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1949 lines (1773 loc) · 47.5 KB
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/*
* lcp.c - PPP Link Control Protocol.
*
* Copyright (c) 1989 Carnegie Mellon University.
* All rights reserved.
*
* 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 Carnegie Mellon University. The name of the
* University 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.
*/
/*
* TODO:
*/
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include "pppd.h"
#include "fsm.h"
#include "lcp.h"
#include "chap.h"
#include "magic.h"
/*
* LCP-related command-line options.
*/
static int lcp_echo_interval = 0; /* Interval between LCP echo-requests */
static int lcp_echo_fails = 0; /* Tolerance to unanswered echo-requests */
static bool lax_recv = false; /* accept control chars in asyncmap */
static int setescape(char **);
static option_t lcp_option_list[] = {
/* LCP options */
{ "noaccomp", o_bool, &lcp_wantoptions[0].neg_accompression,
"Disable address/control compression",
OPT_A2COPY, &lcp_allowoptions[0].neg_accompression, 0, 0 },
{ "-ac", o_bool, &lcp_wantoptions[0].neg_accompression,
"Disable address/control compression",
OPT_A2COPY, &lcp_allowoptions[0].neg_accompression, 0, 0 },
{ "default-asyncmap", o_bool, &lcp_wantoptions[0].neg_asyncmap,
"Disable asyncmap negotiation",
OPT_A2COPY, &lcp_allowoptions[0].neg_asyncmap, 0, 0 },
{ "-am", o_bool, &lcp_wantoptions[0].neg_asyncmap,
"Disable asyncmap negotiation",
OPT_A2COPY, &lcp_allowoptions[0].neg_asyncmap, 0, 0 },
{ "asyncmap", o_uint32, &lcp_wantoptions[0].asyncmap,
"Set asyncmap (for received packets)",
OPT_OR, &lcp_wantoptions[0].neg_asyncmap, 0, 0 },
{ "-as", o_uint32, &lcp_wantoptions[0].asyncmap,
"Set asyncmap (for received packets)",
OPT_OR, &lcp_wantoptions[0].neg_asyncmap, 0, 0 },
{ "nomagic", o_bool, &lcp_wantoptions[0].neg_magicnumber,
"Disable magic number negotiation (looped-back line detection)",
OPT_A2COPY, &lcp_allowoptions[0].neg_magicnumber, 0, 0 },
{ "-mn", o_bool, &lcp_wantoptions[0].neg_magicnumber,
"Disable magic number negotiation (looped-back line detection)",
OPT_A2COPY, &lcp_allowoptions[0].neg_magicnumber, 0, 0 },
{ "default-mru", o_bool, &lcp_wantoptions[0].neg_mru,
"Disable MRU negotiation (use default 1500)",
OPT_A2COPY, &lcp_allowoptions[0].neg_mru, 0, 0 },
{ "-mru", o_bool, &lcp_wantoptions[0].neg_mru,
"Disable MRU negotiation (use default 1500)",
OPT_A2COPY, &lcp_allowoptions[0].neg_mru, 0, 0 },
{ "mru", o_int, &lcp_wantoptions[0].mru,
"Set MRU (maximum received packet size) for negotiation",
0, &lcp_wantoptions[0].neg_mru, 0, 0 },
{ "nopcomp", o_bool, &lcp_wantoptions[0].neg_pcompression,
"Disable protocol field compression",
OPT_A2COPY, &lcp_allowoptions[0].neg_pcompression, 0, 0 },
{ "-pc", o_bool, &lcp_wantoptions[0].neg_pcompression,
"Disable protocol field compression",
OPT_A2COPY, &lcp_allowoptions[0].neg_pcompression, 0, 0 },
{ "-p", o_bool, &lcp_wantoptions[0].passive,
"Set passive mode", 1, NULL, 0, 0 },
{ "passive", o_bool, &lcp_wantoptions[0].passive,
"Set passive mode", 1, NULL, 0, 0 },
{ "silent", o_bool, &lcp_wantoptions[0].silent,
"Set silent mode", 1, NULL, 0, 0 },
{ "escape", o_special, setescape,
"List of character codes to escape on transmission", 0, NULL, 0, 0 },
{ "lcp-echo-failure", o_int, &lcp_echo_fails,
"Set number of consecutive echo failures to indicate link failure", 0, NULL, 0, 0 },
{ "lcp-echo-interval", o_int, &lcp_echo_interval,
