void BOOTP_service
(
RTCSPCB_PTR rtcs_pcb /* [IN] BOOTREPLY packet */
)
{ /* Body */
IP_IF_PTR if_ptr = (IP_IF_PTR)rtcs_pcb->IFSRC;
TCPIP_PARM_BOOTP _PTR_ parms = (TCPIP_PARM_BOOTP _PTR_)if_ptr->BOOT;
BOOTP_CFG_PTR bootp = (BOOTP_CFG_PTR) &parms->config;
BOOTP_PACKET_PTR bootreply;
IPIF_PARM parms_bind;
uint_32 error;
uchar_ptr opt;
uchar len, optval, optlen;
/* Make sure the datagram is large enough */
bootreply = (BOOTP_PACKET_PTR)RTCSPCB_DATA(rtcs_pcb);
if (RTCSPCB_SIZE(rtcs_pcb) < sizeof(BOOTP_PACKET)) {
RTCSLOG_PCB_FREE(rtcs_pcb, RTCS_OK);
RTCSPCB_free(rtcs_pcb);
return;
} /* Endif */
/* Make sure the XID matches */
if (ntohl(bootreply->HEAD.XID) != bootp->XID) {
RTCSLOG_PCB_FREE(rtcs_pcb, RTCS_OK);
RTCSPCB_free(rtcs_pcb);
return;
} /* Endif */
RTCSLOG_PCB_READ(rtcs_pcb, RTCS_LOGCTRL_PORT(IPPORT_BOOTPC), 0);
/* OK, assume this reply is for us */
BOOTP_close(if_ptr);
/* Get our IP address, and pick the default netmask */
parms_bind.ihandle = if_ptr;
parms_bind.address = ntohl(bootreply->HEAD.YIADDR);
parms_bind.locmask = 0xFFFFFFFFL;
parms_bind.netmask = IN_DEFAULT_NET(parms_bind.address);
parms_bind.probe = FALSE;
parms->data->SADDR = ntohl(bootreply->HEAD.SIADDR);
#if RTCSCFG_BOOTP_RETURN_YIADDR
parms->data->CLIENTADDR = ntohl(bootreply->HEAD.YIADDR);
#endif
_mem_copy(bootreply->DATA.SNAME, parms->data->SNAME, sizeof(BOOTP_DATA));
RTCSLOG_PCB_FREE(rtcs_pcb, RTCS_OK);
RTCSPCB_free(rtcs_pcb);
/* Parse the vend field for recognized options */
opt = parms->data->OPTIONS;
len = sizeof(parms->data->OPTIONS);
if (ntohl(opt) == BOOTP_MAGIC) {
opt += 4;
len -= 4;
#define BOOTP_NEXTOPT opt += optlen; \
break
while (len) {
/* Get the next option code */
optval = ntohc(opt);
opt++;
len--;
/* Interpret the pad and end options */
if (optval == BOOTPOPT_END) break;
if (optval == BOOTPOPT_PAD) continue;
/* All other codes have a length byte */
if (len == 0) break;
optlen = ntohc(opt);
opt++;
len--;
if (len < optlen) break;
len -= optlen;
switch (optval) {
case BOOTPOPT_MASK:
if (optlen != 4) {BOOTP_NEXTOPT;}
parms_bind.netmask = ntohl(opt);
opt += 4;
break;
default:
BOOTP_NEXTOPT;
} /* Endswitch */
} /* Endwhile */
} /* Endif */
/* Bind the received IP address to this interface */
error = RTCSCMD_internal(parms_bind, IPIF_bind);
/* Done -- unblock the application */
RTCSCMD_complete(parms, error);
} /* Endbody */
void ICMP_send_error_internal
(
uint_8 type, /* [IN] the type to send */
uint_8 code, /* [IN] the code to send */
