/* * Copyright (C) 1997-2003 by Darren Reed. * * See the IPFILTER.LICENCE file for details on licencing. * * Copyright 2008 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #if defined(KERNEL) || defined(_KERNEL) # undef KERNEL # undef _KERNEL # define KERNEL 1 # define _KERNEL 1 #endif #include #include #include #include #include #if !defined(AIX) # include #endif #if !defined(_KERNEL) && !defined(__KERNEL__) # include # include # include # include # define _KERNEL # ifdef __OpenBSD__ struct file; # endif # include # undef _KERNEL #endif #if !defined(linux) # include #endif #include #if defined(_KERNEL) # if !defined(__NetBSD__) && !defined(sun) && !defined(__osf__) && \ !defined(__OpenBSD__) && !defined(__hpux) && !defined(__sgi) && \ !defined(AIX) # include # endif # include # if !defined(__SVR4) && !defined(__svr4__) # include # endif #endif #if defined(_KERNEL) && (__FreeBSD_version >= 220000) # include # include # if (__FreeBSD_version >= 300000) && !defined(IPFILTER_LKM) # include "opt_ipfilter.h" # endif #else # include #endif #if defined(__SVR4) || defined(__svr4__) # include # ifdef _KERNEL # include # include # endif # include # include # include #endif #if __FreeBSD__ > 2 # include #endif #include #ifdef sun # include #endif #include #include #include #include #ifndef linux # include #endif #include #include #include #include "netinet/ip_compat.h" #include #include "netinet/ipf_stack.h" #include "netinet/ip_fil.h" #include "netinet/ip_nat.h" #include "netinet/ip_state.h" #include "netinet/ip_proxy.h" #if (__FreeBSD_version >= 300000) # include #endif #include "netinet/ip_ftp_pxy.c" #include "netinet/ip_rcmd_pxy.c" # include "netinet/ip_pptp_pxy.c" #if defined(_KERNEL) # include "netinet/ip_irc_pxy.c" # include "netinet/ip_raudio_pxy.c" # include "netinet/ip_h323_pxy.c" # include "netinet/ip_netbios_pxy.c" #endif #include "netinet/ip_ipsec_pxy.c" #include "netinet/ip_rpcb_pxy.c" /* END OF INCLUDES */ #if !defined(lint) static const char rcsid[] = "@(#)$Id: ip_proxy.c,v 2.62.2.14 2005/06/18 02:41:33 darrenr Exp $"; #endif static int appr_fixseqack __P((fr_info_t *, ip_t *, ap_session_t *, int )); #define AP_SESS_SIZE 53 #if defined(_KERNEL) int ipf_proxy_debug = 0; #else int ipf_proxy_debug = 2; #endif static aproxy_t lcl_ap_proxies[] = { #ifdef IPF_FTP_PROXY { NULL, "ftp", (char)IPPROTO_TCP, 0, 0, NULL, ippr_ftp_init, ippr_ftp_fini, ippr_ftp_new, NULL, ippr_ftp_in, ippr_ftp_out, NULL }, #endif #ifdef IPF_IRC_PROXY { NULL, "irc", (char)IPPROTO_TCP, 0, 0, NULL, ippr_irc_init, ippr_irc_fini, ippr_irc_new, NULL, NULL, ippr_irc_out, NULL, NULL }, #endif #ifdef IPF_RCMD_PROXY { NULL, "rcmd", (char)IPPROTO_TCP, 0, 0, NULL, ippr_rcmd_init, ippr_rcmd_fini, ippr_rcmd_new, NULL, ippr_rcmd_in, ippr_rcmd_out, NULL, NULL }, #endif #ifdef IPF_RAUDIO_PROXY { NULL, "raudio", (char)IPPROTO_TCP, 0, 