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freebsd-dev/sys/i4b/capi/capi_msgs.c
Hellmuth Michaelis a986a974e9 It seems that I slipped a nasty bug into the CAPI support. The message 
lengths for CONNECT_REQ and CONNECT_IND are incorrect, which causes
dialouts to fail after certain error situations (an invalid -- not
wrong! -- number has been dialed). Since these messages are tagged as
too short, the device reads trailing garbage as the B protocol
parameters; this is OK as long as the garbage consists of zero bytes,
which it usually does, except after the said error.

Another change we have taken into use is to send an explicit Q.850
"normal call clearing" code when a call is ignored using PRI equipment
(specifically AVM T1); the CAPI pseudo-code for ignore, 1, translates
into something at least Ericsson exchanges interpret oddly (message
"this area is not reachable from your number"). NCCLR makes the exchange
give a busy signal, which is the behaviour at least we prefer
(conceivably, the ignore code could be made a sysctl variable).

The attached patch corrects the message length issue. It also includes a
somewhat unpretty solution for the PRI ignore code (if device's number
of channels equals 30, assume PRI and send NCCLR, otherwise send CAPI
ignore). Tested using AVM B1 PCI and T1 PCI.

Submitted by:	Juha-Matti Liukkonen <jml@cubical.fi>
Reviewed by:	hm
MFC after:	1 month
2001-10-21 08:51:54 +00:00

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/*
* Copyright (c) 2001 Cubical Solutions Ltd. 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.
*
* capi/capi_msgs.c The CAPI i4b message handlers.
*
* $FreeBSD$
*/
#include "i4bcapi.h"
#if NI4BCAPI > 0
#include <sys/param.h>
#include <sys/kernel.h>
#include <sys/systm.h>
#include <sys/mbuf.h>
#include <sys/socket.h>
#include <net/if.h>
#include <machine/i4b_debug.h>
#include <machine/i4b_ioctl.h>
#include <machine/i4b_cause.h>
#include <i4b/include/i4b_l3l4.h>
#include <i4b/include/i4b_mbuf.h>
#include <i4b/include/i4b_global.h>
#include <i4b/layer4/i4b_l4.h>
#include <i4b/capi/capi.h>
#include <i4b/capi/capi_msgs.h>
/*
// Administrative messages:
// ------------------------
*/
void capi_listen_req(capi_softc_t *sc, u_int32_t CIP)
{
struct mbuf *m = i4b_Dgetmbuf(8 + 18);
u_int8_t *msg;
u_int16_t msgid;
if (!m) {
printf("capi%d: can't get mbuf for listen_req\n", sc->sc_unit);
return;
}
msgid = sc->sc_msgid++;
msg = capimsg_setu16(mtod(m, u_int8_t*), m->m_len);
msg = capimsg_setu16(msg, I4BCAPI_APPLID);
msg = capimsg_setu16(msg, CAPI_LISTEN_REQ);
msg = capimsg_setu16(msg, msgid);
msg = capimsg_setu32(msg, 1); /* Controller */
msg = capimsg_setu32(msg, 0); /* Info mask */
msg = capimsg_setu32(msg, CIP);
msg = capimsg_setu32(msg, 0);
msg = capimsg_setu8(msg, 0);
msg = capimsg_setu8(msg, 0);
sc->send(sc, m);
}
void capi_listen_conf(capi_softc_t *sc, struct mbuf *m_in)
{
u_int8_t *msg = mtod(m_in, u_int8_t*);
u_int16_t Info;
capimsg_getu16(msg + 12, &Info);
if (Info == 0) {
/* We are now listening. */
