freebsd-skq/usr.sbin/atm/scspd/scsp_output.c

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/*
*
* ===================================
* 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.
*
1999-08-28 01:35:59 +00:00
* @(#) $FreeBSD$
*
*/
/*
* Server Cache Synchronization Protocol (SCSP) Support
* ----------------------------------------------------
*
* Output packet processing
*
*/
#include <sys/types.h>
#include <sys/param.h>
#include <sys/socket.h>
#include <net/ethernet.h>
#include <net/if.h>
#include <netinet/in.h>
#include <netatm/port.h>
#include <netatm/queue.h>
#include <netatm/atm.h>
#include <netatm/atm_if.h>
#include <netatm/atm_sap.h>
#include <netatm/atm_sys.h>
#include <netatm/atm_ioctl.h>
#include <errno.h>
#include <libatm.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <syslog.h>
#include <unistd.h>
#include "scsp_msg.h"
#include "scsp_if.h"
#include "scsp_var.h"
#ifndef lint
1999-08-28 01:35:59 +00:00
__RCSID("@(#) $FreeBSD$");
#endif
/*
* Put a long integer into the output buffer
*
* This routine is provided for cases where long ints may not be
* word-aligned in the output buffer.
*
* Arguments:
* l long integer
* cp pointer to output buffer
*
* Returns:
* None
*
*/
static void
put_long(l, cp)
u_long l;
u_char *cp;
{
u_long nl;
/*
* Convert to network order and copy to output buffer
*/
nl = htonl(l);
bcopy(&nl, cp, sizeof(u_long));
}
/*
* Format a Sender or Receiver ID
*
* Arguments:
* idp ponter to ID structure
* buff pointer to ID
*
* Returns:
* 0 input was invalid
* else length of ID processed
*
*/
static int
scsp_format_id(idp, buff)
Scsp_id *idp;
char *buff;
{
/*
* Copy the ID
*/
bcopy(idp->id, buff, idp->id_len);
/*
* Return the ID length
*/
return(idp->id_len);
}
/*
* Format the Mandatory Common Part of an SCSP input packet
*
* Arguments:
* mcp pointer to MCP
* buff pointer to mandatory common part
*
* Returns:
* 0 input was invalid
* else length of MCP in message
*
*/
static int
scsp_format_mcp(mcp, buff)
Scsp_mcp *mcp;
char *buff;
{
int len;
char *odp;
struct scsp_nmcp *smp;
/*
* Set the protocol ID
*/
smp = (struct scsp_nmcp *)buff;
smp->sm_pid = htons(mcp->pid);
/*
* Set the server group ID
*/
smp->sm_sgid = htons(mcp->sgid);
/*
* Set the flags
*/
smp->sm_flags = htons(mcp->flags);
/*
* Set the sender ID and length
*/
smp->sm_sid_len = mcp->sid.id_len;
odp = buff + sizeof(struct scsp_nmcp);
len = scsp_format_id(&mcp->sid, odp);
if (len == 0) {
goto mcp_invalid;
}
/*
* Set the receiver ID and length
*/
smp->sm_rid_len = mcp->rid.id_len;
odp += mcp->sid.id_len;
len = scsp_format_id(&mcp->rid, odp);
if (len == 0) {
goto mcp_invalid;
}
/*
* Set the record count
*/
smp->sm_rec_cnt = htons(mcp->rec_cnt);
/*
* Return the length of data we processed
*/
return(sizeof(struct scsp_nmcp) + mcp->sid.id_len +
mcp->rid.id_len);
mcp_invalid:
return(0);
}
/*
* Format an Extension
*
* Arguments:
* exp pointer to extension in internal format
* buff pointer to output buffer
* blen space available in buffer
*
* Returns:
* 0 input was invalid
* else length of extension processed
*
*/
static int
scsp_format_ext(exp, buff, blen)
Scsp_ext *exp;
char *buff;
int blen;
{