uint_32 param, /* [IN] a parameter */
IP_HEADER_PTR iph, /* [IN] the IP header */
RTCSPCB_PTR origpcb, /* [IN] pcb with bad packet */
uint_32 maxlen /* [IN] the max data len to send, 0 = default */
)
{ /* Body */
ICMP_CFG_STRUCT_PTR ICMP_cfg_ptr = RTCS_getcfg(ICMP);
RTCSPCB_PTR pcb;
ICMP_ERR_HEADER_PTR icmph;
_ip_address ipsrc = ntohl(iph->SOURCE);
_ip_address ipdst = ntohl(iph->DEST);
uint_16 iphdrlen = (ntohc(iph->VERSLEN) & 0x0F) << 2;
uint_16 ippktlen = ntohs(iph->LENGTH) - iphdrlen;
uint_16 checksum;
_ip_address icmpsrc = IP_is_local(NULL,ipdst) ? ipdst : INADDR_ANY;
uint_32 error;
uchar_ptr buffer;
uint_32 temp;
#if RTCSCFG_ENABLE_NAT
TCP_HEADER_PTR tcp_hdr;
UDP_HEADER_PTR udp_hdr;
IP_HEADER_PTR ip_hdr;
uint_32 protocol;
uint_16 src_port, dest_port;
uint_32 (_CODE_PTR_ _PTR_ nat_exec)(RTCSPCB_PTR _PTR_);
#endif
/*
** Only include up to a maximum of maxlen bytes of data from the
** original IP datagram
*/
if (!maxlen) {
maxlen = IP_DEFAULT_MTU - sizeof(IP_HEADER) - sizeof(ICMP_HEADER) - 4;
} /* Endif */
if (origpcb) {
temp = RTCSPCB_DATA(origpcb) - RTCSPCB_DATA_NETWORK(origpcb);
if (maxlen > origpcb->HEADER_FRAG_USED + temp) {
maxlen = origpcb->HEADER_FRAG_USED + temp;
} /* Endif */
} /* Endif */
if (ippktlen + iphdrlen > maxlen) {
ippktlen = maxlen - iphdrlen;
} /* Endif */
/* Don't send an error in response to an ICMP error */
if (ntohc(iph->PROTOCOL) == IPPROTO_ICMP) {
/* Make sure the packet has at least a 'TYPE' field */
if (ippktlen == 0) {
return;
} /* Endif */
icmph = (ICMP_ERR_HEADER_PTR)((uchar_ptr)iph + iphdrlen);
if (!ICMPTYPE_ISQUERY(ntohc(icmph->HEAD.TYPE))) {
return;
} /* Endif */
} /* Endif */
IF_ICMP_STATS_ENABLED(ICMP_cfg_ptr->STATS.COMMON.ST_TX_TOTAL++);
/* Allocate a PCB */
pcb = RTCSPCB_alloc_send();
if (pcb == NULL) {
IF_ICMP_STATS_ENABLED(ICMP_cfg_ptr->STATS.COMMON.ST_TX_MISSED++);
return;
} /* Endif */
//RTCSLOG_PCB_ALLOC(pcb);
if (origpcb) {
/* Add a dependency and a pointer to the ICMP data */
RTCSPCB_depend(pcb, origpcb);
error = RTCSPCB_append_fragment(pcb, iphdrlen + ippktlen, (uchar_ptr)iph);
} else {
/* Reserve space for the ICMP data */
buffer = RTCS_mem_alloc_system(iphdrlen + ippktlen);
if (!buffer) {
IF_ICMP_STATS_ENABLED(ICMP_cfg_ptr->STATS.COMMON.ST_TX_MISSED++);
IF_ICMP_STATS_ENABLED(RTCS_seterror(&ICMP_cfg_ptr->STATS.ERR_TX, RTCSERR_OUT_OF_MEMORY, (uint_32)pcb));
RTCSLOG_PCB_FREE(pcb, RTCSERR_OUT_OF_MEMORY);
RTCSPCB_free(pcb);
return;
} /* Endif */
_mem_set_type(buffer, MEM_TYPE_ICMP_DATA);