sc->sc_state = C_UP;
ctrl_desc[sc->ctrl_unit].dl_est = DL_UP;
i4b_l4_l12stat(sc->ctrl_unit, 1, 1);
i4b_l4_l12stat(sc->ctrl_unit, 2, 1);
} else {
/* XXX sc->sc_state = C_DOWN ? XXX */
printf("capi%d: can't listen, info=%04x\n", sc->sc_unit, Info);
}
}
void capi_info_ind(capi_softc_t *sc, struct mbuf *m_in)
{
struct mbuf *m = i4b_Dgetmbuf(8 + 4);
u_int8_t *msg = mtod(m_in, u_int8_t*);
u_int16_t applid, msgid;
u_int32_t PLCI;
if (!m) {
printf("capi%d: can't get mbuf for info_resp\n", sc->sc_unit);
return;
}
msg = capimsg_getu16(msg + 2, &applid);
msg = capimsg_getu16(msg + 2, &msgid);
msg = capimsg_getu32(msg, &PLCI);
/* i4b_l4_info_ind() */
msg = capimsg_setu16(mtod(m, u_int8_t*), m->m_len);
msg = capimsg_setu16(msg, applid);
msg = capimsg_setu16(msg, CAPI_INFO_RESP);
msg = capimsg_setu16(msg, msgid);
msg = capimsg_setu32(msg, PLCI);
sc->send(sc, m);
}
void capi_alert_req(capi_softc_t *sc, call_desc_t *cd)
{
struct mbuf *m = i4b_Dgetmbuf(8 + 5);
u_int8_t *msg;
u_int16_t msgid;
u_int32_t PLCI;
if (!m) {
printf("capi%d: can't get mbuf for alert_req\n", sc->sc_unit);
return;
}
msgid = sc->sc_bchan[cd->channelid].msgid = sc->sc_msgid++;
PLCI = (sc->sc_bchan[cd->channelid].ncci & CAPI_PLCI_MASK);
msg = capimsg_setu16(mtod(m, u_int8_t*), m->m_len);
msg = capimsg_setu16(msg, I4BCAPI_APPLID);
msg = capimsg_setu16(msg, CAPI_ALERT_REQ);
msg = capimsg_setu16(msg, msgid);
msg = capimsg_setu32(msg, PLCI);
msg = capimsg_setu8(msg, 0);
sc->send(sc, m);
}
void capi_alert_conf(capi_softc_t *sc, struct mbuf *m_in)
{
u_int8_t *msg = mtod(m_in, u_int8_t*);
u_int16_t Info;
msg = capimsg_getu16(msg + 12, &Info);
if (Info) {
printf("capi%d: can't alert, info=%04x\n", sc->sc_unit, Info);
}
}
/*
// Outgoing call setup:
// --------------------
//
// CAPI_CONNECT_REQ -->
// <-- CAPI_CONNECT_CONF
// (notify Layer 4)
// <-- CAPI_CONNECT_ACTIVE_IND
// CAPI_CONNECT_ACTIVE_RESP -->
// CAPI_CONNECT_B3_REQ -->
// <-- CAPI_CONNECT_B3_CONF
// <-- CAPI_CONNECT_B3_ACTIVE_IND
// CAPI_CONNECT_B3_ACTIVE_RESP -->
// (notify Layer 4)
*/
void capi_connect_req(capi_softc_t *sc, call_desc_t *cd)
{
struct mbuf *m;
u_int8_t *msg;
u_int16_t msgid;
int slen = strlen(cd->src_telno);
int dlen = strlen(cd->dst_telno);
m = i4b_Dgetmbuf(8 + 27 + slen + dlen);
if (!m) {
printf("capi%d: can't get mbuf for connect_req\n", sc->sc_unit);
return;
}
cd->crflag = CRF_ORIG;
sc->sc_bchan[cd->channelid].cdid = cd->cdid;
sc->sc_bchan[cd->channelid].bprot = cd->bprot;
sc->sc_bchan[cd->channelid].state = B_CONNECT_CONF;
msgid = sc->sc_bchan[cd->channelid].msgid = sc->sc_msgid++;
ctrl_desc[sc->ctrl_unit].bch_state[cd->channelid] = BCH_ST_RSVD;
msg = capimsg_setu16(mtod(m, u_int8_t*), m->m_len);
msg = capimsg_setu16(msg, I4BCAPI_APPLID);
msg = capimsg_setu16(msg, CAPI_CONNECT_REQ);
msg = capimsg_setu16(msg, msgid);
msg = capimsg_setu32(msg, 1); /* Controller */
switch (cd->bprot) {
case BPROT_NONE:
msg = capimsg_setu16(msg, 0x0010); /* Telephony */
break;
case BPROT_RHDLC:
msg = capimsg_setu16(msg, 0x0002); /* Unrestricted digital */
break;
