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/*
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* Copyright (c) 1982, 1986, 1988, 1990, 1993
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* The Regents of the University of California. All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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* 3. Neither the name of the University nor the names of its contributors
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* may be used to endorse or promote products derived from this software
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* without specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
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* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
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* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
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* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
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* SUCH DAMAGE.
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*
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* @(#)udp_usrreq.c 8.4 (Berkeley) 1/21/94
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* udp_usrreq.c,v 1.4 1994/10/02 17:48:45 phk Exp
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*/
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/*
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* Changes and additions relating to SLiRP
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* Copyright (c) 1995 Danny Gasparovski.
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*
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* Please read the file COPYRIGHT for the
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* terms and conditions of the copyright.
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*/
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#include <slirp.h> |
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#include "ip_icmp.h" |
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#ifdef LOG_ENABLED
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struct udpstat udpstat;
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#endif
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struct socket udb;
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static u_int8_t udp_tos(struct socket *so); |
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static void udp_emu(struct socket *so, struct mbuf *m); |
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/*
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* UDP protocol implementation.
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* Per RFC 768, August, 1980.
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*/
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#ifndef COMPAT_42
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#define UDPCKSUM 1 |
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#else
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#define UDPCKSUM 0 /* XXX */ |
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#endif
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struct socket *udp_last_so = &udb;
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void
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udp_init(void)
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{ |
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udb.so_next = udb.so_prev = &udb; |
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} |
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/* m->m_data points at ip packet header
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* m->m_len length ip packet
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* ip->ip_len length data (IPDU)
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*/
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void
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udp_input(register struct mbuf *m, int iphlen) |
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{ |
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register struct ip *ip; |
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register struct udphdr *uh; |
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/* struct mbuf *opts = 0;*/
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int len;
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struct ip save_ip;
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struct socket *so;
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DEBUG_CALL("udp_input");
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DEBUG_ARG("m = %lx", (long)m); |
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DEBUG_ARG("iphlen = %d", iphlen);
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STAT(udpstat.udps_ipackets++); |
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/*
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* Strip IP options, if any; should skip this,
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* make available to user, and use on returned packets,
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* but we don't yet have a way to check the checksum
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* with options still present.
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*/
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if(iphlen > sizeof(struct ip)) { |
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ip_stripoptions(m, (struct mbuf *)0); |
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iphlen = sizeof(struct ip); |
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} |
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/*
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* Get IP and UDP header together in first mbuf.
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*/
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ip = mtod(m, struct ip *);
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uh = (struct udphdr *)((caddr_t)ip + iphlen);
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/*
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* Make mbuf data length reflect UDP length.
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* If not enough data to reflect UDP length, drop.
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*/
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len = ntohs((u_int16_t)uh->uh_ulen); |
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if (ip->ip_len != len) {
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if (len > ip->ip_len) {
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STAT(udpstat.udps_badlen++); |
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goto bad;
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} |
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m_adj(m, len - ip->ip_len); |
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ip->ip_len = len; |
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} |
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/*
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* Save a copy of the IP header in case we want restore it
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* for sending an ICMP error message in response.
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*/
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save_ip = *ip; |
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save_ip.ip_len+= iphlen; /* tcp_input subtracts this */
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/*
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* Checksum extended UDP header and data.
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*/
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if (UDPCKSUM && uh->uh_sum) {
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memset(&((struct ipovly *)ip)->ih_mbuf, 0, sizeof(struct mbuf_ptr)); |
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((struct ipovly *)ip)->ih_x1 = 0; |
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((struct ipovly *)ip)->ih_len = uh->uh_ulen;
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/* keep uh_sum for ICMP reply
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* uh->uh_sum = cksum(m, len + sizeof (struct ip));
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* if (uh->uh_sum) {
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*/
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if(cksum(m, len + sizeof(struct ip))) { |
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STAT(udpstat.udps_badsum++); |
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goto bad;
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} |
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} |
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/*
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* handle DHCP/BOOTP
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*/
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if (ntohs(uh->uh_dport) == BOOTP_SERVER) {
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bootp_input(m); |
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goto bad;
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} |
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if (slirp_restrict)
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goto bad;
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/*
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* handle TFTP
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*/
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if (ntohs(uh->uh_dport) == TFTP_SERVER) {
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tftp_input(m); |
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goto bad;
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} |
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/*
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* Locate pcb for datagram.