_mem_copy(iph, buffer, iphdrlen + ippktlen);
error = RTCSPCB_append_fragment_autofree(pcb, iphdrlen + ippktlen, buffer);
if (error) {
_mem_free(buffer);
} /* Endif */
} /* Endif */
if (!error) {
error = RTCSPCB_insert_header(pcb, sizeof(ICMP_HEADER) + 4);
} /* Endif */
if (error) {
IF_ICMP_STATS_ENABLED(ICMP_cfg_ptr->STATS.COMMON.ST_TX_MISSED++);
IF_ICMP_STATS_ENABLED(RTCS_seterror(&ICMP_cfg_ptr->STATS.ERR_TX, error, (uint_32)pcb));
RTCSLOG_PCB_FREE(pcb, error);
RTCSPCB_free(pcb);
return;
} /* Endif */
RTCSLOG_PCB_WRITE(pcb, RTCS_LOGCTRL_PROTO(IPPROTO_ICMP), 0);
/* Build the header */
icmph = (ICMP_ERR_HEADER_PTR)RTCSPCB_DATA(pcb);
htonc(icmph->HEAD.TYPE, type);
htonc(icmph->HEAD.CODE, code);
htons(icmph->HEAD.CHECKSUM, 0);
htonl(icmph->DATA, param);
checksum = IP_Sum_PCB (0, pcb);
checksum = IP_Sum_invert(checksum);
htons(icmph->HEAD.CHECKSUM, checksum);
#if RTCSCFG_ENABLE_ICMP_STATS
/* Update the statistics */
switch (type) {
case ICMPTYPE_DESTUNREACH: ICMP_cfg_ptr->STATS.ST_TX_DESTUNREACH++; break;
case ICMPTYPE_TIMEEXCEED: ICMP_cfg_ptr->STATS.ST_TX_TIMEEXCEED++; break;
case ICMPTYPE_PARMPROB: ICMP_cfg_ptr->STATS.ST_TX_PARMPROB++; break;
case ICMPTYPE_SRCQUENCH: ICMP_cfg_ptr->STATS.ST_TX_SRCQUENCH++; break;
case ICMPTYPE_REDIRECT: ICMP_cfg_ptr->STATS.ST_TX_REDIRECT++; break;
case ICMPTYPE_ECHO_REQ: ICMP_cfg_ptr->STATS.ST_TX_ECHO_REQ++; break;
case ICMPTYPE_ECHO_REPLY: ICMP_cfg_ptr->STATS.ST_TX_ECHO_REPLY++; break;
case ICMPTYPE_TIME_REQ: ICMP_cfg_ptr->STATS.ST_TX_TIME_REQ++; break;
case ICMPTYPE_TIME_REPLY: ICMP_cfg_ptr->STATS.ST_TX_TIME_REPLY++; break;
case ICMPTYPE_INFO_REQ: ICMP_cfg_ptr->STATS.ST_TX_INFO_REQ++; break;
case ICMPTYPE_INFO_REPLY: ICMP_cfg_ptr->STATS.ST_TX_INFO_REPLY++; break;
default: ICMP_cfg_ptr->STATS.ST_TX_OTHER++; break;
} /* Endswitch */
#endif
#if RTCSCFG_ENABLE_NAT
/* Reverse NAT (if it is installed) on the origpcb,
otherwise the icmp error will not get sent to the
original src */
nat_exec = RTCS_getcfg(NAT);
if (origpcb && nat_exec && *nat_exec) {
// swap src and dst IPs and ports so NAT_apply
// will process the pcb
ip_hdr = (IP_HEADER_PTR)RTCSPCB_DATA(origpcb);
protocol = ntohc(ip_hdr->PROTOCOL);
// Swap ports if it is udp or tcp
if ((protocol == IPPROTO_TCP) || (protocol == IPPROTO_UDP)) {
switch(protocol)
{
case IPPROTO_TCP:
tcp_hdr = (TCP_HEADER_PTR)((uchar_ptr)ip_hdr + IPH_LEN(ip_hdr));
dest_port = ntohs(tcp_hdr->dest_port);
src_port = ntohs(tcp_hdr->source_port);
htons(tcp_hdr->dest_port, src_port);