0, NULL, ippr_raudio_init, ippr_raudio_fini, ippr_raudio_new, NULL, ippr_raudio_in, ippr_raudio_out, NULL, NULL }, #endif #ifdef IPF_MSNRPC_PROXY { NULL, "msnrpc", (char)IPPROTO_TCP, 0, 0, NULL, ippr_msnrpc_init, ippr_msnrpc_fini, ippr_msnrpc_new, NULL, ippr_msnrpc_in, ippr_msnrpc_out, NULL, NULL }, #endif #ifdef IPF_NETBIOS_PROXY { NULL, "netbios", (char)IPPROTO_UDP, 0, 0, NULL, ippr_netbios_init, ippr_netbios_fini, NULL, NULL, NULL, ippr_netbios_out, NULL, NULL }, #endif #ifdef IPF_IPSEC_PROXY { NULL, "ipsec", (char)IPPROTO_UDP, 0, 0, NULL, ippr_ipsec_init, ippr_ipsec_fini, ippr_ipsec_new, ippr_ipsec_del, ippr_ipsec_inout, ippr_ipsec_inout, ippr_ipsec_match, NULL }, #endif #ifdef IPF_PPTP_PROXY { NULL, "pptp", (char)IPPROTO_TCP, 0, 0, NULL, ippr_pptp_init, ippr_pptp_fini, ippr_pptp_new, ippr_pptp_del, ippr_pptp_inout, ippr_pptp_inout, NULL, NULL }, #endif #ifdef IPF_H323_PROXY { NULL, "h323", (char)IPPROTO_TCP, 0, 0, NULL, ippr_h323_init, ippr_h323_fini, ippr_h323_new, ippr_h323_del, ippr_h323_in, NULL, NULL }, { NULL, "h245", (char)IPPROTO_TCP, 0, 0, NULL, NULL, NULL, ippr_h245_new, NULL, NULL, ippr_h245_out, NULL }, #endif #ifdef IPF_RPCB_PROXY # if 0 { NULL, "rpcbt", (char)IPPROTO_TCP, 0, 0, NULL, ippr_rpcb_init, ippr_rpcb_fini, ippr_rpcb_new, ippr_rpcb_del, ippr_rpcb_in, ippr_rpcb_out, NULL, NULL }, # endif { NULL, "rpcbu", (char)IPPROTO_UDP, 0, 0, NULL, ippr_rpcb_init, ippr_rpcb_fini, ippr_rpcb_new, ippr_rpcb_del, ippr_rpcb_in, ippr_rpcb_out, NULL, NULL }, #endif { NULL, "", '\0', 0, 0, NULL, NULL, NULL, NULL, NULL } }; /* * Dynamically add a new kernel proxy. Ensure that it is unique in the * collection compiled in and dynamically added. */ int appr_add(ap, ifs) aproxy_t *ap; ipf_stack_t *ifs; { aproxy_t *a; for (a = ifs->ifs_ap_proxies; a->apr_p; a++) if ((a->apr_p == ap->apr_p) && !strncmp(a->apr_label, ap->apr_label, sizeof(ap->apr_label))) { if (ipf_proxy_debug > 1) printf("appr_add: %s/%d already present (B)\n", a->apr_label, a->apr_p); return -1; } for (a = ifs->ifs_ap_proxylist; a->apr_p; a = a->apr_next) if ((a->apr_p == ap->apr_p) && !strncmp(a->apr_label, ap->apr_label, sizeof(ap->apr_label))) { if (ipf_proxy_debug > 1) printf("appr_add: %s/%d already present (D)\n", a->apr_label, a->apr_p); return -1; } ap->apr_next = ifs->ifs_ap_proxylist; ifs->ifs_ap_proxylist = ap; if (ap->apr_init != NULL) return (*ap->apr_init)(&ap->apr_private, ifs); return 0; } /* * Check to see if the proxy this control request has come through for * exists, and if it does and it has a control function then invoke that * control function. */ int appr_ctl(ctl, ifs) ap_ctl_t *ctl; ipf_stack_t *ifs; { aproxy_t *a; int error; a = appr_lookup(ctl->apc_p, ctl->apc_label, ifs); if (a == NULL) { if (ipf_proxy_debug > 1) printf("appr_ctl: can't find %s/%d\n", ctl->apc_label, ctl->apc_p); error = ESRCH; } else if (a->apr_ctl == NULL) { if (ipf_proxy_debug > 1) printf("appr_ctl: no ctl function for %s/%d\n", ctl->apc_label, ctl->apc_p); error = ENXIO; } else { error = (*a->apr_ctl)(a, ctl, a->apr_private); if ((error != 0) && (ipf_proxy_debug > 1)) printf("appr_ctl: %s/%d ctl error %d\n", a->apr_label, a->apr_p, error); } return error; } /* * Delete a proxy that has been added dynamically from those available. * If it is in use, return 1 (do not destroy NOW), not in use 0 or -1 * if it cannot be matched. */ int appr_del(ap, ifs) aproxy_t *ap; ipf_stack_t *ifs; { aproxy_t *a, **app; for (app = &ifs->ifs_ap_proxylist; ((a = *app) != NULL); app = &a->apr_next) if (a == ap) { a->apr_flags |= APR_DELETE; *app = a->apr_next; if (ap->apr_ref != 0) { if (ipf_proxy_debug > 2) printf("appr_del: orphaning %s/%d\n", ap->apr_label, ap->apr_p); return 1; } return 0; } if (ipf_proxy_debug > 1) printf("appr_del: proxy %lx not found\n", (u_long)ap); return -1; } /* * Return 1 if the packet is a good match against a proxy, else 0. */ int appr_ok(fin, tcp, nat) fr_info_t *fin; tcphdr_t *tcp; ipnat_t *nat; { aproxy_t *apr = nat->in_apr; u_short dport = nat->in_dport; if ((apr == NULL) || (apr->apr_flags & APR_DELETE) || (fin->fin_p != apr->apr_p)) return 0; if ((tcp == NULL) && dport) return 0; return 1; } int appr_ioctl(data, cmd, mode, ifs) caddr_t data; ioctlcmd_t cmd; int mode; ipf_stack_t *ifs; { ap_ctl_t ctl; caddr_t ptr; int error; mode = mode; /* LINT */ switch (cmd) { case SIOCPROXY : error = BCOPYIN(data, &ctl, sizeof(ctl)); if (error != 0) return EFAULT; ptr = NULL; if (ctl.apc_dsize > 0) { KMALLOCS(ptr, caddr_t, ctl.apc_dsize); if (ptr == NULL) error = ENOMEM; else { error = copyinptr(ctl.apc_data, ptr, ctl.apc_dsize); if (error == 0) ctl.apc_data = ptr; } } else { ctl.apc_data = NULL; error = 0; } if (error == 0) error = appr_ctl(&ctl, ifs); if ((ctl.apc_dsize > 0) && (ptr != NULL) && (ctl.apc_data == ptr)) { KFREES(ptr, ctl.apc_dsize); } break; default : error = EINVAL; } return error; } /* * If a proxy has a match function, call that to do extended packet * matching. */ int appr_match(fin, nat) fr_info_t *fin; nat_t *nat; { aproxy_t *apr; ipnat_t *ipn; int result; ipn = nat->nat_ptr; if (ipf_proxy_debug > 8) printf("appr_match(%lx,%lx) aps %lx ptr %lx\n", (u_long)fin, (u_long)nat, (u_long)nat->nat_aps, (u_long)ipn); if ((fin->fin_flx & (FI_SHORT|FI_BAD)) != 0) { if (ipf_proxy_debug > 0) printf("appr_match: flx 0x%x (BAD|SHORT)\n", fin->fin_flx); return -1; } apr = ipn->in_apr; if ((apr == NULL) || (apr->apr_flags & APR_DELETE)) { if (ipf_proxy_debug > 0) printf("appr_match:apr %lx apr_flags 0x%x\n", (u_long)apr, apr ? apr->apr_flags : 0); return -1; } if (apr->apr_match != NULL) { result = (*apr->apr_match)(fin, nat->nat_aps, nat, apr->apr_private); if (result != 0) { if (ipf_proxy_debug > 4) printf("appr_match: result %d\n", result); return -1; } } return 0; } /* * Allocate a new application proxy structure and fill it in with the * relevant details. call the init function once complete, prior to * returning. */ int appr_new(fin, nat) fr_info_t *fin; nat_t *nat; { register ap_session_t *aps; aproxy_t *apr; ipf_stack_t *ifs = fin->fin_ifs; if (ipf_proxy_debug > 8) printf("appr_new(%lx,%lx) \n", (u_long)fin, (u_long)nat); if ((nat->nat_ptr == NULL) || (nat->nat_aps != NULL)) { if (ipf_proxy_debug > 0) printf("appr_new: nat_ptr %lx nat_aps %lx\n", (u_long)nat->nat_ptr, (u_long)nat->nat_aps); return -1; } apr = nat->nat_ptr->in_apr; if ((apr->apr_flags & APR_DELETE) || (fin->fin_p != apr->apr_p)) { if (ipf_proxy_debug > 2) printf("appr_new: apr_flags 0x%x p %d/%d\n", apr->apr_flags, fin->fin_p, apr->apr_p); return -1; } KMALLOC(aps, ap_session_t *); if (!aps) { if (ipf_proxy_debug > 0) printf("appr_new: malloc failed (%lu)\n", (u_long)sizeof(ap_session_t)); return -1; } bzero((char *)aps, sizeof(*aps)); aps->aps_p = fin->fin_p; aps->aps_data = NULL; aps->aps_apr = apr; aps->aps_psiz = 0; if (apr->apr_new != NULL) if ((*apr->apr_new)(fin, aps, nat, apr->apr_private) == -1) { if ((aps->aps_data != NULL) && (aps->aps_psiz != 0)) { KFREES(aps->aps_data, aps->aps_psiz); } KFREE(aps); if (ipf_proxy_debug > 2) printf("appr_new: new(%lx) failed\n", (u_long)apr->apr_new); return -1; } aps->aps_nat = nat; aps->aps_next = ifs->ifs_ap_sess_list; ifs->ifs_ap_sess_list = aps; nat->nat_aps = aps; return 0; } /* * Check to see if a packet should be passed through an active proxy routine * if one has been setup for it. We don't need to check the checksum here if * IPFILTER_CKSUM is defined because if it is, a failed check causes FI_BAD * to be set. */ int appr_check(fin, nat) fr_info_t *fin; nat_t *nat; { #if SOLARIS && defined(_KERNEL) && (SOLARIS2 >= 6) && defined(ICK_VALID) mb_t *m; int dosum = 1; #endif tcphdr_t *tcp = NULL; udphdr_t *udp = NULL; void *tcpudp = NULL; u_short *csump; ap_session_t *aps; aproxy_t *apr; ip_t *ip; short rv; int err; #if !defined(_KERNEL) || defined(MENTAT) || defined(__sgi) u_32_t s1, s2, sd; #endif ipf_stack_t *ifs = fin->fin_ifs; #if SOLARIS && defined(_KERNEL) && (SOLARIS2 >= 6) net_data_t net_data_p; if (fin->fin_v == 4) net_data_p = ifs->ifs_ipf_ipv4; else net_data_p = ifs->ifs_ipf_ipv6; #endif if (fin->fin_flx & FI_BAD) { if (ipf_proxy_debug > 0) printf("appr_check: flx 0x%x (BAD)\n", fin->fin_flx); return -1; } #ifndef IPFILTER_CKSUM if ((fin->fin_out == 0) && (fr_checkl4sum(fin) == -1)) { if (ipf_proxy_debug > 0) printf("appr_check: l4 checksum failure %d\n", fin->fin_p); if (fin->fin_p == IPPROTO_TCP) ifs->ifs_frstats[fin->fin_out].fr_tcpbad++; return -1; } #endif aps = nat->nat_aps; if ((aps != NULL) && (aps->aps_p == fin->fin_p)) { /* * If there is data in this packet to be proxied then try and * get it all into the one buffer, else drop it. */ #if defined(MENTAT) || defined(HAVE_M_PULLDOWN) if ((fin->fin_dlen > 0) && !