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*/
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so = udp_last_so; |
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if (so->so_lport != uh->uh_sport ||
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so->so_laddr.s_addr != ip->ip_src.s_addr) { |
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struct socket *tmp;
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for (tmp = udb.so_next; tmp != &udb; tmp = tmp->so_next) {
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if (tmp->so_lport == uh->uh_sport &&
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tmp->so_laddr.s_addr == ip->ip_src.s_addr) { |
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so = tmp; |
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break;
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} |
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} |
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if (tmp == &udb) {
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so = NULL;
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} else {
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STAT(udpstat.udpps_pcbcachemiss++); |
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udp_last_so = so; |
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} |
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} |
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if (so == NULL) { |
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/*
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* If there's no socket for this packet,
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* create one
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*/
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if ((so = socreate()) == NULL) goto bad; |
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if(udp_attach(so) == -1) { |
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DEBUG_MISC((dfd," udp_attach errno = %d-%s\n",
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errno,strerror(errno))); |
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sofree(so); |
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goto bad;
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} |
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/*
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* Setup fields
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*/
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/* udp_last_so = so; */
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so->so_laddr = ip->ip_src; |
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so->so_lport = uh->uh_sport; |
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if ((so->so_iptos = udp_tos(so)) == 0) |
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so->so_iptos = ip->ip_tos; |
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/*
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* XXXXX Here, check if it's in udpexec_list,
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* and if it is, do the fork_exec() etc.
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*/
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} |
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so->so_faddr = ip->ip_dst; /* XXX */
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so->so_fport = uh->uh_dport; /* XXX */
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iphlen += sizeof(struct udphdr); |
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m->m_len -= iphlen; |
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m->m_data += iphlen; |
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/*
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* Now we sendto() the packet.
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*/
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if (so->so_emu)
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udp_emu(so, m); |
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if(sosendto(so,m) == -1) { |
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m->m_len += iphlen; |
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m->m_data -= iphlen; |
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*ip=save_ip; |
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DEBUG_MISC((dfd,"udp tx errno = %d-%s\n",errno,strerror(errno)));
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icmp_error(m, ICMP_UNREACH,ICMP_UNREACH_NET, 0,strerror(errno));
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} |
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m_free(so->so_m); /* used for ICMP if error on sorecvfrom */
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/* restore the orig mbuf packet */
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m->m_len += iphlen; |
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m->m_data -= iphlen; |
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*ip=save_ip; |
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so->so_m=m; /* ICMP backup */
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return;
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bad:
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m_freem(m); |
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/* if (opts) m_freem(opts); */
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return;
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} |
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int udp_output2(struct socket *so, struct mbuf *m, |
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struct sockaddr_in *saddr, struct sockaddr_in *daddr, |
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int iptos)
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{ |
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register struct udpiphdr *ui; |
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int error = 0; |
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DEBUG_CALL("udp_output");
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DEBUG_ARG("so = %lx", (long)so); |
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DEBUG_ARG("m = %lx", (long)m); |
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DEBUG_ARG("saddr = %lx", (long)saddr->sin_addr.s_addr); |
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DEBUG_ARG("daddr = %lx", (long)daddr->sin_addr.s_addr); |
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/*
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* Adjust for header
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*/
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m->m_data -= sizeof(struct udpiphdr); |
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m->m_len += sizeof(struct udpiphdr); |
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/*
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* Fill in mbuf with extended UDP header
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* and addresses and length put into network format.
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*/
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ui = mtod(m, struct udpiphdr *);
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memset(&ui->ui_i.ih_mbuf, 0 , sizeof(struct mbuf_ptr)); |
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ui->ui_x1 = 0;
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ui->ui_pr = IPPROTO_UDP; |
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ui->ui_len = htons(m->m_len - sizeof(struct ip)); /* + sizeof (struct udphdr)); */ |
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/* XXXXX Check for from-one-location sockets, or from-any-location sockets */
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ui->ui_src = saddr->sin_addr; |
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ui->ui_dst = daddr->sin_addr; |
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ui->ui_sport = saddr->sin_port; |
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ui->ui_dport = daddr->sin_port; |
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ui->ui_ulen = ui->ui_len; |
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/*
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* Stuff checksum and output datagram.