htons(tcp_hdr->source_port, dest_port);
break;
case IPPROTO_UDP:
udp_hdr = (UDP_HEADER_PTR)((uchar_ptr)ip_hdr + IPH_LEN(ip_hdr));
dest_port = ntohs(udp_hdr->DEST_PORT);
src_port = ntohs(udp_hdr->SRC_PORT);
htons(udp_hdr->DEST_PORT, src_port);
htons(udp_hdr->SRC_PORT, dest_port);
break;
default:
// should not get here
break;
}
}
// swap IPs
ipsrc = ntohl(ip_hdr->SOURCE);
ipdst = ntohl(ip_hdr->DEST);
htonl(ip_hdr->SOURCE, ipdst);
htonl(ip_hdr->DEST,ipsrc);
// call NAT
error = (*nat_exec)(&origpcb);
if (!error) {
// swap IPs and ports back
ip_hdr = (IP_HEADER_PTR)RTCSPCB_DATA(origpcb);
protocol = ntohc(ip_hdr->PROTOCOL);
// swap ports if it is udp or tcp
if ((protocol == IPPROTO_TCP) || (protocol == IPPROTO_UDP)) {
switch(protocol)
{
case IPPROTO_TCP:
tcp_hdr = (TCP_HEADER_PTR)((uchar_ptr)ip_hdr + IPH_LEN(ip_hdr));
dest_port = ntohs(tcp_hdr->dest_port);
src_port = ntohs(tcp_hdr->source_port);
htons(tcp_hdr->dest_port, src_port);
htons(tcp_hdr->source_port, dest_port);
break;
case IPPROTO_UDP:
udp_hdr = (UDP_HEADER_PTR)((uchar_ptr)ip_hdr + IPH_LEN(ip_hdr));
dest_port = ntohs(udp_hdr->DEST_PORT);
src_port = ntohs(udp_hdr->SRC_PORT);
htons(udp_hdr->DEST_PORT, src_port);
htons(udp_hdr->SRC_PORT, dest_port);
break;
default:
// should not get here
break;
}
}
// swap IPs
ipsrc = ntohl(ip_hdr->SOURCE);
ipdst = ntohl(ip_hdr->DEST);
htonl(ip_hdr->SOURCE, ipdst);
htonl(ip_hdr->DEST,ipsrc);
// Recalculate the cksum
htons(icmph->HEAD.CHECKSUM, 0);
checksum = IP_Sum_PCB (0, pcb);
checksum = IP_Sum_invert(checksum);
htons(icmph->HEAD.CHECKSUM, checksum);
// recalculate icmpsrc, and use new ipsrc.
ipdst = ntohl(ip_hdr->DEST);
ipsrc = ntohl(ip_hdr->SOURCE);
icmpsrc = IP_is_local(NULL,ipdst) ? ipdst : INADDR_ANY;
}
}
#endif
/* Send it */
IP_send(pcb, IPPROTO_ICMP, icmpsrc, ipsrc, 0);
} /* Endbody */
void ICMP_service
(
RTCSPCB_PTR pcb, /* [IN/OUT] incoming packet */
pointer dummy /* [IN] not used */
)
{ /* Body */
ICMP_CFG_STRUCT_PTR ICMP_cfg_ptr;
ICMP_HEADER_PTR packet;
_ip_address source, dest;
uint_32 error;
uint_16 chksum;
uchar type;
ICMP_cfg_ptr = RTCS_getcfg(ICMP);
IF_ICMP_STATS_ENABLED(ICMP_cfg_ptr->STATS.COMMON.ST_RX_TOTAL++);
packet = (ICMP_HEADER_PTR)RTCSPCB_DATA(pcb);
source = IP_source(pcb);
dest = IP_dest(pcb);
type = ntohc(packet->TYPE);
/*
** Make sure that
** sizeof(ICMP_HEADER) <= RTCSPCB_SIZE(pcb)
*/
if (RTCSPCB_SIZE(pcb) < sizeof(ICMP_HEADER)) {
IF_ICMP_STATS_ENABLED(ICMP_cfg_ptr->STATS.COMMON.ST_RX_DISCARDED++);
IF_ICMP_STATS_ENABLED(ICMP_cfg_ptr->STATS.ST_RX_SMALL_DGRAM++);
