/*
* Copyright (c) 1996-2003
* Fraunhofer Institute for Open Communication Systems (FhG Fokus).
* 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.
*
* Author: Hartmut Brandt <harti@freebsd.org>
*
* $Begemot: libunimsg/netnatm/sig/sig_uni.c,v 1.11 2004/08/05 07:11:03 brandt Exp $
*
* Instance handling
*/
#include <netnatm/unimsg.h>
#include <netnatm/saal/sscopdef.h>
#include <netnatm/saal/sscfudef.h>
#include <netnatm/msg/unistruct.h>
#include <netnatm/msg/unimsglib.h>
#include <netnatm/sig/uni.h>
#include <netnatm/sig/unisig.h>
#include <netnatm/sig/unipriv.h>
#ifdef UNICORE
UNICORE
#endif
#define STR(S) [S] = #S
static const char *custat_names[] = {
STR(CU_STAT0),
STR(CU_STAT1),
STR(CU_STAT2),
STR(CU_STAT3),
};
static const char *globstat_names[] = {
STR(UNI_CALLSTATE_REST0),
STR(UNI_CALLSTATE_REST1),
STR(UNI_CALLSTATE_REST2),
};
static const char *sig_names[] = {
STR(UNIAPI_ERROR),
STR(UNIAPI_CALL_CREATED),
STR(UNIAPI_CALL_DESTROYED),
STR(UNIAPI_PARTY_CREATED),
STR(UNIAPI_PARTY_DESTROYED),
STR(UNIAPI_LINK_ESTABLISH_request),
STR(UNIAPI_LINK_ESTABLISH_confirm),
STR(UNIAPI_LINK_RELEASE_request),
STR(UNIAPI_LINK_RELEASE_confirm),
STR(UNIAPI_RESET_request),
STR(UNIAPI_RESET_confirm),
STR(UNIAPI_RESET_indication),
STR(UNIAPI_RESET_ERROR_indication),
STR(UNIAPI_RESET_response),
STR(UNIAPI_RESET_ERROR_response),
STR(UNIAPI_RESET_STATUS_indication),
STR(UNIAPI_SETUP_request),
STR(UNIAPI_SETUP_indication),
STR(UNIAPI_SETUP_response),
STR(UNIAPI_SETUP_confirm),
STR(UNIAPI_SETUP_COMPLETE_indication),
STR(UNIAPI_SETUP_COMPLETE_request),
STR(UNIAPI_ALERTING_request),
STR(UNIAPI_ALERTING_indication),
STR(UNIAPI_PROCEEDING_request),
STR(UNIAPI_PROCEEDING_indication),
STR(UNIAPI_RELEASE_request),
STR(UNIAPI_RELEASE_indication),
STR(UNIAPI_RELEASE_response),
STR(UNIAPI_RELEASE_confirm),
STR(UNIAPI_NOTIFY_request),
STR(UNIAPI_NOTIFY_indication),
STR(UNIAPI_STATUS_indication),
STR(UNIAPI_STATUS_ENQUIRY_request),
STR(UNIAPI_ADD_PARTY_request),
STR(UNIAPI_ADD_PARTY_indication),
STR(UNIAPI_PARTY_ALERTING_request),
STR(UNIAPI_PARTY_ALERTING_indication),
STR(UNIAPI_ADD_PARTY_ACK_request),
STR(UNIAPI_ADD_PARTY_ACK_indication),
STR(UNIAPI_ADD_PARTY_REJ_request),
STR(UNIAPI_ADD_PARTY_REJ_indication),
STR(UNIAPI_DROP_PARTY_request),
STR(UNIAPI_DROP_PARTY_indication),
STR(UNIAPI_DROP_PARTY_ACK_request),
STR(UNIAPI_DROP_PARTY_ACK_indication),
STR(UNIAPI_ABORT_CALL_request),
};
static const char *verb_names[] = {
# define UNI_DEBUG_DEFINE(D) [UNI_FAC_##D] = #D,
UNI_DEBUG_FACILITIES
# undef UNI_DEBUG_DEFINE
};
const char *
uni_facname(enum uni_verb fac)
{
static char buf[40];
if (fac >= UNI_MAXFACILITY) {
sprintf(buf, "FAC%u", fac);
return (buf);
}
return (verb_names[fac]);
}
const char *
uni_signame(enum uni_sig sig)
{
static char buf[40];
if (sig >= UNIAPI_MAXSIG) {
sprintf(buf, "UNIAPI_SIG%u", sig);