"Set time in seconds between LCP echo requests", 0, NULL, 0, 0 },
{ "lcp-restart", o_int, &lcp_fsm[0].timeouttime,
"Set time in seconds between LCP retransmissions", 0, NULL, 0, 0 },
{ "lcp-max-terminate", o_int, &lcp_fsm[0].maxtermtransmits,
"Set maximum number of LCP terminate-request transmissions", 0, NULL, 0, 0 },
{ "lcp-max-configure", o_int, &lcp_fsm[0].maxconfreqtransmits,
"Set maximum number of LCP configure-request transmissions", 0, NULL, 0, 0 },
{ "lcp-max-failure", o_int, &lcp_fsm[0].maxnakloops,
"Set limit on number of LCP configure-naks", 0, NULL, 0, 0 },
{ "receive-all", o_bool, &lax_recv,
"Accept all received control characters", 1, NULL, 0, 0 },
{NULL, 0, NULL, NULL, 0, NULL, 0, 0}
};
/* global vars */
fsm lcp_fsm[NUM_PPP]; /* LCP fsm structure (global)*/
lcp_options lcp_wantoptions[NUM_PPP]; /* Options that we want to request */
lcp_options lcp_gotoptions[NUM_PPP]; /* Options that peer ack'd */
lcp_options lcp_allowoptions[NUM_PPP]; /* Options we allow peer to request */
lcp_options lcp_hisoptions[NUM_PPP]; /* Options that we ack'd */
uint32_t xmit_accm[NUM_PPP][8]; /* extended transmit ACCM */
static int lcp_echos_pending = 0; /* Number of outstanding echo msgs */
static int lcp_echo_number = 0; /* ID number of next echo frame */
static int lcp_echo_timer_running = 0; /* set if a timer is running */
static u_char nak_buffer[PPP_MRU]; /* where we construct a nak packet */
/*
* Callbacks for fsm code. (CI = Configuration Information)
*/
static void lcp_resetci(fsm *); /* Reset our CI */
static int lcp_cilen(fsm *); /* Return length of our CI */
static void lcp_addci(fsm *, u_char *, int *); /* Add our CI to pkt */
static int lcp_ackci(fsm *, u_char *, int); /* Peer ack'd our CI */
static int lcp_nakci(fsm *, u_char *, int); /* Peer nak'd our CI */
static int lcp_rejci(fsm *, u_char *, int); /* Peer rej'd our CI */
static int lcp_reqci(fsm *, u_char *, int *, int); /* Rcv peer CI */
static void lcp_up(fsm *); /* We're UP */
static void lcp_down(fsm *); /* We're DOWN */
static void lcp_starting(fsm *); /* We need lower layer up */
static void lcp_finished(fsm *); /* We need lower layer down */
static int lcp_extcode(fsm *, int, int, u_char *, int);
static void lcp_rprotrej(fsm *, u_char *, int);
/*
* routines to send LCP echos to peer
*/
static void lcp_echo_lowerup(int);
static void lcp_echo_lowerdown(int);
static void LcpEchoTimeout(void *);
static void lcp_received_echo_reply(fsm *, int, u_char *, int);
static void LcpSendEchoRequest(fsm *);
static void LcpLinkFailure(fsm *);
static void LcpEchoCheck(fsm *);
static fsm_callbacks lcp_callbacks = { /* LCP callback routines */
lcp_resetci, /* Reset our Configuration Information */
lcp_cilen, /* Length of our Configuration Information */
lcp_addci, /* Add our Configuration Information */
lcp_ackci, /* ACK our Configuration Information */
lcp_nakci, /* NAK our Configuration Information */
lcp_rejci, /* Reject our Configuration Information */
lcp_reqci, /* Request peer's Configuration Information */
lcp_up, /* Called when fsm reaches OPENED state */
lcp_down, /* Called when fsm leaves OPENED state */
lcp_starting, /* Called when we want the lower layer up */
lcp_finished, /* Called when we want the lower layer down */
NULL, /* Called when Protocol-Reject received */
NULL, /* Retransmission is necessary */
lcp_extcode, /* Called to handle LCP-specific codes */
"LCP" /* String name of protocol */
};
/*
* Protocol entry points.
