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	Mageia Installer and base platform for many utilities	Thierry Vignaud [tv]

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generated by cgit v1.2.1 (git 2.21.0) at 2024-07-28 11:20:55 +0000

/*
    ipv6cp.c - PPP IPV6 Control Protocol.
    Copyright (C) 1999  Tommi Komulainen <Tommi.Komulainen@iki.fi>

    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.  The name of the author 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.
*/

/*  Original version, based on RFC2023 :

    Copyright (c) 1995, 1996, 1997 Francis.Dupont@inria.fr, INRIA Rocquencourt,
    Alain.Durand@imag.fr, IMAG,
    Jean-Luc.Richier@imag.fr, IMAG-LSR.

    Copyright (c) 1998, 1999 Francis.Dupont@inria.fr, GIE DYADE,
    Alain.Durand@imag.fr, IMAG,
    Jean-Luc.Richier@imag.fr, IMAG-LSR.

    Ce travail a été fait au sein du GIE DYADE (Groupement d'Intérêt
    Économique ayant pour membres BULL S.A. et l'INRIA).

    Ce logiciel informatique est disponible aux conditions
    usuelles dans la recherche, c'est-à-dire qu'il peut
    être utilisé, copié, modifié, distribué à l'unique
    condition que ce texte soit conservé afin que
    l'origine de ce logiciel soit reconnue.

    Le nom de l'Institut National de Recherche en Informatique
    et en Automatique (INRIA), de l'IMAG, ou d'une personne morale
    ou physique ayant participé à l'élaboration de ce logiciel ne peut
    être utilisé sans son accord préalable explicite.

    Ce logiciel est fourni tel quel sans aucune garantie,
    support ou responsabilité d'aucune sorte.
    Ce logiciel est dérivé de sources d'origine
    "University of California at Berkeley" et
    "Digital Equipment Corporation" couvertes par des copyrights.

    L'Institut d'Informatique et de Mathématiques Appliquées de Grenoble (IMAG)
    est une fédération d'unités mixtes de recherche du CNRS, de l'Institut National
    Polytechnique de Grenoble et de l'Université Joseph Fourier regroupant
    sept laboratoires dont le laboratoire Logiciels, Systèmes, Réseaux (LSR).

    This work has been done in the context of GIE DYADE (joint R & D venture
    between BULL S.A. and INRIA).

    This software is available with usual "research" terms
    with the aim of retain credits of the software. 
    Permission to use, copy, modify and distribute this software for any
    purpose and without fee is hereby granted, provided that the above
    copyright notice and this permission notice appear in all copies,
    and the name of INRIA, IMAG, or any contributor not be used in advertising
    or publicity pertaining to this material without the prior explicit
    permission. The software is provided "as is" without any
    warranties, support or liabilities of any kind.
    This software is derived from source code from
    "University of California at Berkeley" and
    "Digital Equipment Corporation" protected by copyrights.

    Grenoble's Institute of Computer Science and Applied Mathematics (IMAG)
    is a federation of seven research units funded by the CNRS, National
    Polytechnic Institute of Grenoble and University Joseph Fourier.
    The research unit in Software, Systems, Networks (LSR) is member of IMAG.
*/

/*
 * Derived from :
 *
 *
 * ipcp.c - PPP IP 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.
 *
 * $Id: ipv6cp.c 215411 2007-04-25 12:26:16Z pixel $ 
 */

#define RCSID	"$Id: ipv6cp.c 215411 2007-04-25 12:26:16Z pixel $"

/*
 * TODO: 
 *
 * Proxy Neighbour Discovery.
 *
 * Better defines for selecting the ordering of
 *   interface up / set address. (currently checks for __linux__,
 *   since SVR4 && (SNI || __USLC__) didn't work properly)
 */

#include <stdio.h>
#include <string.h>
#include <unistd.h>
#include <netdb.h>
#include <sys/param.h>
#include <sys/types.h>
#include <sys/socket.h>
#include <netinet/in.h>
#include <arpa/inet.h>

#include "pppd.h"
#include "fsm.h"
#include "ipcp.h"
#include "ipv6cp.h"
#include "magic.h"
#include "pathnames.h"

static const char rcsid[] = RCSID;

/* global vars */
ipv6cp_options ipv6cp_wantoptions[NUM_PPP];     /* Options that we want to request */
ipv6cp_options ipv6cp_gotoptions[NUM_PPP];	/* Options that peer ack'd */
ipv6cp_options ipv6cp_allowoptions[NUM_PPP];	/* Options we allow peer to request */
ipv6cp_options ipv6cp_hisoptions[NUM_PPP];	/* Options that we ack'd */
int no_ifaceid_neg = 0;

/* local vars */
static int ipv6cp_is_up;

/*
 * Callbacks for fsm code.  (CI = Configuration Information)
 */
static void ipv6cp_resetci __P((fsm *));	/* Reset our CI */
static int  ipv6cp_cilen __P((fsm *));	        /* Return length of our CI */
static void ipv6cp_addci __P((fsm *, u_char *, int *)); /* Add our CI */
static int  ipv6cp_ackci __P((fsm *, u_char *, int));	/* Peer ack'd our CI */
static int  ipv6cp_nakci __P((fsm *, u_char *, int));	/* Peer nak'd our CI */
static int  ipv6cp_rejci __P((fsm *, u_char *, int));	/* Peer rej'd our CI */
static int  ipv6cp_reqci __P((fsm *, u_char *, int *, int)); /* Rcv CI */
static void ipv6cp_up __P((fsm *));		/* We're UP */
static void ipv6cp_down __P((fsm *));		/* We're DOWN */
static void ipv6cp_finished __P((fsm *));	/* Don't need lower layer */

