freebsd-skq/usr.sbin/ppp/ipcp.c

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1995-01-31 06:29:58 +00:00
/*
* PPP IP Control Protocol (IPCP) Module
*
* 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, Inc. 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: ipcp.c,v 1.53 1998/05/29 18:32:11 brian Exp $
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*
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* TODO:
* o More RFC1772 backwoard compatibility
*/
#include <sys/param.h>
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#include <netinet/in_systm.h>
#include <netinet/in.h>
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#include <netinet/ip.h>
#include <arpa/inet.h>
#include <sys/socket.h>
#include <netdb.h>
#include <net/if.h>
#include <sys/sockio.h>
#include <sys/un.h>
#include <fcntl.h>
#include <resolv.h>
#include <stdlib.h>
#include <string.h>
#include <sys/errno.h>
#include <termios.h>
#include <unistd.h>
#include "command.h"
#include "mbuf.h"
#include "log.h"
#include "defs.h"
#include "timer.h"
#include "fsm.h"
#include "lcpproto.h"
#include "lcp.h"
#include "iplist.h"
#include "throughput.h"
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#include "slcompress.h"
#include "ipcp.h"
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#include "filter.h"
#include "descriptor.h"
#include "loadalias.h"
#include "vjcomp.h"
#include "lqr.h"
#include "hdlc.h"
#include "async.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 "ccp.h"
#include "link.h"
#include "physical.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"
#include "bundle.h"
#include "id.h"
#include "arp.h"
#include "systems.h"
#include "prompt.h"
#include "route.h"
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#undef REJECTED
#define REJECTED(p, x) ((p)->peer_reject & (1<<(x)))
#define issep(ch) ((ch) == ' ' || (ch) == '\t')
#define isip(ch) (((ch) >= '0' && (ch) <= '9') || (ch) == '.')
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struct compreq {
u_short proto;
u_char slots;
u_char compcid;
};
static int IpcpLayerUp(struct fsm *);
static void IpcpLayerDown(struct fsm *);
static void IpcpLayerStart(struct fsm *);
static void IpcpLayerFinish(struct fsm *);
static void IpcpInitRestartCounter(struct fsm *);
static void IpcpSendConfigReq(struct fsm *);
static void IpcpSentTerminateReq(struct fsm *);
static void IpcpSendTerminateAck(struct fsm *, u_char);
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static void IpcpDecodeConfig(struct fsm *, u_char *, int, int,
struct fsm_decode *);
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static struct fsm_callbacks ipcp_Callbacks = {
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IpcpLayerUp,
IpcpLayerDown,
IpcpLayerStart,
IpcpLayerFinish,
IpcpInitRestartCounter,
IpcpSendConfigReq,
IpcpSentTerminateReq,
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IpcpSendTerminateAck,
IpcpDecodeConfig,
fsm_NullRecvResetReq,
fsm_NullRecvResetAck
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};
static const char *cftypes[] = {
/* Check out the latest ``Assigned numbers'' rfc (rfc1700.txt) */
"???",
"IPADDRS", /* 1: IP-Addresses */ /* deprecated */
"COMPPROTO", /* 2: IP-Compression-Protocol */
"IPADDR", /* 3: IP-Address */
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};
#define NCFTYPES (sizeof cftypes/sizeof cftypes[0])
static const char *cftypes128[] = {
/* Check out the latest ``Assigned numbers'' rfc (rfc1700.txt) */
"???",
"PRIDNS", /* 129: Primary DNS Server Address */
"PRINBNS", /* 130: Primary NBNS Server Address */
"SECDNS", /* 131: Secondary DNS Server Address */
"SECNBNS", /* 132: Secondary NBNS Server Address */
};
#define NCFTYPES128 (sizeof cftypes128/sizeof cftypes128[0])
void
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ipcp_AddInOctets(struct ipcp *ipcp, int n)
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{
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throughput_addin(&ipcp->throughput, n);
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}
void
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ipcp_AddOutOctets(struct ipcp *ipcp, int n)