* Some of these are called directly.
*/
static void lcp_init(int);
static void lcp_input(int, u_char *, int);
static void lcp_protrej(int);
static int lcp_printpkt(u_char *, int,
void (*)(void *, char *, ...), void *);
struct protent lcp_protent = {
PPP_LCP,
lcp_init,
lcp_input,
lcp_protrej,
lcp_lowerup,
lcp_lowerdown,
lcp_open,
lcp_close,
lcp_printpkt,
NULL,
1,
"LCP",
NULL,
lcp_option_list,
NULL,
NULL,
NULL
};
int lcp_loopbackfail = DEFLOOPBACKFAIL;
/*
* Length of each type of configuration option (in octets)
*/
#define CILEN_VOID 2
#define CILEN_CHAR 3
#define CILEN_SHORT 4 /* CILEN_VOID + 2 */
#define CILEN_CHAP 5 /* CILEN_VOID + 2 + 1 */
#define CILEN_LONG 6 /* CILEN_VOID + 4 */
#define CILEN_LQR 8 /* CILEN_VOID + 2 + 4 */
#define CILEN_CBCP 3
#define CODENAME(x) ((x) == CONFACK ? "ACK" : \
(x) == CONFNAK ? "NAK" : "REJ")
/*
* setescape - add chars to the set we escape on transmission.
*/
static int
setescape(
char **argv)
{
int n, ret;
char *p, *endp;
p = *argv;
ret = 1;
while (*p) {
n = strtol(p, &endp, 16);
if (p == endp) {
option_error("escape parameter contains invalid hex number '%s'",
p);
return 0;
}
p = endp;
if (n < 0 || n == 0x5E || n > 0xFF) {
option_error("can't escape character 0x%x", n);
ret = 0;
} else
xmit_accm[0][n >> 5] |= 1 << (n & 0x1F);
while (*p == ',' || *p == ' ')
++p;
}
return ret;
}
/*
* lcp_init - Initialize LCP.
*/
static void
lcp_init(
int unit)
{
fsm *f = &lcp_fsm[unit];
lcp_options *wo = &lcp_wantoptions[unit];
lcp_options *ao = &lcp_allowoptions[unit];
f->unit = unit;
f->protocol = PPP_LCP;
f->callbacks = &lcp_callbacks;
fsm_init(f);
wo->passive = 0;
wo->silent = 0;
wo->restart = 0; /* Set to 1 in kernels or multi-line
implementations */
wo->neg_mru = 1;
wo->mru = DEFMRU;
wo->neg_asyncmap = 1;
wo->asyncmap = 0;
wo->neg_chap = 0; /* Set to 1 on server */
wo->neg_upap = 0; /* Set to 1 on server */
wo->chap_mdtype = CHAP_DIGEST_MD5;
wo->neg_magicnumber = 1;
wo->neg_pcompression = 1;
wo->neg_accompression = 1;
wo->neg_lqr = 0; /* no LQR implementation yet */
wo->neg_cbcp = 0;
ao->neg_mru = 1;
ao->mru = MAXMRU;
ao->neg_asyncmap = 1;
ao->asyncmap = 0;
ao->neg_chap = 1;
ao->chap_mdtype = CHAP_DIGEST_MD5;
ao->neg_upap = 1;
ao->neg_magicnumber = 1;
ao->neg_pcompression = 1;
ao->neg_accompression = 1;
ao->neg_lqr = 0; /* no LQR implementation yet */
#ifdef CBCP_SUPPORT
ao->neg_cbcp = 1;
#else
ao->neg_cbcp = 0;
#endif
memset(xmit_accm[unit], 0, sizeof(xmit_accm[0]));
xmit_accm[unit][3] = 0x60000000;
}
/*
* lcp_open - LCP is allowed to come up.