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*/
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ui->ui_sum = 0;
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if (UDPCKSUM) {
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if ((ui->ui_sum = cksum(m, /* sizeof (struct udpiphdr) + */ m->m_len)) == 0) |
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ui->ui_sum = 0xffff;
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} |
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((struct ip *)ui)->ip_len = m->m_len;
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((struct ip *)ui)->ip_ttl = IPDEFTTL;
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((struct ip *)ui)->ip_tos = iptos;
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STAT(udpstat.udps_opackets++); |
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error = ip_output(so, m); |
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return (error);
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} |
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int udp_output(struct socket *so, struct mbuf *m, |
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struct sockaddr_in *addr)
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{ |
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struct sockaddr_in saddr, daddr;
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saddr = *addr; |
315 |
if ((so->so_faddr.s_addr & vnetwork_mask.s_addr) == vnetwork_addr.s_addr) {
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316 |
if ((so->so_faddr.s_addr & ~vnetwork_mask.s_addr) ==
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~vnetwork_mask.s_addr) { |
318 |
saddr.sin_addr = vhost_addr; |
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} else if (addr->sin_addr.s_addr == loopback_addr.s_addr || |
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so->so_faddr.s_addr != vhost_addr.s_addr) { |
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saddr.sin_addr = so->so_faddr; |
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} |
323 |
} |
324 |
daddr.sin_addr = so->so_laddr; |
325 |
daddr.sin_port = so->so_lport; |
326 |
|
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return udp_output2(so, m, &saddr, &daddr, so->so_iptos);
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} |
329 |
|
330 |
int
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udp_attach(struct socket *so)
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332 |
{ |
333 |
struct sockaddr_in addr;
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334 |
|
335 |
if((so->s = socket(AF_INET,SOCK_DGRAM,0)) != -1) { |
336 |
/*
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337 |
* Here, we bind() the socket. Although not really needed
|
338 |
* (sendto() on an unbound socket will bind it), it's done
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339 |
* here so that emulation of ytalk etc. don't have to do it
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340 |
*/
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addr.sin_family = AF_INET; |
342 |
addr.sin_port = 0;
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343 |
addr.sin_addr.s_addr = INADDR_ANY; |
344 |
if(bind(so->s, (struct sockaddr *)&addr, sizeof(addr))<0) { |
345 |
int lasterrno=errno;
|
346 |
closesocket(so->s); |
347 |
so->s=-1;
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348 |
#ifdef _WIN32
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WSASetLastError(lasterrno); |
350 |
#else
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351 |
errno=lasterrno; |
352 |
#endif
|
353 |
} else {
|
354 |
/* success, insert in queue */
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355 |
so->so_expire = curtime + SO_EXPIRE; |
356 |
insque(so,&udb); |
357 |
} |
358 |
} |
359 |
return(so->s);
|
360 |
} |
361 |
|
362 |
void
|
363 |
udp_detach(struct socket *so)
|
364 |
{ |
365 |
closesocket(so->s); |
366 |
/* if (so->so_m) m_free(so->so_m); done by sofree */
|
367 |
|
368 |
sofree(so); |
369 |
} |
370 |
|
371 |
