freebsd-nq/sys/netatm/spans/spans_proto.c
David E. O'Brien f25de95508 Use __FBSDID().
2003-06-11 07:11:35 +00:00

573 lines
12 KiB
C

/*
* ===================================
* HARP | Host ATM Research Platform
* ===================================
*
*
* This Host ATM Research Platform ("HARP") file (the "Software") is
* made available by Network Computing Services, Inc. ("NetworkCS")
* "AS IS". NetworkCS does not provide maintenance, improvements or
* support of any kind.
*
* NETWORKCS MAKES NO WARRANTIES OR REPRESENTATIONS, EXPRESS OR IMPLIED,
* INCLUDING, BUT NOT LIMITED TO, IMPLIED WARRANTIES OF MERCHANTABILITY
* AND FITNESS FOR A PARTICULAR PURPOSE, AS TO ANY ELEMENT OF THE
* SOFTWARE OR ANY SUPPORT PROVIDED IN CONNECTION WITH THIS SOFTWARE.
* In no event shall NetworkCS be responsible for any damages, including
* but not limited to consequential damages, arising from or relating to
* any use of the Software or related support.
*
* Copyright 1994-1998 Network Computing Services, Inc.
*
* Copies of this Software may be made, however, the above copyright
* notice must be reproduced on all copies.
*/
/*
* SPANS Signalling Manager
* ---------------------------
*
* SPANS protocol processing module.
*/
#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/types.h>
#include <sys/time.h>
#include <sys/socket.h>
#include <sys/socketvar.h>
#include <sys/syslog.h>
#include <net/if.h>
#include <netinet/in.h>
#include <netatm/port.h>
#include <netatm/queue.h>
#include <netatm/atm.h>
#include <netatm/atm_sys.h>
#include <netatm/atm_sap.h>
#include <netatm/atm_cm.h>
#include <netatm/atm_if.h>
#include <netatm/atm_vc.h>
#include <netatm/atm_sigmgr.h>
#include <netatm/atm_stack.h>
#include <netatm/atm_pcb.h>
#include <netatm/atm_var.h>
#include "spans_xdr.h"
#include <netatm/spans/spans_var.h>
/*
* Internal functions
*/
caddr_t spans_getname(void *);
void spans_connected(void *);
void spans_cleared(void *, struct t_atm_cause *);
void spans_cpcs_data(void *, KBuffer *);
/*
* ATM endpoint for SPANS signalling channel
*/
static Atm_endpoint spans_endpt = {
NULL, /* ep_next */
ENDPT_SPANS_SIG, /* ep_id */
NULL, /* ep_ioctl */
spans_getname, /* ep_getname */
spans_connected, /* ep_connected */
spans_cleared, /* ep_cleared */
NULL, /* ep_incoming */
NULL, /* ep_addparty */
NULL, /* ep_dropparty */
NULL, /* ep_cpcs_ctl */
spans_cpcs_data, /* ep_cpcs_data */
NULL, /* ep_saal_ctl */
NULL, /* ep_saal_data */
NULL, /* ep_sscop_ctl */
NULL /* ep_sscop_data */
};
/*
* ATM connection attributes for UNI signalling channel
*/
static Atm_attributes spans_attr = {
NULL, /* nif */
CMAPI_CPCS, /* api */
0, /* api_init */
0, /* headin */
0, /* headout */
{ /* aal */
T_ATM_PRESENT, /* aal.tag */
ATM_AAL3_4 /* aal.aal_type */
},
{ /* traffic */
T_ATM_PRESENT, /* traffic.tag */