*/
void
lcp_open(
int unit)
{
fsm *f = &lcp_fsm[unit];
lcp_options *wo = &lcp_wantoptions[unit];
f->flags = 0;
if (wo->passive)
f->flags |= OPT_PASSIVE;
if (wo->silent)
f->flags |= OPT_SILENT;
fsm_open(f);
}
/*
* lcp_close - Take LCP down.
*/
void
lcp_close(
int unit,
char *reason)
{
fsm *f = &lcp_fsm[unit];
if (pppd_phase != PHASE_DEAD)
new_phase(PHASE_TERMINATE);
if (f->state == STOPPED && f->flags & (OPT_PASSIVE|OPT_SILENT)) {
/*
* This action is not strictly according to the FSM in RFC1548,
* but it does mean that the program terminates if you do a
* lcp_close() in passive/silent mode when a connection hasn't
* been established.
*/
f->state = CLOSED;
lcp_finished(f);
} else
fsm_close(&lcp_fsm[unit], reason);
}
/*
* lcp_lowerup - The lower layer is up.
*/
void
lcp_lowerup(
int unit)
{
lcp_options *wo = &lcp_wantoptions[unit];
/*
* Don't use A/C or protocol compression on transmission,
* but accept A/C and protocol compressed packets
* if we are going to ask for A/C and protocol compression.
*/
ppp_set_xaccm(unit, xmit_accm[unit]);
ppp_send_config(unit, PPP_MRU, 0xffffffff, 0, 0);
ppp_recv_config(unit, PPP_MRU, (lax_recv? 0: 0xffffffff),
wo->neg_pcompression, wo->neg_accompression);
peer_mru[unit] = PPP_MRU;
lcp_allowoptions[unit].asyncmap = xmit_accm[unit][0];
fsm_lowerup(&lcp_fsm[unit]);
}
/*
* lcp_lowerdown - The lower layer is down.
*/
void
lcp_lowerdown(
int unit)
{
fsm_lowerdown(&lcp_fsm[unit]);
}
/*
* lcp_input - Input LCP packet.
*/
static void
lcp_input(
int unit,
u_char *p,
int len)
{
fsm *f = &lcp_fsm[unit];
fsm_input(f, p, len);
}
/*
* lcp_extcode - Handle a LCP-specific code.
*/
static int
lcp_extcode(
fsm *f,
int code, int id,
u_char *inp,
int len)
{
u_char *magp;
switch( code ){
case PROTREJ:
lcp_rprotrej(f, inp, len);
break;
case ECHOREQ:
if (f->state != OPENED)
break;
magp = inp;
PUTLONG(lcp_gotoptions[f->unit].magicnumber, magp);
fsm_sdata(f, ECHOREP, id, inp, len);
break;
case ECHOREP:
lcp_received_echo_reply(f, id, inp, len);
break;
case DISCREQ:
break;
default:
return 0;
}
return 1;
}
/*
* lcp_rprotrej - Receive an Protocol-Reject.
*
* Figure out which protocol is rejected and inform it.
*/
static void
lcp_rprotrej(
fsm *f,
u_char *inp,
int len)
{
int i;
struct protent *protp;
u_short prot;
if (len < 2) {
LCPDEBUG(("lcp_rprotrej: Rcvd short Protocol-Reject packet!"));
return;
}
GETSHORT(prot, inp);
/*
* Protocol-Reject packets received in any state other than the LCP
* OPENED state SHOULD be silently discarded.
*/
if( f->state != OPENED ){
LCPDEBUG(("Protocol-Reject discarded: LCP in state %d", f->state));
return;
}
/*
* Upcall the proper Protocol-Reject routine.
*/
for (i = 0; (protp = protocols[i]) != NULL; ++i)
if (protp->protocol == prot && protp->enabled_flag) {
(*protp->protrej)(f->unit);
return;
}
warn("Protocol-Reject for unsupported protocol 0x%x", prot);
}
/*
* lcp_protrej - A Protocol-Reject was received.
*/
/*ARGSUSED*/
static void
lcp_protrej(
int unit)
{
/*
* Can't reject LCP!