return (buf);
}
return (sig_names[sig]);
}
struct unicx *
uni_context(struct uni *uni)
{
return (&uni->cx);
}
static void
uni_init(struct uni *uni)
{
uni->working = 0;
uni->cref_alloc = 12;
uni->custat = CU_STAT0;
uni->glob_start = UNI_CALLSTATE_REST0;
uni->glob_respond = UNI_CALLSTATE_REST0;
}
static void
uni_stop(struct uni *uni)
{
struct call *c;
while ((c = TAILQ_FIRST(&uni->calls)) != NULL) {
TAILQ_REMOVE(&uni->calls, c, link);
uni_destroy_call(c, 1);
}
SIGQ_CLEAR(&uni->workq);
SIGQ_CLEAR(&uni->delq);
}
/*
* INSTANCE HANDLING
*/
struct uni *
uni_create(void *arg, const struct uni_funcs *funcs)
{
struct uni *uni;
if ((uni = INS_ALLOC()) == NULL)
return (NULL);
uni_init(uni);
uni->funcs = funcs;
uni->arg = arg;
uni->proto = UNIPROTO_UNI40U;
uni->sb_tb = 0;
TAILQ_INIT(&uni->workq);
TAILQ_INIT(&uni->delq);
TIMER_INIT_UNI(uni, t309);
uni->timer309 = UNI_T309_DEFAULT;
TAILQ_INIT(&uni->calls);
uni_initcx(&uni->cx);
TIMER_INIT_UNI(uni, t317);
TIMER_INIT_UNI(uni, t316);
uni->timer301 = UNI_T301_DEFAULT;
uni->init303 = UNI_T303_CNT_DEFAULT;
uni->timer303 = UNI_T303_DEFAULT;
uni->init308 = UNI_T308_CNT_DEFAULT;
uni->timer308 = UNI_T308_DEFAULT;
uni->timer310 = UNI_T310U_DEFAULT;
uni->timer313 = UNI_T313_DEFAULT;
uni->init316 = UNI_T316_CNT_DEFAULT;
uni->timer316 = UNI_T316_DEFAULT;
uni->timer317 = UNI_T317_DEFAULT;
uni->timer322 = UNI_T322_DEFAULT;
uni->init322 = UNI_T322_CNT_DEFAULT;
uni->timer397 = UNI_T397_DEFAULT;
uni->timer398 = UNI_T398_DEFAULT;
uni->timer399 = UNI_T399U_DEFAULT;
return (uni);
}
void
uni_destroy(struct uni *uni)
{
uni_stop(uni);
TIMER_DESTROY_UNI(uni, t309);
TIMER_DESTROY_UNI(uni, t316);
TIMER_DESTROY_UNI(uni, t317);
INS_FREE(uni);
}
void
uni_reset(struct uni *uni)
{
uni_stop(uni);
uni_init(uni);
}
/*
* DISPATCH SSCOP SIGNAL
*/
void
uni_saal_input(struct uni *uni, enum saal_sig sig, struct uni_msg *m)
{
switch (sig) {
case SAAL_ESTABLISH_indication:
if (m != NULL)
uni_msg_destroy(m);
uni_enq_coord(uni, SIGO_SAAL_ESTABLISH_indication, 0, NULL);
break;
case SAAL_ESTABLISH_confirm:
if (m != NULL)
uni_msg_destroy(m);
uni_enq_coord(uni, SIGO_SAAL_ESTABLISH_confirm, 0, NULL);
break;
case SAAL_RELEASE_confirm:
if (m != NULL)
uni_msg_destroy(m);
uni_enq_coord(uni, SIGO_SAAL_RELEASE_confirm, 0, NULL);
break;
case SAAL_RELEASE_indication:
if (m != NULL)
uni_msg_destroy(m);
uni_enq_coord(uni, SIGO_SAAL_RELEASE_indication, 0, NULL);
break;
case SAAL_DATA_indication:
uni_enq_coord(uni, SIGO_SAAL_DATA_indication, 0, m);
break;
case SAAL_UDATA_indication:
uni_enq_coord(uni, SIGO_SAAL_UDATA_indication, 0, m);
break;
default:
VERBOSE(uni, UNI_FAC_ERR, 1, "bogus saal signal %u", sig);
if (m != NULL)
uni_msg_destroy(m);
break;
}
}
static struct {
const char *name;
enum uni_sig sig;
size_t arglen;
u_int coord_sig;
u_int proto;
#define UNIU 0x01
#define UNIN 0x02