static const struct tos_t udptos[] = { |
372 |
{0, 53, IPTOS_LOWDELAY, 0}, /* DNS */ |
373 |
{517, 517, IPTOS_LOWDELAY, EMU_TALK}, /* talk */ |
374 |
{518, 518, IPTOS_LOWDELAY, EMU_NTALK}, /* ntalk */ |
375 |
{0, 7648, IPTOS_LOWDELAY, EMU_CUSEEME}, /* Cu-Seeme */ |
376 |
{0, 0, 0, 0} |
377 |
}; |
378 |
|
379 |
static u_int8_t
|
380 |
udp_tos(struct socket *so)
|
381 |
{ |
382 |
int i = 0; |
383 |
|
384 |
while(udptos[i].tos) {
|
385 |
if ((udptos[i].fport && ntohs(so->so_fport) == udptos[i].fport) ||
|
386 |
(udptos[i].lport && ntohs(so->so_lport) == udptos[i].lport)) { |
387 |
so->so_emu = udptos[i].emu; |
388 |
return udptos[i].tos;
|
389 |
} |
390 |
i++; |
391 |
} |
392 |
|
393 |
return 0; |
394 |
} |
395 |
|
396 |
#ifdef EMULATE_TALK
|
397 |
#include "talkd.h" |
398 |
#endif
|
399 |
|
400 |
/*
|
401 |
* Here, talk/ytalk/ntalk requests must be emulated
|
402 |
*/
|
403 |
static void |
404 |
udp_emu(struct socket *so, struct mbuf *m) |
405 |
{ |
406 |
struct sockaddr_in addr;
|
407 |
socklen_t addrlen = sizeof(addr);
|
408 |
#ifdef EMULATE_TALK
|
409 |
CTL_MSG_OLD *omsg; |
410 |
CTL_MSG *nmsg; |
411 |
char buff[sizeof(CTL_MSG)]; |
412 |
u_char type; |
413 |
|
414 |
struct talk_request {
|
415 |
struct talk_request *next;
|
416 |
struct socket *udp_so;
|
417 |
struct socket *tcp_so;
|
418 |
} *req; |
419 |
|
420 |
static struct talk_request *req_tbl = 0; |
421 |
|
422 |
#endif
|
423 |
|
424 |
struct cu_header {
|
425 |
uint16_t d_family; // destination family
|
426 |
uint16_t d_port; // destination port
|
427 |
uint32_t d_addr; // destination address
|
428 |
uint16_t s_family; // source family
|
429 |
uint16_t s_port; // source port
|
430 |
uint32_t so_addr; // source address
|
431 |
uint32_t seqn; // sequence number
|
432 |
uint16_t message; // message
|
433 |
uint16_t data_type; // data type
|
434 |
uint16_t pkt_len; // packet length
|
435 |
} *cu_head; |
436 |
|
437 |
switch(so->so_emu) {
|
438 |
|
439 |
#ifdef EMULATE_TALK
|
440 |
case EMU_TALK:
|
441 |
case EMU_NTALK:
|
442 |
/*
|
443 |
* Talk emulation. We always change the ctl_addr to get
|
444 |
* some answers from the daemon. When an ANNOUNCE comes,
|
445 |
* we send LEAVE_INVITE to the local daemons. Also when a
|
446 |
* DELETE comes, we send copies to the local daemons.
|
447 |
*/
|
448 |
if (getsockname(so->s, (struct sockaddr *)&addr, &addrlen) < 0) |
449 |
return;
|
450 |
|
451 |
#define IS_OLD (so->so_emu == EMU_TALK)
|
452 |
|
453 |
#define COPY_MSG(dest, src) { dest->type = src->type; \
|
454 |
dest->id_num = src->id_num; \ |
455 |
dest->pid = src->pid; \ |
456 |
dest->addr = src->addr; \ |
457 |
dest->ctl_addr = src->ctl_addr; \ |
458 |
memcpy(&dest->l_name, &src->l_name, NAME_SIZE_OLD); \ |
459 |
memcpy(&dest->r_name, &src->r_name, NAME_SIZE_OLD); \ |
460 |
memcpy(&dest->r_tty, &src->r_tty, TTY_SIZE); } |
461 |
|
462 |
#define OTOSIN(ptr, field) ((struct sockaddr_in *)&ptr->field) |
463 |
/* old_sockaddr to sockaddr_in */
|
464 |
|
465 |
|
466 |
if (IS_OLD) { /* old talk */ |
467 |
omsg = mtod(m, CTL_MSG_OLD*); |
468 |
nmsg = (CTL_MSG *) buff; |
469 |
type = omsg->type; |
470 |
OTOSIN(omsg, ctl_addr)->sin_port = addr.sin_port; |
471 |
OTOSIN(omsg, ctl_addr)->sin_addr = our_addr; |
472 |
pstrcpy(omsg->l_name, NAME_SIZE_OLD, getlogin()); |
473 |
} else { /* new talk */ |
474 |
omsg = (CTL_MSG_OLD *) buff; |
475 |
nmsg = mtod(m, CTL_MSG *); |
476 |
type = nmsg->type; |
477 |
OTOSIN(nmsg, ctl_addr)->sin_port = addr.sin_port; |
478 |
OTOSIN(nmsg, ctl_addr)->sin_addr = our_addr; |
479 |
pstrcpy(nmsg->l_name, NAME_SIZE_OLD, getlogin()); |
480 |
} |
481 |
|
482 |
if (type == LOOK_UP)
|
483 |
return; /* for LOOK_UP this is enough */ |
484 |
|
485 |
if (IS_OLD) { /* make a copy of the message */ |
486 |
COPY_MSG(nmsg, omsg); |
487 |
nmsg->vers = 1;
|
488 |
nmsg->answer = 0;
|
489 |
} else
|
490 |
COPY_MSG(omsg, nmsg); |
491 |
|
492 |
/*
|
493 |
* If if is an ANNOUNCE message, we go through the
|
494 |
* request table to see if a tcp port has already
|
495 |
* been redirected for this socket. If not, we solisten()
|
496 |
* a new socket and add this entry to the table.