*/
error("Received Protocol-Reject for LCP!");
fsm_protreject(&lcp_fsm[unit]);
}
/*
* lcp_sprotrej - Send a Protocol-Reject for some protocol.
*/
void
lcp_sprotrej(
int unit,
u_char *p,
int len)
{
/*
* Send back the protocol and the information field of the
* rejected packet. We only get here if LCP is in the OPENED state.
*/
p += 2;
len -= 2;
fsm_sdata(&lcp_fsm[unit], PROTREJ, ++lcp_fsm[unit].id,
p, len);
}
/*
* lcp_resetci - Reset our CI.
*/
static void
lcp_resetci(
fsm *f)
{
lcp_wantoptions[f->unit].magicnumber = magic();
lcp_wantoptions[f->unit].numloops = 0;
lcp_gotoptions[f->unit] = lcp_wantoptions[f->unit];
peer_mru[f->unit] = PPP_MRU;
auth_reset(f->unit);
}
/*
* lcp_cilen - Return length of our CI.
*/
static int
lcp_cilen(
fsm *f)
{
lcp_options *go = &lcp_gotoptions[f->unit];
#define LENCIVOID(neg) ((neg) ? CILEN_VOID : 0)
#define LENCICHAP(neg) ((neg) ? CILEN_CHAP : 0)
#define LENCISHORT(neg) ((neg) ? CILEN_SHORT : 0)
#define LENCILONG(neg) ((neg) ? CILEN_LONG : 0)
#define LENCILQR(neg) ((neg) ? CILEN_LQR: 0)
#define LENCICBCP(neg) ((neg) ? CILEN_CBCP: 0)
/*
* NB: we only ask for one of CHAP and UPAP, even if we will
* accept either.
*/
return (LENCISHORT(go->neg_mru && go->mru != DEFMRU) +
LENCILONG(go->neg_asyncmap && go->asyncmap != 0xFFFFFFFF) +
LENCICHAP(go->neg_chap) +
LENCISHORT(!go->neg_chap && go->neg_upap) +
LENCILQR(go->neg_lqr) +
LENCICBCP(go->neg_cbcp) +
LENCILONG(go->neg_magicnumber) +
LENCIVOID(go->neg_pcompression) +
LENCIVOID(go->neg_accompression));
}
/*
* lcp_addci - Add our desired CIs to a packet.
*/
static void
lcp_addci(
fsm *f,
u_char *ucp,
int *lenp)
{
lcp_options *go = &lcp_gotoptions[f->unit];
u_char *start_ucp = ucp;
#define ADDCIVOID(opt, neg) \
if (neg) { \
PUTCHAR(opt, ucp); \
PUTCHAR(CILEN_VOID, ucp); \
}
#define ADDCISHORT(opt, neg, val) \
if (neg) { \
PUTCHAR(opt, ucp); \
PUTCHAR(CILEN_SHORT, ucp); \
PUTSHORT(val, ucp); \
}
#define ADDCICHAP(opt, neg, val, digest) \
if (neg) { \
PUTCHAR(opt, ucp); \
PUTCHAR(CILEN_CHAP, ucp); \
PUTSHORT(val, ucp); \
PUTCHAR(digest, ucp); \
}
#define ADDCILONG(opt, neg, val) \
if (neg) { \
PUTCHAR(opt, ucp); \
PUTCHAR(CILEN_LONG, ucp); \
PUTLONG(val, ucp); \
}
#define ADDCILQR(opt, neg, val) \
if (neg) { \
PUTCHAR(opt, ucp); \
PUTCHAR(CILEN_LQR, ucp); \
PUTSHORT(PPP_LQR, ucp); \
PUTLONG(val, ucp); \
}
#define ADDCICHAR(opt, neg, val) \
if (neg) { \
PUTCHAR(opt, ucp); \
PUTCHAR(CILEN_CHAR, ucp); \
PUTCHAR(val, ucp); \
}
ADDCISHORT(CI_MRU, go->neg_mru && go->mru != DEFMRU, go->mru);
ADDCILONG(CI_ASYNCMAP, go->neg_asyncmap && go->asyncmap != 0xFFFFFFFF,
go->asyncmap);
ADDCICHAP(CI_AUTHTYPE, go->neg_chap, PPP_CHAP, go->chap_mdtype);
ADDCISHORT(CI_AUTHTYPE, !go->neg_chap && go->neg_upap, PPP_PAP);
ADDCILQR(CI_QUALITY, go->neg_lqr, go->lqr_period);
ADDCICHAR(CI_CALLBACK, go->neg_cbcp, CBCP_OPT);
ADDCILONG(CI_MAGICNUMBER, go->neg_magicnumber, go->magicnumber);
ADDCIVOID(CI_PCOMPRESSION, go->neg_pcompression);
ADDCIVOID(CI_ACCOMPRESSION, go->neg_accompression);
if (ucp - start_ucp != *lenp) {
/* this should never happen, because peer_mtu should be 1500 */
error("Bug in lcp_addci: wrong length");
}
}
/*
* lcp_ackci - Ack our CIs.
