freebsd-nq/usr.sbin/ppp/filter.c

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/*
* PPP Filter command 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.
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*
1999-08-28 01:35:59 +00:00
* $FreeBSD$
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*
* TODO: Should send ICMP error message when we discard packets.
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*/
#include <sys/param.h>
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#include <netinet/in.h>
#include <arpa/inet.h>
#include <netdb.h>
#include <netinet/in_systm.h>
#include <netinet/ip.h>
#include <sys/un.h>
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#include <stdio.h>
#include <stdlib.h>
#include <strings.h>
#include <termios.h>
#include "layer.h"
#include "defs.h"
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#include "command.h"
#include "mbuf.h"
#include "log.h"
#include "iplist.h"
#include "timer.h"
#include "throughput.h"
#include "lqr.h"
#include "hdlc.h"
#include "fsm.h"
o Move struct lcp and struct ccp into struct link. o Remove bundle2lcp(), bundle2ccp() and bundle2link(). They're too resource-hungry and we have `owner pointers' to do their job. o Make our FSM understand LCPs that are always ST_OPENED (with a minimum code that != 1). o Send FSM code rejects for invalid codes. o Make our bundle fsm_parent deal with multiple links. o Make timer diagnostics pretty and allow access via ~t in `term' mode (not just when logging debug) and `show timers'. Only show timers every second in debug mode, otherwise we get too many diagnostics to be useful (we probably still do). Also, don't restrict ~m in term mode to depend on debug logging. o Rationalise our bundles' phases. o Create struct mp (multilink protocol). This is both an NCP and a type of struct link. It feeds off other NCPs for output, passing fragmented packets into the queues of available datalinks. It also gets PROTO_MP input, reassembles the fragments into ppp frames, and passes them back to the HDLC layer that the fragments were passed from. ** It's not yet possible to enter multilink mode :-( ** o Add `set weight' (requires context) for deciding on a links weighting in multilink mode. Weighting is simplistic (and probably badly implemented) for now. o Remove the function pointers in struct link. They ended up only applying to physical links. o Configure our tun device with an MTU equal to the MRU from struct mp's LCP and a speed equal to the sum of our link speeds. o `show {lcp,ccp,proto}' and `set deflate' now have optional context and use ChooseLink() to decide on which `struct link' to use. This allows behaviour as before when in non-multilink mode, and allows access to the MP logical link in multilink mode. o Ignore reconnect and redial values when in -direct mode and when cleaning up. Always redial when in -ddial or -dedicated mode (unless cleaning up). o Tell our links to `staydown' when we close them due to a signal. o Remove remaining `#ifdef SIGALRM's (ppp doesn't function without alarms). o Don't bother strdup()ing our physical link name. o Various other cosmetic changes.
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#include "lcp.h"
#include "ccp.h"
#include "link.h"
#include "slcompress.h"
#include "ipcp.h"
#include "filter.h"
#include "descriptor.h"
#include "prompt.h"
o Move struct lcp and struct ccp into struct link. o Remove bundle2lcp(), bundle2ccp() and bundle2link(). They're too resource-hungry and we have `owner pointers' to do their job. o Make our FSM understand LCPs that are always ST_OPENED (with a minimum code that != 1). o Send FSM code rejects for invalid codes. o Make our bundle fsm_parent deal with multiple links. o Make timer diagnostics pretty and allow access via ~t in `term' mode (not just when logging debug) and `show timers'. Only show timers every second in debug mode, otherwise we get too many diagnostics to be useful (we probably still do). Also, don't restrict ~m in term mode to depend on debug logging. o Rationalise our bundles' phases. o Create struct mp (multilink protocol). This is both an NCP and a type of struct link. It feeds off other NCPs for output, passing fragmented packets into the queues of available datalinks. It also gets PROTO_MP input, reassembles the fragments into ppp frames, and passes them back to the HDLC layer that the fragments were passed from. ** It's not yet possible to enter multilink mode :-( ** o Add `set weight' (requires context) for deciding on a links weighting in multilink mode. Weighting is simplistic (and probably badly implemented) for now. o Remove the function pointers in struct link. They ended up only applying to physical links. o Configure our tun device with an MTU equal to the MRU from struct mp's LCP and a speed equal to the sum of our link speeds. o `show {lcp,ccp,proto}' and `set deflate' now have optional context and use ChooseLink() to decide on which `struct link' to use. This allows behaviour as before when in non-multilink mode, and allows access to the MP logical link in multilink mode. o Ignore reconnect and redial values when in -direct mode and when cleaning up. Always redial when in -ddial or -dedicated mode (unless cleaning up). o Tell our links to `staydown' when we close them due to a signal. o Remove remaining `#ifdef SIGALRM's (ppp doesn't function without alarms). o Don't bother strdup()ing our physical link name. o Various other cosmetic changes.