|
497 |
* The port number of the tcp socket and our IP
|
498 |
* are put to the addr field of the message structures.
|
499 |
* Then a LEAVE_INVITE is sent to both local daemon
|
500 |
* ports, 517 and 518. This is why we have two copies
|
501 |
* of the message, one in old talk and one in new talk
|
502 |
* format.
|
503 |
*/
|
504 |
|
505 |
if (type == ANNOUNCE) {
|
506 |
int s;
|
507 |
u_short temp_port; |
508 |
|
509 |
for(req = req_tbl; req; req = req->next)
|
510 |
if (so == req->udp_so)
|
511 |
break; /* found it */ |
512 |
|
513 |
if (!req) { /* no entry for so, create new */ |
514 |
req = (struct talk_request *)
|
515 |
malloc(sizeof(struct talk_request)); |
516 |
req->udp_so = so; |
517 |
req->tcp_so = solisten(0,
|
518 |
OTOSIN(omsg, addr)->sin_addr.s_addr, |
519 |
OTOSIN(omsg, addr)->sin_port, |
520 |
SS_FACCEPTONCE); |
521 |
req->next = req_tbl; |
522 |
req_tbl = req; |
523 |
} |
524 |
|
525 |
/* replace port number in addr field */
|
526 |
addrlen = sizeof(addr);
|
527 |
getsockname(req->tcp_so->s, |
528 |
(struct sockaddr *) &addr,
|
529 |
&addrlen); |
530 |
OTOSIN(omsg, addr)->sin_port = addr.sin_port; |
531 |
OTOSIN(omsg, addr)->sin_addr = our_addr; |
532 |
OTOSIN(nmsg, addr)->sin_port = addr.sin_port; |
533 |
OTOSIN(nmsg, addr)->sin_addr = our_addr; |
534 |
|
535 |
/* send LEAVE_INVITEs */
|
536 |
temp_port = OTOSIN(omsg, ctl_addr)->sin_port; |
537 |
OTOSIN(omsg, ctl_addr)->sin_port = 0;
|
538 |
OTOSIN(nmsg, ctl_addr)->sin_port = 0;
|
539 |
omsg->type = nmsg->type = LEAVE_INVITE; |
540 |
|
541 |
s = socket(AF_INET, SOCK_DGRAM, IPPROTO_IP); |
542 |
addr.sin_addr = our_addr; |
543 |
addr.sin_family = AF_INET; |
544 |
addr.sin_port = htons(517);
|
545 |
sendto(s, (char *)omsg, sizeof(*omsg), 0, |
546 |
(struct sockaddr *)&addr, sizeof(addr)); |
547 |
addr.sin_port = htons(518);
|
548 |
sendto(s, (char *)nmsg, sizeof(*nmsg), 0, |
549 |
(struct sockaddr *) &addr, sizeof(addr)); |
550 |
closesocket(s) ; |
551 |
|
552 |
omsg->type = nmsg->type = ANNOUNCE; |
553 |
OTOSIN(omsg, ctl_addr)->sin_port = temp_port; |
554 |
OTOSIN(nmsg, ctl_addr)->sin_port = temp_port; |
555 |
} |
556 |
|
557 |
/*
|
558 |
* If it is a DELETE message, we send a copy to the
|
559 |
* local daemons. Then we delete the entry corresponding
|
560 |
* to our socket from the request table.