* This should not modify any state if the Ack is bad.
*
* Returns:
* 0 - Ack was bad.
* 1 - Ack was good.
*/
static int
lcp_ackci(
fsm *f,
u_char *p,
int len)
{
lcp_options *go = &lcp_gotoptions[f->unit];
u_char cilen, citype, cichar;
u_short cishort;
uint32_t cilong;
/*
* CIs must be in exactly the same order that we sent.
* Check packet length and CI length at each step.
* If we find any deviations, then this packet is bad.
*/
#define ACKCIVOID(opt, neg) \
if (neg) { \
if ((len -= CILEN_VOID) < 0) \
goto bad; \
GETCHAR(citype, p); \
GETCHAR(cilen, p); \
if (cilen != CILEN_VOID || \
citype != opt) \
goto bad; \
}
#define ACKCISHORT(opt, neg, val) \
if (neg) { \
if ((len -= CILEN_SHORT) < 0) \
goto bad; \
GETCHAR(citype, p); \
GETCHAR(cilen, p); \
if (cilen != CILEN_SHORT || \
citype != opt) \
goto bad; \
GETSHORT(cishort, p); \
if (cishort != val) \
goto bad; \
}
#define ACKCICHAR(opt, neg, val) \
if (neg) { \
if ((len -= CILEN_CHAR) < 0) \
goto bad; \
GETCHAR(citype, p); \
GETCHAR(cilen, p); \
if (cilen != CILEN_CHAR || \
citype != opt) \
goto bad; \
GETCHAR(cichar, p); \
if (cichar != val) \
goto bad; \
}
#define ACKCICHAP(opt, neg, val, digest) \
if (neg) { \
if ((len -= CILEN_CHAP) < 0) \
goto bad; \
GETCHAR(citype, p); \
GETCHAR(cilen, p); \
if (cilen != CILEN_CHAP || \
citype != opt) \
goto bad; \
GETSHORT(cishort, p); \
if (cishort != val) \
goto bad; \
GETCHAR(cichar, p); \
if (cichar != digest) \
goto bad; \
}
#define ACKCILONG(opt, neg, val) \
if (neg) { \
if ((len -= CILEN_LONG) < 0) \
goto bad; \
GETCHAR(citype, p); \
GETCHAR(cilen, p); \
if (cilen != CILEN_LONG || \
citype != opt) \
goto bad; \
GETLONG(cilong, p); \
if (cilong != val) \
goto bad; \
}
#define ACKCILQR(opt, neg, val) \
if (neg) { \
if ((len -= CILEN_LQR) < 0) \
goto bad; \
GETCHAR(citype, p); \
GETCHAR(cilen, p); \
if (cilen != CILEN_LQR || \
citype != opt) \
goto bad; \
GETSHORT(cishort, p); \
if (cishort != PPP_LQR) \
goto bad; \
GETLONG(cilong, p); \
if (cilong != val) \
goto bad; \
}
ACKCISHORT(CI_MRU, go->neg_mru && go->mru != DEFMRU, go->mru);
ACKCILONG(CI_ASYNCMAP, go->neg_asyncmap && go->asyncmap != 0xFFFFFFFF,
go->asyncmap);
ACKCICHAP(CI_AUTHTYPE, go->neg_chap, PPP_CHAP, go->chap_mdtype);
ACKCISHORT(CI_AUTHTYPE, !go->neg_chap && go->neg_upap, PPP_PAP);
ACKCILQR(CI_QUALITY, go->neg_lqr, go->lqr_period);
ACKCICHAR(CI_CALLBACK, go->neg_cbcp, CBCP_OPT);
ACKCILONG(CI_MAGICNUMBER, go->neg_magicnumber, go->magicnumber);
ACKCIVOID(CI_PCOMPRESSION, go->neg_pcompression);
ACKCIVOID(CI_ACCOMPRESSION, go->neg_accompression);
/*
* If there are any remaining CIs, then this packet is bad.