struct scsp_next *sep;
/*
* Make sure there's room in the buffer
*/
if (blen < (sizeof(struct scsp_next) + exp->len))
return(0);
/*
* Set the type
*/
sep = (struct scsp_next *)buff;
sep->se_type = htons(exp->type);
/*
* Set the length
*/
sep->se_len = htons(exp->len);
/*
* Set the value
*/
if (exp->len > 0) {
buff += sizeof(struct scsp_next);
bcopy((caddr_t)exp + sizeof(Scsp_ext),
buff,
exp->len);
}
/*
* Return the number of bytes processed
*/
return(sizeof(struct scsp_next) + exp->len);
}
/*
* Format the ATMARP part of a CSA record
*
* Arguments:
* acsp pointer to ATMARP protocol-specific CSA record
* buff pointer to output buffer
*
* Returns:
* 0 input was invalid
* else length of record processed
*
*/
static int
scsp_format_atmarp(acsp, buff)
Scsp_atmarp_csa *acsp;
char *buff;
{
char *cp;
int len, pkt_len;
struct scsp_atmarp_ncsa *sanp;
/*
* Figure out how long PDU is going to be
*/
pkt_len = sizeof(struct scsp_atmarp_ncsa);
switch (acsp->sa_sha.address_format) {
case T_ATM_ENDSYS_ADDR:
pkt_len += acsp->sa_sha.address_length;
break;
case T_ATM_E164_ADDR:
pkt_len += acsp->sa_sha.address_length;
if (acsp->sa_ssa.address_format == T_ATM_ENDSYS_ADDR)
pkt_len += acsp->sa_ssa.address_length;
break;
}
switch (acsp->sa_tha.address_format) {
case T_ATM_ENDSYS_ADDR:
pkt_len += acsp->sa_tha.address_length;
break;
case T_ATM_E164_ADDR:
pkt_len += acsp->sa_tha.address_length;
if (acsp->sa_tha.address_format == T_ATM_ENDSYS_ADDR)
pkt_len += acsp->sa_tha.address_length;
break;
}
if (acsp->sa_spa.s_addr != 0)
pkt_len += sizeof(struct in_addr);
if (acsp->sa_tpa.s_addr != 0)
pkt_len += sizeof(struct in_addr);
/*
* Set up pointers
*/
sanp = (struct scsp_atmarp_ncsa *)buff;
cp = (char *)sanp + sizeof(struct scsp_atmarp_ncsa);
/*
* Build fields
*/
sanp->sa_hrd = htons(ARP_ATMFORUM);
sanp->sa_pro = htons(ETHERTYPE_IP);
/* sa_sha */
len = acsp->sa_sha.address_length;
switch (acsp->sa_sha.address_format) {
case T_ATM_ENDSYS_ADDR:
sanp->sa_shtl = ARP_TL_NSAPA | (len & ARP_TL_LMASK);
/* sa_sha */
bcopy(acsp->sa_sha.address, cp, len);
cp += len;
sanp->sa_sstl = 0;
break;
case T_ATM_E164_ADDR:
sanp->sa_shtl = ARP_TL_E164 | (len & ARP_TL_LMASK);
/* sa_sha */
bcopy(acsp->sa_sha.address, cp, len);
cp += len;
if (acsp->sa_ssa.address_format == T_ATM_ENDSYS_ADDR) {
len = acsp->sa_ssa.address_length;
sanp->sa_sstl = ARP_TL_NSAPA |
(len & ARP_TL_LMASK);
/* sa_ssa */
bcopy(acsp->sa_ssa.address, cp, len);
cp += len;
} else
sanp->sa_sstl = 0;
break;
default:
sanp->sa_shtl = 0;
sanp->sa_sstl = 0;
}
/* sa_state */
sanp->sa_state = acsp->sa_state;
sanp->sa_fill1 = 0;
/* sa_spa */
if (acsp->sa_spa.s_addr != 0) {
sanp->sa_spln = sizeof(struct in_addr);
bcopy(&acsp->sa_spa, cp, sizeof(struct in_addr));
cp += sizeof(struct in_addr);
}
/* sa_tha */
len = acsp->sa_tha.address_length;
switch (acsp->sa_tha.address_format) {
case T_ATM_ENDSYS_ADDR:
sanp->sa_thtl = ARP_TL_NSAPA | (len & ARP_TL_LMASK);
/* sa_tha */
bcopy(acsp->sa_tha.address, cp, len);
cp += len;
sanp->sa_tstl = 0;
break;
case T_ATM_E164_ADDR:
sanp->sa_thtl = ARP_TL_E164 | (len & ARP_TL_LMASK);
/* sa_tha */
bcopy(acsp->sa_tha.address, cp, len);
cp += len;
if (acsp->sa_tsa.address_format == T_ATM_ENDSYS_ADDR) {