RTCSLOG_PCB_FREE(pcb, RTCSERR_ICMP_BAD_HEADER);
RTCSPCB_free(pcb);
return;
} /* Endif */
/*
** Verify the checksum
*/
if (IP_Sum_PCB(0, pcb) != 0xFFFF) {
IF_ICMP_STATS_ENABLED(ICMP_cfg_ptr->STATS.COMMON.ST_RX_DISCARDED++);
IF_ICMP_STATS_ENABLED(ICMP_cfg_ptr->STATS.ST_RX_BAD_CHECKSUM++);
RTCSLOG_PCB_FREE(pcb, RTCSERR_ICMP_BAD_CHECKSUM);
RTCSPCB_free(pcb);
return;
} /* Endif */
RTCSLOG_PCB_READ(pcb, RTCS_LOGCTRL_PROTO(IPPROTO_ICMP), 0);
switch (type) {
case ICMPTYPE_REDIRECT:
#if RTCSCFG_ENABLE_GATEWAYS
{ /* Scope */
_ip_address origdest, gateway;
ICMP_ERR_HEADER_PTR rdpacket = (ICMP_ERR_HEADER_PTR)packet;
IPIF_PARM parms;
/*
** Make sure that
** sizeof(ICMP_ERR_HEADER) <= RTCSPCB_SIZE(pcb)
*/
if (RTCSPCB_SIZE(pcb) < sizeof(ICMP_ERR_HEADER)) {
IF_ICMP_STATS_ENABLED(ICMP_cfg_ptr->STATS.COMMON.ST_RX_DISCARDED++);
IF_ICMP_STATS_ENABLED(ICMP_cfg_ptr->STATS.ST_RX_SMALL_DGRAM++);
RTCSLOG_PCB_FREE(pcb, RTCSERR_ICMP_BAD_HEADER);
RTCSPCB_free(pcb);
return;
} /* Endif */
gateway = ntohl(rdpacket->DATA);
origdest = ntohl(rdpacket->IP.DEST);
// If we receive a redirect to ourselves, silently discard it
if (IP_is_local(NULL, gateway)) {
IF_ICMP_STATS_ENABLED(ICMP_cfg_ptr->STATS.COMMON.ST_RX_DISCARDED++);
// Might want to add a counter here
} else if (IP_is_gate(source, origdest)) {
parms.address = gateway;
parms.network = origdest;
parms.netmask = 0xFFFFFFFFL;
parms.locmask = 0;
RTCSCMD_internal(parms, IPIF_gate_add_redirect);
} else {
IF_ICMP_STATS_ENABLED(ICMP_cfg_ptr->STATS.COMMON.ST_RX_DISCARDED++);
IF_ICMP_STATS_ENABLED(ICMP_cfg_ptr->STATS.ST_RX_RD_NOTGATE++);
} /* Endif */
} /* Endscope */
#else
IF_ICMP_STATS_ENABLED(ICMP_cfg_ptr->STATS.COMMON.ST_RX_DISCARDED++);
#endif
break;
case ICMPTYPE_ECHO_REQ:
error = RTCSPCB_next(pcb, sizeof(ICMP_HEADER));
if (error) {
IF_ICMP_STATS_ENABLED(ICMP_cfg_ptr->STATS.COMMON.ST_RX_ERRORS++);
IF_ICMP_STATS_ENABLED(RTCS_seterror(&ICMP_cfg_ptr->STATS.ERR_RX, error, (uint_32)pcb));
RTCSLOG_PCB_FREE(pcb, error);
RTCSPCB_free(pcb);
return;
} /* Endif */
/*
** RTCSPCB_fork() failing isn't a serious error, so we don't check
** the error code
*/
RTCSPCB_fork(pcb);
IF_ICMP_STATS_ENABLED(ICMP_cfg_ptr->STATS.COMMON.ST_TX_TOTAL++);
RTCSLOG_PCB_WRITE(pcb, RTCS_LOGCTRL_PROTO(IPPROTO_ICMP), 0);
error = RTCSPCB_insert_header(pcb, sizeof(ICMP_HEADER));
if (error) {
IF_ICMP_STATS_ENABLED(ICMP_cfg_ptr->STATS.ST_RX_ECHO_REQ++);
IF_ICMP_STATS_ENABLED(ICMP_cfg_ptr->STATS.COMMON.ST_TX_MISSED++);