*/
if (len != 0)
goto bad;
return (1);
bad:
LCPDEBUG(("lcp_acki: received bad Ack!"));
return (0);
}
/*
* lcp_nakci - Peer has sent a NAK for some of our CIs.
* This should not modify any state if the Nak is bad
* or if LCP is in the OPENED state.
*
* Returns:
* 0 - Nak was bad.
* 1 - Nak was good.
*/
static int
lcp_nakci(
fsm *f,
u_char *p,
int len)
{
lcp_options *go = &lcp_gotoptions[f->unit];
lcp_options *wo = &lcp_wantoptions[f->unit];
u_char citype, cichar, *next;
u_short cishort;
uint32_t cilong;
lcp_options no; /* options we've seen Naks for */
lcp_options try; /* options to request next time */
int looped_back = 0;
int cilen;
BZERO(&no, sizeof(no));
try = *go;
/*
* Any Nak'd CIs must be in exactly the same order that we sent.
* Check packet length and CI length at each step.
* If we find any deviations, then this packet is bad.
*/
#define NAKCIVOID(opt, neg, code) \
if (go->neg && \
len >= CILEN_VOID && \
p[1] == CILEN_VOID && \
p[0] == opt) { \
len -= CILEN_VOID; \
INCPTR(CILEN_VOID, p); \
no.neg = 1; \
code \
}
#define NAKCICHAP(opt, neg, code) \
if (go->neg && \
len >= CILEN_CHAP && \
p[1] == CILEN_CHAP && \
p[0] == opt) { \
len -= CILEN_CHAP; \
INCPTR(2, p); \
GETSHORT(cishort, p); \
GETCHAR(cichar, p); \
no.neg = 1; \
code \
}
#define NAKCICHAR(opt, neg, code) \
if (go->neg && \
len >= CILEN_CHAR && \
p[1] == CILEN_CHAR && \
p[0] == opt) { \
len -= CILEN_CHAR; \
INCPTR(2, p); \
GETCHAR(cichar, p); \
no.neg = 1; \
code \
}
#define NAKCISHORT(opt, neg, code) \
if (go->neg && \
len >= CILEN_SHORT && \
p[1] == CILEN_SHORT && \
p[0] == opt) { \
len -= CILEN_SHORT; \
INCPTR(2, p); \
GETSHORT(cishort, p); \
no.neg = 1; \
code \
}
#define NAKCILONG(opt, neg, code) \
if (go->neg && \
len >= CILEN_LONG && \
p[1] == CILEN_LONG && \
p[0] == opt) { \
len -= CILEN_LONG; \
INCPTR(2, p); \
GETLONG(cilong, p); \
no.neg = 1; \
code \
}
#define NAKCILQR(opt, neg, code) \
if (go->neg && \
len >= CILEN_LQR && \
p[1] == CILEN_LQR && \
p[0] == opt) { \
len -= CILEN_LQR; \
INCPTR(2, p); \
GETSHORT(cishort, p); \
GETLONG(cilong, p); \
no.neg = 1; \
code \
}
/*
* We don't care if they want to send us smaller packets than
* we want. Therefore, accept any MRU less than what we asked for,
* but then ignore the new value when setting the MRU in the kernel.