#define PNNI 0x04
} maptab[] = {
{ "LINK-ESTABLISH.request", UNIAPI_LINK_ESTABLISH_request,
0,
SIGO_LINK_ESTABLISH_request, UNIU | UNIN },
{ "LINK-RELEASE.request", UNIAPI_LINK_RELEASE_request,
0,
SIGO_LINK_RELEASE_request, UNIU | UNIN },
{ "RESET.request", UNIAPI_RESET_request,
sizeof(struct uniapi_reset_request),
SIGO_RESET_request, UNIU | UNIN },
{ "RESET-ERROR.response", UNIAPI_RESET_ERROR_response,
sizeof(struct uniapi_reset_error_response),
SIGO_RESET_ERROR_response, UNIU | UNIN },
{ "RESET.response", UNIAPI_RESET_response,
sizeof(struct uniapi_reset_response),
SIGO_RESET_response, UNIU | UNIN },
{ "SETUP.request", UNIAPI_SETUP_request,
sizeof(struct uniapi_setup_request),
SIGO_SETUP_request, UNIU | UNIN },
{ "SETUP.response", UNIAPI_SETUP_response,
sizeof(struct uniapi_setup_response),
SIGO_SETUP_response, UNIU | UNIN },
{ "SETUP-COMPLETE.request", UNIAPI_SETUP_COMPLETE_request,
sizeof(struct uniapi_setup_complete_request),
SIGO_SETUP_COMPLETE_request, UNIN },
{ "PROCEEDING.request", UNIAPI_PROCEEDING_request,
sizeof(struct uniapi_proceeding_request),
SIGO_PROCEEDING_request, UNIU | UNIN },
{ "ALERTING.request", UNIAPI_ALERTING_request,
sizeof(struct uniapi_alerting_request),
SIGO_ALERTING_request, UNIU | UNIN },
{ "RELEASE.request", UNIAPI_RELEASE_request,
sizeof(struct uniapi_release_request),
SIGO_RELEASE_request, UNIU | UNIN },
{ "RELEASE.response", UNIAPI_RELEASE_response,
sizeof(struct uniapi_release_response),
SIGO_RELEASE_response, UNIU | UNIN },
{ "NOTIFY.request", UNIAPI_NOTIFY_request,
sizeof(struct uniapi_notify_request),
SIGO_NOTIFY_request, UNIU | UNIN },
{ "STATUS-ENQUIRY.request", UNIAPI_STATUS_ENQUIRY_request,
sizeof(struct uniapi_status_enquiry_request),
SIGO_STATUS_ENQUIRY_request, UNIU | UNIN },
{ "ADD-PARTY.request", UNIAPI_ADD_PARTY_request,
sizeof(struct uniapi_add_party_request),
SIGO_ADD_PARTY_request, UNIU | UNIN },
{ "ADD-PARTY-ACK.request", UNIAPI_ADD_PARTY_ACK_request,
sizeof(struct uniapi_add_party_ack_request),
SIGO_ADD_PARTY_ACK_request, UNIU | UNIN },
{ "ADD-PARTY-REJ.request", UNIAPI_ADD_PARTY_REJ_request,
sizeof(struct uniapi_add_party_rej_request),
SIGO_ADD_PARTY_REJ_request, UNIU | UNIN },
{ "PARTY-ALERTING.request", UNIAPI_PARTY_ALERTING_request,
sizeof(struct uniapi_party_alerting_request),
SIGO_PARTY_ALERTING_request, UNIU | UNIN },
{ "DROP-PARTY.request", UNIAPI_DROP_PARTY_request,
sizeof(struct uniapi_drop_party_request),
SIGO_DROP_PARTY_request, UNIU | UNIN },
{ "DROP-PARTY-ACK.request", UNIAPI_DROP_PARTY_ACK_request,
sizeof(struct uniapi_drop_party_ack_request),
SIGO_DROP_PARTY_ACK_request, UNIU | UNIN },
{ "ABORT-CALL.request", UNIAPI_ABORT_CALL_request,
sizeof(struct uniapi_abort_call_request),
SIGO_ABORT_CALL_request, UNIU | UNIN },
{ NULL, 0, 0, 0, 0 }
};
void
uni_uni_input(struct uni *uni, enum uni_sig sig, uint32_t cookie,
