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/***************************************************************************** * lcp.c - Network Link Control Protocol program file. * * Copyright (c) 2003 by Marc Boucher, Services Informatiques (MBSI) inc. * portions Copyright (c) 1997 by Global Election Systems Inc. * * The authors hereby grant permission to use, copy, modify, distribute, * and license this software and its documentation for any purpose, provided * that existing copyright notices are retained in all copies and that this * notice and the following disclaimer are included verbatim in any * distributions. No written agreement, license, or royalty fee is required * for any of the authorized uses. * * THIS SOFTWARE IS PROVIDED BY THE CONTRIBUTORS *AS IS* AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * ****************************************************************************** * REVISION HISTORY * * 03-01-01 Marc Boucher <marc@mbsi.ca> * Ported to lwIP. * 97-12-01 Guy Lancaster <lancasterg@acm.org>, Global Election Systems Inc. * Original. *****************************************************************************/ /* * 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. */ #include <string.h> #include "ppp.h" #if PPP_SUPPORT > 0 #include "fsm.h" #include "chap.h" #include "magic.h" #include "auth.h" #include "lcp.h" #include "pppdebug.h" /*************************/ /*** LOCAL DEFINITIONS ***/ /*************************/ /* * Length of each type of configuration option (in octets) */ #define CILEN_VOID 2 #define CILEN_CHAR 3 #define CILEN_SHORT 4 /* CILEN_VOID + sizeof(short) */ #define CILEN_CHAP 5 /* CILEN_VOID + sizeof(short) + 1 */ #define CILEN_LONG 6 /* CILEN_VOID + sizeof(long) */ #define CILEN_LQR 8 /* CILEN_VOID + sizeof(short) + sizeof(long) */ #define CILEN_CBCP 3 /***********************************/ /*** LOCAL FUNCTION DECLARATIONS ***/ /***********************************/ /* * 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, u_char, 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*); /* * Protocol entry points. * Some of these are called directly. */ static void lcp_input (int, u_char *, int); static void lcp_protrej (int); #define CODENAME(x) ((x) == CONFACK ? "ACK" : \ (x) == CONFNAK ? "NAK" : "REJ") /******************************/ /*** PUBLIC DATA STRUCTURES ***/ /******************************/ /* global vars */ LinkPhase lcp_phase[NUM_PPP]; /* Phase of link session (RFC 1661) */ 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 */ ext_accm xmit_accm[NUM_PPP]; /* extended transmit ACCM */ /*****************************/ /*** LOCAL DATA STRUCTURES ***/ /*****************************/ static fsm lcp_fsm[NUM_PPP]; /* LCP fsm structure (global)*/ static u_int lcp_echo_interval = LCP_ECHOINTERVAL; /* Interval between LCP echo-requests */ static u_int lcp_echo_fails = LCP_MAXECHOFAILS; /* Tolerance to unanswered echo-requests */ static u32_t lcp_echos_pending = 0; /* Number of outstanding echo msgs */ static u32_t lcp_echo_number = 0; /* ID number of next echo frame */ static u32_t lcp_echo_timer_running = 0; /* TRUE if a timer is running */ static u_char nak_buffer[PPP_MRU]; /* where we construct a nak packet */ 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 */ }; struct protent lcp_protent = { PPP_LCP, lcp_init, lcp_input, lcp_protrej, lcp_lowerup, lcp_lowerdown, lcp_open, lcp_close, #if 0 lcp_printpkt, NULL, #endif 1, "LCP", #if 0 NULL, NULL, NULL #endif }; int lcp_loopbackfail = DEFLOOPBACKFAIL; /***********************************/ /*** PUBLIC FUNCTION DEFINITIONS ***/ /***********************************/ /* * lcp_init - Initialize LCP. */ 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 = PPP_DEFMRU; wo->neg_asyncmap = 1; wo->asyncmap = 0x00000000l; /* Assume don't need to escape any ctl chars. */ 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 = PPP_MAXMRU; ao->neg_asyncmap = 1; ao->asyncmap = 0x00000000l; /* Assume don't need to escape any ctl