* If they send us a bigger MRU than what we asked, accept it, up to
* the limit of the default MRU we'd get if we didn't negotiate.
*/
if (go->neg_mru && go->mru != DEFMRU) {
NAKCISHORT(CI_MRU, neg_mru,
if (cishort <= wo->mru || cishort <= DEFMRU)
try.mru = cishort;
);
}
/*
* Add any characters they want to our (receive-side) asyncmap.
*/
if (go->neg_asyncmap && go->asyncmap != 0xFFFFFFFF) {
NAKCILONG(CI_ASYNCMAP, neg_asyncmap,
try.asyncmap = go->asyncmap | cilong;
);
}
/*
* If they've nak'd our authentication-protocol, check whether
* they are proposing a different protocol, or a different
* hash algorithm for CHAP.
*/
if ((go->neg_chap || go->neg_upap)
&& len >= CILEN_SHORT
&& p[0] == CI_AUTHTYPE && p[1] >= CILEN_SHORT && p[1] <= len) {
cilen = p[1];
len -= cilen;
no.neg_chap = go->neg_chap;
no.neg_upap = go->neg_upap;
INCPTR(2, p);
GETSHORT(cishort, p);
if (cishort == PPP_PAP && cilen == CILEN_SHORT) {
/*
* If we were asking for CHAP, they obviously don't want to do it.
* If we weren't asking for CHAP, then we were asking for PAP,
* in which case this Nak is bad.
*/
if (!go->neg_chap)
goto bad;
try.neg_chap = 0;
} else if (cishort == PPP_CHAP && cilen == CILEN_CHAP) {
GETCHAR(cichar, p);
if (go->neg_chap) {
/*
* We were asking for CHAP/MD5; they must want a different
* algorithm. If they can't do MD5, we can ask for M$-CHAP
* if we support it, otherwise we'll have to stop
* asking for CHAP.
*/
if (cichar != go->chap_mdtype) {
#ifdef CHAPMS
if (cichar == CHAP_MICROSOFT)
go->chap_mdtype = CHAP_MICROSOFT;
else
#endif /* CHAPMS */
try.neg_chap = 0;
}
} else {
/*
* Stop asking for PAP if we were asking for it.
*/
try.neg_upap = 0;
}
} else {
/*
* We don't recognize what they're suggesting.
* Stop asking for what we were asking for.
*/
if (go->neg_chap)
try.neg_chap = 0;
else
try.neg_upap = 0;
p += cilen - CILEN_SHORT;
}
}
/*
* If they can't cope with our link quality protocol, we'll have
* to stop asking for LQR. We haven't got any other protocol.
* If they Nak the reporting period, take their value XXX ?
*/
NAKCILQR(CI_QUALITY, neg_lqr,
if (cishort != PPP_LQR)
try.neg_lqr = 0;
else
try.lqr_period = cilong;
);
/*
* Only implementing CBCP...not the rest of the callback options
*/
NAKCICHAR(CI_CALLBACK, neg_cbcp,
try.neg_cbcp = 0;
);
/*
* Check for a looped-back line.
*/
NAKCILONG(CI_MAGICNUMBER, neg_magicnumber,
try.magicnumber = magic();
looped_back = 1;
);
/*
* Peer shouldn't send Nak for protocol compression or
* address/control compression requests; they should send
* a Reject instead. If they send a Nak, treat it as a Reject.
*/
NAKCIVOID(CI_PCOMPRESSION, neg_pcompression,
try.neg_pcompression = 0;
);
NAKCIVOID(CI_ACCOMPRESSION, neg_accompression,
try.neg_accompression = 0;
);
/*
* There may be remaining CIs, if the peer is requesting negotiation
* on an option that we didn't include in our request packet.
* If we see an option that we requested, or one we've already seen
* in this packet, then this packet is bad.
* If we wanted to respond by starting to negotiate on the requested
* option(s), we could, but we don't, because except for the
* authentication type and quality protocol, if we are not negotiating
* an option, it is because we were told not to.
* For the authentication type, the Nak from the peer means
* `let me authenticate myself with you' which is a bit pointless.
* For the quality protocol, the Nak means `ask me to send you quality