(fin->fin_flx & FI_COALESCE)) if (fr_coalesce(fin) == -1) { if (ipf_proxy_debug > 0) printf("appr_check: fr_coalesce failed %x\n", fin->fin_flx); return -1; } #endif ip = fin->fin_ip; switch (fin->fin_p) { case IPPROTO_TCP : tcp = (tcphdr_t *)fin->fin_dp; #if SOLARIS && defined(_KERNEL) && (SOLARIS2 >= 6) && defined(ICK_VALID) m = fin->fin_qfm; if (dohwcksum && (m->b_ick_flag == ICK_VALID)) dosum = 0; #endif /* * Don't bother the proxy with these...or in fact, * should we free up proxy stuff when seen? */ if ((fin->fin_tcpf & TH_RST) != 0) break; /*FALLTHROUGH*/ case IPPROTO_UDP : udp = (udphdr_t *)fin->fin_dp; break; default : break; } apr = aps->aps_apr; err = 0; if (fin->fin_out != 0) { if (apr->apr_outpkt != NULL) err = (*apr->apr_outpkt)(fin, aps, nat, apr->apr_private); } else { if (apr->apr_inpkt != NULL) err = (*apr->apr_inpkt)(fin, aps, nat, apr->apr_private); } rv = APR_EXIT(err); if (((ipf_proxy_debug > 0) && (rv != 0)) || (ipf_proxy_debug > 8)) printf("appr_check: out %d err %x rv %d\n", fin->fin_out, err, rv); if (rv == 1) return -1; if (rv == 2) { appr_free(apr); nat->nat_aps = NULL; return -1; } /* * If err != 0 then the data size of the packet has changed * so we need to recalculate the header checksums for the * packet. * inbound packets always need to be adjusted. */ #if !defined(_KERNEL) || defined(MENTAT) || defined(__sgi) if (err != 0) { short adjlen = err & 0xffff; s1 = LONG_SUM(ip->ip_len - adjlen); s2 = LONG_SUM(ip->ip_len); CALC_SUMD(s1, s2, sd); sd = (sd & 0xffff) + (sd >> 16); if (!fin->fin_out || !NET_IS_HCK_L3_FULL(net_data_p, fin->fin_m)) fix_outcksum(&ip->ip_sum, sd); } #endif /* * For TCP packets, we may need to adjust the sequence and * acknowledgement numbers to reflect changes in size of the * data stream. * * For both TCP and UDP, recalculate the layer 4 checksum in * software checksum case, as we can't tell if data has been * changed or not. */ if (tcp != NULL) { tcpudp = tcp; csump = &tcp->th_sum; (void) appr_fixseqack(fin, ip, aps, APR_INC(err)); } else if (udp != NULL) { tcpudp = udp; csump = &udp->uh_sum; } if (tcpudp) { #if SOLARIS && defined(_KERNEL) && (SOLARIS2 >= 6) && defined(MENTAT) if (!fin->fin_out) { /* * We are incapable of adjusting partial hcksum * result for inbound packets here, as the * partial hcksum calculation range might not * cover the whole payload, and the payload data * might be changed by proxy. */ DB_CKSUMFLAGS(fin->fin_m) &= ~HCK_PARTIALCKSUM; /* Inbound packets always need recalculation. */ *csump = fr_cksum(fin->fin_qfm, ip, fin->fin_p, tcpudp); } else if (NET_IS_HCK_L4_PART(net_data_p, fin->fin_m)) { if (err != 0) { DB_CKSUMEND(fin->fin_m) += (short)err; fix_incksum(csump, sd); } } else if (!NET_IS_HCK_L4_FULL(net_data_p, fin->fin_m)) *csump = fr_cksum(fin->fin_qfm, ip, fin->fin_p, tcpudp); #else *csump = fr_cksum(fin->fin_m, ip, fin->fin_p, tcpudp); #endif } aps->aps_bytes += fin->fin_plen; aps->aps_pkts++; return 1; } return 0; } /* * Search for an proxy by the protocol it is being used with and its name. */ aproxy_t *appr_lookup(pr, name, ifs) u_int pr; char *name; ipf_stack_t *ifs; { aproxy_t *ap; if (ipf_proxy_debug > 8) printf("appr_lookup(%d,%s)\n", pr, name); for (ap = ifs->ifs_ap_proxies; ap->apr_p; ap++) if ((ap->apr_p == pr) && !strncmp(name, ap->apr_label, sizeof(ap->apr_label))) { ap->apr_ref++; return ap; } for (ap = ifs->ifs_ap_proxylist; ap; ap = ap->apr_next) if ((ap->apr_p == pr) && !strncmp(name, ap->apr_label, sizeof(ap->apr_label))) { ap->apr_ref++; return ap; } if (ipf_proxy_debug > 2) printf("appr_lookup: failed for %d/%s\n", pr, name); return NULL; } void appr_free(ap) aproxy_t *ap; { ap->apr_ref--; } void aps_free(aps, ifs) ap_session_t *aps; ipf_stack_t *ifs; { ap_session_t *a, **ap; aproxy_t *apr; if (!aps) return; for (ap = &ifs->ifs_ap_sess_list; ((a = *ap) != NULL); ap = &a->aps_next) if (a == aps) { *ap = a->aps_next; break; } apr = aps->aps_apr; if ((apr != NULL) && (apr->apr_del != NULL)) (*apr->apr_del)(aps, apr->apr_private, ifs); if ((aps->aps_data != NULL) && (aps->aps_psiz != 0)) KFREES(aps->aps_data, aps->aps_psiz); KFREE(aps); } /* * returns 2 if ack or seq number in TCP header is changed, returns 0 otherwise */ static int appr_fixseqack(fin, ip, aps, inc) fr_info_t *fin; ip_t *ip; ap_session_t *aps; int inc; { int sel, ch = 0, out, nlen; u_32_t seq1, seq2; tcphdr_t *tcp; short inc2; tcp = (tcphdr_t *)fin->fin_dp; out = fin->fin_out; /* * ip_len has already been adjusted by 'inc'. */ nlen = ip->ip_len; nlen -= (IP_HL(ip) << 2) + (TCP_OFF(tcp) << 2); inc2 = inc; inc = (int)inc2; if (out != 0) { seq1 = (u_32_t)ntohl(tcp->th_seq); sel = aps->aps_sel[out]; /* switch to other set ? */ if ((aps->aps_seqmin[!sel] > aps->aps_seqmin[sel]) && (seq1 > aps->aps_seqmin[!sel])) { if (ipf_proxy_debug > 7) printf("proxy out switch set seq %d -> %d %x > %x\n", sel, !sel, seq1, aps->aps_seqmin[!sel]); sel = aps->aps_sel[out] = !sel; } if (aps->aps_seqoff[sel]) { seq2 = aps->aps_seqmin[sel] - aps->aps_seqoff[sel]; if (seq1 > seq2) { seq2 = aps->aps_seqoff[sel]; seq1 += seq2; tcp->th_seq = htonl(seq1); ch = 1; } } if (inc && (seq1 > aps->aps_seqmin[!sel])) { aps->aps_seqmin[sel] = seq1 + nlen - 1; aps->aps_seqoff[sel] = aps->aps_seqoff[sel] + inc; if (ipf_proxy_debug > 7) printf("proxy seq set %d at %x to %d + %d\n", sel, aps->aps_seqmin[sel], aps->aps_seqoff[sel], inc); } /***/ seq1 = ntohl(tcp->th_ack); sel = aps->aps_sel[1 - out]; /* switch to other set ? */ if ((aps->aps_ackmin[!sel] > aps->aps_ackmin[sel]) && (seq1 > aps->aps_ackmin[!sel])) { if (ipf_proxy_debug > 7) printf("proxy out