chars. */ ao->neg_chap = (CHAP_SUPPORT != 0); ao->chap_mdtype = CHAP_DIGEST_MD5; ao->neg_upap = (PAP_SUPPORT != 0); ao->neg_magicnumber = 1; ao->neg_pcompression = 1; ao->neg_accompression = 1; ao->neg_lqr = 0; /* no LQR implementation yet */ ao->neg_cbcp = (CBCP_SUPPORT != 0); /* * Set transmit escape for the flag and escape characters plus anything * set for the allowable options. */ memset(xmit_accm[unit], 0, sizeof(xmit_accm[0])); xmit_accm[unit][15] = 0x60; xmit_accm[unit][0] = (u_char)(ao->asyncmap & 0xFF); xmit_accm[unit][1] = (u_char)((ao->asyncmap >> 8) & 0xFF); xmit_accm[unit][2] = (u_char)((ao->asyncmap >> 16) & 0xFF); xmit_accm[unit][3] = (u_char)((ao->asyncmap >> 24) & 0xFF); LCPDEBUG((LOG_INFO, "lcp_init: xmit_accm=%X %X %X %X\n", xmit_accm[unit][0], xmit_accm[unit][1], xmit_accm[unit][2], xmit_accm[unit][3])); lcp_phase[unit] = PHASE_INITIALIZE; } /* * 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_phase[unit] = PHASE_ESTABLISH; } /* * lcp_close - Take LCP down. */ void lcp_close(int unit, char *reason) { fsm *f = &lcp_fsm[unit]; if (lcp_phase[unit] != PHASE_DEAD) lcp_phase[unit] = 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 an * 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, 0xffffffffl, 0, 0); ppp_recv_config(unit, PPP_MRU, 0x00000000l, wo->neg_pcompression, wo->neg_accompression); peer_mru[unit] = PPP_MRU; lcp_allowoptions[unit].asyncmap = (u_long)xmit_accm[unit][0] | ((u_long)xmit_accm[unit][1] << 8) | ((u_long)xmit_accm[unit][2] << 16) | ((u_long)xmit_accm[unit][3] << 24); LCPDEBUG((LOG_INFO, "lcp_lowerup: asyncmap=%X %X %X %X\n", xmit_accm[unit][3], xmit_accm[unit][2], xmit_accm[unit][1], 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_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. */ fsm_sdata(&lcp_fsm[unit], PROTREJ, ++lcp_fsm[unit].id, p, len); } /**********************************/ /*** LOCAL FUNCTION DEFINITIONS ***/ /**********************************/ /* * 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, u_char 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; LCPDEBUG((LOG_INFO, "lcp: Echo-Request, Rcvd id %d\n", id)); 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 < sizeof (u_short)) { LCPDEBUG((LOG_INFO, "lcp_rprotrej: Rcvd short Protocol-Reject packet!\n")); return; } GETSHORT(prot, inp); LCPDEBUG((LOG_INFO, "lcp_rprotrej: Rcvd Protocol-Reject packet for %x!\n", prot)); /* * Protocol-Reject packets received in any state other than the LCP * OPENED state SHOULD be silently discarded. */ if( f->state != OPENED ){ LCPDEBUG((LOG_INFO, "Protocol-Reject discarded: LCP in state %d\n", f->state)); return; } /* * Upcall the proper Protocol-Reject routine. */ for (i = 0; (protp = ppp_protocols[i]) != NULL; ++i) if (protp->protocol == prot && protp->enabled_flag) { (*protp->protrej)(f->unit); return; } LCPDEBUG((LOG_WARNING, "Protocol-Reject for unsupported protocol 0x%x\n", prot)); } /* * lcp_protrej - A Protocol-Reject was received. */ static void lcp_protrej(int unit) { (void)unit; /* * Can't reject LCP! */ LCPDEBUG((LOG_WARNING, "lcp_protrej: Received Protocol-Reject for LCP!\n")); fsm_protreject(&lcp_fsm[unit]); } /* * 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 != PPP_DEFMRU) + LENCILONG(go->neg_asyncmap && go->asyncmap != 0xFFFFFFFFl) + 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) { \ LCPDEBUG((LOG_INFO, "lcp_addci: opt=%d\n", opt)); \ PUTCHAR(opt, ucp); \ PUTCHAR(CILEN_VOID, ucp); \ } #define ADDCISHORT(opt, neg, val) \ if (neg) { \ LCPDEBUG((LOG_INFO, "lcp_addci: INT opt=%d %X\n", opt, val)); \ PUTCHAR(opt, ucp); \ PUTCHAR(CILEN_SHORT, ucp); \ PUTSHORT(val, ucp); \ } #define ADDCICHAP(opt, neg, val, digest) \ if (neg) { \ LCPDEBUG((LOG_INFO, "lcp_addci: CHAP opt=%d %X\n", opt, val)); \ PUTCHAR(opt, ucp); \ PUTCHAR(CILEN_CHAP, ucp); \ PUTSHORT(val, ucp); \ PUTCHAR(digest, ucp); \ } #define ADDCILONG(opt, neg, val) \ if (neg) { \ LCPDEBUG((LOG_INFO, "lcp_addci: L opt=%d %lX\n", opt, val)); \ PUTCHAR(opt, ucp); \ PUTCHAR(CILEN_LONG, ucp); \ PUTLONG(val, ucp); \ } #define ADDCILQR(opt, neg, val) \ if (neg) { \ LCPDEBUG((LOG_INFO, "lcp_addci: LQR opt=%d %lX\n", opt, val)); \ PUTCHAR(opt, ucp); \ PUTCHAR(CILEN_LQR, ucp); \ PUTSHORT(PPP_LQR, ucp); \ PUTLONG(val, ucp); \ } #define ADDCICHAR(opt, neg, val) \ if (neg) { \ LCPDEBUG((LOG_INFO, "lcp_addci: CHAR opt=%d %X '%z'\n", opt, val, val)); \ PUTCHAR(opt, ucp); \ PUTCHAR(CILEN_CHAR, ucp); \ PUTCHAR(val, ucp); \ } ADDCISHORT(CI_MRU, go->neg_mru && go->mru != PPP_DEFMRU, go->mru); ADDCILONG(CI_ASYNCMAP, go->neg_asyncmap && go->asyncmap != 0xFFFFFFFFl, 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 */ LCPDEBUG((LOG_ERR, "Bug in lcp_addci: wrong length\n")); } } /* * 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; u32_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 != PPP_DEFMRU, go->mru); ACKCILONG(CI_ASYNCMAP, go->neg_asyncmap && go->asyncmap != 0xFFFFFFFFl, 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; LCPDEBUG((LOG_INFO, "lcp_acki: Ack\n")); return (1); bad: LCPDEBUG((LOG_WARNING, "lcp_acki: received bad Ack!\n")); 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; u32_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 != PPP_DEFMRU) { NAKCISHORT(CI_MRU, neg_mru, if (cishort <= wo->mru || cishort < PPP_DEFMRU) try.mru = cishort; ); } /* * Add any characters they want to our (receive-side) asyncmap. */ if (go->neg_asyncmap && go->asyncmap != 0xFFFFFFFFl) { 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'll have to stop * asking for CHAP. */ if (cichar != go->chap_mdtype) 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 * reports', but if we didn't ask for them, we don't want them. * An option we don't recognize represents the peer asking to * negotiate some option we don't support, so ignore it. */ while (len > CILEN_VOID) { GETCHAR(citype, p); GETCHAR(cilen, p); if (cilen < CILEN_VOID || (len -= cilen) < 0) goto bad; next = p + cilen - 2; switch (citype) { case CI_MRU: if ((go->neg_mru && go->mru != PPP_DEFMRU) || no.neg_mru || cilen != CILEN_SHORT) goto bad; GETSHORT(cishort, p); if (cishort < PPP_DEFMRU) try.mru = cishort; break; case CI_ASYNCMAP: if ((go->neg_asyncmap && go->asyncmap != 0xFFFFFFFFl) || no.neg_asyncmap || cilen != CILEN_LONG) goto bad; break; case CI_AUTHTYPE: if (go->neg_chap || no.neg_chap || go->neg_upap || no.neg_upap) goto bad; break; case CI_MAGICNUMBER: if (go->neg_magicnumber || no.neg_magicnumber || cilen != CILEN_LONG) goto bad; break; case CI_PCOMPRESSION: if (go->neg_pcompression || no.neg_pcompression || cilen != CILEN_VOID) goto bad; break; case CI_ACCOMPRESSION: if (go->neg_accompression || no.neg_accompression || cilen != CILEN_VOID) goto bad; break; case CI_QUALITY: if (go->neg_lqr || no.neg_lqr || cilen != CILEN_LQR) goto bad; break; } p = next; } /* If there is still anything left, this packet is bad. */ if (len != 0) goto bad; /* * OK, the Nak is good. Now we can update state. */ if (f->state != OPENED) { if (looped_back) { if (++try.numloops >= lcp_loopbackfail) { LCPDEBUG((LOG_NOTICE, "Serial line is looped back.\n")); lcp_close(f->unit, "Loopback detected"); } } else try.numloops = 0; *go = try; } return 1; bad: LCPDEBUG((LOG_WARNING, "lcp_nakci: received bad Nak!\n")); return 0; } /* * lcp_rejci - Peer has Rejected some of our CIs. * This should not modify any state if the Reject is bad * or if LCP is in the OPENED state. * * Returns: * 0 - Reject was bad. * 1 - Reject was good. */ static int lcp_rejci(fsm *f, u_char *p, int len) { lcp_options *go = &lcp_gotoptions[f->unit]; u_char cichar; u_short cishort; u32_t cilong; lcp_options try; /* options to request next time */ try = *go; /* * Any Rejected 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 REJCIVOID(opt, neg) \ if (go->neg && \ len >= CILEN_VOID && \ p[1] == CILEN_VOID && \ p[0] == opt) { \ len -= CILEN_VOID; \ INCPTR(CILEN_VOID, p); \ try.neg = 0; \ LCPDEBUG((LOG_INFO, "lcp_rejci: void opt %d rejected\n", opt)); \ } #define REJCISHORT(opt, neg, val) \ if (go->neg && \ len >= CILEN_SHORT && \ p[1] == CILEN_SHORT && \ p[0] == opt) { \ len -= CILEN_SHORT; \ INCPTR(2, p); \ GETSHORT(cishort, p); \ /* Check rejected value. */ \ if (cishort != val) \ goto bad; \ try.neg = 0; \ LCPDEBUG((LOG_INFO,"lcp_rejci: short opt %d rejected\n", opt)); \ } #define REJCICHAP(opt, neg, val, digest) \ 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); \ /* Check rejected value. */ \ if (cishort != val || cichar != digest) \ goto bad; \ try.neg = 0; \ try.neg_upap = 0; \ LCPDEBUG((LOG_INFO,"lcp_rejci: chap opt %d rejected\n", opt)); \ } #define REJCILONG(opt, neg, val) \ if (go->neg && \ len >= CILEN_LONG && \ p[1] == CILEN_LONG && \ p[0] == opt) { \ len -= CILEN_LONG; \ INCPTR(2, p); \ GETLONG(cilong, p); \ /* Check rejected value. */ \ if (cilong != val) \ goto bad; \ try.neg = 0; \ LCPDEBUG((LOG_INFO,"lcp_rejci: long opt %d rejected\n", opt)); \ } #define REJCILQR(opt, neg, val) \ 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); \ /* Check rejected value. */ \ if (cishort != PPP_LQR || cilong != val) \ goto bad; \ try.neg = 0; \ LCPDEBUG((LOG_INFO,"lcp_rejci: LQR opt %d rejected\n", opt)); \ } #define REJCICBCP(opt, neg, val) \ if (go->neg && \ len >= CILEN_CBCP && \ p[1] == CILEN_CBCP && \ p[0] == opt) { \ len -= CILEN_CBCP; \ INCPTR(2, p); \ GETCHAR(cichar, p); \ /* Check rejected value. */ \ if (cichar != val) \ goto bad; \ try.neg = 0; \ LCPDEBUG((LOG_INFO,"lcp_rejci: Callback opt %d rejected\n", opt)); \ } REJCISHORT(CI_MRU, neg_mru, go->mru); REJCILONG(CI_ASYNCMAP, neg_asyncmap, go->asyncmap); REJCICHAP(CI_AUTHTYPE, neg_chap, PPP_CHAP, go->chap_mdtype); if (!go->neg_chap) { REJCISHORT(CI_AUTHTYPE, neg_upap, PPP_PAP); } REJCILQR(CI_QUALITY, neg_lqr, go->lqr_period); REJCICBCP(CI_CALLBACK, neg_cbcp, CBCP_OPT); REJCILONG(CI_MAGICNUMBER, neg_magicnumber, go->magicnumber); REJCIVOID(CI_PCOMPRESSION, neg_pcompression); REJCIVOID(CI_ACCOMPRESSION, neg_accompression); /* * If there are any remaining CIs, then this packet is bad. */ if (len != 0) goto bad; /* * Now we can update state. */ if (f->state != OPENED) *go = try; return 1; bad: LCPDEBUG((LOG_WARNING, "lcp_rejci: received bad Reject!\n")); return 0; } /* * lcp_reqci - Check the peer's requested CIs and send appropriate response. * * Returns: CONFACK, CONFNAK or CONFREJ and input packet modified * appropriately. If reject_if_disagree is non-zero, doesn't return * CONFNAK; returns CONFREJ if it can't return CONFACK. */ static int lcp_reqci(fsm *f, u_char *inp, /* Requested CIs */ int *lenp, /* Length of requested CIs */ int reject_if_disagree) { lcp_options *go = &lcp_gotoptions[f->unit]; lcp_options *ho = &lcp_hisoptions[f->unit]; lcp_options *ao = &lcp_allowoptions[f->unit]; u_char *cip, *next; /* Pointer to current and next CIs */ int cilen, citype, cichar; /* Parsed len, type, char value */ u_short cishort; /* Parsed short value */ u32_t cilong; /* Parse long value */ int rc = CONFACK; /* Final packet return code */ int orc; /* Individual option return code */ u_char *p; /* Pointer to next char to parse */ u_char *rejp; /* Pointer to next char in reject frame */ u_char *nakp; /* Pointer to next char in Nak frame */ int l = *lenp; /* Length left */ #if TRACELCP > 0 char traceBuf[80]; int traceNdx = 0; #endif /* * Reset all his options. */ BZERO(ho, sizeof(*ho)); /* * Process all his options. */ next = inp; nakp = nak_buffer; rejp = inp; while (l) { orc = CONFACK; /* Assume success */ cip = p = next; /* Remember begining of CI */ if (l < 2 || /* Not enough data for CI header or */ p[1] < 2 || /* CI length too small or */ p[1] > l) { /* CI length too big? */ LCPDEBUG((LOG_WARNING, "lcp_reqci: bad CI length!