default:
msg = capimsg_setu16(msg, 0x0002); /* Unrestricted digital */
}
msg = capimsg_setu8(msg, 1 + dlen);
msg = capimsg_setu8(msg, 0x80);
strncpy(msg, cd->dst_telno, dlen);
msg = capimsg_setu8(msg + dlen, 2 + slen);
msg = capimsg_setu8(msg, 0x00);
msg = capimsg_setu8(msg, 0x80); /* Presentation and screening indicator */
strncpy(msg, cd->src_telno, slen);
msg = capimsg_setu8(msg + slen, 0); /* Called & */
msg = capimsg_setu8(msg, 0); /* Calling party subaddress */
msg = capimsg_setu8(msg, 15); /* B protocol */
if (cd->bprot == BPROT_NONE)
msg = capimsg_setu16(msg, 1); /* B1 protocol = transparent */
else
msg = capimsg_setu16(msg, 0); /* B1 protocol = HDLC */
msg = capimsg_setu16(msg, 1); /* B2 protocol = transparent */
msg = capimsg_setu16(msg, 0); /* B3 protocol = transparent */
msg = capimsg_setu8(msg, 0); /* B1 parameters */
msg = capimsg_setu8(msg, 0); /* B2 parameters */
msg = capimsg_setu8(msg, 0); /* B3 parameters */
msg = capimsg_setu8(msg, 0); /* Bearer Capability */
msg = capimsg_setu8(msg, 0); /* Low Layer Compatibility */
msg = capimsg_setu8(msg, 0); /* High Layer Compatibility */
msg = capimsg_setu8(msg, 0); /* Additional Info */
sc->send(sc, m);
}
void capi_connect_conf(capi_softc_t *sc, struct mbuf *m_in)
{
u_int8_t *msg = mtod(m_in, u_int8_t*);
call_desc_t *cd;
u_int16_t msgid;
u_int32_t PLCI;
u_int16_t Info;
int bch;
msg = capimsg_getu16(msg + 6, &msgid);
msg = capimsg_getu32(msg, &PLCI);
msg = capimsg_getu16(msg, &Info);
for (bch = 0; bch < sc->sc_nbch; bch++)
if ((sc->sc_bchan[bch].state == B_CONNECT_CONF) &&
(sc->sc_bchan[bch].msgid == msgid))
break;
if ((bch == sc->sc_nbch) ||
(cd = cd_by_cdid(sc->sc_bchan[bch].cdid)) == NULL) {
printf("capi%d: can't find channel for connect_conf PLCI %x\n",
sc->sc_unit, PLCI);
return;
}
if (Info == 0) {
sc->sc_bchan[bch].state = B_CONNECT_ACTIVE_IND;
sc->sc_bchan[bch].ncci = PLCI;
i4b_l4_proceeding_ind(cd);
} else {
SET_CAUSE_TV(cd->cause_out, CAUSET_I4B, CAUSE_I4B_L1ERROR);
i4b_l4_disconnect_ind(cd);
freecd_by_cd(cd);
sc->sc_bchan[bch].state = B_FREE;
ctrl_desc[sc->ctrl_unit].bch_state[bch] = BCH_ST_FREE;
printf("capi%d: can't connect out, info=%04x\n", sc->sc_unit, Info);
}
}
void capi_connect_active_ind(capi_softc_t *sc, struct mbuf *m_in)
{
struct mbuf *m = i4b_Dgetmbuf(8 + 4);
u_int8_t *msg = mtod(m_in, u_int8_t*);
call_desc_t *cd;
u_int16_t applid, msgid;
u_int32_t PLCI;
int bch;
if (!m) {
printf("capi%d: can't get mbuf for active_ind\n", sc->sc_unit);
return;
}
msg = capimsg_getu16(msg + 2, &applid);
msg = capimsg_getu16(msg + 2, &msgid);
msg = capimsg_getu32(msg, &PLCI);
for (bch = 0; bch < sc->sc_nbch; bch++)
if ((sc->sc_bchan[bch].state == B_CONNECT_ACTIVE_IND) &&
(sc->sc_bchan[bch].ncci == PLCI))
break;
if ((bch == sc->sc_nbch) ||
(cd = cd_by_cdid(sc->sc_bchan[bch].cdid)) == NULL) {
printf("capi%d: can't find channel for active_resp, PLCI %x\n",
sc->sc_unit, PLCI);
return;
}
msg = capimsg_setu16(mtod(m, u_int8_t*), m->m_len);
msg = capimsg_setu16(msg, applid);
msg = capimsg_setu16(msg, CAPI_CONNECT_ACTIVE_RESP);