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{
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throughput_addout(&ipcp->throughput, n);
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}
static void
getdns(struct ipcp *ipcp, struct in_addr addr[2])
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{
FILE *fp;
addr[0].s_addr = addr[1].s_addr = INADDR_ANY;
if ((fp = fopen(_PATH_RESCONF, "r")) != NULL) {
char buf[LINE_LEN], *cp, *end;
int n;
n = 0;
buf[sizeof buf - 1] = '\0';
while (fgets(buf, sizeof buf - 1, fp)) {
if (!strncmp(buf, "nameserver", 10) && issep(buf[10])) {
for (cp = buf + 11; issep(*cp); cp++)
;
for (end = cp; isip(*end); end++)
;
*end = '\0';
if (inet_aton(cp, addr+n) && ++n == 2)
break;
}
}
if (n == 1)
addr[1] = addr[0];
fclose(fp);
}
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}
static int
setdns(struct ipcp *ipcp, struct in_addr addr[2])
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{
FILE *fp;
char wbuf[LINE_LEN + 54];
int wlen;
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if (addr[0].s_addr == INADDR_ANY || addr[1].s_addr == INADDR_ANY) {
struct in_addr old[2];
getdns(ipcp, old);
if (addr[0].s_addr == INADDR_ANY)
addr[0] = old[0];
if (addr[1].s_addr == INADDR_ANY)
addr[1] = old[1];
}
if (addr[0].s_addr == INADDR_ANY && addr[1].s_addr == INADDR_ANY) {
log_Printf(LogWARN, "%s not modified: All nameservers NAKd\n",
_PATH_RESCONF);
return 0;
}
wlen = 0;
if ((fp = fopen(_PATH_RESCONF, "r")) != NULL) {
char buf[LINE_LEN];
int len;
buf[sizeof buf - 1] = '\0';
while (fgets(buf, sizeof buf - 1, fp)) {
if (strncmp(buf, "nameserver", 10) || !issep(buf[10])) {
len = strlen(buf);
if (len > sizeof wbuf - wlen) {
log_Printf(LogWARN, "%s: Can only cope with max file size %d\n",
_PATH_RESCONF, LINE_LEN);
fclose(fp);
return 0;
}
memcpy(wbuf + wlen, buf, len);
wlen += len;
}
}
fclose(fp);
}
if (addr[0].s_addr != INADDR_ANY) {
snprintf(wbuf + wlen, sizeof wbuf - wlen, "nameserver %s\n",
inet_ntoa(addr[0]));
log_Printf(LogIPCP, "Primary nameserver set to %s", wbuf + wlen + 11);
wlen += strlen(wbuf + wlen);
}
if (addr[1].s_addr != INADDR_ANY && addr[1].s_addr != addr[0].s_addr) {
snprintf(wbuf + wlen, sizeof wbuf - wlen, "nameserver %s\n",
inet_ntoa(addr[1]));
log_Printf(LogIPCP, "Secondary nameserver set to %s", wbuf + wlen + 11);
wlen += strlen(wbuf + wlen);
}
if (wlen) {
int fd;
if ((fd = ID0open(_PATH_RESCONF, O_WRONLY|O_CREAT, 0644)) != -1) {
if (write(fd, wbuf, wlen) != wlen) {
log_Printf(LogERROR, "setdns: write(): %s\n", strerror(errno));
close(fd);
return 0;
}
if (ftruncate(fd, wlen) == -1) {
log_Printf(LogERROR, "setdns: truncate(): %s\n", strerror(errno));
close(fd);
return 0;
}
close(fd);
} else {
log_Printf(LogERROR, "setdns: open(): %s\n", strerror(errno));
return 0;
}
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}
return 1;
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}
int
ipcp_Show(struct cmdargs const *arg)
{
struct ipcp *ipcp = &arg->bundle->ncp.ipcp;
prompt_Printf(arg->prompt, "%s [%s]\n", ipcp->fsm.name,
State2Nam(ipcp->fsm.state));
if (ipcp->fsm.state == ST_OPENED) {
prompt_Printf(arg->prompt, " His side: %s, %s\n",
inet_ntoa(ipcp->peer_ip), vj2asc(ipcp->peer_compproto));
prompt_Printf(arg->prompt, " My side: %s, %s\n",
inet_ntoa(ipcp->my_ip), vj2asc(ipcp->my_compproto));
}
if (ipcp->route) {
prompt_Printf(arg->prompt, "\n");
route_ShowSticky(arg->prompt, ipcp->route);
}
prompt_Printf(arg->prompt, "\nDefaults:\n");
prompt_Printf(arg->prompt, " My Address: %s/%d",
inet_ntoa(ipcp->cfg.my_range.ipaddr), ipcp->cfg.my_range.width);
if (ipcp->cfg.HaveTriggerAddress)
prompt_Printf(arg->prompt, " (trigger with %s)",
inet_ntoa(ipcp->cfg.TriggerAddress));
prompt_Printf(arg->prompt, "\n VJ compression: %s (%d slots %s slot "
"compression)\n", command_ShowNegval(ipcp->cfg.vj.neg),
ipcp->cfg.vj.slots, ipcp->cfg.vj.slotcomp ? "with" : "without");
if (iplist_isvalid(&ipcp->cfg.peer_list))
prompt_Printf(arg->prompt, " His Address: %s\n",
ipcp->cfg.peer_list.src);
else
prompt_Printf(arg->prompt, " His Address: %s/%d\n",
inet_ntoa(ipcp->cfg.peer_range.ipaddr),
ipcp->cfg.peer_range.width);