\n")); orc = CONFREJ; /* Reject bad CI */ cilen = l; /* Reject till end of packet */ l = 0; /* Don't loop again */ citype = 0; goto endswitch; } GETCHAR(citype, p); /* Parse CI type */ GETCHAR(cilen, p); /* Parse CI length */ l -= cilen; /* Adjust remaining length */ next += cilen; /* Step to next CI */ switch (citype) { /* Check CI type */ case CI_MRU: if (!ao->neg_mru) { /* Allow option? */ LCPDEBUG((LOG_INFO, "lcp_reqci: Reject MRU - not allowed\n")); orc = CONFREJ; /* Reject CI */ break; } else if (cilen != CILEN_SHORT) { /* Check CI length */ LCPDEBUG((LOG_INFO, "lcp_reqci: Reject MRU - bad length\n")); orc = CONFREJ; /* Reject CI */ break; } GETSHORT(cishort, p); /* Parse MRU */ /* * He must be able to receive at least our minimum. * No need to check a maximum. If he sends a large number, * we'll just ignore it. */ if (cishort < PPP_MINMRU) { LCPDEBUG((LOG_INFO, "lcp_reqci: Nak - MRU too small\n")); orc = CONFNAK; /* Nak CI */ PUTCHAR(CI_MRU, nakp); PUTCHAR(CILEN_SHORT, nakp); PUTSHORT(PPP_MINMRU, nakp); /* Give him a hint */ break; } ho->neg_mru = 1; /* Remember he sent MRU */ ho->mru = cishort; /* And remember value */ #if TRACELCP > 0 sprintf(&traceBuf[traceNdx], " MRU %d", cishort); traceNdx = strlen(traceBuf); #endif break; case CI_ASYNCMAP: if (!ao->neg_asyncmap) { LCPDEBUG((LOG_INFO, "lcp_reqci: Reject ASYNCMAP not allowed\n")); orc = CONFREJ; break; } else if (cilen != CILEN_LONG) { LCPDEBUG((LOG_INFO, "lcp_reqci: Reject ASYNCMAP bad length\n")); orc = CONFREJ; break; } GETLONG(cilong, p); /* * Asyncmap must have set at least the bits * which are set in lcp_allowoptions[unit].asyncmap. */ if ((ao->asyncmap & ~cilong) != 0) { LCPDEBUG((LOG_INFO, "lcp_reqci: Nak ASYNCMAP %lX missing %lX\n", cilong, ao->asyncmap)); orc = CONFNAK; PUTCHAR(CI_ASYNCMAP, nakp); PUTCHAR(CILEN_LONG, nakp); PUTLONG(ao->asyncmap | cilong, nakp); break; } ho->neg_asyncmap = 1; ho->asyncmap = cilong; #if TRACELCP > 0 sprintf(&traceBuf[traceNdx], " ASYNCMAP=%lX", cilong); traceNdx = strlen(traceBuf); #endif break; case CI_AUTHTYPE: if (cilen < CILEN_SHORT) { LCPDEBUG((LOG_INFO, "lcp_reqci: Reject AUTHTYPE missing arg\n")); orc = CONFREJ; break; } else if (!(ao->neg_upap || ao->neg_chap)) { /* * Reject the option if we're not willing to authenticate. */ LCPDEBUG((LOG_INFO, "lcp_reqci: Reject AUTHTYPE not allowed\n")); orc = CONFREJ; break; } GETSHORT(cishort, p); /* * Authtype must be UPAP or CHAP. * * Note: if both ao->neg_upap and ao->neg_chap are set, * and the peer sends a Configure-Request with two * authenticate-protocol requests, one for CHAP and one * for UPAP, then we will reject the second request. * Whether we end up doing CHAP or UPAP depends then on * the ordering of the CIs in the peer's Configure-Request. */ if (cishort == PPP_PAP) { if (ho->neg_chap) { /* we've already accepted CHAP */ LCPDEBUG((LOG_WARNING, "lcp_reqci: Reject AUTHTYPE PAP already accepted\n")); orc = CONFREJ; break; } else if (cilen != CILEN_SHORT) { LCPDEBUG((LOG_WARNING, "lcp_reqci: Reject AUTHTYPE PAP bad len\n")); orc = CONFREJ; break; } if (!ao->neg_upap) { /* we don't want to do PAP */ LCPDEBUG((LOG_WARNING, "lcp_reqci: Nak AUTHTYPE PAP not allowed\n")); orc = CONFNAK; /* NAK it and suggest CHAP */ PUTCHAR(CI_AUTHTYPE, nakp); PUTCHAR(CILEN_CHAP, nakp); PUTSHORT(PPP_CHAP, nakp); PUTCHAR(ao->chap_mdtype, nakp); break; } ho->neg_upap = 1; #if TRACELCP > 0 sprintf(&traceBuf[traceNdx], " PAP (%X)", cishort); traceNdx = strlen(traceBuf); #endif break; } if (cishort == PPP_CHAP) { if (ho->neg_upap) { /* we've already accepted PAP */ LCPDEBUG((LOG_WARNING, "lcp_reqci: Reject AUTHTYPE CHAP accepted PAP\n")); orc = CONFREJ; break; } else if (cilen != CILEN_CHAP) { LCPDEBUG((LOG_WARNING, "lcp_reqci: Reject AUTHTYPE CHAP bad len\n")); orc = CONFREJ; break; } if (!ao->neg_chap) { /* we don't want to do CHAP */ LCPDEBUG((LOG_WARNING, "lcp_reqci: Nak AUTHTYPE CHAP not allowed\n")); orc = CONFNAK; /* NAK it and suggest PAP */ PUTCHAR(CI_AUTHTYPE, nakp); PUTCHAR(CILEN_SHORT, nakp); PUTSHORT(PPP_PAP, nakp); break; } GETCHAR(cichar, p); /* get digest type*/ if (cichar != CHAP_DIGEST_MD5 #ifdef CHAPMS && cichar != CHAP_MICROSOFT #endif ) { LCPDEBUG((LOG_WARNING, "lcp_reqci: Nak AUTHTYPE CHAP digest=%d\n", cichar)); orc = CONFNAK; PUTCHAR(CI_AUTHTYPE, nakp); PUTCHAR(CILEN_CHAP, nakp); PUTSHORT(PPP_CHAP, nakp); PUTCHAR(ao->chap_mdtype, nakp); break; } #if