len = acsp->sa_tha.address_length;
sanp->sa_tstl = ARP_TL_NSAPA |
(len & ARP_TL_LMASK);
/* sa_tsa */
bcopy(acsp->sa_tsa.address, cp, len);
cp += len;
} else
sanp->sa_tstl = 0;
break;
default:
sanp->sa_thtl = 0;
sanp->sa_tstl = 0;
}
/* sa_tpa */
if (acsp->sa_tpa.s_addr != 0) {
sanp->sa_tpln = sizeof(struct in_addr);
bcopy(&acsp->sa_tpa, cp, sizeof(struct in_addr));
}
return(pkt_len);
}
/*
* Format a Cache State Advertisement or Cache State Advertisement
* Summary record
*
* Arguments:
* csapp pointer to CSA or CSAS
* buff pointer to output buffer
*
* Returns:
* 0 input was invalid
* else length of record processed
*
*/
static int
scsp_format_csa(csap, buff)
Scsp_csa *csap;
char *buff;
{
int len = 0;
char *odp;
struct scsp_ncsa *scp;
/*
* Set the hop count
*/
scp = (struct scsp_ncsa *)buff;
scp->scs_hop_cnt = htons(csap->hops);
/*
* Set the null flag
*/
if (csap->null) {
scp->scs_nfill = htons(SCSP_CSAS_NULL);
}
/*
* Set the sequence number
*/
put_long(csap->seq, (u_char *)&scp->scs_seq);
/*
* Set the cache key
*/
scp->scs_ck_len = csap->key.key_len;
odp = buff + sizeof(struct scsp_ncsa);
bcopy(csap->key.key, odp, scp->scs_ck_len);
/*
* Set the originator ID
*/
odp += scp->scs_ck_len;
scp->scs_oid_len = scsp_format_id(&csap->oid, odp);
/*
* Set the protocol-specific data, if present. At the
* moment, we only handle data for ATMARP.
*/
if (csap->atmarp_data) {
odp += scp->scs_oid_len;
len = scsp_format_atmarp(csap->atmarp_data, odp);
}
/*
* Set the record length
*/
scp->scs_len = htons(sizeof(struct scsp_ncsa) +
scp->scs_ck_len + scp->scs_oid_len +
len);
/*
* Return the length of data we processed
*/
return(ntohs(scp->scs_len));
}
/*
* Format a Cache Alignment message
*
* Arguments:
* cap pointer to CA message
* buff pointer to output buffer
* blen space available in buffer
*
* Returns:
* 0 input was invalid
* else length of CA message processed
*
*/
static int
scsp_format_ca(cap, buff, blen)
Scsp_ca *cap;
char *buff;
int blen;
{
int i, len, proc_len;
struct scsp_nca *scap;
Scsp_csa *csap;
/*
* Set the sequence number
*/
scap = (struct scsp_nca *)buff;
put_long(cap->ca_seq, (u_char *)&scap->sca_seq);
proc_len = sizeof(scap->sca_seq);
buff += sizeof(scap->sca_seq);
/*
* Set the flags
*/
cap->ca_mcp.flags = 0;
if (cap->ca_m)
cap->ca_mcp.flags |= SCSP_CA_M;
if (cap->ca_i)
cap->ca_mcp.flags |= SCSP_CA_I;
if (cap->ca_o)
cap->ca_mcp.flags |= SCSP_CA_O;
/*
* Format the mandatory common part of the message
*/
len = scsp_format_mcp(&cap->ca_mcp, buff);
if (len == 0)
goto ca_invalid;
buff += len;
proc_len += len;
/*
* Put any CSAS records into the message
*/
for (i = 0, csap = cap->ca_csa_rec; i < cap->ca_mcp.rec_cnt;
i++, csap = csap->next) {
len = scsp_format_csa(csap, buff);
buff += len;
proc_len += len;
if (proc_len > blen) {
scsp_log(LOG_CRIT, "scsp_format_ca: buffer overflow");
abort();
}
}
/*
* Return the length of processed data
*/
return(proc_len);
ca_invalid:
return(0);
}
/*
* Format a Cache State Update Request, Cache State Update Reply, or
* Cache State Update Solicit message. These all have the same format,
* a Mandatory Common Part followed by a number of CSA or CSAS records.