prompt_Printf(arg->prompt, " DNS: %s, ",
inet_ntoa(ipcp->cfg.ns.dns[0]));
prompt_Printf(arg->prompt, "%s, %s\n", inet_ntoa(ipcp->cfg.ns.dns[1]),
command_ShowNegval(ipcp->cfg.ns.dns_neg));
prompt_Printf(arg->prompt, " NetBIOS NS: %s, ",
inet_ntoa(ipcp->cfg.ns.nbns[0]));
prompt_Printf(arg->prompt, "%s\n", inet_ntoa(ipcp->cfg.ns.nbns[1]));
prompt_Printf(arg->prompt, "\n");
throughput_disp(&ipcp->throughput, arg->prompt);
return 0;
}
int
ipcp_vjset(struct cmdargs const *arg)
{
if (arg->argc != arg->argn+2)
return -1;
if (!strcasecmp(arg->argv[arg->argn], "slots")) {
int slots;
slots = atoi(arg->argv[arg->argn+1]);
if (slots < 4 || slots > 16)
return 1;
arg->bundle->ncp.ipcp.cfg.vj.slots = slots;
return 0;
} else if (!strcasecmp(arg->argv[arg->argn], "slotcomp")) {
if (!strcasecmp(arg->argv[arg->argn+1], "on"))
arg->bundle->ncp.ipcp.cfg.vj.slotcomp = 1;
else if (!strcasecmp(arg->argv[arg->argn+1], "off"))
arg->bundle->ncp.ipcp.cfg.vj.slotcomp = 0;
else
return 2;
return 0;
}
return -1;
}
void
ipcp_Init(struct ipcp *ipcp, struct bundle *bundle, struct link *l,
const struct fsm_parent *parent)
{
struct hostent *hp;
char name[MAXHOSTNAMELEN];
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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static const char *timer_names[] =
{"IPCP restart", "IPCP openmode", "IPCP stopped"};
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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fsm_Init(&ipcp->fsm, "IPCP", PROTO_IPCP, 1, IPCP_MAXCODE, 10, LogIPCP,
bundle, l, parent, &ipcp_Callbacks, timer_names);
ipcp->route = NULL;
ipcp->cfg.vj.slots = DEF_VJ_STATES;
ipcp->cfg.vj.slotcomp = 1;
memset(&ipcp->cfg.my_range, '\0', sizeof ipcp->cfg.my_range);
if (gethostname(name, sizeof name) == 0) {
hp = gethostbyname(name);
if (hp && hp->h_addrtype == AF_INET) {
memcpy(&ipcp->cfg.my_range.ipaddr.s_addr, hp->h_addr, hp->h_length);
ipcp->cfg.peer_range.mask.s_addr = INADDR_BROADCAST;
ipcp->cfg.peer_range.width = 32;
}
}
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ipcp->cfg.netmask.s_addr = INADDR_ANY;
memset(&ipcp->cfg.peer_range, '\0', sizeof ipcp->cfg.peer_range);
iplist_setsrc(&ipcp->cfg.peer_list, "");
ipcp->cfg.HaveTriggerAddress = 0;
ipcp->cfg.ns.dns[0].s_addr = INADDR_ANY;
ipcp->cfg.ns.dns[1].s_addr = INADDR_ANY;
ipcp->cfg.ns.dns_neg = 0;
ipcp->cfg.ns.nbns[0].s_addr = INADDR_ANY;
ipcp->cfg.ns.nbns[1].s_addr = INADDR_ANY;
ipcp->cfg.fsmretry = DEF_FSMRETRY;
ipcp->cfg.vj.neg = NEG_ENABLED|NEG_ACCEPTED;
memset(&ipcp->vj, '\0', sizeof ipcp->vj);
ipcp->my_ifip.s_addr = INADDR_ANY;
ipcp->peer_ifip.s_addr = INADDR_ANY;
throughput_init(&ipcp->throughput);
ipcp_Setup(ipcp);
}
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void
ipcp_SetLink(struct ipcp *ipcp, struct link *l)
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{
ipcp->fsm.link = l;
}
void
ipcp_Setup(struct ipcp *ipcp)
{
int pos;
ipcp->fsm.open_mode = 0;
ipcp->fsm.maxconfig = 10;
if (iplist_isvalid(&ipcp->cfg.peer_list)) {
if (ipcp->my_ifip.s_addr != INADDR_ANY &&
(pos = iplist_ip2pos(&ipcp->cfg.peer_list, ipcp->my_ifip)) != -1)
ipcp->cfg.peer_range.ipaddr = iplist_setcurpos(&ipcp->cfg.peer_list, pos);
else
ipcp->cfg.peer_range.ipaddr = iplist_setrandpos(&ipcp->cfg.peer_list);
ipcp->cfg.peer_range.mask.s_addr = INADDR_BROADCAST;
ipcp->cfg.peer_range.width = 32;
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}
ipcp->heis1172 = 0;
ipcp->peer_ip = ipcp->cfg.peer_range.ipaddr;
ipcp->peer_compproto = 0;
if (ipcp->cfg.HaveTriggerAddress) {
/*
* Some implementations of PPP require that we send a
* *special* value as our address, even though the rfc specifies
* full negotiation (e.g. "0.0.0.0" or Not "0.0.0.0").
*/
ipcp->my_ip = ipcp->cfg.TriggerAddress;
log_Printf(LogIPCP, "Using trigger address %s\n",
inet_ntoa(ipcp->cfg.TriggerAddress));
} else if ((ipcp->my_ifip.s_addr & ipcp->cfg.my_range.mask.s_addr) ==
(ipcp->cfg.my_range.ipaddr.s_addr &
ipcp->cfg.my_range.mask.s_addr))
/*
* Otherwise, if we've been assigned an IP number before, we really
* want to keep the same IP number so that we can keep any existing
* connections that are bound to that IP.