TRACELCP > 0 sprintf(&traceBuf[traceNdx], " CHAP %X,%d", cishort, cichar); traceNdx = strlen(traceBuf); #endif ho->chap_mdtype = cichar; /* save md type */ ho->neg_chap = 1; break; } /* * We don't recognize the protocol they're asking for. * Nak it with something we're willing to do. * (At this point we know ao->neg_upap || ao->neg_chap.) */ orc = CONFNAK; PUTCHAR(CI_AUTHTYPE, nakp); if (ao->neg_chap) { LCPDEBUG((LOG_WARNING, "lcp_reqci: Nak AUTHTYPE %d req CHAP\n", cishort)); PUTCHAR(CILEN_CHAP, nakp); PUTSHORT(PPP_CHAP, nakp); PUTCHAR(ao->chap_mdtype, nakp); } else { LCPDEBUG((LOG_WARNING, "lcp_reqci: Nak AUTHTYPE %d req PAP\n", cishort)); PUTCHAR(CILEN_SHORT, nakp); PUTSHORT(PPP_PAP, nakp); } break; case CI_QUALITY: GETSHORT(cishort, p); GETLONG(cilong, p); #if TRACELCP > 0 sprintf(&traceBuf[traceNdx], " QUALITY (%x %x)", cishort, (unsigned int) cilong); traceNdx = strlen(traceBuf); #endif if (!ao->neg_lqr || cilen != CILEN_LQR) { orc = CONFREJ; break; } /* * Check the protocol and the reporting period. * XXX When should we Nak this, and what with? */ if (cishort != PPP_LQR) { orc = CONFNAK; PUTCHAR(CI_QUALITY, nakp); PUTCHAR(CILEN_LQR, nakp); PUTSHORT(PPP_LQR, nakp); PUTLONG(ao->lqr_period, nakp); break; } break; case CI_MAGICNUMBER: if (!(ao->neg_magicnumber || go->neg_magicnumber) || cilen != CILEN_LONG) { orc = CONFREJ; break; } GETLONG(cilong, p); #if TRACELCP > 0 sprintf(&traceBuf[traceNdx], " MAGICNUMBER (%lX)", cilong); traceNdx = strlen(traceBuf); #endif /* * He must have a different magic number. */ if (go->neg_magicnumber && cilong == go->magicnumber) { cilong = magic(); /* Don't put magic() inside macro! */ orc = CONFNAK; PUTCHAR(CI_MAGICNUMBER, nakp); PUTCHAR(CILEN_LONG, nakp); PUTLONG(cilong, nakp); break; } ho->neg_magicnumber = 1; ho->magicnumber = cilong; break; case CI_PCOMPRESSION: #if TRACELCP > 0 sprintf(&traceBuf[traceNdx], " PCOMPRESSION"); traceNdx = strlen(traceBuf); #endif if (!ao->neg_pcompression || cilen != CILEN_VOID) { orc = CONFREJ; break; } ho->neg_pcompression = 1; break; case CI_ACCOMPRESSION: #if TRACELCP > 0 sprintf(&traceBuf[traceNdx], " ACCOMPRESSION"); traceNdx = strlen(traceBuf); #endif if (!ao->neg_accompression || cilen != CILEN_VOID) { orc = CONFREJ; break; } ho->neg_accompression = 1; break; case CI_MRRU: #if TRACELCP > 0 sprintf(&traceBuf[traceNdx], " CI_MRRU"); traceNdx = strlen(traceBuf); #endif orc = CONFREJ; break; case CI_SSNHF: #if TRACELCP > 0 sprintf(&traceBuf[traceNdx], " CI_SSNHF"); traceNdx = strlen(traceBuf); #endif orc = CONFREJ; break; case CI_EPDISC: #if TRACELCP > 0 sprintf(&traceBuf[traceNdx], " CI_EPDISC"); traceNdx = strlen(traceBuf); #endif orc = CONFREJ; break; default: #if TRACELCP sprintf(&traceBuf[traceNdx], " unknown %d", citype); traceNdx = strlen(traceBuf); #endif orc = CONFREJ; break; } endswitch: #if TRACELCP if (traceNdx >= 80 - 32) { LCPDEBUG((LOG_INFO, "lcp_reqci: rcvd%s\n", traceBuf)); traceNdx = 0; } #endif if (orc == CONFACK && /* Good CI */ rc != CONFACK) /* but prior CI wasnt? */ continue; /* Don't send this one */ if (orc == CONFNAK) { /* Nak this CI? */ if (reject_if_disagree /* Getting fed up with sending NAKs? */ && citype != CI_MAGICNUMBER) { orc = CONFREJ; /* Get tough if so */ } else { if (rc == CONFREJ) /* Rejecting prior CI? */ continue; /* Don't send this one */ rc = CONFNAK; } } if (orc == CONFREJ) { /* Reject this CI */ rc = CONFREJ; if (cip != rejp) /* Need to move rejected CI? */ BCOPY(cip, rejp, cilen); /* Move it */ INCPTR(cilen, rejp); /* Update output pointer */ } } /* * If we wanted to send additional NAKs (for unsent CIs), the * code would go here. The extra NAKs would go at *nakp. * At present there are no cases where we want to ask the * peer to negotiate an option. */ switch (rc) { case CONFACK: *lenp = (int)(next - inp); break; case CONFNAK: /* * Copy the Nak'd options from the nak_buffer to the caller's buffer. */ *lenp = (int)(nakp - nak_buffer); BCOPY(nak_buffer, inp, *lenp); break; case CONFREJ: *lenp = (int)(rejp - inp); break; } #if TRACELCP > 0 if (traceNdx > 0) { LCPDEBUG((LOG_INFO, "lcp_reqci: %s\n", traceBuf)); } #endif LCPDEBUG((LOG_INFO, "lcp_reqci: returning CONF%s.