struct uni_msg *m)
{
u_int i;
for (i = 0; maptab[i].name != NULL; i++) {
if (maptab[i].sig == sig) {
if (uni->proto == UNIPROTO_UNI40U) {
if (!(maptab[i].proto & UNIU))
uniapi_uni_error(uni,
UNIAPI_ERROR_BAD_SIGNAL, cookie, 0);
} else if(uni->proto == UNIPROTO_UNI40N) {
if (!(maptab[i].proto & UNIN))
uniapi_uni_error(uni,
UNIAPI_ERROR_BAD_SIGNAL, cookie, 0);
} else if(uni->proto == UNIPROTO_PNNI10) {
if (!(maptab[i].proto & PNNI))
uniapi_uni_error(uni,
UNIAPI_ERROR_BAD_SIGNAL, cookie, 0);
} else {
uniapi_uni_error(uni,
UNIAPI_ERROR_BAD_SIGNAL, cookie, 0);
}
if (uni_msg_len(m) != maptab[i].arglen) {
VERBOSE(uni, UNI_FAC_ERR, 1, "bogus data in %s"
" (expecting %zu, got %zu)", maptab[i].name,
maptab[i].arglen, uni_msg_len(m));
uni_msg_destroy(m);
uniapi_uni_error(uni, UNIAPI_ERROR_BAD_ARG,
cookie, 0);
return;
}
if (maptab[i].arglen == 0) {
uni_msg_destroy(m);
m = NULL;
}
VERBOSE(uni, UNI_FAC_API, 1, "got signal %s - "
"delivering to Coord", maptab[i].name);
uni_enq_coord(uni, maptab[i].coord_sig, cookie, m);
return;
}
}
VERBOSE(uni, UNI_FAC_ERR, 1, "bogus uni signal %u", sig);
uni_msg_destroy(m);
uniapi_uni_error(uni, UNIAPI_ERROR_BAD_SIGNAL, cookie, 0);
}
#undef UNIU
#undef UNIN
#undef PNNI
/**************************************************************/
void
uni_work(struct uni *uni)
{
struct sig *s;
if (uni->working)
return;
uni->working = 1;
while ((s = TAILQ_FIRST(&uni->workq)) != NULL) {
TAILQ_REMOVE(&uni->workq, s, link);
switch (s->type) {
case SIG_COORD:
uni_sig_coord(uni, s->sig, s->cookie, s->msg);
break;
case SIG_RESET_START:
uni_sig_start(uni, s->sig, s->cookie, s->msg, s->u);
break;
case SIG_RESET_RESP:
uni_sig_respond(uni, s->sig, s->cookie, s->msg, s->u);
break;
case SIG_CALL:
uni_sig_call(s->call, s->sig, s->cookie, s->msg, s->u);
break;
case SIG_PARTY:
uni_sig_party(s->party, s->sig, s->cookie, s->msg, s->u);
break;
default:
ASSERT(0, ("bad signal type"));
}
SIG_FREE(s);
}
uni->working = 0;
}
/*
* Enqueue a signal in the working queue
*/
void
uni_enq_sig(struct uni *uni, u_int type, struct call *call,
struct party *party, uint32_t sig, uint32_t cookie,
struct uni_msg *msg, struct uni_all *u)
{
struct sig *s;
if ((s = SIG_ALLOC()) != NULL) {
s->type = type;
s->sig = sig;
s->cookie = cookie;
s->msg = msg;
s->call = call;
s->party = party;
s->u = u;
TAILQ_INSERT_TAIL(&uni->workq, s, link);
}
}
/*
* Enqueue a signal in the delayed queue
*/
void
uni_delenq_sig(struct uni *uni, u_int type, struct call *call,
struct party *party, uint32_t sig, uint32_t cookie,
struct uni_msg *msg, struct uni_all *u)
{
struct sig *s;
if ((s = SIG_ALLOC()) != NULL) {
s->type = type;
s->sig = sig;
s->cookie = cookie;
s->msg = msg;
s->call = call;
s->party = party;
s->u = u;
TAILQ_INSERT_TAIL(&uni->delq, s, link);
}
}
/**************************************************************/
void