*/
ipcp->my_ip = ipcp->my_ifip;
else
ipcp->my_ip = ipcp->cfg.my_range.ipaddr;
if (IsEnabled(ipcp->cfg.vj.neg))
ipcp->my_compproto = (PROTO_VJCOMP << 16) +
((ipcp->cfg.vj.slots - 1) << 8) +
ipcp->cfg.vj.slotcomp;
else
ipcp->my_compproto = 0;
sl_compress_init(&ipcp->vj.cslc, ipcp->cfg.vj.slots - 1);
ipcp->peer_reject = 0;
ipcp->my_reject = 0;
throughput_stop(&ipcp->throughput);
throughput_init(&ipcp->throughput);
}
static int
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ipcp_SetIPaddress(struct bundle *bundle, struct in_addr myaddr,
struct in_addr hisaddr, int silent)
{
struct sockaddr_in *sock_in;
int s;
u_long mask, addr;
struct ifaliasreq ifra;
/* If given addresses are alreay set, then ignore this request */
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if (bundle->ncp.ipcp.my_ifip.s_addr == myaddr.s_addr &&
bundle->ncp.ipcp.peer_ifip.s_addr == hisaddr.s_addr)
return 0;
ipcp_CleanInterface(&bundle->ncp.ipcp);
s = ID0socket(AF_INET, SOCK_DGRAM, 0);
if (s < 0) {
log_Printf(LogERROR, "SetIpDevice: socket(): %s\n", strerror(errno));
return (-1);
}
memset(&ifra, '\0', sizeof ifra);
strncpy(ifra.ifra_name, bundle->ifp.Name, sizeof ifra.ifra_name - 1);
ifra.ifra_name[sizeof ifra.ifra_name - 1] = '\0';
/* Set interface address */
sock_in = (struct sockaddr_in *)&ifra.ifra_addr;
sock_in->sin_family = AF_INET;
sock_in->sin_addr = myaddr;
sock_in->sin_len = sizeof *sock_in;
/* Set destination address */
sock_in = (struct sockaddr_in *)&ifra.ifra_broadaddr;
sock_in->sin_family = AF_INET;
sock_in->sin_addr = hisaddr;
sock_in->sin_len = sizeof *sock_in;
addr = ntohl(myaddr.s_addr);
if (IN_CLASSA(addr))
mask = IN_CLASSA_NET;
else if (IN_CLASSB(addr))
mask = IN_CLASSB_NET;
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else
mask = IN_CLASSC_NET;
/* if subnet mask is given, use it instead of class mask */
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if (bundle->ncp.ipcp.cfg.netmask.s_addr != INADDR_ANY &&
(ntohl(bundle->ncp.ipcp.cfg.netmask.s_addr) & mask) == mask)
mask = ntohl(bundle->ncp.ipcp.cfg.netmask.s_addr);
sock_in = (struct sockaddr_in *)&ifra.ifra_mask;
sock_in->sin_family = AF_INET;
sock_in->sin_addr.s_addr = htonl(mask);
sock_in->sin_len = sizeof *sock_in;
if (ID0ioctl(s, SIOCAIFADDR, &ifra) < 0) {
if (!silent)
log_Printf(LogERROR, "SetIpDevice: ioctl(SIOCAIFADDR): %s\n",
strerror(errno));
close(s);
return (-1);
}
if (Enabled(bundle, OPT_SROUTES))
route_Change(bundle, bundle->ncp.ipcp.route, myaddr, hisaddr);
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bundle->ncp.ipcp.peer_ifip.s_addr = hisaddr.s_addr;
bundle->ncp.ipcp.my_ifip.s_addr = myaddr.s_addr;
if (Enabled(bundle, OPT_PROXY))
arp_SetProxy(bundle, bundle->ncp.ipcp.peer_ifip, s);
close(s);
return (0);
}
static struct in_addr
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ChooseHisAddr(struct bundle *bundle, const struct in_addr gw)
{
struct in_addr try;
int f;
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for (f = 0; f < bundle->ncp.ipcp.cfg.peer_list.nItems; f++) {
try = iplist_next(&bundle->ncp.ipcp.cfg.peer_list);
log_Printf(LogDEBUG, "ChooseHisAddr: Check item %d (%s)\n",
f, inet_ntoa(try));
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if (ipcp_SetIPaddress(bundle, gw, try, 1) == 0) {
log_Printf(LogIPCP, "Selected IP address %s\n", inet_ntoa(try));
break;
}
}
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if (f == bundle->ncp.ipcp.cfg.peer_list.nItems) {
log_Printf(LogDEBUG, "ChooseHisAddr: All addresses in use !\n");
try.s_addr = INADDR_ANY;
}
return try;
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}
static void
IpcpInitRestartCounter(struct fsm * fp)
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{
/* Set fsm timer load */
struct ipcp *ipcp = fsm2ipcp(fp);
fp->FsmTimer.load = ipcp->cfg.fsmretry * SECTICKS;
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fp->restart = 5;
}
static void
IpcpSendConfigReq(struct fsm *fp)
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{
/* Send config REQ please */
struct physical *p = link2physical(fp->link);
struct ipcp *ipcp = fsm2ipcp(fp);
u_char buff[24];
struct lcp_opt *o;
o = (struct lcp_opt *)buff;
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if ((p && !physical_IsSync(p)) || !REJECTED(ipcp, TY_IPADDR)) {
*(u_int32_t *)o->data = ipcp->my_ip.s_addr;
INC_LCP_OPT(TY_IPADDR, 6, o);
}
if (ipcp->my_compproto && !REJECTED(ipcp, TY_COMPPROTO)) {
if (ipcp->heis1172) {
*(u_short *)o->data = htons(PROTO_VJCOMP);
INC_LCP_OPT(TY_COMPPROTO, 4, o);
} else {
*(u_long *)o->data = htonl(ipcp->my_compproto);
INC_LCP_OPT(TY_COMPPROTO, 6, o);
}
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}