*
* Arguments:
* csup pointer to location to put pointer to CSU Req message
* buff pointer to output buffer
* blen space available in buffer
*
* Returns:
* 0 input was invalid
* else length of CSU Req message processed
*
*/
static int
scsp_format_csu(csup, buff, blen)
Scsp_csu_msg *csup;
char *buff;
int blen;
{
int i, len, proc_len;
struct scsp_ncsu_msg *scsup;
Scsp_csa *csap;
/*
* Format the mandatory common part of the message
*/
scsup = (struct scsp_ncsu_msg *)buff;
len = scsp_format_mcp(&csup->csu_mcp, buff);
if (len == 0)
goto csu_invalid;
buff += len;
proc_len = len;
/*
* Put the CSAS records into the message
*/
for (i = 0, csap = csup->csu_csa_rec;
i < csup->csu_mcp.rec_cnt && csap;
i++, csap = csap->next) {
len = scsp_format_csa(csap, buff);
buff += len;
proc_len += len;
if (proc_len > blen) {
scsp_log(LOG_CRIT, "scsp_format_csu: buffer overflow");
abort();
}
}
/*
* Return the length of processed data
*/
return(proc_len);
csu_invalid:
return(0);
}
/*
* Format a Hello message
*
* Arguments:
* hpp pointer to Hello message
* buff pointer to output buffer
* blen space available in buffer
*
* Returns:
* 0 input was invalid
* else length of Hello message processed
*
*/
static int
scsp_format_hello(hp, buff, blen)
Scsp_hello *hp;
char *buff;
int blen;
{
int len, proc_len;
struct scsp_nhello *shp;
Scsp_id *ridp;
/*
* Set the hello interval
*/
shp = (struct scsp_nhello *)buff;
shp->sch_hi = htons(hp->hello_int);
/*
* Set the dead factor
*/
shp->sch_df = htons(hp->dead_factor);
/*
* Set the family ID
*/
shp->sch_fid = htons(hp->family_id);
/*
* Process the mandatory common part of the message
*/
proc_len = sizeof(struct scsp_nhello) -
sizeof(struct scsp_nmcp);
buff += proc_len;
len = scsp_format_mcp(&hp->hello_mcp, buff);
if (len == 0)
goto hello_invalid;
proc_len += len;
buff += len;
/*
* Add any additional receiver ID records to the message
*/
for (ridp = hp->hello_mcp.rid.next; ridp;
ridp = ridp->next) {
len = scsp_format_id(ridp, buff);
if (len == 0) {
goto hello_invalid;
}
proc_len += len;
buff += len;
}
/*
* Return the length of the Hello message body
*/
if (proc_len > blen) {
scsp_log(LOG_CRIT, "scsp_format_hello: buffer overflow");
abort();
}
return(proc_len);
hello_invalid:
return(0);
}
/*
* Format an SCSP output packet
*
* Arguments:
* dcsp pointer to DCS for which message is being prepared
* msg pointer to input packet
* bpp pointer to location to put pointer to formatted packet
*
* Returns:
* 0 input packet was invalid
* else length of formatted packet
*
*/
int
scsp_format_msg(dcsp, msg, bpp)
Scsp_dcs *dcsp;
Scsp_msg *msg;
char **bpp;
{
char *buff = (char *)0, *e_buff = (char *)0;
int buff_len, e_buff_len;
int e_len, len, plen;
struct scsp_nhdr *shp;
Scsp_ext *exp;
/*
* Allocate a buffer for the message
*/
buff_len = dcsp->sd_server->ss_mtu;
buff = calloc(1, buff_len);
if (buff == NULL)
scsp_mem_err("scsp_format_msg: dcsp->sd_server->ss_mtu");