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#include "mp.h"
#ifndef NORADIUS
#include "radius.h"
#endif
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#include "bundle.h"
static int filter_Nam2Proto(int, char const *const *);
static int filter_Nam2Op(const char *);
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static const u_int32_t netmasks[33] = {
0x00000000,
0x80000000, 0xC0000000, 0xE0000000, 0xF0000000,
0xF8000000, 0xFC000000, 0xFE000000, 0xFF000000,
0xFF800000, 0xFFC00000, 0xFFE00000, 0xFFF00000,
0xFFF80000, 0xFFFC0000, 0xFFFE0000, 0xFFFF0000,
0xFFFF8000, 0xFFFFC000, 0xFFFFE000, 0xFFFFF000,
0xFFFFF800, 0xFFFFFC00, 0xFFFFFE00, 0xFFFFFF00,
0xFFFFFF80, 0xFFFFFFC0, 0xFFFFFFE0, 0xFFFFFFF0,
0xFFFFFFF8, 0xFFFFFFFC, 0xFFFFFFFE, 0xFFFFFFFF,
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};
struct in_addr
bits2mask(int bits)
{
struct in_addr result;
result.s_addr = htonl(netmasks[bits]);
return result;
}
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int
ParseAddr(struct ipcp *ipcp, const char *data,
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struct in_addr *paddr, struct in_addr *pmask, int *pwidth)
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{
int bits, len;
char *wp;
const char *cp;
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if (pmask)
pmask->s_addr = INADDR_BROADCAST; /* Assume 255.255.255.255 as default */
cp = pmask || pwidth ? strchr(data, '/') : NULL;
len = cp ? cp - data : strlen(data);
if (ipcp && strncasecmp(data, "HISADDR", len) == 0)
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*paddr = ipcp->peer_ip;
else if (ipcp && strncasecmp(data, "MYADDR", len) == 0)
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*paddr = ipcp->my_ip;
else if (ipcp && strncasecmp(data, "DNS0", len) == 0)
*paddr = ipcp->ns.dns[0];
else if (ipcp && strncasecmp(data, "DNS1", len) == 0)
*paddr = ipcp->ns.dns[1];
else {
char *s;
s = (char *)alloca(len + 1);
strncpy(s, data, len);
s[len] = '\0';
*paddr = GetIpAddr(s);
if (paddr->s_addr == INADDR_NONE) {
log_Printf(LogWARN, "ParseAddr: %s: Bad address\n", s);
return 0;
}
}
if (cp && *++cp) {
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bits = strtol(cp, &wp, 0);
if (cp == wp || bits < 0 || bits > 32) {
log_Printf(LogWARN, "ParseAddr: bad mask width.\n");
return 0;
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}
} else if (paddr->s_addr == INADDR_ANY)
/* An IP of 0.0.0.0 without a width is anything */
bits = 0;
else
/* If a valid IP is given without a width, assume 32 bits */
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bits = 32;
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if (pwidth)
*pwidth = bits;
if (pmask) {
if (paddr->s_addr == INADDR_ANY)
pmask->s_addr = INADDR_ANY;
else
*pmask = bits2mask(bits);
}
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return 1;
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}
static int
ParsePort(const char *service, int proto)
{
const char *protocol_name;
char *cp;
struct servent *servent;
int port;
switch (proto) {
case P_UDP:
protocol_name = "udp";
break;
case P_TCP:
protocol_name = "tcp";
break;
default:
protocol_name = 0;
}
servent = getservbyname(service, protocol_name);
if (servent != 0)
return ntohs(servent->s_port);
port = strtol(service, &cp, 0);
if (cp == service) {
log_Printf(LogWARN, "ParsePort: %s is not a port name or number.\n",
service);