if (IsEnabled(ipcp->cfg.ns.dns_neg) &&
!REJECTED(ipcp, TY_PRIMARY_DNS - TY_ADJUST_NS) &&
!REJECTED(ipcp, TY_SECONDARY_DNS - TY_ADJUST_NS)) {
struct in_addr dns[2];
getdns(ipcp, dns);
*(u_int32_t *)o->data = dns[0].s_addr;
INC_LCP_OPT(TY_PRIMARY_DNS, 6, o);
*(u_int32_t *)o->data = dns[1].s_addr;
INC_LCP_OPT(TY_SECONDARY_DNS, 6, o);
}
fsm_Output(fp, CODE_CONFIGREQ, fp->reqid, buff, (u_char *)o - buff);
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}
static void
IpcpSentTerminateReq(struct fsm * fp)
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{
/* Term REQ just sent by FSM */
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}
static void
IpcpSendTerminateAck(struct fsm *fp, u_char id)
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{
/* Send Term ACK please */
fsm_Output(fp, CODE_TERMACK, id, NULL, 0);
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}
static void
IpcpLayerStart(struct fsm * fp)
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{
/* We're about to start up ! */
log_Printf(LogIPCP, "%s: IpcpLayerStart.\n", fp->link->name);
/* This is where we should be setting up the interface in AUTO mode */
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}
static void
IpcpLayerFinish(struct fsm *fp)
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{
/* We're now down */
log_Printf(LogIPCP, "%s: IpcpLayerFinish.\n", fp->link->name);
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}
void
ipcp_CleanInterface(struct ipcp *ipcp)
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{
struct ifaliasreq ifra;
struct sockaddr_in *me, *peer;
int s;
s = ID0socket(AF_INET, SOCK_DGRAM, 0);
if (s < 0) {
log_Printf(LogERROR, "ipcp_CleanInterface: socket: %s\n", strerror(errno));
return;
}
route_Clean(ipcp->fsm.bundle, ipcp->route);
if (Enabled(ipcp->fsm.bundle, OPT_PROXY))
arp_ClearProxy(ipcp->fsm.bundle, ipcp->peer_ifip, s);
if (ipcp->my_ifip.s_addr != INADDR_ANY ||
ipcp->peer_ifip.s_addr != INADDR_ANY) {
memset(&ifra, '\0', sizeof ifra);
strncpy(ifra.ifra_name, ipcp->fsm.bundle->ifp.Name,
sizeof ifra.ifra_name - 1);
ifra.ifra_name[sizeof ifra.ifra_name - 1] = '\0';
me = (struct sockaddr_in *)&ifra.ifra_addr;
peer = (struct sockaddr_in *)&ifra.ifra_broadaddr;
me->sin_family = peer->sin_family = AF_INET;
me->sin_len = peer->sin_len = sizeof(struct sockaddr_in);
me->sin_addr = ipcp->my_ifip;
peer->sin_addr = ipcp->peer_ifip;
if (ID0ioctl(s, SIOCDIFADDR, &ifra) < 0)
log_Printf(LogERROR, "ipcp_CleanInterface: ioctl(SIOCDIFADDR): %s\n",
strerror(errno));
ipcp->my_ifip.s_addr = ipcp->peer_ifip.s_addr = INADDR_ANY;
}
close(s);
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}
static void
IpcpLayerDown(struct fsm *fp)
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{
/* About to come down */
struct ipcp *ipcp = fsm2ipcp(fp);
const char *s;
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s = inet_ntoa(ipcp->peer_ifip);
log_Printf(LogIPCP, "%s: IpcpLayerDown: %s\n", fp->link->name, s);
throughput_stop(&ipcp->throughput);
throughput_log(&ipcp->throughput, LogIPCP, NULL);
/*
* XXX this stuff should really live in the FSM. Our config should
* associate executable sections in files with events.
*/
if (system_Select(fp->bundle, s, LINKDOWNFILE, NULL) < 0) {
if (bundle_GetLabel(fp->bundle)) {
if (system_Select(fp->bundle, bundle_GetLabel(fp->bundle),
LINKDOWNFILE, NULL) < 0)
system_Select(fp->bundle, "MYADDR", LINKDOWNFILE, NULL);
} else
system_Select(fp->bundle, "MYADDR", LINKDOWNFILE, NULL);
}
if (!(ipcp->fsm.bundle->phys_type.all & PHYS_AUTO))
ipcp_CleanInterface(ipcp);
}
int
ipcp_InterfaceUp(struct ipcp *ipcp)
{
if (ipcp_SetIPaddress(ipcp->fsm.bundle, ipcp->my_ip, ipcp->peer_ip, 0) < 0) {
log_Printf(LogERROR, "IpcpLayerUp: unable to set ip address\n");
return 0;
}
#ifndef NOALIAS
if (alias_IsEnabled())
(*PacketAlias.SetAddress)(ipcp->my_ip);
#endif
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return 1;
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}
static int
IpcpLayerUp(struct fsm *fp)
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{
/* We're now up */
struct ipcp *ipcp = fsm2ipcp(fp);
char tbuff[100];
log_Printf(LogIPCP, "%s: IpcpLayerUp.\n", fp->link->name);
snprintf(tbuff, sizeof tbuff, "myaddr = %s ", inet_ntoa(ipcp->my_ip));
log_Printf(LogIPCP, " %s hisaddr = %s\n", tbuff, inet_ntoa(ipcp->peer_ip));
if (ipcp->peer_compproto >> 16 == PROTO_VJCOMP)
sl_compress_init(&ipcp->vj.cslc, (ipcp->peer_compproto >> 8) & 255);
if (!ipcp_InterfaceUp(ipcp))
return 0;
/*
* XXX this stuff should really live in the FSM. Our config should
* associate executable sections in files with events.