|
561 |
*/
|
562 |
|
563 |
if (type == DELETE) {
|
564 |
struct talk_request *temp_req, *req_next;
|
565 |
int s;
|
566 |
u_short temp_port; |
567 |
|
568 |
temp_port = OTOSIN(omsg, ctl_addr)->sin_port; |
569 |
OTOSIN(omsg, ctl_addr)->sin_port = 0;
|
570 |
OTOSIN(nmsg, ctl_addr)->sin_port = 0;
|
571 |
|
572 |
s = socket(AF_INET, SOCK_DGRAM, IPPROTO_IP); |
573 |
addr.sin_addr = our_addr; |
574 |
addr.sin_family = AF_INET; |
575 |
addr.sin_port = htons(517);
|
576 |
sendto(s, (char *)omsg, sizeof(*omsg), 0, |
577 |
(struct sockaddr *)&addr, sizeof(addr)); |
578 |
addr.sin_port = htons(518);
|
579 |
sendto(s, (char *)nmsg, sizeof(*nmsg), 0, |
580 |
(struct sockaddr *)&addr, sizeof(addr)); |
581 |
closesocket(s); |
582 |
|
583 |
OTOSIN(omsg, ctl_addr)->sin_port = temp_port; |
584 |
OTOSIN(nmsg, ctl_addr)->sin_port = temp_port; |
585 |
|
586 |
/* delete table entry */
|
587 |
if (so == req_tbl->udp_so) {
|
588 |
temp_req = req_tbl; |
589 |
req_tbl = req_tbl->next; |
590 |
free(temp_req); |
591 |
} else {
|
592 |
temp_req = req_tbl; |
593 |
for(req = req_tbl->next; req; req = req_next) {
|
594 |
req_next = req->next; |
595 |
if (so == req->udp_so) {
|
596 |
temp_req->next = req_next; |
597 |
free(req); |
598 |
break;
|
599 |
} else {
|
600 |
temp_req = req; |
601 |
} |
602 |
} |
603 |
} |
604 |
} |
605 |
|
606 |
return;
|
607 |
#endif
|
608 |
|
609 |
case EMU_CUSEEME:
|
610 |
|
611 |
/*
|
612 |
* Cu-SeeMe emulation.
|
613 |
* Hopefully the packet is more that 16 bytes long. We don't
|
614 |
* do any other tests, just replace the address and port
|
615 |
* fields.
|
616 |
*/
|
617 |
if (m->m_len >= sizeof (*cu_head)) { |
618 |
if (getsockname(so->s, (struct sockaddr *)&addr, &addrlen) < 0) |
619 |
return;
|
620 |
cu_head = mtod(m, struct cu_header *);
|
621 |
cu_head->s_port = addr.sin_port; |
622 |
cu_head->so_addr = our_addr.s_addr; |
623 |
} |
624 |
|
625 |
return;
|
626 |
} |
627 |
} |
628 |
|
629 |
struct socket *
|
630 |
udp_listen(u_int32_t haddr, u_int hport, u_int32_t laddr, u_int lport, |
631 |
int flags)
|
632 |
{ |
633 |
struct sockaddr_in addr;
|
634 |
struct socket *so;
|
635 |
socklen_t addrlen = sizeof(struct sockaddr_in), opt = 1; |
636 |
|
637 |
if ((so = socreate()) == NULL) { |
638 |
free(so); |
639 |
return NULL; |
640 |
} |
641 |
so->s = socket(AF_INET,SOCK_DGRAM,0);
|
642 |
so->so_expire = curtime + SO_EXPIRE; |
643 |
insque(so,&udb); |
644 |
|
645 |
addr.sin_family = AF_INET; |
646 |
addr.sin_addr.s_addr = haddr; |
647 |
addr.sin_port = hport; |
648 |
|
649 |
if (bind(so->s,(struct sockaddr *)&addr, addrlen) < 0) { |
650 |
udp_detach(so); |
651 |
return NULL; |
652 |
} |
653 |
setsockopt(so->s,SOL_SOCKET,SO_REUSEADDR,(char *)&opt,sizeof(int)); |
654 |
/* setsockopt(so->s,SOL_SOCKET,SO_OOBINLINE,(char *)&opt,sizeof(int)); */
|
655 |
|
656 |
getsockname(so->s,(struct sockaddr *)&addr,&addrlen);
|
657 |
so->so_fport = addr.sin_port; |
658 |
if (addr.sin_addr.s_addr == 0 || |
659 |
addr.sin_addr.s_addr == loopback_addr.s_addr) { |
660 |
so->so_faddr = vhost_addr; |
661 |
} else {
|
662 |
so->so_faddr = addr.sin_addr; |
663 |
} |
664 |
so->so_lport = lport; |
665 |
so->so_laddr.s_addr = laddr; |
666 |
if (flags != SS_FACCEPTONCE)
|
667 |
so->so_expire = 0;
|
668 |
|
669 |
so->so_state &= SS_PERSISTENT_MASK; |
670 |
so->so_state |= SS_ISFCONNECTED; |
671 |
|
672 |
return so;
|
673 |
} |