return 0;
}
return port;
}
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/*
* ICMP Syntax: src eq icmp_message_type
*/
static int
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ParseIcmp(int argc, char const *const *argv, struct filterent *tgt)
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{
int type;
char *cp;
switch (argc) {
case 0:
/* permit/deny all ICMP types */
tgt->f_srcop = OP_NONE;
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break;
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case 3:
if (!strcmp(*argv, "src") && !strcmp(argv[1], "eq")) {
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type = strtol(argv[2], &cp, 0);
if (cp == argv[2]) {
log_Printf(LogWARN, "ParseIcmp: type is expected.\n");
return 0;
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}
tgt->f_srcop = OP_EQ;
tgt->f_srcport = type;
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}
break;
default:
log_Printf(LogWARN, "ParseIcmp: bad icmp syntax.\n");
return 0;
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}
return 1;
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}
/*
* UDP Syntax: [src op port] [dst op port]
*/
static int
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ParseUdpOrTcp(int argc, char const *const *argv, int proto,
struct filterent *tgt)
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{
tgt->f_srcop = tgt->f_dstop = OP_NONE;
tgt->f_estab = tgt->f_syn = tgt->f_finrst = 0;
if (argc >= 3 && !strcmp(*argv, "src")) {
tgt->f_srcop = filter_Nam2Op(argv[1]);
if (tgt->f_srcop == OP_NONE) {
log_Printf(LogWARN, "ParseUdpOrTcp: bad operation\n");
return 0;
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}
tgt->f_srcport = ParsePort(argv[2], proto);
if (tgt->f_srcport == 0)
return 0;
argc -= 3;
argv += 3;
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}
if (argc >= 3 && !strcmp(argv[0], "dst")) {
tgt->f_dstop = filter_Nam2Op(argv[1]);
if (tgt->f_dstop == OP_NONE) {
log_Printf(LogWARN, "ParseUdpOrTcp: bad operation\n");
return 0;
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}
tgt->f_dstport = ParsePort(argv[2], proto);
if (tgt->f_dstport == 0)
return 0;
argc -= 3;
argv += 3;
}
if (proto == P_TCP) {
for (; argc > 0; argc--, argv++)
if (!strcmp(*argv, "estab"))
tgt->f_estab = 1;
else if (!strcmp(*argv, "syn"))
tgt->f_syn = 1;
else if (!strcmp(*argv, "finrst"))
tgt->f_finrst = 1;
else
break;
}
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if (argc > 0) {
log_Printf(LogWARN, "ParseUdpOrTcp: bad src/dst port syntax: %s\n", *argv);
return 0;
}
return 1;
}
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static int
ParseIgmp(int argc, char const * const *argv, struct filterent *tgt)
{
/*
* Filter currently is a catch-all. Requests are either permitted or
* dropped.
*/
if (argc != 0) {
log_Printf(LogWARN, "ParseIgmp: Too many parameters\n");
return 0;
} else
tgt->f_srcop = OP_NONE;
return 1;
}
#ifdef P_GRE
static int
ParseGRE(int argc, char const * const *argv, struct filterent *tgt)
{
/*
* Filter currently is a catch-all. Requests are either permitted or
* dropped.
*/
if (argc != 0) {
log_Printf(LogWARN, "ParseGRE: Too many parameters\n");
return 0;
} else
tgt->f_srcop = OP_NONE;
return 1;
}
#endif
#ifdef P_OSPF
static int
ParseOspf(int argc, char const * const *argv, struct filterent *tgt)
{
/*
* Filter currently is a catch-all. Requests are either permitted or
* dropped.