*/
if (system_Select(fp->bundle, inet_ntoa(ipcp->my_ifip), LINKUPFILE, NULL)
< 0) {
if (bundle_GetLabel(fp->bundle)) {
if (system_Select(fp->bundle, bundle_GetLabel(fp->bundle),
LINKUPFILE, NULL) < 0)
system_Select(fp->bundle, "MYADDR", LINKUPFILE, NULL);
} else
system_Select(fp->bundle, "MYADDR", LINKUPFILE, NULL);
}
throughput_start(&ipcp->throughput, "IPCP throughput",
Enabled(fp->bundle, OPT_THROUGHPUT));
log_DisplayPrompts();
return 1;
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}
static int
AcceptableAddr(struct in_range *prange, struct in_addr ipaddr)
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{
/* Is the given IP in the given range ? */
return (prange->ipaddr.s_addr & prange->mask.s_addr) ==
(ipaddr.s_addr & prange->mask.s_addr) && ipaddr.s_addr;
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}
static void
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IpcpDecodeConfig(struct fsm *fp, u_char * cp, int plen, int mode_type,
struct fsm_decode *dec)
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{
/* Deal with incoming PROTO_IPCP */
struct ipcp *ipcp = fsm2ipcp(fp);
int type, length;
u_int32_t compproto;
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struct compreq *pcomp;
struct in_addr ipaddr, dstipaddr, have_ip, dns[2], dnsnak[2];
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char tbuff[100], tbuff2[100];
int gotdns, gotdnsnak;
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gotdns = 0;
gotdnsnak = 0;
dnsnak[0].s_addr = dnsnak[1].s_addr = INADDR_ANY;
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while (plen >= sizeof(struct fsmconfig)) {
type = *cp;
length = cp[1];
if (length == 0) {
log_Printf(LogIPCP, "%s: IPCP size zero\n", fp->link->name);
break;
}
if (type < NCFTYPES)
snprintf(tbuff, sizeof tbuff, " %s[%d] ", cftypes[type], length);
else if (type > 128 && type < 128 + NCFTYPES128)
snprintf(tbuff, sizeof tbuff, " %s[%d] ", cftypes128[type-128], length);
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else
snprintf(tbuff, sizeof tbuff, " <%d>[%d] ", type, length);
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switch (type) {
case TY_IPADDR: /* RFC1332 */
ipaddr.s_addr = *(u_int32_t *)(cp + 2);
log_Printf(LogIPCP, "%s %s\n", tbuff, inet_ntoa(ipaddr));
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switch (mode_type) {
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case MODE_REQ:
if (iplist_isvalid(&ipcp->cfg.peer_list)) {
if (ipaddr.s_addr == INADDR_ANY ||
iplist_ip2pos(&ipcp->cfg.peer_list, ipaddr) < 0 ||
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ipcp_SetIPaddress(fp->bundle, ipcp->cfg.my_range.ipaddr,
ipaddr, 1)) {
log_Printf(LogIPCP, "%s: Address invalid or already in use\n",
inet_ntoa(ipaddr));
if (iplist_ip2pos(&ipcp->cfg.peer_list, ipcp->peer_ifip) >= 0)
/*
* If we've already got a valid address configured for the peer
* (in AUTO mode), try NAKing with that so that we don't
* have to upset things too much.
*/
ipcp->peer_ip = ipcp->peer_ifip;
else
/* Just pick an IP number from our list */
ipcp->peer_ip = ChooseHisAddr
(fp->bundle, ipcp->cfg.my_range.ipaddr);
if (ipcp->peer_ip.s_addr == INADDR_ANY) {
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memcpy(dec->rejend, cp, length);
dec->rejend += length;
} else {
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memcpy(dec->nakend, cp, 2);
memcpy(dec->nakend+2, &ipcp->peer_ip.s_addr, length - 2);
dec->nakend += length;
}
break;
}
} else if (!AcceptableAddr(&ipcp->cfg.peer_range, ipaddr)) {
/*
* If destination address is not acceptable, NAK with what we
* want to use.