IF_ICMP_STATS_ENABLED(RTCS_seterror(&ICMP_cfg_ptr->STATS.ERR_TX, error, (uint_32)pcb));
RTCSLOG_PCB_FREE(pcb, error);
RTCSPCB_free(pcb);
return;
} /* Endif */
/* Change type from Echo to Echo Reply and recalculate checksum */
packet = (ICMP_HEADER_PTR)RTCSPCB_DATA(pcb);
htonc(packet->TYPE, ICMPTYPE_ECHO_REPLY);
htonc(packet->CODE, 0);
htons(packet->CHECKSUM, 0);
chksum = IP_Sum_PCB(0, pcb);
chksum = IP_Sum_invert(chksum);
htons(packet->CHECKSUM, chksum);
pcb->IP_SUM_PTR = NULL;
/* Send the Echo Reply whence came the Echo */
IF_ICMP_STATS_ENABLED(ICMP_cfg_ptr->STATS.ST_TX_ECHO_REPLY++);
IP_send(pcb, IPPROTO_ICMP, dest, source, 0);
pcb = NULL;
break;
case ICMPTYPE_ECHO_REPLY:
{ /* Scope */
ICMP_ECHO_HEADER_PTR echopacket = (ICMP_ECHO_HEADER_PTR)packet;
ICMP_PARM_PTR parms;
uint_16 id, seq;
/*
** Make sure that
** sizeof(ICMP_ECHO_HEADER) <= RTCSPCB_SIZE(pcb)
*/
if (RTCSPCB_SIZE(pcb) < sizeof(ICMP_ECHO_HEADER)) {
IF_ICMP_STATS_ENABLED(ICMP_cfg_ptr->STATS.COMMON.ST_RX_DISCARDED++);
IF_ICMP_STATS_ENABLED(ICMP_cfg_ptr->STATS.ST_RX_SMALL_DGRAM++);
RTCSLOG_PCB_FREE(pcb, RTCSERR_ICMP_BAD_HEADER);
RTCSPCB_free(pcb);
return;
} /* Endif */
/*
** get the ID and Sequence number from the packet
*/
id = ntohs(echopacket->ID);
seq = ntohs(echopacket->SEQ);
/*
** Find a match for the ID and sequence number
*/
for (parms=ICMP_cfg_ptr->ECHO_PARM_HEAD; parms; parms=parms->NEXT) {
if ((parms->id == id) && (parms->seq == seq)) {
/* received reply for the ping request */
if (parms->NEXT) {
parms->NEXT->PREV = parms->PREV;
} /* Endif */
*parms->PREV = parms->NEXT;
TCPIP_Event_cancel(&parms->EXPIRE);
/* calculate round trip time */
parms->timeout = RTCS_timer_get_interval(parms->timeout, RTCS_time_get());
RTCSCMD_complete(parms, RTCS_OK);
break;
} /* Endif */
} /* Endfor */
} /* Endscope */
break;
case ICMPTYPE_DESTUNREACH:
case ICMPTYPE_TIMEEXCEED:
{ /* Scope */
IP_HEADER_PTR ip;
ICMP_ERR_HEADER_PTR icmp_err = (ICMP_ERR_HEADER_PTR)packet;
uint_32 len, remain;
boolean discard = TRUE;
uchar code;
/*
** Check if the attached IP header is IP over IP, and if so, strip IP
** headers until we find one whose source address is not local. Then we
** forward the ICMP error to that IP address
*/
remain = RTCSPCB_SIZE(pcb);
/* Make sure we have at least a full IP header */
if (remain >= sizeof(ICMP_HEADER) + 4 + sizeof(IP_HEADER)) {
ip = (IP_HEADER_PTR)((uchar_ptr)packet + sizeof(ICMP_HEADER) + 4);
remain -= sizeof(ICMP_HEADER) + 4;
do {
/* Make sure the IP header is IP over IP */