*/
if (argc != 0) {
log_Printf(LogWARN, "ParseOspf: Too many parameters\n");
return 0;
} else
tgt->f_srcop = OP_NONE;
return 1;
}
#endif
static unsigned
addrtype(const char *addr)
{
if (!strncasecmp(addr, "MYADDR", 6) && (addr[6] == '\0' || addr[6] == '/'))
return T_MYADDR;
if (!strncasecmp(addr, "HISADDR", 7) && (addr[7] == '\0' || addr[7] == '/'))
return T_HISADDR;
if (!strncasecmp(addr, "DNS0", 4) && (addr[4] == '\0' || addr[4] == '/'))
return T_DNS0;
if (!strncasecmp(addr, "DNS1", 4) && (addr[4] == '\0' || addr[4] == '/'))
return T_DNS1;
return T_ADDR;
}
static const char *
addrstr(struct in_addr addr, unsigned type)
{
switch (type) {
case T_MYADDR:
return "MYADDR";
case T_HISADDR:
return "HISADDR";
case T_DNS0:
return "DNS0";
case T_DNS1:
return "DNS1";
}
return inet_ntoa(addr);
}
static const char *
maskstr(int bits)
{
static char str[4];
if (bits == 32)
*str = '\0';
else
snprintf(str, sizeof str, "/%d", bits);
return str;
}
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static int
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Parse(struct ipcp *ipcp, int argc, char const *const *argv,
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struct filterent *ofp)
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{
int action, proto;
int val, ruleno;
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char *wp;
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struct filterent filterdata;
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ruleno = strtol(*argv, &wp, 0);
if (*argv == wp || ruleno >= MAXFILTERS) {
log_Printf(LogWARN, "Parse: invalid filter number.\n");
return 0;
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}
if (ruleno < 0) {
for (ruleno = 0; ruleno < MAXFILTERS; ruleno++) {
ofp->f_action = A_NONE;
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ofp++;
}
log_Printf(LogWARN, "Parse: filter cleared.\n");
return 1;
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}
ofp += ruleno;
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if (--argc == 0) {
log_Printf(LogWARN, "Parse: missing action.\n");
return 0;
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}
argv++;
proto = P_NONE;
memset(&filterdata, '\0', sizeof filterdata);
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val = strtol(*argv, &wp, 0);
if (!*wp && val >= 0 && val < MAXFILTERS) {
if (val <= ruleno) {
log_Printf(LogWARN, "Parse: Can only jump forward from rule %d\n",
ruleno);
return 0;
}
action = val;
} else if (!strcmp(*argv, "permit")) {
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action = A_PERMIT;
} else if (!strcmp(*argv, "deny")) {
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action = A_DENY;
} else if (!strcmp(*argv, "clear")) {
ofp->f_action = A_NONE;
return 1;
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} else {
log_Printf(LogWARN, "Parse: bad action: %s\n", *argv);
return 0;
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}
filterdata.f_action = action;
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argc--;
argv++;
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if (argc && argv[0][0] == '!' && !argv[0][1]) {
filterdata.f_invert = 1;
argc--;
argv++;
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}
proto = filter_Nam2Proto(argc, argv);
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if (proto == P_NONE) {
if (!argc)
log_Printf(LogWARN, "Parse: address/mask is expected.\n");
else if (ParseAddr(ipcp, *argv, &filterdata.f_src.ipaddr,
&filterdata.f_src.mask, &filterdata.f_src.width)) {
filterdata.f_srctype = addrtype(*argv);
argc--;
argv++;
proto = filter_Nam2Proto(argc, argv);
if (!argc)
log_Printf(LogWARN, "Parse: address/mask is expected.\n");
else if (proto == P_NONE) {
if (ParseAddr(ipcp, *argv, &filterdata.f_dst.ipaddr,
&filterdata.f_dst.mask, &filterdata.f_dst.width)) {
filterdata.f_dsttype = addrtype(*argv);
argc--;
argv++;
} else
filterdata.f_dsttype = T_ADDR;
if (argc) {
proto = filter_Nam2Proto(argc, argv);
if (proto == P_NONE) {
log_Printf(LogWARN, "Parse: %s: Invalid protocol\n", *argv);
return 0;
} else {
argc--;
argv++;
}
}
} else {
argc--;
argv++;
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}