*bpp = buff;
/*
* Encode the fixed header
*
* Set the version
*/
shp = (struct scsp_nhdr *)buff;
shp->sh_ver = SCSP_VER_1;
/*
* Set the message type
*/
shp->sh_type = msg->sc_msg_type;
/*
* Point past the fixed header
*/
len = sizeof(struct scsp_nhdr);
buff_len -= len;
/*
* Encode any extensions into a temporary buffer
*/
e_len = 0;
if (msg->sc_ext) {
/*
* Get a buffer for the extensions
*/
e_buff_len = 1024;
e_buff = calloc(1, e_buff_len);
if (buff)
scsp_mem_err("scsp_format_msg: e_buff_len");
/*
* Encode the extensions
*/
for (exp = msg->sc_ext = 0; exp; exp = exp->next) {
plen = scsp_format_ext(exp, e_buff + e_len,
e_buff_len - e_len);
if (plen == 0) {
goto ignore;
}
e_len += plen;
}
/*
* Free the buffer if we didn't use it
*/
if (!e_len) {
free(e_buff);
e_buff = (char *)0;
}
}
buff_len -= e_len;
/*
* Encode the body of the message, depending on the type
*/
switch(msg->sc_msg_type) {
case SCSP_CA_MSG:
plen = scsp_format_ca(msg->sc_ca, buff + len, buff_len);
break;
case SCSP_CSU_REQ_MSG:
case SCSP_CSU_REPLY_MSG:
case SCSP_CSUS_MSG:
plen = scsp_format_csu(msg->sc_csu_msg, buff + len,
buff_len);
break;
case SCSP_HELLO_MSG:
plen = scsp_format_hello(msg->sc_hello, buff + len,
buff_len);
break;
default:
goto ignore;
}
if (plen == 0) {
goto ignore;
}
len += plen;
/*
* Copy the extensions to the end of the message
*/
if (e_len) {
shp->sh_ext_off = htons(len);
bcopy(e_buff, buff + len, e_len);
free(e_buff);
}
/*
* Set the length
*/
shp->sh_len = htons(len);
/*
* Compute the message checksum
*/
shp->sh_checksum = htons(ip_checksum(buff, len));
/*
* Return the length of the buffer
*/
return(len);
ignore:
if (buff)
free(buff);
if (e_buff)
free(e_buff);
*bpp = (char *)0;
return(0);
}
/*
* Send an SCSP message
*
* Arguments:
* dcsp pointer to DCS control block
* msg pointer to message to send
*
* Returns:
* 0 success
* errno error encountered
*
*/
int
scsp_send_msg(dcsp, msg)
Scsp_dcs *dcsp;
Scsp_msg *msg;
{
int len, rc;
char *buff;
/*
* Make sure we have a socket open
*/
if (dcsp->sd_sock == -1) {
return(EBADF);
}
/*
* Trace the message
*/
if (((scsp_trace_mode & SCSP_TRACE_HELLO_MSG) &&
msg->sc_msg_type == SCSP_HELLO_MSG) ||
((scsp_trace_mode & SCSP_TRACE_CA_MSG) &&
msg->sc_msg_type != SCSP_HELLO_MSG)) {
scsp_trace_msg(dcsp, msg, 0);
scsp_trace("\n");
}
/*
* Put the message into network format
*/
len = scsp_format_msg(dcsp, msg, &buff);
if (len == 0) {
scsp_log(LOG_ERR, "scsp_send_msg: message conversion failed\n");
abort();
}
/*
* Write the message to the DCS
*/
rc = write(dcsp->sd_sock, (void *)buff, len);
free(buff);
if (rc == len || (rc == -1 && errno == EINPROGRESS)) {
rc = 0;
} else {
/*
* There was an error on the write--close the VCC
*/
(void)close(dcsp->sd_sock);
dcsp->sd_sock = -1;
/*
* Inform the Hello FSM
*/
(void)scsp_hfsm(dcsp, SCSP_HFSM_VC_CLOSED,
(Scsp_msg *)0);
/*
* Set the return code
*/
if (rc == -1)
rc = errno;
else
rc = EINVAL;
}
return(rc);
}