*/
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memcpy(dec->nakend, cp, 2);
if ((ipcp->peer_ifip.s_addr & ipcp->cfg.peer_range.mask.s_addr) ==
(ipcp->cfg.peer_range.ipaddr.s_addr &
ipcp->cfg.peer_range.mask.s_addr))
/* We prefer the already-configured address */
memcpy(dec->nakend+2, &ipcp->peer_ifip.s_addr, length - 2);
else
memcpy(dec->nakend+2, &ipcp->peer_ip.s_addr, length - 2);
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dec->nakend += length;
break;
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}
ipcp->peer_ip = ipaddr;
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memcpy(dec->ackend, cp, length);
dec->ackend += length;
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break;
case MODE_NAK:
if (AcceptableAddr(&ipcp->cfg.my_range, ipaddr)) {
/* Use address suggested by peer */
snprintf(tbuff2, sizeof tbuff2, "%s changing address: %s ", tbuff,
inet_ntoa(ipcp->my_ip));
log_Printf(LogIPCP, "%s --> %s\n", tbuff2, inet_ntoa(ipaddr));
ipcp->my_ip = ipaddr;
} else {
log_Printf(log_IsKept(LogIPCP) ? LogIPCP : LogPHASE,
"%s: Unacceptable address!\n", inet_ntoa(ipaddr));
fsm_Close(&ipcp->fsm);
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}
break;
case MODE_REJ:
ipcp->peer_reject |= (1 << type);
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break;
}
break;
case TY_COMPPROTO:
compproto = htonl(*(u_int32_t *)(cp + 2));
log_Printf(LogIPCP, "%s %s\n", tbuff, vj2asc(compproto));
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switch (mode_type) {
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case MODE_REQ:
if (!IsAccepted(ipcp->cfg.vj.neg)) {
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memcpy(dec->rejend, cp, length);
dec->rejend += length;
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} else {
pcomp = (struct compreq *) (cp + 2);
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switch (length) {
case 4: /* RFC1172 */
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if (ntohs(pcomp->proto) == PROTO_VJCOMP) {
log_Printf(LogWARN, "Peer is speaking RFC1172 compression protocol !\n");
ipcp->heis1172 = 1;
ipcp->peer_compproto = compproto;
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memcpy(dec->ackend, cp, length);
dec->ackend += length;
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} else {
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memcpy(dec->nakend, cp, 2);
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pcomp->proto = htons(PROTO_VJCOMP);
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memcpy(dec->nakend+2, &pcomp, 2);
dec->nakend += length;
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}
break;
case 6: /* RFC1332 */
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if (ntohs(pcomp->proto) == PROTO_VJCOMP
&& pcomp->slots <= MAX_VJ_STATES
&& pcomp->slots >= MIN_VJ_STATES) {
ipcp->peer_compproto = compproto;
ipcp->heis1172 = 0;
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memcpy(dec->ackend, cp, length);
dec->ackend += length;
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} else {
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memcpy(dec->nakend, cp, 2);
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pcomp->proto = htons(PROTO_VJCOMP);
pcomp->slots = DEF_VJ_STATES;
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pcomp->compcid = 0;
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memcpy(dec->nakend+2, &pcomp, sizeof pcomp);
dec->nakend += length;
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}
break;
default:
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memcpy(dec->rejend, cp, length);
dec->rejend += length;
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break;
}
}
break;
case MODE_NAK:
log_Printf(LogIPCP, "%s changing compproto: %08x --> %08x\n",
tbuff, ipcp->my_compproto, compproto);
ipcp->my_compproto = compproto;
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break;
case MODE_REJ:
ipcp->peer_reject |= (1 << type);
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break;
}
break;
case TY_IPADDRS: /* RFC1172 */
ipaddr.s_addr = *(u_int32_t *)(cp + 2);
dstipaddr.s_addr = *(u_int32_t *)(cp + 6);
snprintf(tbuff2, sizeof tbuff2, "%s %s,", tbuff, inet_ntoa(ipaddr));
log_Printf(LogIPCP, "%s %s\n", tbuff2, inet_ntoa(dstipaddr));
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switch (mode_type) {
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case MODE_REQ:
ipcp->peer_ip = ipaddr;
ipcp->my_ip = dstipaddr;
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memcpy(dec->ackend, cp, length);
dec->ackend += length;
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break;
case MODE_NAK:
snprintf(tbuff2, sizeof tbuff2, "%s changing address: %s", tbuff,
inet_ntoa(ipcp->my_ip));
log_Printf(LogIPCP, "%s --> %s\n", tbuff2, inet_ntoa(ipaddr));
ipcp->my_ip = ipaddr;
ipcp->peer_ip = dstipaddr;
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break;
case MODE_REJ:
ipcp->peer_reject |= (1 << type);
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break;
}
break;
case TY_PRIMARY_DNS: /* DNS negotiation (rfc1877) */
case TY_SECONDARY_DNS:
ipaddr.s_addr = *(u_int32_t *)(cp + 2);
log_Printf(LogIPCP, "%s %s\n", tbuff, inet_ntoa(ipaddr));
switch (mode_type) {
case MODE_REQ:
if (!IsAccepted(ipcp->cfg.ns.dns_neg)) {