\n", CODENAME(rc))); return (rc); /* Return final code */ } /* * lcp_up - LCP has come UP. */ static void lcp_up(fsm *f) { lcp_options *wo = &lcp_wantoptions[f->unit]; lcp_options *ho = &lcp_hisoptions[f->unit]; lcp_options *go = &lcp_gotoptions[f->unit]; lcp_options *ao = &lcp_allowoptions[f->unit]; if (!go->neg_magicnumber) go->magicnumber = 0; if (!ho->neg_magicnumber) ho->magicnumber = 0; /* * Set our MTU to the smaller of the MTU we wanted and * the MRU our peer wanted. If we negotiated an MRU, * set our MRU to the larger of value we wanted and * the value we got in the negotiation. */ ppp_send_config(f->unit, LWIP_MIN(ao->mru, (ho->neg_mru? ho->mru: PPP_MRU)), (ho->neg_asyncmap? ho->asyncmap: 0xffffffffl), ho->neg_pcompression, ho->neg_accompression); /* * If the asyncmap hasn't been negotiated, we really should * set the receive asyncmap to ffffffff, but we set it to 0 * for backwards contemptibility. */ ppp_recv_config(f->unit, (go->neg_mru? LWIP_MAX(wo->mru, go->mru): PPP_MRU), (go->neg_asyncmap? go->asyncmap: 0x00000000), go->neg_pcompression, go->neg_accompression); if (ho->neg_mru) peer_mru[f->unit] = ho->mru; lcp_echo_lowerup(f->unit); /* Enable echo messages */ link_established(f->unit); } /* * lcp_down - LCP has gone DOWN. * * Alert other protocols. */ static void lcp_down(fsm *f) { lcp_options *go = &lcp_gotoptions[f->unit]; lcp_echo_lowerdown(f->unit); link_down(f->unit); ppp_send_config(f->unit, PPP_MRU, 0xffffffffl, 0, 0); ppp_recv_config(f->unit, PPP_MRU, (go->neg_asyncmap? go->asyncmap: 0x00000000), go->neg_pcompression, go->neg_accompression); peer_mru[f->unit] = PPP_MRU; } /* * lcp_starting - LCP needs the lower layer up. */ static void lcp_starting(fsm *f) { link_required(f->unit); } /* * lcp_finished - LCP has finished with the lower layer. */ static void lcp_finished(fsm *f) { link_terminated(f->unit); } #if 0 /* * print_string - print a readable representation of a string using * printer. */ static void print_string( char *p, int len, void (*printer) (void *, char *, ...), void *arg ) { int c; printer(arg, "\""); for (; len > 0; --len) { c = *p++; if (' ' <= c && c <= '~') { if (c == '\\' || c == '"') printer(arg, "\\"); printer(arg, "%c", c); } else { switch (c) { case '\n': printer(arg, "\\n"); break; case '\r': printer(arg, "\\r"); break; case '\t': printer(arg, "\\t"); break; default: printer(arg, "\\%.3o", c); } } } printer(arg, "\""); } /* * lcp_printpkt - print the contents of an LCP packet. */ static char *lcp_codenames[] = { "ConfReq", "ConfAck", "ConfNak", "ConfRej", "TermReq", "TermAck", "CodeRej", "ProtRej", "EchoReq", "EchoRep", "DiscReq" }; static int lcp_printpkt( u_char *p, int plen, void (*printer) (void *, char *, ...), void *arg ) { int code, id, len, olen; u_char *pstart, *optend; u_short cishort; u32_t cilong; if (plen < HEADERLEN) return 0; pstart = p; GETCHAR(code, p); GETCHAR(id, p); GETSHORT(len, p); if (len < HEADERLEN || len > plen) return 0; if (code >= 1 && code <= sizeof(lcp_codenames) / sizeof(char *)) printer(arg, " %s", lcp_codenames[code-1]); else printer(arg, " code=0x%x", code); printer(arg, " id=0x%x", id); len -= HEADERLEN; switch (code) { case CONFREQ: case CONFACK: case CONFNAK: case CONFREJ: /* print option list */ while (len >= 2) { GETCHAR(code, p); GETCHAR(olen, p); p -= 2; if (olen < 2 || olen > len) { break; } printer(arg, " <"); len -= olen; optend = p + olen; switch (code) { case CI_MRU: if (olen == CILEN_SHORT) { p += 2; GETSHORT(cishort, p); printer(arg, "mru %d", cishort); } break; case CI_ASYNCMAP: if (olen == CILEN_LONG) { p += 2; GETLONG(cilong, p); printer(arg, "asyncmap 0x%lx", cilong); } break; case CI_AUTHTYPE: if (olen >= CILEN_SHORT) { p += 2; printer(arg, "auth "); GETSHORT(cishort, p); switch (cishort) { case PPP_PAP: printer(arg, "pap"); break; case