if (ntohc(ip->PROTOCOL) != IPPROTO_IPIP) {
break;
} /* Endif */
/* Make sure we have a full IP header + 8 bytes */
len = (ntohc(ip->VERSLEN) & 0x0F) << 2;
if (remain < len + sizeof(IP_HEADER)) {
break;
} /* Endif */
/* Get next header */
ip = (IP_HEADER_PTR)((uchar_ptr)(ip) + len);
remain -= len;
source = ntohl(ip->SOURCE);
discard = IP_is_local(NULL, source);
} while(discard);
len = (ntohc(ip->VERSLEN) & 0x0F) << 2;
/*
** discard is true if we are the originator of the IP packet
** in error, or if there was not enough information to find the
** originator. We make sure discard is false, and there is at
** least a full IP header + 8 bytes of data left
*/
if (!discard && (len + 8 <= remain)) {
if (type == ICMPTYPE_DESTUNREACH) {
code = ntohc(packet->CODE);
switch (code) {
case ICMPCODE_DU_PROTO_UNREACH:
/*
** If we are sending back to the originator, and the
** originator did not use IP over IP, the protocol
** unreachable error is useless.
*/
code = ICMPCODE_DU_NET_UNREACH;
break;
case ICMPCODE_DU_PORT_UNREACH:
/* It doesn't make sense to receive this */
discard = TRUE;
break;
case ICMPCODE_DU_SRCROUTE:
discard = TRUE;
break;
} /* Endswitch */
} else {
/*
** Type is ICMPTYPE_TIMEEXCEED
**
** Problem with routing loops within tunnel. Originator
** does not need to know about tunnel.
*/
type = ICMPTYPE_DESTUNREACH;
code = ICMPCODE_DU_HOST_UNREACH;
} /* Endif */
if (!discard) {
ICMP_send_error_internal(type, code, ntohl(icmp_err->DATA),
ip, NULL, remain);
} /* Endif */
} /* Endif */
} /* Endif */
} /* Endscope */
break;
} /* End Switch */
#if RTCSCFG_ENABLE_ICMP_STATS
/* Update the statistics */
switch (type) {
case ICMPTYPE_DESTUNREACH: ICMP_cfg_ptr->STATS.ST_RX_DESTUNREACH++; break;
case ICMPTYPE_TIMEEXCEED: ICMP_cfg_ptr->STATS.ST_RX_TIMEEXCEED++; break;
case ICMPTYPE_PARMPROB: ICMP_cfg_ptr->STATS.ST_RX_PARMPROB++; break;
case ICMPTYPE_SRCQUENCH: ICMP_cfg_ptr->STATS.ST_RX_SRCQUENCH++; break;
case ICMPTYPE_REDIRECT: ICMP_cfg_ptr->STATS.ST_RX_REDIRECT++; break;
case ICMPTYPE_ECHO_REQ: ICMP_cfg_ptr->STATS.ST_RX_ECHO_REQ++; break;
case ICMPTYPE_ECHO_REPLY: ICMP_cfg_ptr->STATS.ST_RX_ECHO_REPLY++; break;
case ICMPTYPE_TIME_REQ: ICMP_cfg_ptr->STATS.ST_RX_TIME_REQ++; break;
case ICMPTYPE_TIME_REPLY: ICMP_cfg_ptr->STATS.ST_RX_TIME_REPLY++; break;
case ICMPTYPE_INFO_REQ: ICMP_cfg_ptr->STATS.ST_RX_INFO_REQ++; break;
case ICMPTYPE_INFO_REPLY: ICMP_cfg_ptr->STATS.ST_RX_INFO_REPLY++; break;
default:
ICMP_cfg_ptr->STATS.ST_RX_OTHER++;