uniapi_uni_error(struct uni *uni, uint32_t reason, uint32_t cookie,
uint32_t state)
{
struct uni_msg *resp;
struct uniapi_error *err;
if (cookie == 0)
return;
resp = uni_msg_alloc(sizeof(struct uniapi_error));
err = uni_msg_wptr(resp, struct uniapi_error *);
resp->b_wptr += sizeof(struct uniapi_error);
err->reason = reason;
err->state = state;
uni->funcs->uni_output(uni, uni->arg, UNIAPI_ERROR, cookie, resp);
}
void
uniapi_call_error(struct call *c, uint32_t reason, uint32_t cookie)
{
uniapi_uni_error(c->uni, reason, cookie, callstates[c->cstate].ext);
}
void
uniapi_party_error(struct party *p, uint32_t reason, uint32_t cookie)
{
uniapi_uni_error(p->call->uni, reason, cookie,
callstates[p->call->cstate].ext);
}
/**************************************************************/
void
uni_status(struct uni *uni, void *arg)
{
uni->funcs->status(uni, uni->arg, arg,
"working: %s\n", uni->working ? "yes" : "no");
uni->funcs->status(uni, uni->arg, arg,
"work queue: %sempty\n", TAILQ_EMPTY(&uni->workq)? "" : "not ");
uni->funcs->status(uni, uni->arg, arg,
"delayed work queue: %sempty\n",
TAILQ_EMPTY(&uni->delq)? "" : "not ");
uni->funcs->status(uni, uni->arg, arg,
"coordinator: %s\n", custat_names[uni->custat]);
uni->funcs->status(uni, uni->arg, arg,
"reset-start: %s\n", globstat_names[uni->glob_start]);
uni->funcs->status(uni, uni->arg, arg,
"reset-respond: %s\n", globstat_names[uni->glob_respond]);
}
void
uni_undel(struct uni *uni, int (*filter)(struct sig *, void *), void *arg)
{
struct sigqueue newq;
struct sig *s, *s1;
if (TAILQ_EMPTY(&uni->delq))
return;
TAILQ_INIT(&newq);
s = TAILQ_FIRST(&uni->delq);
while (s != NULL) {
s1 = TAILQ_NEXT(s, link);
if ((*filter)(s, arg)) {
TAILQ_REMOVE(&uni->delq, s, link);
TAILQ_INSERT_TAIL(&uni->workq, s, link);
}
s = s1;
}
}
void
uni_delsig(struct uni *uni, u_int type, struct call *c, struct party *p)
{
struct sig *s, *s1;
s = TAILQ_FIRST(&uni->workq);
while (s != NULL) {
s1 = TAILQ_NEXT(s, link);
if ((type == SIG_CALL && s->type == SIG_CALL &&
s->call == c) ||
(type == SIG_PARTY && s->type == SIG_PARTY &&
s->call == c && s->party == p)) {
TAILQ_REMOVE(&uni->workq, s, link);
if (s->msg)
uni_msg_destroy(s->msg);
if (s->u)
UNI_FREE(s->u);
SIG_FREE(s);
}
s = s1;
}
s = TAILQ_FIRST(&uni->delq);
while (s != NULL) {
s1 = TAILQ_NEXT(s, link);
if ((type == SIG_CALL && s->type == SIG_CALL &&
s->call == c) ||
(type == SIG_PARTY && s->type == SIG_PARTY &&
s->call == c && s->party == p)) {
TAILQ_REMOVE(&uni->delq, s, link);
if (s->msg)
uni_msg_destroy(s->msg);
if (s->u)
UNI_FREE(s->u);
SIG_FREE(s); \
}
s = s1;
}
}
/**************************************************************/
void
uni_get_config(const struct uni *uni, struct uni_config *config)
{
config->proto = uni->proto;
config->popt = 0;
if (uni->cx.q2932)
config->popt |= UNIPROTO_GFP;
config->option = 0;