ipcp->my_reject |= (1 << (type - TY_ADJUST_NS));
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memcpy(dec->rejend, cp, length);
dec->rejend += length;
break;
}
if (!gotdns) {
dns[0] = ipcp->cfg.ns.dns[0];
dns[1] = ipcp->cfg.ns.dns[1];
if (dns[0].s_addr == INADDR_ANY && dns[1].s_addr == INADDR_ANY)
getdns(ipcp, dns);
gotdns = 1;
}
have_ip = dns[type == TY_PRIMARY_DNS ? 0 : 1];
if (ipaddr.s_addr != have_ip.s_addr) {
/*
* The client has got the DNS stuff wrong (first request) so
* we'll tell 'em how it is
*/
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memcpy(dec->nakend, cp, 2); /* copy first two (type/length) */
memcpy(dec->nakend + 2, &have_ip.s_addr, length - 2);
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dec->nakend += length;
} else {
/*
* Otherwise they have it right (this time) so we send a ack packet
* back confirming it... end of story
*/
memcpy(dec->ackend, cp, length);
dec->ackend += length;
}
break;
case MODE_NAK: /* what does this mean?? */
if (IsEnabled(ipcp->cfg.ns.dns_neg)) {
gotdnsnak = 1;
dnsnak[type == TY_PRIMARY_DNS ? 0 : 1].s_addr =
*(u_int32_t *)(cp + 2);
}
break;
case MODE_REJ: /* Can't do much, stop asking */
ipcp->peer_reject |= (1 << (type - TY_ADJUST_NS));
break;
}
break;
case TY_PRIMARY_NBNS: /* M$ NetBIOS nameserver hack (rfc1877) */
case TY_SECONDARY_NBNS:
ipaddr.s_addr = *(u_int32_t *)(cp + 2);
log_Printf(LogIPCP, "%s %s\n", tbuff, inet_ntoa(ipaddr));
switch (mode_type) {
case MODE_REQ:
have_ip.s_addr =
ipcp->cfg.ns.nbns[type == TY_PRIMARY_NBNS ? 0 : 1].s_addr;
if (have_ip.s_addr == INADDR_ANY) {
log_Printf(LogIPCP, "NBNS REQ - rejected - nbns not set\n");
ipcp->my_reject |= (1 << (type - TY_ADJUST_NS));
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memcpy(dec->rejend, cp, length);
dec->rejend += length;
break;
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}
if (ipaddr.s_addr != have_ip.s_addr) {
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memcpy(dec->nakend, cp, 2);
memcpy(dec->nakend+2, &have_ip.s_addr, length);
1998-03-13 21:08:05 +00:00
dec->nakend += length;
} else {
memcpy(dec->ackend, cp, length);
dec->ackend += length;
}
break;
case MODE_NAK:
log_Printf(LogIPCP, "MS NBNS req %d - NAK??\n", type);
break;
case MODE_REJ:
log_Printf(LogIPCP, "MS NBNS req %d - REJ??\n", type);
break;
}
break;
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default:
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if (mode_type != MODE_NOP) {
ipcp->my_reject |= (1 << type);
memcpy(dec->rejend, cp, length);
dec->rejend += length;
}
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break;
}
plen -= length;
cp += length;
}
if (gotdnsnak)
if (!setdns(ipcp, dnsnak)) {
ipcp->peer_reject |= (1 << (TY_PRIMARY_DNS - TY_ADJUST_NS));
ipcp->peer_reject |= (1 << (TY_SECONDARY_DNS - TY_ADJUST_NS));
}
if (mode_type != MODE_NOP) {
if (dec->rejend != dec->rej) {
/* rejects are preferred */
dec->ackend = dec->ack;
dec->nakend = dec->nak;
} else if (dec->nakend != dec->nak)
/* then NAKs */
dec->ackend = dec->ack;
}
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}
void
ipcp_Input(struct ipcp *ipcp, struct bundle *bundle, struct mbuf *bp)
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{
/* Got PROTO_IPCP from link */
if (bundle_Phase(bundle) == PHASE_NETWORK)
fsm_Input(&ipcp->fsm, bp);
else {
if (bundle_Phase(bundle) < PHASE_NETWORK)
log_Printf(LogIPCP, "%s: Error: Unexpected IPCP in phase %s (ignored)\n",
ipcp->fsm.link->name, bundle_PhaseName(bundle));
mbuf_Free(bp);
}
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}
int
ipcp_UseHisaddr(struct bundle *bundle, const char *hisaddr, int setaddr)
{
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struct ipcp *ipcp = &bundle->ncp.ipcp;
/* Use `hisaddr' for the peers address (set iface if `setaddr') */
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memset(&ipcp->cfg.peer_range, '\0', sizeof ipcp->cfg.peer_range);
iplist_reset(&ipcp->cfg.peer_list);
if (strpbrk(hisaddr, ",-")) {
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iplist_setsrc(&ipcp->cfg.peer_list, hisaddr);
if (iplist_isvalid(&ipcp->cfg.peer_list)) {
iplist_setrandpos(&ipcp->cfg.peer_list);
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ipcp->peer_ip = ChooseHisAddr(bundle, ipcp->my_ip);
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if (ipcp->peer_ip.s_addr == INADDR_ANY) {
log_Printf(LogWARN, "%s: None available !\n", ipcp->cfg.peer_list.src);
return(0);
}
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ipcp->cfg.peer_range.ipaddr.s_addr = ipcp->peer_ip.s_addr;
ipcp->cfg.peer_range.mask.s_addr = INADDR_BROADCAST;
ipcp->cfg.peer_range.width = 32;
} else {
log_Printf(LogWARN, "%s: Invalid range !\n", hisaddr);
return 0;
}
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} else if (ParseAddr(ipcp, 1, &hisaddr, &ipcp->cfg.peer_range.ipaddr,
&ipcp->cfg.peer_range.mask,
&ipcp->cfg.peer_range.width) != 0) {
ipcp->peer_ip.s_addr = ipcp->cfg.peer_range.ipaddr.s_addr;
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if (setaddr && ipcp_SetIPaddress(bundle, ipcp->cfg.my_range.ipaddr,
ipcp->cfg.peer_range.ipaddr, 0) < 0) {
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ipcp->cfg.my_range.ipaddr.s_addr = INADDR_ANY;
ipcp->cfg.peer_range.ipaddr.s_addr = INADDR_ANY;
return 0;
}
} else
return 0;
return 1;
}