{ /* traffic.v */
{ /* traffic.v.forward */
T_ATM_ABSENT, /* PCR_high */
0, /* PCR_all */
T_ATM_ABSENT, /* SCR_high */
T_ATM_ABSENT, /* SCR_all */
T_ATM_ABSENT, /* MBS_high */
T_ATM_ABSENT, /* MBS_all */
T_NO, /* tagging */
},
{ /* traffic.v.backward */
T_ATM_ABSENT, /* PCR_high */
0, /* PCR_all */
T_ATM_ABSENT, /* SCR_high */
T_ATM_ABSENT, /* SCR_all */
T_ATM_ABSENT, /* MBS_high */
T_ATM_ABSENT, /* MBS_all */
T_NO, /* tagging */
},
T_YES, /* best_effort */
}
},
{ /* bearer */
T_ATM_PRESENT, /* bearer.tag */
{ /* bearer.v */
T_ATM_CLASS_X, /* class */
T_ATM_NULL, /* traffic_type */
T_ATM_NO_END_TO_END, /* timing_req */
T_NO, /* clipping */
T_ATM_1_TO_1, /* conn_conf */
}
},
{ /* bhli */
T_ATM_ABSENT, /* bhli.tag */
},
{ /* blli */
T_ATM_ABSENT, /* blli.tag_l2 */
T_ATM_ABSENT, /* blli.tag_l3 */
},
{ /* llc */
T_ATM_ABSENT, /* llc.tag */
},
{ /* called */
T_ATM_PRESENT, /* called.tag */
},
{ /* calling */
T_ATM_ABSENT, /* calling.tag */
},
{ /* qos */
T_ATM_PRESENT, /* qos.tag */
{ /* qos.v */
T_ATM_NETWORK_CODING, /* coding_standard */
{ /* qos.v.forward */
T_ATM_QOS_CLASS_0, /* class */
},
{ /* qos.v.backward */
T_ATM_QOS_CLASS_0, /* class */
}
}
},
{ /* transit */
T_ATM_ABSENT, /* transit.tag */
},
{ /* cause */
T_ATM_ABSENT, /* cause.tag */
}
};
/*
* SPANS cause structre
*/
struct t_atm_cause spans_cause = {
T_ATM_ITU_CODING, /* coding_standard */
T_ATM_LOC_USER, /* location */
T_ATM_CAUSE_UNSPECIFIED_NORMAL, /* cause_value */
{ 0, 0, 0, 0 } /* diagnostics */
};
/*
* Process a SPANS timeout
*
* Called when a previously scheduled spans control block timer expires.
* Processing will based on the current SPANS state.
*
* Called at splnet.
*
* Arguments:
* tip pointer to spans timer control block
*
* Returns:
* none
*
*/
void
spans_timer(tip)
struct atm_time *tip;
{
struct spans *spp;
spans_msg *msg;
Atm_addr_pvc *pvcp;
int err;
/*
* Back-off to SPANS control block
*/
spp = (struct spans *)
((caddr_t)tip - (int)(&((struct spans *)0)->sp_time));
ATM_DEBUG2("spans_timer: spp=%p,state=%d\n",
spp, spp->sp_state);
/*
* Process timeout based on protocol state
*/
switch (spp->sp_state) {
case SPANS_INIT:
/*
* Open signalling channel
*/
spans_attr.nif = spp->sp_pif->pif_nif;
spans_attr.aal.v.aal4.forward_max_SDU_size =
ATM_NIF_MTU;
spans_attr.aal.v.aal4.backward_max_SDU_size =
ATM_NIF_MTU;
spans_attr.aal.v.aal4.SSCS_type =
T_ATM_SSCS_SSCOP_UNREL;
spans_attr.aal.v.aal4.mid_low = 0;
spans_attr.aal.v.aal4.mid_high = 0;
spans_attr.called.tag = T_ATM_PRESENT;
spans_attr.called.addr.address_format = T_ATM_PVC_ADDR;
spans_attr.called.addr.address_length =
sizeof(Atm_addr_pvc);
pvcp = (Atm_addr_pvc *)spans_attr.called.addr.address;
ATM_PVC_SET_VPI(pvcp, SPANS_SIG_VPI);
ATM_PVC_SET_VCI(pvcp, SPANS_SIG_VCI);
spans_attr.called.subaddr.address_format = T_ATM_ABSENT;