msg = capimsg_setu16(msg, msgid);
msg = capimsg_setu32(msg, PLCI);
sc->send(sc, m);
if (cd->crflag == CRF_ORIG) {
capi_connect_b3_req(sc, cd);
} else {
sc->sc_bchan[bch].state = B_CONNECT_B3_IND;
}
}
void capi_connect_b3_req(capi_softc_t *sc, call_desc_t *cd)
{
struct mbuf *m = i4b_Dgetmbuf(8 + 5);
u_int8_t *msg;
u_int16_t msgid;
u_int32_t PLCI;
if (!m) {
printf("capi%d: can't get mbuf for connect_b3_req\n", sc->sc_unit);
return;
}
sc->sc_bchan[cd->channelid].state = B_CONNECT_B3_CONF;
msgid = sc->sc_bchan[cd->channelid].msgid = sc->sc_msgid++;
PLCI = (sc->sc_bchan[cd->channelid].ncci & CAPI_PLCI_MASK);
msg = capimsg_setu16(mtod(m, u_int8_t*), m->m_len);
msg = capimsg_setu16(msg, I4BCAPI_APPLID);
msg = capimsg_setu16(msg, CAPI_CONNECT_B3_REQ);
msg = capimsg_setu16(msg, msgid);
msg = capimsg_setu32(msg, PLCI);
msg = capimsg_setu8(msg, 0); /* NCPI */
sc->send(sc, m);
}
void capi_connect_b3_conf(capi_softc_t *sc, struct mbuf *m_in)
{
u_int8_t *msg = mtod(m_in, u_int8_t*);
call_desc_t *cd;
u_int16_t msgid;
u_int32_t NCCI;
u_int16_t Info;
int bch;
msg = capimsg_getu16(msg + 6, &msgid);
msg = capimsg_getu32(msg, &NCCI);
msg = capimsg_getu16(msg, &Info);
for (bch = 0; bch < sc->sc_nbch; bch++)
if ((sc->sc_bchan[bch].state == B_CONNECT_B3_CONF) &&
(sc->sc_bchan[bch].ncci == (NCCI & CAPI_PLCI_MASK)))
break;
if ((bch == sc->sc_nbch) ||
(cd = cd_by_cdid(sc->sc_bchan[bch].cdid)) == NULL) {
printf("capi%d: can't find channel for connect_b3_conf NCCI %x\n",
sc->sc_unit, NCCI);
return;
}
if (Info == 0) {
sc->sc_bchan[bch].ncci = NCCI;
sc->sc_bchan[bch].state = B_CONNECT_B3_ACTIVE_IND;
} else {
SET_CAUSE_TV(cd->cause_in, CAUSET_I4B, CAUSE_I4B_OOO); /* XXX */
i4b_l4_disconnect_ind(cd);
freecd_by_cd(cd);
ctrl_desc[sc->ctrl_unit].bch_state[bch] = BCH_ST_RSVD;
printf("capi%d: can't connect_b3 out, info=%04x\n", sc->sc_unit, Info);
capi_disconnect_req(sc, cd);
}
}
void capi_connect_b3_active_ind(capi_softc_t *sc, struct mbuf *m_in)
{
struct mbuf *m = i4b_Dgetmbuf(8 + 4);
u_int8_t *msg = mtod(m_in, u_int8_t*);
call_desc_t *cd;
u_int16_t applid, msgid;
u_int32_t NCCI;
int bch;
if (!m) {
printf("capi%d: can't get mbuf for b3_active_ind\n", sc->sc_unit);
return;
}
msg = capimsg_getu16(msg + 2, &applid);
msg = capimsg_getu16(msg + 2, &msgid);
msg = capimsg_getu32(msg, &NCCI);
for (bch = 0; bch < sc->sc_nbch; bch++)
if ((sc->sc_bchan[bch].state == B_CONNECT_B3_ACTIVE_IND) &&
(sc->sc_bchan[bch].ncci == NCCI))
break;
if ((bch == sc->sc_nbch) ||
(cd = cd_by_cdid(sc->sc_bchan[bch].cdid)) == NULL) {
printf("capi%d: can't find channel for b3_active_resp NCCI %x\n",
sc->sc_unit, NCCI);
return;
}
msg = capimsg_setu16(mtod(m, u_int8_t*), m->m_len);
msg = capimsg_setu16(msg, I4BCAPI_APPLID);
msg = capimsg_setu16(msg, CAPI_CONNECT_B3_ACTIVE_RESP);
msg = capimsg_setu16(msg, msgid);
msg = capimsg_setu32(msg, NCCI);
sc->send(sc, m);
sc->sc_bchan[bch].state = B_CONNECTED;
i4b_l4_connect_active_ind(cd);
}
/*
// Incoming call setup:
// --------------------
//
// <-- CAPI_CONNECT_IND
// (consult Layer 4)
