LISTEN B3 CONF */ printk(KERN_DEBUG " PLCI = 0x%04x\n", msg->msg.listen_b3_conf.plci); printk(KERN_DEBUG " Info = 0x%04x\n", msg->msg.listen_b3_conf.info); break; case 18: /* CONNECT B3 IND */ printk(KERN_DEBUG " NCCI = 0x%04x\n", msg->msg.connect_b3_ind.ncci); printk(KERN_DEBUG " PLCI = 0x%04x\n", msg->msg.connect_b3_ind.plci); actcapi_debug_ncpi(&msg->msg.connect_b3_ind.ncpi); break; case 19: /* CONNECT B3 ACTIVE IND */ printk(KERN_DEBUG " NCCI = 0x%04x\n", msg->msg.connect_b3_active_ind.ncci); actcapi_debug_ncpi(&msg->msg.connect_b3_active_ind.ncpi); break; case 26: /* MANUFACTURER IND */ printk(KERN_DEBUG " Mmsg = 0x%02x\n", msg->msg.manufacturer_ind_err.manuf_msg); switch (msg->msg.manufacturer_ind_err.manuf_msg) { case 3: printk(KERN_DEBUG " Contr = %d\n", msg->msg.manufacturer_ind_err.controller); printk(KERN_DEBUG " Code = 0x%08x\n", msg->msg.manufacturer_ind_err.errcode); memset(tmp, 0, sizeof(tmp)); strncpy(tmp, &msg->msg.manufacturer_ind_err.errstring, msg->hdr.len - 16); printk(KERN_DEBUG " Emsg = '%s'\n", tmp); break; } break; case 30: /* LISTEN REQ */ printk(KERN_DEBUG " Imsk = 0x%08x\n", msg->msg.listen_req.infomask); printk(KERN_DEBUG " Emsk = 0x%04x\n", msg->msg.listen_req.eazmask); printk(KERN_DEBUG " Smsk = 0x%04x\n", msg->msg.listen_req.simask); break; case 35: /* SELECT_B2_PROTOCOL_REQ */ printk(KERN_DEBUG " PLCI = 0x%04x\n", msg->msg.select_b2_protocol_req.plci); printk(KERN_DEBUG " prot = 0x%02x\n", msg->msg.select_b2_protocol_req.protocol); if (msg->hdr.len >= 11) printk(KERN_DEBUG "No dlpd\n"); else actcapi_debug_dlpd(&msg->msg.select_b2_protocol_req.dlpd); break; case 44: /* CONNECT RESP */ printk(KERN_DEBUG " PLCI = 0x%04x\n", msg->msg.connect_resp.plci); printk(KERN_DEBUG " CAUSE = 0x%02x\n", msg->msg.connect_resp.rejectcause); break; case 45: /* CONNECT ACTIVE RESP */ printk(KERN_DEBUG " PLCI = 0x%04x\n", msg->msg.connect_active_resp.plci); break; } } #endif |