spans_attr.called.subaddr.address_length = 0;
spans_attr.traffic.v.forward.PCR_all_traffic =
spp->sp_pif->pif_pcr;
spans_attr.traffic.v.backward.PCR_all_traffic =
spp->sp_pif->pif_pcr;
err = atm_cm_connect(&spans_endpt, spp, &spans_attr,
&spp->sp_conn);
if (err) {
log(LOG_CRIT, "spans: signalling channel setup failed\n");
return;
}
/*
* Signalling channel open, start probing
*/
spp->sp_state = SPANS_PROBE;
/* FALLTHRU */
case SPANS_PROBE:
case SPANS_ACTIVE:
/*
* Send out SPANS_STAT_REQ message
*/
msg = uma_zalloc(spans_msg_zone, M_WAITOK);
if (msg == NULL) {
/* XXX arr: This is bogus and will go away RSN */
/* Retry later if no memory */
SPANS_TIMER(spp, SPANS_PROBE_ERR_WAIT);
break;
}
msg->sm_vers = SPANS_VERS_1_0;
msg->sm_type = SPANS_STAT_REQ;
msg->sm_stat_req.streq_es_epoch = spp->sp_h_epoch;
if (spans_send_msg(spp, msg)) {
/* Retry later if send fails */
SPANS_TIMER(spp, SPANS_PROBE_ERR_WAIT);
uma_zfree(spans_msg_zone, msg);
break;
}
uma_zfree(spans_msg_zone, msg);
spp->sp_probe_ct++;
/*
* Check whether we're getting an answer to our probes
*/
if (spp->sp_state == SPANS_ACTIVE &&
spp->sp_probe_ct > SPANS_PROBE_THRESH) {
/*
* Interface is down, notify VCC owners
*/
spans_switch_reset(spp, SPANS_UNI_DOWN);
/*
* Set new state and increment host epoch so
* switch knows we reset everyting.
*/
spp->sp_state = SPANS_PROBE;
spp->sp_h_epoch++;
spp->sp_s_epoch = 0;
}
/*
* Keep sending status requests
*/
SPANS_TIMER(spp, SPANS_PROBE_INTERVAL);
break;
case SPANS_DETACH:
/*
* Try to terminate the SPANS signalling PVC
*/
err = atm_cm_release(spp->sp_conn, &spans_cause);
if (err) {
log(LOG_ERR, "spans: can't close signalling channel\n");
}
break;
default:
log(LOG_ERR, "spans: timer state: spp=%p, state=%d\n",
spp, spp->sp_state);
}
}
/*
* Process a SPANS VCC timeout
*
* Called when a previously scheduled SPANS VCCB timer expires.
* Processing will based on the current VCC state.
*
* Called at splnet.
*
* Arguments:
* tip pointer to vccb timer control block
*
* Returns:
* none
*
*/
void
spans_vctimer(tip)
struct atm_time *tip;
{
int err;
struct spans *spp;
struct spans_vccb *svp;
/*
* Get VCCB and SPANS control block addresses
*/
svp = (struct spans_vccb *) ((caddr_t)tip -
(int)(&((struct vccb *)0)->vc_time));
spp = (struct spans *)svp->sv_pif->pif_siginst;
ATM_DEBUG3("spans_vctimer: svp=%p, sstate=%d, ustate=%d\n",
svp, svp->sv_sstate, svp->sv_ustate);
/*
* Process timeout based on protocol state
*/
switch (svp->sv_sstate) {
case SPANS_VC_ABORT:
/*
* Kill the VCCB and notify the owner
*/
err = spans_clear_vcc(spp, svp);
break;
case SPANS_VC_FREE:
/*
* Free VCCB storage
*/
svp->sv_ustate = VCCU_CLOSED;
svp->sv_sstate = SPANS_VC_FREE;
spans_free((struct vccb *)svp);
break;
case SPANS_VC_POPEN:
/*
* Issued open request, but didn't get response.