// CAPI_CONNECT_RESP -->
// <-- CAPI_CONNECT_ACTIVE_IND
// CAPI_CONNECT_ACTIVE_RESP -->
// <-- CAPI_CONNECT_B3_IND
// CAPI_CONNECT_B3_RESP -->
// <-- CAPI_CONNECT_B3_ACTIVE_IND
// CAPI_CONNECT_B3_ACTIVE_RESP -->
// (notify Layer 4)
*/
void capi_connect_ind(capi_softc_t *sc, struct mbuf *m_in)
{
u_int8_t *msg = mtod(m_in, u_int8_t*);
call_desc_t *cd;
u_int16_t applid, msgid;
u_int32_t PLCI;
u_int16_t CIP;
u_int8_t x, y, z;
int bch;
if ((cd = reserve_cd()) == NULL) {
printf("capi%d: can't get cd for connect_ind\n", sc->sc_unit);
return;
}
cd->controller = sc->ctrl_unit;
cd->channelexcl = FALSE;
for (bch = 0; bch < sc->sc_nbch; bch++)
if (sc->sc_bchan[bch].state == B_FREE) break;
sc->sc_bchan[bch].state = B_CONNECT_IND;
cd->channelid = bch; /* XXX CHAN_ANY XXX */
cd->crflag = CRF_DEST;
cd->cr = get_rand_cr(sc->sc_unit);
cd->scr_ind = SCR_NONE;
cd->prs_ind = PRS_NONE;
cd->bprot = BPROT_NONE;
cd->ilt = NULL;
cd->dlt = NULL;
cd->display[0] = '\0';
cd->datetime[0] = '\0';
msg = capimsg_getu16(msg + 2, &applid);
msg = capimsg_getu16(msg + 2, &msgid);
msg = capimsg_getu32(msg, &PLCI);
msg = capimsg_getu16(msg, &CIP);
cd->event = (int) msgid; /* XXX overload */
cd->Q931state = (int) PLCI; /* XXX overload */
switch (CIP) {
case 0x0010:
case 0x0001: cd->bprot = BPROT_NONE; break;
case 0x0002: cd->bprot = BPROT_RHDLC; break;
default:
NDBGL4(L4_CAPIDBG, "capi%d: unknown CIP = %d", sc->sc_unit, CIP);
cd->bprot = BPROT_NONE;
}
msg = capimsg_getu8(msg, &x); /* Called party struct len */
if (x) {
msg = capimsg_getu8(msg, &y); /* Numbering plan */
z = x - 1;
if (z >= TELNO_MAX) z = (TELNO_MAX-1);
strncpy(cd->dst_telno, msg, z);
msg += x;
x = z;
}
cd->dst_telno[x] = '\0';
msg = capimsg_getu8(msg, &x); /* Calling party struct len */
if (x) {
msg = capimsg_getu8(msg, &y); /* Numbering plan */
msg = capimsg_getu8(msg, &y); /* Screening/Presentation */
if ((y & 0x80) == 0) { /* screening used */
cd->scr_ind = (y & 3) + SCR_USR_NOSC;
cd->prs_ind = ((y >> 5) & 3) + PRS_ALLOWED;
}
z = x - 2;
if (z >= TELNO_MAX) z = (TELNO_MAX-1);
strncpy(cd->src_telno, msg, z);
msg += x;
x = z;
}
cd->src_telno[x] = '\0';
i4b_l4_connect_ind(cd);
}
void capi_connect_resp(capi_softc_t *sc, call_desc_t *cd)
{
struct mbuf *m;
u_int8_t *msg;
u_int16_t msgid;
u_int32_t PLCI;
int dlen = strlen(cd->dst_telno);
m = i4b_Dgetmbuf(8 + 21 + dlen);
if (!m) {
printf("capi%d: can't get mbuf for connect_resp\n", sc->sc_unit);
return;
}
msgid = (u_int16_t) cd->event;
PLCI = (u_int32_t) cd->Q931state;
msg = capimsg_setu16(mtod(m, u_int8_t*), m->m_len);
msg = capimsg_setu16(msg, I4BCAPI_APPLID);
msg = capimsg_setu16(msg, CAPI_CONNECT_RESP);
msg = capimsg_setu16(msg, msgid);
msg = capimsg_setu32(msg, PLCI);
switch (cd->response) {
case SETUP_RESP_ACCEPT:
sc->sc_bchan[cd->channelid].cdid = cd->cdid;
sc->sc_bchan[cd->channelid].ncci = PLCI;
sc->sc_bchan[cd->channelid].state = B_CONNECT_ACTIVE_IND;
ctrl_desc[sc->ctrl_unit].bch_state[cd->channelid] = BCH_ST_USED;
msg = capimsg_setu16(msg, 0); /* Accept the call */
break;