ICMP_cfg_ptr->STATS.COMMON.ST_RX_DISCARDED++;
break;
} /* Endswitch */
#endif
if (pcb) {
RTCSLOG_PCB_FREE(pcb, RTCS_OK);
RTCSPCB_free(pcb);
} /* Endif */
} /* Endbody */
boolean IGMP_send_report
(
ip_mreq _PTR_ igrp,
uint_16 type
)
{ /* Body */
IGMP_CFG_STRUCT_PTR IGMP_cfg_ptr = RTCS_getcfg(IGMP);
uint_32 error;
uint_16 checksum;
RTCSPCB_PTR pcb;
IGMP_HEADER_PTR header;
IP_IF_PTR ipif;
_ip_address ipdst;
IF_IGMP_STATS_ENABLED(IGMP_cfg_ptr->STATS.COMMON.ST_TX_TOTAL++);
/* never send a report for the local groups */
if (IN_LOCAL_MULTICAST(igrp->imr_multiaddr.s_addr)) {
return TRUE;
} /* Endif */
/* get the interface with its ip address */
ipif = IP_find_if(igrp->imr_interface.s_addr);
if (ipif == NULL) {
IF_IGMP_STATS_ENABLED(IGMP_cfg_ptr->STATS.COMMON.ST_TX_MISSED++);
return FALSE;
} /* Endif */
pcb = RTCSPCB_alloc_send();
if (pcb == NULL) {
IF_IGMP_STATS_ENABLED(IGMP_cfg_ptr->STATS.COMMON.ST_TX_MISSED++);
return FALSE;
} /* Endif */
//RTCSLOG_PCB_ALLOC(pcb);
error = RTCSPCB_insert_header(pcb, sizeof(IGMP_HEADER));
if (error) {
RTCSLOG_PCB_FREE(pcb, error);
RTCSPCB_free(pcb);
IF_IGMP_STATS_ENABLED(IGMP_cfg_ptr->STATS.COMMON.ST_TX_MISSED++);
return FALSE;
} /* Endif */
RTCSLOG_PCB_WRITE(pcb, RTCS_LOGCTRL_PROTO(IPPROTO_IGMP), 1);
#ifdef IGMP_V2
/* check if routers igmpv1 are present or not */
if (type == IGMPTYPE_V2_REPORT && ipif->IGMP_V1_ROUTER_FLAG) {
uint_32 curTime = RTCS_time_get();
/* WORK: handle the overflow (see tcp seq) */
if (curTime < ipif->IGMP_V1_ROUTER_TIMEOUT) {
type = IGMPTYPE_V1_REPORT;
} else {
/* if the timeout expired, clear the flag */
ipif->IGMP_V1_ROUTER_FLAG = 0;
} /* Endif */
} /* Endif */
#endif /* IGMP_V2 */
/* build the igmp packet */
header = (IGMP_HEADER_PTR)RTCSPCB_DATA(pcb);
htonc(header->TYPE, type);
htonc(header->MAX_RESP_TIME, 0);
htons(header->CHECKSUM, 0);
htonl(header->GROUP_ADDRESS, igrp->imr_multiaddr.s_addr);
checksum = _mem_sum_ip(0, sizeof(IGMP_HEADER), header);
checksum = IP_Sum_invert(checksum);
htons(header->CHECKSUM, checksum);
/* WORK: for IGMP_V2, add a router alert option but currently ip layer doesnt support ip options */
/* send the igmp packet */
ipdst = igrp->imr_multiaddr.s_addr;
#ifdef IGMP_V2
if (type == IGMPTYPE_LEAVE) {
ipdst = INADDR_ALLROUTERS_GROUP;
} /* Endif */
#endif
IF_IGMP_STATS_ENABLED(IGMP_cfg_ptr->STATS.ST_TX_REPORT++); /* WORK: not always true for IGMP_V2 */
error = IP_send(pcb, IPPROTO_IGMP | IPTTL(1), igrp->imr_interface.s_addr, ipdst, RTCS_MSG_NOLOOP);
return TRUE;
} /* Endbody */