PPP_CHAP: printer(arg, "chap"); break; default: printer(arg, "0x%x", cishort); } } break; case CI_QUALITY: if (olen >= CILEN_SHORT) { p += 2; printer(arg, "quality "); GETSHORT(cishort, p); switch (cishort) { case PPP_LQR: printer(arg, "lqr"); break; default: printer(arg, "0x%x", cishort); } } break; case CI_CALLBACK: if (olen >= CILEN_CHAR) { p += 2; printer(arg, "callback "); GETSHORT(cishort, p); switch (cishort) { case CBCP_OPT: printer(arg, "CBCP"); break; default: printer(arg, "0x%x", cishort); } } break; case CI_MAGICNUMBER: if (olen == CILEN_LONG) { p += 2; GETLONG(cilong, p); printer(arg, "magic 0x%x", cilong); } break; case CI_PCOMPRESSION: if (olen == CILEN_VOID) { p += 2; printer(arg, "pcomp"); } break; case CI_ACCOMPRESSION: if (olen == CILEN_VOID) { p += 2; printer(arg, "accomp"); } break; } while (p < optend) { GETCHAR(code, p); printer(arg, " %.2x", code); } printer(arg, ">"); } break; case TERMACK: case TERMREQ: if (len > 0 && *p >= ' ' && *p < 0x7f) { printer(arg, " "); print_string((char*)p, len, printer, arg); p += len; len = 0; } break; case ECHOREQ: case ECHOREP: case DISCREQ: if (len >= 4) { GETLONG(cilong, p); printer(arg, " magic=0x%x", cilong); p += 4; len -= 4; } break; } /* print the rest of the bytes in the packet */ for (; len > 0; --len) { GETCHAR(code, p); printer(arg, " %.2x", code); } return (int)(p - pstart); } #endif /* * Time to shut down the link because there is nothing out there. */ static void LcpLinkFailure (fsm *f) { if (f->state == OPENED) { LCPDEBUG((LOG_INFO, "No response to %d echo-requests\n", lcp_echos_pending)); LCPDEBUG((LOG_NOTICE, "Serial link appears to be disconnected.\n")); lcp_close(f->unit, "Peer not responding"); } } /* * Timer expired for the LCP echo requests from this process. */ static void LcpEchoCheck (fsm *f) { LcpSendEchoRequest (f); /* * Start the timer for the next interval. */ LWIP_ASSERT("lcp_echo_timer_running == 0", lcp_echo_timer_running == 0); TIMEOUT (LcpEchoTimeout, f, lcp_echo_interval); lcp_echo_timer_running = 1; } /* * LcpEchoTimeout - Timer expired on the LCP echo */ static void LcpEchoTimeout (void *arg) { if (lcp_echo_timer_running != 0) { lcp_echo_timer_running = 0; LcpEchoCheck ((fsm *) arg); } } /* * LcpEchoReply - LCP has received a reply to the echo */ static void lcp_received_echo_reply (fsm *f, int id, u_char *inp, int len) { u32_t magic; (void)id; /* Check the magic number - don't count replies from ourselves. */ if (len < 4) { LCPDEBUG((LOG_WARNING, "lcp: received short Echo-Reply, length %d\n", len)); return; } GETLONG(magic, inp); if (lcp_gotoptions[f->unit].neg_magicnumber && magic == lcp_gotoptions[f->unit].magicnumber) { LCPDEBUG((LOG_WARNING, "appear to have received our own echo-reply!\n")); return; } /* Reset the number of outstanding echo frames */ lcp_echos_pending = 0; } /* * LcpSendEchoRequest - Send an echo request frame to the peer */ static void LcpSendEchoRequest (fsm *f) { u32_t lcp_magic; u_char pkt[4], *pktp; /* * Detect the failure of the peer at this point. */ if (lcp_echo_fails != 0) { if (lcp_echos_pending++ >= lcp_echo_fails) { LcpLinkFailure(f); lcp_echos_pending = 0; } } /* * Make and send the echo request frame. */ if (f->state == OPENED) { lcp_magic = lcp_gotoptions[f->unit].magicnumber; pktp = pkt; PUTLONG(lcp_magic, pktp); fsm_sdata(f, ECHOREQ, (u_char)(lcp_echo_number++ & 0xFF), pkt, (int)(pktp - pkt)); } } /* * lcp_echo_lowerup - Start the timer for the LCP frame */ static void lcp_echo_lowerup (int unit) { fsm *f = &lcp_fsm[unit]; /* Clear the parameters for generating echo frames */ lcp_echos_pending = 0; lcp_echo_number = 0; lcp_echo_timer_running = 0; /* If a timeout interval is specified then start the timer */ if (lcp_echo_interval != 0) LcpEchoCheck (f); } /* * lcp_echo_lowerdown - Stop the timer for the LCP frame */ static void lcp_echo_lowerdown (int unit) { fsm *f = &lcp_fsm[unit]; if (lcp_echo_timer_running != 0) { UNTIMEOUT (LcpEchoTimeout, f); lcp_echo_timer_running = 0; } } #endif /* PPP_SUPPORT */