case SETUP_RESP_REJECT:
sc->sc_bchan[cd->channelid].state = B_FREE;
ctrl_desc[sc->ctrl_unit].bch_state[cd->channelid] = BCH_ST_FREE;
msg = capimsg_setu16(msg, 2); /* Reject, normal call clearing */
break;
case SETUP_RESP_DNTCRE:
sc->sc_bchan[cd->channelid].state = B_FREE;
ctrl_desc[sc->ctrl_unit].bch_state[cd->channelid] = BCH_ST_FREE;
if (sc->sc_nbch == 30) {
/* With PRI, we can't really ignore calls -- normal clearing */
msg = capimsg_setu16(msg, (0x3480|CAUSE_Q850_NCCLR));
} else {
msg = capimsg_setu16(msg, 1); /* Ignore */
}
break;
default:
sc->sc_bchan[cd->channelid].state = B_FREE;
ctrl_desc[sc->ctrl_unit].bch_state[cd->channelid] = BCH_ST_FREE;
msg = capimsg_setu16(msg, (0x3480|CAUSE_Q850_CALLREJ));
}
msg = capimsg_setu8(msg, 15); /* B protocol */
if (cd->bprot == BPROT_NONE)
msg = capimsg_setu16(msg, 1); /* B1 protocol = transparent */
else
msg = capimsg_setu16(msg, 0); /* B1 protocol = HDLC */
msg = capimsg_setu16(msg, 1); /* B2 protocol = transparent */
msg = capimsg_setu16(msg, 0); /* B3 protocol = transparent */
msg = capimsg_setu8(msg, 0); /* B1 parameters */
msg = capimsg_setu8(msg, 0); /* B2 parameters */
msg = capimsg_setu8(msg, 0); /* B3 parameters */
msg = capimsg_setu8(msg, 1 + dlen);
msg = capimsg_setu8(msg, 0x80); /* Numbering plan */
strncpy(msg, cd->dst_telno, dlen);
msg = capimsg_setu8(msg + dlen, 0); /* Connected subaddress */
msg = capimsg_setu8(msg, 0); /* Low Layer Compatibility */
msg = capimsg_setu8(msg, 0); /* Additional Info */
sc->send(sc, m);
}
void capi_connect_b3_ind(capi_softc_t *sc, struct mbuf *m_in)
{
struct mbuf *m = i4b_Dgetmbuf(8 + 7);
u_int8_t *msg = mtod(m_in, u_int8_t*);
u_int16_t applid, msgid;
u_int32_t NCCI;
int bch;
if (!m) {
printf("capi%d: can't get mbuf for connect_b3_resp\n", sc->sc_unit);
return;
}
msg = capimsg_getu16(msg + 2, &applid);
msg = capimsg_getu16(msg + 2, &msgid);
msg = capimsg_getu32(msg, &NCCI);
for (bch = 0; bch < sc->sc_nbch; bch++)
if ((sc->sc_bchan[bch].state == B_CONNECT_B3_IND) &&
(sc->sc_bchan[bch].ncci == (NCCI & CAPI_PLCI_MASK)))
break;
msg = capimsg_setu16(mtod(m, u_int8_t*), m->m_len);
msg = capimsg_setu16(msg, applid);
msg = capimsg_setu16(msg, CAPI_CONNECT_B3_RESP);
msg = capimsg_setu16(msg, msgid);
msg = capimsg_setu32(msg, NCCI);
if (bch == sc->sc_nbch) {
printf("capi%d: can't get cd for connect_b3_resp NCCI %x\n",
sc->sc_unit, NCCI);
msg = capimsg_setu16(msg, 8); /* Reject, destination OOO */
} else {
sc->sc_bchan[bch].ncci = NCCI;
sc->sc_bchan[bch].state = B_CONNECT_B3_ACTIVE_IND;
msg = capimsg_setu16(msg, 0); /* Accept */
}
msg = capimsg_setu8(msg, 0); /* NCPI */
sc->send(sc, m);
}
/*
// Data transfer:
// --------------
*/
void capi_data_b3_req(capi_softc_t *sc, int chan, struct mbuf *m_b3)
{
struct mbuf *m = i4b_Dgetmbuf(8 + 14);
u_int8_t *msg;
u_int16_t msgid;
if (!m) {
printf("capi%d: can't get mbuf for data_b3_req\n", sc->sc_unit);
return;
}
msgid = sc->sc_bchan[chan].msgid = sc->sc_msgid++;
sc->sc_bchan[chan].busy = 1;
msg = capimsg_setu16(mtod(m, u_int8_t*), m->m_len);
