/* * PPP IP Protocol Interface * * Written by Toshiharu OHNO (tony-o@iij.ad.jp) * * Copyright (C) 1993, Internet Initiative Japan, Inc. All rights reserverd. * * Redistribution and use in source and binary forms are permitted * provided that the above copyright notice and this paragraph are * duplicated in all such forms and that any documentation, * advertising materials, and other materials related to such * distribution and use acknowledge that the software was developed * by the Internet Initiative Japan. The name of the * IIJ may not be used to endorse or promote products derived * from this software without specific prior written permission. * THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED * WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE. * * $Id: ip.c,v 1.9 1998/04/25 09:23:15 brian Exp $ * * TODO: * o Return ICMP message for filterd packet * and optionaly record it into log. */ #include #include #include #include #include #include #include #include #include #include #include #include #ifndef NOALIAS #include #endif #include #include #include #include #include #include #include "command.h" #include "mbuf.h" #include "log.h" #include "defs.h" #include "timer.h" #include "fsm.h" #include "hdlc.h" #include "loadalias.h" #include "vars.h" #include "filter.h" #include "os.h" #include "ipcp.h" #include "vjcomp.h" #include "lcp.h" #include "modem.h" #include "tun.h" #include "ip.h" static struct pppTimer IdleTimer; static void IdleTimeout(void *v) { LogPrintf(LogPHASE, "Idle timer expired.\n"); reconnect(RECON_FALSE); LcpClose(); } /* * Start Idle timer. If timeout is reached, we call LcpClose() to * close LCP and link. */ void StartIdleTimer() { static time_t IdleStarted; if (!(mode & (MODE_DEDICATED | MODE_DDIAL))) { StopTimer(&IdleTimer); IdleTimer.func = IdleTimeout; IdleTimer.load = VarIdleTimeout * SECTICKS; IdleTimer.state = TIMER_STOPPED; time(&IdleStarted); IdleTimer.arg = (void *)&IdleStarted; StartTimer(&IdleTimer); } } void UpdateIdleTimer() { if (OsLinkIsUp()) StartIdleTimer(); } void StopIdleTimer() { StopTimer(&IdleTimer); } int RemainingIdleTime() { if (VarIdleTimeout == 0 || IdleTimer.state != TIMER_RUNNING || IdleTimer.arg == NULL) return -1; return VarIdleTimeout - (time(NULL) - *(time_t *)IdleTimer.arg); } /* * If any IP layer traffic is detected, refresh IdleTimer. */ static void RestartIdleTimer(void) { if (!(mode & (MODE_DEDICATED | MODE_DDIAL)) && ipKeepAlive) { time((time_t *)IdleTimer.arg); StartTimer(&IdleTimer); } } static const u_short interactive_ports[32] = { 544, 513, 514, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 21, 22, 23, 0, 0, 0, 0, 0, 0, 0, 543, }; #define INTERACTIVE(p) (interactive_ports[(p) & 0x1F] == (p)) static const char *TcpFlags[] = { "FIN", "SYN", "RST", "PSH", "ACK", "URG" }; static const char *Direction[] = {"INP", "OUT", "OUT", "IN/OUT"}; static struct filterent *Filters[] = {ifilters, ofilters, dfilters, afilters}; static int PortMatch(int op, u_short