} else {
log_Printf(LogWARN, "Parse: Address/protocol expected.\n");
return 0;
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}
} else {
argc--;
argv++;
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}
if (argc >= 2 && strcmp(argv[argc - 2], "timeout") == 0) {
filterdata.timeout = strtoul(argv[argc - 1], NULL, 10);
argc -= 2;
}
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val = 1;
filterdata.f_proto = proto;
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switch (proto) {
case P_TCP:
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val = ParseUdpOrTcp(argc, argv, P_TCP, &filterdata);
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break;
case P_UDP:
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val = ParseUdpOrTcp(argc, argv, P_UDP, &filterdata);
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break;
case P_ICMP:
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val = ParseIcmp(argc, argv, &filterdata);
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break;
case P_IGMP:
val = ParseIgmp(argc, argv, &filterdata);
break;
#ifdef P_OSPF
case P_OSPF:
val = ParseOspf(argc, argv, &filterdata);
break;
#endif
#ifdef P_GRE
case P_GRE:
val = ParseGRE(argc, argv, &filterdata);
break;
#endif
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}
log_Printf(LogDEBUG, "Parse: Src: %s\n", inet_ntoa(filterdata.f_src.ipaddr));
log_Printf(LogDEBUG, "Parse: Src mask: %s\n",
inet_ntoa(filterdata.f_src.mask));
log_Printf(LogDEBUG, "Parse: Dst: %s\n", inet_ntoa(filterdata.f_dst.ipaddr));
log_Printf(LogDEBUG, "Parse: Dst mask: %s\n",
inet_ntoa(filterdata.f_dst.mask));
log_Printf(LogDEBUG, "Parse: Proto = %d\n", proto);
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log_Printf(LogDEBUG, "Parse: src: %s (%d)\n",
filter_Op2Nam(filterdata.f_srcop), filterdata.f_srcport);
log_Printf(LogDEBUG, "Parse: dst: %s (%d)\n",
filter_Op2Nam(filterdata.f_dstop), filterdata.f_dstport);
log_Printf(LogDEBUG, "Parse: estab: %u\n", filterdata.f_estab);
log_Printf(LogDEBUG, "Parse: syn: %u\n", filterdata.f_syn);
log_Printf(LogDEBUG, "Parse: finrst: %u\n", filterdata.f_finrst);
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if (val)
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*ofp = filterdata;
return val;
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}
int
filter_Set(struct cmdargs const *arg)
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{
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struct filter *filter;
if (arg->argc < arg->argn+2)
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return -1;
if (!strcmp(arg->argv[arg->argn], "in"))
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filter = &arg->bundle->filter.in;
else if (!strcmp(arg->argv[arg->argn], "out"))
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filter = &arg->bundle->filter.out;
else if (!strcmp(arg->argv[arg->argn], "dial"))
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filter = &arg->bundle->filter.dial;
else if (!strcmp(arg->argv[arg->argn], "alive"))
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filter = &arg->bundle->filter.alive;
else {
log_Printf(LogWARN, "filter_Set: %s: Invalid filter name.\n",
arg->argv[arg->argn]);
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return -1;
}
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Parse(&arg->bundle->ncp.ipcp, arg->argc - arg->argn - 1,
arg->argv + arg->argn + 1, filter->rule);
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return 0;
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}
const char *
filter_Action2Nam(int act)
{
static const char * const actname[] = { " none ", "permit ", " deny " };
static char buf[8];
if (act >= 0 && act < MAXFILTERS) {
snprintf(buf, sizeof buf, "%6d ", act);
return buf;
} else if (act >= A_NONE && act < A_NONE + sizeof(actname)/sizeof(char *))
return actname[act - A_NONE];
else
return "?????? ";
}
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static void
doShowFilter(struct filterent *fp, struct prompt *prompt)
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{
int n;
for (n = 0; n < MAXFILTERS; n++, fp++) {
if (fp->f_action != A_NONE) {