switch set ack %d -> %d %x > %x\n", sel, !sel, seq1, aps->aps_ackmin[!sel]); sel = aps->aps_sel[1 - out] = !sel; } if (aps->aps_ackoff[sel] && (seq1 > aps->aps_ackmin[sel])) { seq2 = aps->aps_ackoff[sel]; tcp->th_ack = htonl(seq1 - seq2); ch = 1; } } else { seq1 = ntohl(tcp->th_seq); sel = aps->aps_sel[out]; /* switch to other set ? */ if ((aps->aps_ackmin[!sel] > aps->aps_ackmin[sel]) && (seq1 > aps->aps_ackmin[!sel])) { if (ipf_proxy_debug > 7) printf("proxy in switch set ack %d -> %d %x > %x\n", sel, !sel, seq1, aps->aps_ackmin[!sel]); sel = aps->aps_sel[out] = !sel; } if (aps->aps_ackoff[sel]) { seq2 = aps->aps_ackmin[sel] - aps->aps_ackoff[sel]; if (seq1 > seq2) { seq2 = aps->aps_ackoff[sel]; seq1 += seq2; tcp->th_seq = htonl(seq1); ch = 1; } } if (inc && (seq1 > aps->aps_ackmin[!sel])) { aps->aps_ackmin[!sel] = seq1 + nlen - 1; aps->aps_ackoff[!sel] = aps->aps_ackoff[sel] + inc; if (ipf_proxy_debug > 7) printf("proxy ack set %d at %x to %d + %d\n", !sel, aps->aps_seqmin[!sel], aps->aps_seqoff[sel], inc); } /***/ seq1 = ntohl(tcp->th_ack); sel = aps->aps_sel[1 - out]; /* switch to other set ? */ if ((aps->aps_seqmin[!sel] > aps->aps_seqmin[sel]) && (seq1 > aps->aps_seqmin[!sel])) { if (ipf_proxy_debug > 7) printf("proxy in switch set seq %d -> %d %x > %x\n", sel, !sel, seq1, aps->aps_seqmin[!sel]); sel = aps->aps_sel[1 - out] = !sel; } if (aps->aps_seqoff[sel] != 0) { if (ipf_proxy_debug > 7) printf("sel %d seqoff %d seq1 %x seqmin %x\n", sel, aps->aps_seqoff[sel], seq1, aps->aps_seqmin[sel]); if (seq1 > aps->aps_seqmin[sel]) { seq2 = aps->aps_seqoff[sel]; tcp->th_ack = htonl(seq1 - seq2); ch = 1; } } } if (ipf_proxy_debug > 8) printf("appr_fixseqack: seq %x ack %x\n", ntohl(tcp->th_seq), ntohl(tcp->th_ack)); return ch ? 2 : 0; } /* * Initialise hook for kernel application proxies. * Call the initialise routine for all the compiled in kernel proxies. */ int appr_init(ifs) ipf_stack_t *ifs; { aproxy_t *ap; int err = 0; /* Since the refcnt is used we make a copy of lcl_ap_proxies */ KMALLOCS(ifs->ifs_ap_proxies, aproxy_t *, sizeof (lcl_ap_proxies)); bcopy(lcl_ap_proxies, ifs->ifs_ap_proxies, sizeof (lcl_ap_proxies)); for (ap = ifs->ifs_ap_proxies; ap->apr_p; ap++) { if (ap->apr_init != NULL) { err = (*ap->apr_init)(&ap->apr_private, ifs); if (err != 0) break; } } return 0; } /* * Unload hook for kernel application proxies. * Call the finialise routine for all the compiled in kernel proxies. */ void appr_unload(ifs) ipf_stack_t *ifs; { aproxy_t *ap; if(ifs->ifs_ap_proxies == NULL) return; for (ap = ifs->ifs_ap_proxies; ap->apr_p; ap++) if (ap->apr_fini != NULL) (*ap->apr_fini)(&ap->apr_private, ifs); for (ap = ifs->ifs_ap_proxylist; ap; ap = ap->apr_next) if (ap->apr_fini != NULL) (*ap->apr_fini)(&ap->apr_private, ifs); KFREES(ifs->ifs_ap_proxies, sizeof (lcl_ap_proxies)); ifs->ifs_ap_proxies = NULL; }