if (uni->cx.git_hard)
config->option |= UNIOPT_GIT_HARD;
if (uni->cx.bearer_hard)
config->option |= UNIOPT_BEARER_HARD;
if (uni->cx.cause_hard)
config->option |= UNIOPT_CAUSE_HARD;
if (uni->sb_tb)
config->popt |= UNIPROTO_SB_TB;
config->timer301 = uni->timer301;
config->timer303 = uni->timer303;
config->init303 = uni->init303;
config->timer308 = uni->timer308;
config->init308 = uni->init308;
config->timer309 = uni->timer309;
config->timer310 = uni->timer310;
config->timer313 = uni->timer313;
config->timer316 = uni->timer316;
config->init316 = uni->init316;
config->timer317 = uni->timer317;
config->timer322 = uni->timer322;
config->init322 = uni->init322;
config->timer397 = uni->timer397;
config->timer398 = uni->timer398;
config->timer399 = uni->timer399;
}
void
uni_set_config(struct uni *uni, const struct uni_config *config,
uint32_t *mask, uint32_t *popt_mask, uint32_t *opt_mask)
{
int idle;
idle = TAILQ_EMPTY(&uni->calls) &&
TAILQ_EMPTY(&uni->workq) &&
TAILQ_EMPTY(&uni->delq);
if ((*mask & UNICFG_PROTO) && idle) {
switch (config->proto) {
case UNIPROTO_UNI40U:
case UNIPROTO_UNI40N:
/* case UNIPROTO_PNNI10: XXX */
uni->proto = config->proto;
*mask &= ~UNICFG_PROTO;
break;
}
}
if (*popt_mask & UNIPROTO_GFP) {
if (config->popt & UNIPROTO_GFP) {
uni->cx.q2932 = 1;
*popt_mask &= ~UNIPROTO_GFP;
} else {
if (!uni->cx.q2932 || idle) {
uni->cx.q2932 = 0;
*popt_mask &= ~UNIPROTO_GFP;
}
}
}
if (*popt_mask & UNIPROTO_SB_TB) {
uni->sb_tb = ((config->popt & UNIPROTO_SB_TB) != 0);
*popt_mask &= ~UNIPROTO_SB_TB;
}
if (*opt_mask & UNIOPT_GIT_HARD) {
uni->cx.git_hard = ((config->option & UNIOPT_GIT_HARD) != 0);
*opt_mask &= ~UNIOPT_GIT_HARD;
}
if (*opt_mask & UNIOPT_BEARER_HARD) {
uni->cx.bearer_hard = ((config->option & UNIOPT_BEARER_HARD) != 0);
*opt_mask &= ~UNIOPT_BEARER_HARD;
}
if (*opt_mask & UNIOPT_CAUSE_HARD) {
uni->cx.cause_hard = ((config->option & UNIOPT_CAUSE_HARD) != 0);
*opt_mask &= ~UNIOPT_CAUSE_HARD;
}
#define SET_TIMER(NAME,name) \
if (*mask & UNICFG_##NAME) { \
uni->name = config->name; \
*mask &= ~UNICFG_##NAME; \
}
SET_TIMER(TIMER301, timer301);
SET_TIMER(TIMER303, timer303);
SET_TIMER(INIT303, init303);
SET_TIMER(TIMER308, timer308);
SET_TIMER(INIT308, init308);
SET_TIMER(TIMER309, timer309);
SET_TIMER(TIMER310, timer310);
SET_TIMER(TIMER313, timer313);
SET_TIMER(TIMER316, timer316);
SET_TIMER(INIT316, init316);
SET_TIMER(TIMER317, timer317);
SET_TIMER(TIMER322, timer322);
SET_TIMER(INIT322, init322);
SET_TIMER(TIMER397, timer397);
SET_TIMER(TIMER398, timer398);
SET_TIMER(TIMER399, timer399);
#undef SET_TIMER
}
void
uni_set_debug(struct uni *uni, enum uni_verb fac, u_int level)
{
uni->debug[fac] = level;
}
u_int
uni_get_debug(const struct uni *uni, enum uni_verb fac)
{
return (uni->debug[fac]);
}
u_int
uni_getcustate(const struct uni *uni)
{
return (uni->custat);
}