msg = capimsg_setu16(msg, I4BCAPI_APPLID);
msg = capimsg_setu16(msg, CAPI_DATA_B3_REQ);
msg = capimsg_setu16(msg, msgid);
msg = capimsg_setu32(msg, sc->sc_bchan[chan].ncci);
msg = capimsg_setu32(msg, (u_int32_t) m_b3->m_data); /* Pointer */
msg = capimsg_setu16(msg, m_b3->m_len);
msg = capimsg_setu16(msg, chan);
msg = capimsg_setu16(msg, 0); /* Flags */
m->m_next = m_b3;
sc->send(sc, m);
}
void capi_data_b3_conf(capi_softc_t *sc, struct mbuf *m_in)
{
u_int8_t *msg = mtod(m_in, u_int8_t*);
u_int32_t NCCI;
u_int16_t handle;
u_int16_t Info;
msg = capimsg_getu32(msg + 8, &NCCI);
msg = capimsg_getu16(msg, &handle);
msg = capimsg_getu16(msg, &Info);
if (Info == 0) {
sc->sc_bchan[handle].busy = 0;
capi_start_tx(sc, handle);
} else {
printf("capi%d: data_b3_conf NCCI %x handle %x info=%04x\n",
sc->sc_unit, NCCI, handle, Info);
}
}
void capi_data_b3_ind(capi_softc_t *sc, struct mbuf *m_in)
{
struct mbuf *m = i4b_Dgetmbuf(8 + 6);
u_int8_t *msg = mtod(m_in, u_int8_t*);
u_int16_t applid, msgid;
u_int32_t NCCI;
u_int16_t handle;
int bch;
if (!m) {
printf("capi%d: can't get mbuf for data_b3_resp\n", sc->sc_unit);
return;
}
msg = capimsg_getu16(msg + 2, &applid);
msg = capimsg_getu16(msg + 2, &msgid);
msg = capimsg_getu32(msg, &NCCI);
msg = capimsg_getu16(msg + 6, &handle);
for (bch = 0; bch < sc->sc_nbch; bch++)
if ((sc->sc_bchan[bch].state == B_CONNECTED) &&
(sc->sc_bchan[bch].ncci == NCCI))
break;
if (bch == sc->sc_nbch) {
printf("capi%d: can't find channel for data_b3_ind NCCI %x\n",
sc->sc_unit, NCCI);
} else {
if (sc->sc_bchan[bch].bprot == BPROT_RHDLC) {
/* HDLC drivers use rx_mbuf */
sc->sc_bchan[bch].in_mbuf = m_in->m_next;
sc->sc_bchan[bch].rxcount += m_in->m_next->m_len;
m_in->m_next = NULL; /* driver frees */
(*sc->sc_bchan[bch].capi_drvr_linktab->bch_rx_data_ready)(
sc->sc_bchan[bch].capi_drvr_linktab->unit);
} else {
/* Telephony drivers use rx_queue */
if (!_IF_QFULL(&sc->sc_bchan[bch].rx_queue)) {
_IF_ENQUEUE(&sc->sc_bchan[bch].rx_queue, m_in->m_next);
sc->sc_bchan[bch].rxcount += m_in->m_next->m_len;
m_in->m_next = NULL; /* driver frees */
}
(*sc->sc_bchan[bch].capi_drvr_linktab->bch_rx_data_ready)(
sc->sc_bchan[bch].capi_drvr_linktab->unit);
}
}
msg = capimsg_setu16(mtod(m, u_int8_t*), m->m_len);
msg = capimsg_setu16(msg, I4BCAPI_APPLID);
msg = capimsg_setu16(msg, CAPI_DATA_B3_RESP);
msg = capimsg_setu16(msg, msgid);
msg = capimsg_setu32(msg, NCCI);
msg = capimsg_setu16(msg, handle);
sc->send(sc, m);
}
/*
// Connection teardown:
// --------------------
*/
void capi_disconnect_req(capi_softc_t *sc, call_desc_t *cd)
{
struct mbuf *m = i4b_Dgetmbuf(8 + 5);
u_int8_t *msg;
u_int16_t msgid;
u_int32_t PLCI;
if (!m) {
printf("capi%d: can't get mbuf for disconnect_req\n", sc->sc_unit);
return;
}
sc->sc_bchan[cd->channelid].state = B_DISCONNECT_CONF;
ctrl_desc[sc->ctrl_unit].bch_state[cd->channelid] = BCH_ST_RSVD;
msgid = sc->sc_bchan[cd->channelid].msgid = sc->sc_msgid++;
PLCI = (sc->sc_bchan[cd->channelid].ncci & CAPI_PLCI_MASK);
msg = capimsg_setu16(mtod(m, u_int8_t*), m->m_len);