pport, u_short rport) { switch (op) { case OP_EQ: return (pport == rport); case OP_GT: return (pport > rport); case OP_LT: return (pport < rport); default: return (0); } } /* * Check a packet against with defined filters */ static int FilterCheck(struct ip * pip, int direction) { struct filterent *fp = Filters[direction]; int gotinfo, cproto, estab, n; struct tcphdr *th; struct udphdr *uh; struct icmp *ih; char *ptop; u_short sport, dport; if (fp->action) { cproto = gotinfo = estab = 0; sport = dport = 0; for (n = 0; n < MAXFILTERS; n++) { if (fp->action) { /* permit fragments on in and out filter */ if ((direction == FL_IN || direction == FL_OUT) && (ntohs(pip->ip_off) & IP_OFFMASK) != 0) { return (A_PERMIT); } LogPrintf(LogDEBUG, "rule = %d\n", n); if ((pip->ip_src.s_addr & fp->smask.s_addr) == (fp->saddr.s_addr & fp->smask.s_addr) && (pip->ip_dst.s_addr & fp->dmask.s_addr) == (fp->daddr.s_addr & fp->dmask.s_addr)) { if (fp->proto) { if (!gotinfo) { ptop = (char *) pip + (pip->ip_hl << 2); switch (pip->ip_p) { case IPPROTO_ICMP: cproto = P_ICMP; ih = (struct icmp *) ptop; sport = ih->icmp_type; estab = 1; break; case IPPROTO_UDP: cproto = P_UDP; uh = (struct udphdr *) ptop; sport = ntohs(uh->uh_sport); dport = ntohs(uh->uh_dport); estab = 1; break; case IPPROTO_TCP: cproto = P_TCP; th = (struct tcphdr *) ptop; sport = ntohs(th->th_sport); dport = ntohs(th->th_dport); estab = (th->th_flags & TH_ACK); if (estab == 0) LogPrintf(LogDEBUG, "flag = %02x, sport = %d, dport = %d\n", th->th_flags, sport, dport); break; default: return (A_DENY);/* We'll block unknown type of packet */ } gotinfo = 1; LogPrintf(LogDEBUG, "dir = %d, proto = %d, srcop = %d," " dstop = %d, estab = %d\n", direction, cproto, fp->opt.srcop, fp->opt.dstop, estab); } LogPrintf(LogDEBUG, "check0: rule = %d, proto = %d, sport = %d," " dport = %d\n", n, cproto, sport, dport); LogPrintf(LogDEBUG, "check0: action = %d\n", fp->action); if (cproto == fp->proto) { if ((fp->opt.srcop == OP_NONE || PortMatch(fp->opt.srcop, sport, fp->opt.srcport)) && (fp->opt.dstop == OP_NONE || PortMatch(fp->opt.dstop, dport, fp->opt.dstport)) && (fp->opt.estab == 0 || estab)) { return (fp->action); } } } else { /* Address is mached. Make a decision. */ LogPrintf(LogDEBUG, "check1: action = %d\n", fp->action); return (fp->action); } } } fp++; } return (A_DENY); /* No rule is mached. Deny this packet */ } return (A_PERMIT); /* No rule is given. Permit this packet */ } static void IcmpError(struct ip * pip, int code) { #ifdef notdef struct mbuf *bp; if (pip->ip_p != IPPROTO_ICMP) { bp = mballoc(cnt, MB_IPIN); memcpy(MBUF_CTOP(bp), ptr, cnt); SendPppFrame(bp); RestartIdleTimer(); IpcpAddOutOctets(cnt); } #endif } /* * For debugging aid. */ int PacketCheck(char *cp, int nb, int direction) { struct ip *pip; struct tcphdr *th; struct udphdr *uh; struct icmp *icmph; char *ptop; int mask, len, n; int pri = PRI_NORMAL; int logit, loglen; static char logbuf[200]; logit = LogIsKept(LogTCPIP) && direction != FL_DIAL; loglen = 0; pip = (struct ip *) cp; if (logit && loglen < sizeof logbuf) { snprintf(logbuf + loglen, sizeof logbuf - loglen, "%s ", Direction[direction]); loglen += strlen(logbuf + loglen); } ptop = (cp + (pip->ip_hl << 2)); switch (pip->ip_p) { case IPPROTO_ICMP: if (logit && loglen < sizeof logbuf) { icmph = (struct icmp *) ptop; snprintf(logbuf + loglen, sizeof logbuf - loglen, "ICMP: %s:%d ---> ", inet_ntoa(pip->ip_src), icmph->icmp_type); loglen += strlen(logbuf + loglen); snprintf(logbuf + loglen, sizeof logbuf - loglen, "%s:%d", inet_ntoa(pip->ip_dst), icmph->icmp_type); loglen += strlen(logbuf + loglen); } break; case IPPROTO_UDP: if (logit && loglen < sizeof logbuf) { uh = (struct udphdr *) ptop; snprintf(logbuf + loglen, sizeof logbuf - loglen, "UDP: %s:%d ---> ", inet_ntoa(pip->ip_src), ntohs(uh->uh_sport)); loglen += strlen(logbuf + loglen); snprintf(logbuf + loglen, sizeof logbuf - loglen, "%s:%d", inet_ntoa(pip->ip_dst), ntohs(uh->uh_dport)); loglen += strlen(logbuf + loglen); } break; case IPPROTO_TCP: th = (struct tcphdr *) ptop; if (pip->ip_tos == IPTOS_LOWDELAY) pri = PRI_FAST; else if ((ntohs(pip->ip_off) & IP_OFFMASK) == 0) { if (INTERACTIVE(ntohs(th->th_sport)) || INTERACTIVE(ntohs(th->th_dport))) pri = PRI_FAST; } if (logit && loglen < sizeof logbuf) { len = ntohs(pip->ip_len) - (pip->ip_hl << 2) - (th->th_off << 2); snprintf(logbuf + loglen, sizeof logbuf - loglen, "TCP: %s:%d ---> ", inet_ntoa(pip->ip_src), ntohs(th->th_sport)); loglen += strlen(logbuf + loglen); snprintf(logbuf + loglen, sizeof logbuf - loglen, "%s:%d", inet_ntoa(pip->ip_dst), ntohs(th->th_dport)); loglen += strlen(logbuf + loglen); n = 0; for (mask = TH_FIN; mask != 0x40; mask <<= 1) { if (th->th_flags & mask) { snprintf(logbuf + loglen, sizeof logbuf - loglen, " %s", TcpFlags[n]); loglen += strlen(logbuf + loglen); } n++; } snprintf(logbuf + loglen, sizeof logbuf - loglen, " seq:%x ack:%x (%d/%d)", ntohl(th->th_seq), ntohl(th->th_ack), len, nb); loglen += strlen(logbuf + loglen); if ((th->th_flags & TH_SYN) && nb > 40) { u_short *sp; ptop += 20; sp = (u_short *) ptop; if (ntohs(sp[0]) == 0x0204) { snprintf(logbuf + loglen, sizeof logbuf - loglen, " MSS = %d", ntohs(sp[1])); loglen += strlen(logbuf + loglen); } } } break; } if ((FilterCheck(pip, direction) & A_DENY)) { if (logit) LogPrintf(LogTCPIP, "%s - BLOCKED\n", logbuf); if (direction == 0) IcmpError(pip, pri); return (-1); } else { if (FilterCheck(pip, FL_KEEP) & A_DENY) { /* Check Keep Alive filter */ if (logit) LogPrintf(LogTCPIP, "%s - NO KEEPALIVE\n", logbuf); ipKeepAlive = 0; } else { if (logit) LogPrintf(LogTCPIP, "%s\n", logbuf); ipKeepAlive = 1; } return (pri); } } void IpInput(struct mbuf * bp) { /* IN: Pointer to IP pakcet */ u_char *cp; struct mbuf *wp; int nb, nw; struct tun_data tun; tun_fill_header(tun, AF_INET); cp = tun.data; nb = 0; for (wp = bp; wp; wp = wp->next) { /* Copy to contiguous region */ if (sizeof tun.data - (cp - tun.data) < wp->cnt) { LogPrintf(LogERROR, "IpInput: Packet too large (%d) - dropped\n", plength(bp)); pfree(bp); return; } memcpy(cp, MBUF_CTOP(wp), wp->cnt); cp += wp->cnt; nb += wp->cnt; } #ifndef NOALIAS if (mode & MODE_ALIAS) { struct tun_data *frag; int iresult; char *fptr; iresult = VarPacketAliasIn(tun.data, sizeof tun.data); nb = ntohs(((struct ip *) tun.data)->ip_len); if (nb > MAX_MRU) { LogPrintf(LogERROR, "IpInput: Problem with IP header length\n"); pfree(bp); return; } if (iresult == PKT_ALIAS_OK || iresult == PKT_ALIAS_FOUND_HEADER_FRAGMENT) { if (PacketCheck(tun.data, nb, FL_IN) < 0) { pfree(bp); return; } IpcpAddInOctets(nb); nb = ntohs(((struct ip *) tun.data)->ip_len); nb += sizeof tun - sizeof tun.data; nw = write(tun_out, &tun, nb); if (nw != nb) { if (nw == -1) LogPrintf(LogERROR, "IpInput: wrote %d, got %s\n", nb, strerror(errno)); else LogPrintf(LogERROR, "IpInput: wrote %d, got %d\n", nb, nw); } if (iresult == PKT_ALIAS_FOUND_HEADER_FRAGMENT) { while ((fptr = VarPacketAliasGetFragment(tun.data)) != NULL) { VarPacketAliasFragmentIn(tun.data, fptr); nb = ntohs(((struct ip *) fptr)->ip_len); frag = (struct tun_data *) ((char *)fptr - sizeof tun + sizeof tun.data); nb += sizeof tun - sizeof tun.data; nw = write(tun_out, frag, nb); if (nw != nb) { if (nw == -1) LogPrintf(LogERROR, "IpInput: wrote %d, got %s\n", nb, strerror(errno)); else LogPrintf(LogERROR, "IpInput: wrote %d, got %d\n", nb, nw); } free(frag); } } } else if (iresult == PKT_ALIAS_UNRESOLVED_FRAGMENT) { nb = ntohs(((struct ip *) tun.data)->ip_len); nb += sizeof tun - sizeof tun.data; frag = (struct tun_data *)malloc(nb); if (frag == NULL) LogPrintf(LogALERT, "IpInput: Cannot allocate memory for fragment\n"); else { tun_fill_header(*frag, AF_INET); memcpy(frag->data, tun.data, nb - sizeof tun + sizeof tun.data); VarPacketAliasSaveFragment(frag->data); } } } else #endif /* #ifndef NOALIAS */ { /* no aliasing */ if (PacketCheck(tun.data, nb, FL_IN) < 0) { pfree(bp); return; } IpcpAddInOctets(nb); nb += sizeof tun - sizeof tun.data; nw = write(tun_out, &tun, nb); if (nw != nb) { if (nw == -1) LogPrintf(LogERROR, "IpInput: wrote %d, got %s\n", nb, strerror(errno)); else LogPrintf(LogERROR, "IpInput: wrote %d, got %d\n", nb, nw); } } pfree(bp); RestartIdleTimer(); } static struct mqueue IpOutputQueues[PRI_FAST + 1]; void IpEnqueue(int pri, char *ptr, int count) { struct mbuf *bp; bp = mballoc(count, MB_IPQ); memcpy(MBUF_CTOP(bp), ptr, count); Enqueue(&IpOutputQueues[pri], bp); } #if 0 int IsIpEnqueued() { struct mqueue *queue; int exist = 0; for (queue = &IpOutputQueues[PRI_FAST]; queue >= IpOutputQueues; queue--) { if (queue->qlen > 0) { exist = 1; break; } } return (exist); } #endif void IpStartOutput() { struct mqueue *queue; struct mbuf *bp; int cnt; if (IpcpFsm.state != ST_OPENED) return; for (queue = &IpOutputQueues[PRI_FAST]; queue >= IpOutputQueues; queue--) { if (queue->top) { bp = Dequeue(queue); if (bp) { cnt = plength(bp); SendPppFrame(bp); RestartIdleTimer(); IpcpAddOutOctets(cnt); break; } } } }