*/
if (svp->sv_retry < SV_MAX_RETRY) {
/*
* Retransmit the open request
*/
err = spans_send_open_req(spp, svp);
svp->sv_retry++;
SPANS_VC_TIMER((struct vccb *) svp, SV_TIMEOUT);
} else {
/*
* Retry limit exceeded--report the open failed
*/
svp->sv_ustate = VCCU_CLOSED;
svp->sv_sstate = SPANS_VC_FREE;
svp->sv_connvc->cvc_attr.cause.tag =
T_ATM_PRESENT;
svp->sv_connvc->cvc_attr.cause.v.coding_standard =
T_ATM_ITU_CODING;
svp->sv_connvc->cvc_attr.cause.v.location =
T_ATM_LOC_USER;
svp->sv_connvc->cvc_attr.cause.v.cause_value =
T_ATM_CAUSE_NO_USER_RESPONDING;
bzero(svp->sv_connvc->cvc_attr.cause.v.diagnostics,
sizeof(svp->sv_connvc->cvc_attr.cause.v.diagnostics));
atm_cm_cleared(svp->sv_connvc);
}
break;
case SPANS_VC_CLOSE:
/*
* Issued close request, but didn't get response.
*/
if (svp->sv_retry < SV_MAX_RETRY) {
/*
* Retransmit the close request
*/
err = spans_send_close_req(spp, svp);
svp->sv_retry++;
SPANS_VC_TIMER((struct vccb *) svp, SV_TIMEOUT);
} else {
/*
* Retry limit exceeded--just finish the close
*/
svp->sv_sstate = SPANS_VC_FREE;
svp->sv_connvc->cvc_attr.cause.tag = T_ATM_PRESENT;
svp->sv_connvc->cvc_attr.cause.v.coding_standard =
T_ATM_ITU_CODING;
svp->sv_connvc->cvc_attr.cause.v.location =
T_ATM_LOC_USER;
svp->sv_connvc->cvc_attr.cause.v.cause_value =
T_ATM_CAUSE_NO_USER_RESPONDING;
bzero(svp->sv_connvc->cvc_attr.cause.v.diagnostics,
sizeof(svp->sv_connvc->cvc_attr.cause.v.diagnostics));
atm_cm_cleared(svp->sv_connvc);
}
break;
case SPANS_VC_ACTIVE:
case SPANS_VC_ACT_DOWN:
/*
* Shouldn't happen
*/
log(LOG_ERR, "spans_vctimer: unexpected state %d\n",
svp->sv_sstate);
break;
default:
log(LOG_ERR, "spans: vctimer state: svp=%p, sstate=%d\n",
svp, svp->sv_sstate);
}
}
/*
* SPANS name routine
*
* Arguments:
* tok SPANS signalling channel token (ignored)
*
* Returns:
* pointer to a string identifying the SPANS signalling manager
*
*/
caddr_t
spans_getname(tok)
void *tok;
{
return("SPANS");
}
/*
* Process a VCC connection notification
*
* Should never be called
*
* Arguments:
* tok user's connection token (SPANS protocol block)
*
* Returns:
* none
*
*/
void
spans_connected(tok)
void *tok;
{
struct spans *spp = (struct spans *)tok;
ATM_DEBUG2("spans_connected: spp=%p,state=%d\n",
spp, spp->sp_state);
/*
* Connected routine shouldn't ever get called for a PVC
*/
log(LOG_ERR, "spans: connected function called, tok=%p\n", spp);
}
/*
* Process a VCC close notification
*
* Called when the SPANS signalling channel is closed
*
* Arguments:
* tok user's connection token (spans protocol block)
* cp pointer to cause structure
*
* Returns:
* none
*
*/
void
spans_cleared(tok, cp)
void *tok;
struct t_atm_cause *cp;
{
struct spans *spp = (struct spans *)tok;
/*
* VCC has been closed.
*/
log(LOG_ERR, "spans: signalling channel closed\n");
SPANS_CANCEL(spp);
spp->sp_conn = 0;
}
/*
* SPANS CPCS data handler
*
* This is the module which receives data on the SPANS signalling
* channel. Processing is based on the indication received from the
* AAL and the protocol state.
*
* Arguments:
* tok session token (pointer to spans protocol control block)
* m pointer to buffer with data
*
* Returns:
* none
*
*/
void
spans_cpcs_data(tok, m)
void *tok;
KBuffer *m;
{
struct spans *spp = tok;
ATM_DEBUG3("spans_cpcs_data: spp=%p,state=%d,m=%p,\n",
spp, spp->sp_state, m);
/*
* Process data
*/
spans_rcv_msg(spp, m);
}