msg = capimsg_setu16(msg, I4BCAPI_APPLID);
msg = capimsg_setu16(msg, CAPI_DISCONNECT_REQ);
msg = capimsg_setu16(msg, msgid);
msg = capimsg_setu32(msg, PLCI);
msg = capimsg_setu8(msg, 0); /* Additional Info */
sc->send(sc, m);
}
void capi_disconnect_conf(capi_softc_t *sc, struct mbuf *m_in)
{
u_int8_t *msg = mtod(m_in, u_int8_t*);
call_desc_t *cd;
u_int32_t PLCI;
int bch;
msg = capimsg_getu32(msg + 8, &PLCI);
for (bch = 0; bch < sc->sc_nbch; bch++)
if ((sc->sc_bchan[bch].state == B_DISCONNECT_CONF) &&
((sc->sc_bchan[bch].ncci & CAPI_PLCI_MASK) == PLCI))
break;
if (bch == sc->sc_nbch) {
printf("capi%d: can't find channel for disconnect_conf PLCI %x\n",
sc->sc_unit, PLCI);
return;
}
cd = cd_by_cdid(sc->sc_bchan[bch].cdid);
if (!cd) {
printf("capi%d: can't find cd for disconnect_conf PLCI %x\n",
sc->sc_unit, PLCI);
} else {
i4b_l4_disconnect_ind(cd);
freecd_by_cd(cd);
}
sc->sc_bchan[bch].state = B_FREE;
ctrl_desc[sc->ctrl_unit].bch_state[bch] = BCH_ST_FREE;
}
void capi_disconnect_b3_ind(capi_softc_t *sc, struct mbuf *m_in)
{
struct mbuf *m = i4b_Dgetmbuf(8 + 4);
u_int8_t *msg = mtod(m_in, u_int8_t*);
u_int16_t applid, msgid;
u_int32_t NCCI;
if (!m) {
printf("capi%d: can't get mbuf for disconnect_b3_resp\n", sc->sc_unit);
return;
}
msg = capimsg_getu16(msg + 2, &applid);
msg = capimsg_getu16(msg + 2, &msgid);
msg = capimsg_getu32(msg, &NCCI);
/* XXX update bchan state? XXX */
msg = capimsg_setu16(mtod(m, u_int8_t*), m->m_len);
msg = capimsg_setu16(msg, applid);
msg = capimsg_setu16(msg, CAPI_DISCONNECT_B3_RESP);
msg = capimsg_setu16(msg, msgid);
msg = capimsg_setu32(msg, NCCI);
sc->send(sc, m);
}
void capi_disconnect_ind(capi_softc_t *sc, struct mbuf *m_in)
{
struct mbuf *m = i4b_Dgetmbuf(8 + 4);
u_int8_t *msg = mtod(m_in, u_int8_t*);
call_desc_t *cd;
u_int16_t applid, msgid;
u_int32_t PLCI;
u_int16_t Reason;
int bch;
if (!m) {
printf("capi%d: can't get mbuf for disconnect_resp\n", sc->sc_unit);
return;
}
msg = capimsg_getu16(msg + 2, &applid);
msg = capimsg_getu16(msg + 2, &msgid);
msg = capimsg_getu32(msg, &PLCI);
msg = capimsg_getu16(msg, &Reason);
for (bch = 0; bch < sc->sc_nbch; bch++)
if ((sc->sc_bchan[bch].state != B_FREE) &&
((sc->sc_bchan[bch].ncci & CAPI_PLCI_MASK) == PLCI))
break;
if (bch < sc->sc_nbch) {
/* We may not have a bchan assigned if call was ignored. */
cd = cd_by_cdid(sc->sc_bchan[bch].cdid);
sc->sc_bchan[bch].state = B_DISCONNECT_IND;
} else cd = NULL;
if (cd) {
if ((Reason & 0xff00) == 0x3400) {
SET_CAUSE_TV(cd->cause_in, CAUSET_Q850, (Reason & 0x7f));
} else {
SET_CAUSE_TV(cd->cause_in, CAUSET_I4B, CAUSE_I4B_NORMAL);
}
i4b_l4_disconnect_ind(cd);
freecd_by_cd(cd);
sc->sc_bchan[bch].state = B_FREE;
ctrl_desc[sc->ctrl_unit].bch_state[bch] = BCH_ST_FREE;
}
msg = capimsg_setu16(mtod(m, u_int8_t*), m->m_len);
msg = capimsg_setu16(msg, applid);
msg = capimsg_setu16(msg, CAPI_DISCONNECT_RESP);
msg = capimsg_setu16(msg, msgid);
msg = capimsg_setu32(msg, PLCI);
sc->send(sc, m);
}
#endif /* NI4BCAPI > 0 */
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