prompt_Printf(prompt, " %2d %s", n, filter_Action2Nam(fp->f_action));
prompt_Printf(prompt, "%c ", fp->f_invert ? '!' : ' ');
prompt_Printf(prompt, "%s%s ", addrstr(fp->f_src.ipaddr, fp->f_srctype),
maskstr(fp->f_src.width));
prompt_Printf(prompt, "%s%s ", addrstr(fp->f_dst.ipaddr, fp->f_dsttype),
maskstr(fp->f_dst.width));
if (fp->f_proto) {
prompt_Printf(prompt, "%s", filter_Proto2Nam(fp->f_proto));
if (fp->f_srcop)
prompt_Printf(prompt, " src %s %d", filter_Op2Nam(fp->f_srcop),
fp->f_srcport);
if (fp->f_dstop)
prompt_Printf(prompt, " dst %s %d", filter_Op2Nam(fp->f_dstop),
fp->f_dstport);
if (fp->f_estab)
prompt_Printf(prompt, " estab");
if (fp->f_syn)
prompt_Printf(prompt, " syn");
if (fp->f_finrst)
prompt_Printf(prompt, " finrst");
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}
if (fp->timeout != 0)
prompt_Printf(prompt, " timeout %u", fp->timeout);
prompt_Printf(prompt, "\n");
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}
}
}
int
filter_Show(struct cmdargs const *arg)
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{
if (arg->argc > arg->argn+1)
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return -1;
if (arg->argc == arg->argn+1) {
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struct filter *filter;
if (!strcmp(arg->argv[arg->argn], "in"))
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filter = &arg->bundle->filter.in;
else if (!strcmp(arg->argv[arg->argn], "out"))
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filter = &arg->bundle->filter.out;
else if (!strcmp(arg->argv[arg->argn], "dial"))
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filter = &arg->bundle->filter.dial;
else if (!strcmp(arg->argv[arg->argn], "alive"))
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filter = &arg->bundle->filter.alive;
else
return -1;
doShowFilter(filter->rule, arg->prompt);
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} else {
struct filter *filter[4];
int f;
filter[0] = &arg->bundle->filter.in;
filter[1] = &arg->bundle->filter.out;
filter[2] = &arg->bundle->filter.dial;
filter[3] = &arg->bundle->filter.alive;
for (f = 0; f < 4; f++) {
if (f)
prompt_Printf(arg->prompt, "\n");
prompt_Printf(arg->prompt, "%s:\n", filter[f]->name);
doShowFilter(filter[f]->rule, arg->prompt);
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}
}
return 0;
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}
static const char * const protoname[] = {
"none", "tcp", "udp", "icmp", "ospf", "igmp", "gre"
};
const char *
filter_Proto2Nam(int proto)
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{
if (proto >= sizeof protoname / sizeof protoname[0])
return "unknown";
return protoname[proto];
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}
static int
filter_Nam2Proto(int argc, char const *const *argv)
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{
int proto;
if (argc == 0)
proto = 0;
else
for (proto = sizeof protoname / sizeof protoname[0] - 1; proto; proto--)
if (!strcasecmp(*argv, protoname[proto]))
break;
return proto;
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}
static const char * const opname[] = {"none", "eq", "gt", "lt"};
const char *
filter_Op2Nam(int op)
{
if (op >= sizeof opname / sizeof opname[0])
return "unknown";
return opname[op];
}
static int
filter_Nam2Op(const char *cp)
{
int op;
for (op = sizeof opname / sizeof opname[0] - 1; op; op--)
if (!strcasecmp(cp, opname[op]))
break;
return op;
}
void
filter_AdjustAddr(struct filter *filter, struct in_addr *my_ip,
struct in_addr *peer_ip, struct in_addr dns[2])
{
struct filterent *fp;
int n;
for (fp = filter->rule, n = 0; n < MAXFILTERS; fp++, n++)
if (fp->f_action != A_NONE) {
if (my_ip) {
if (fp->f_srctype == T_MYADDR)
fp->f_src.ipaddr = *my_ip;
if (fp->f_dsttype == T_MYADDR)
fp->f_dst.ipaddr = *my_ip;
}
if (peer_ip) {
if (fp->f_srctype == T_HISADDR)
fp->f_src.ipaddr = *peer_ip;
if (fp->f_dsttype == T_HISADDR)
fp->f_dst.ipaddr = *peer_ip;
}
if (dns) {
if (fp->f_srctype == T_DNS0)
fp->f_src.ipaddr = dns[0];
if (fp->f_dsttype == T_DNS0)
fp->f_dst.ipaddr = dns[0];
if (fp->f_srctype == T_DNS1)
fp->f_src.ipaddr = dns[1];
if (fp->f_dsttype == T_DNS1)
fp->f_dst.ipaddr = dns[1];
}
}
}