fsm ipv6cp_fsm[NUM_PPP];		/* IPV6CP fsm structure */

static fsm_callbacks ipv6cp_callbacks = { /* IPV6CP callback routines */
    ipv6cp_resetci,		/* Reset our Configuration Information */
    ipv6cp_cilen,		/* Length of our Configuration Information */
    ipv6cp_addci,		/* Add our Configuration Information */
    ipv6cp_ackci,		/* ACK our Configuration Information */
    ipv6cp_nakci,		/* NAK our Configuration Information */
    ipv6cp_rejci,		/* Reject our Configuration Information */
    ipv6cp_reqci,		/* Request peer's Configuration Information */
    ipv6cp_up,			/* Called when fsm reaches OPENED state */
    ipv6cp_down,		/* Called when fsm leaves OPENED state */
    NULL,			/* Called when we want the lower layer up */
    ipv6cp_finished,		/* Called when we want the lower layer down */
    NULL,			/* Called when Protocol-Reject received */
    NULL,			/* Retransmission is necessary */
    NULL,			/* Called to handle protocol-specific codes */
    "IPV6CP"			/* String name of protocol */
};

/*
 * Command-line options.
 */
static int setifaceid __P((char **arg));
static void printifaceid __P((option_t *,
			      void (*)(void *, char *, ...), void *));

static option_t ipv6cp_option_list[] = {
    { "ipv6", o_special, (void *)setifaceid,
      "Set interface identifiers for IPV6",
      OPT_A2PRINTER, (void *)printifaceid },

    { "+ipv6", o_bool, &ipv6cp_protent.enabled_flag,
      "Enable IPv6 and IPv6CP", OPT_PRIO | 1 },
    { "noipv6", o_bool, &ipv6cp_protent.enabled_flag,
      "Disable IPv6 and IPv6CP", OPT_PRIOSUB },
    { "-ipv6", o_bool, &ipv6cp_protent.enabled_flag,
      "Disable IPv6 and IPv6CP", OPT_PRIOSUB | OPT_ALIAS },

    { "ipv6cp-accept-local", o_bool, &ipv6cp_allowoptions[0].accept_local,
      "Accept peer's interface identifier for us", 1 },

    { "ipv6cp-use-ipaddr", o_bool, &ipv6cp_allowoptions[0].use_ip,
      "Use (default) IPv4 address as interface identifier", 1 },

#if defined(SOL2)
    { "ipv6cp-use-persistent", o_bool, &ipv6cp_wantoptions[0].use_persistent,
      "Use uniquely-available persistent value for link local address", 1 },
#endif /* defined(SOL2) */

    { "ipv6cp-restart", o_int, &ipv6cp_fsm[0].timeouttime,
      "Set timeout for IPv6CP", OPT_PRIO },
    { "ipv6cp-max-terminate", o_int, &ipv6cp_fsm[0].maxtermtransmits,
      "Set max #xmits for term-reqs", OPT_PRIO },
    { "ipv6cp-max-configure", o_int, &ipv6cp_fsm[0].maxconfreqtransmits,
      "Set max #xmits for conf-reqs", OPT_PRIO },
    { "ipv6cp-max-failure", o_int, &ipv6cp_fsm[0].maxnakloops,
      "Set max #conf-naks for IPv6CP", OPT_PRIO },

   { NULL }
};


/*
 * Protocol entry points from main code.
 */
static void ipv6cp_init __P((int));
static void ipv6cp_open __P((int));
static void ipv6cp_close __P((int, char *));
static void ipv6cp_lowerup __P((int));
static void ipv6cp_lowerdown __P((int));
static void ipv6cp_input __P((int, u_char *, int));
static void ipv6cp_protrej __P((int));
static int  ipv6cp_printpkt __P((u_char *, int,
			       void (*) __P((void *, char *, ...)), void *));
static void ipv6_check_options __P((void));
static int  ipv6_demand_conf __P((int));
static int  ipv6_active_pkt __P((u_char *, int));

struct protent ipv6cp_protent = {
    PPP_IPV6CP,
    ipv6cp_init,
    ipv6cp_input,
    ipv6cp_protrej,
    ipv6cp_lowerup,
    ipv6cp_lowerdown,
    ipv6cp_open,
    ipv6cp_close,
    ipv6cp_printpkt,
    NULL,
    0,
    "IPV6CP",
    "IPV6",
    ipv6cp_option_list,
    ipv6_check_options,
    ipv6_demand_conf,
    ipv6_active_pkt
};

static void ipv6cp_clear_addrs __P((int, eui64_t, eui64_t));
static void ipv6cp_script __P((char *));
static void ipv6cp_script_done __P((void *));

/*
 * Lengths of configuration options.
 */
#define CILEN_VOID	2
#define CILEN_COMPRESS	4	/* length for RFC2023 compress opt. */
#define CILEN_IFACEID   10	/* RFC2472, interface identifier    */

#define CODENAME(x)	((x) == CONFACK ? "ACK" : \
			 (x) == CONFNAK ? "NAK" : "REJ")

/*
 * This state variable is used to ensure that we don't
 * run an ipcp-up/down script while one is already running.
 */
static enum script_state {
    s_down,
    s_up,
} ipv6cp_script_state;
static pid_t ipv6cp_script_pid;

/*
 * setifaceid - set the interface identifiers manually
 */
static int
setifaceid(argv)
    char **argv;
{
    char *comma, *arg, c;
    ipv6cp_options *wo = &ipv6cp_wantoptions[0];
    struct in6_addr addr;
    static int prio_local, prio_remote;

#define VALIDID(a) ( (((a).s6_addr32[0] == 0) && ((a).s6_addr32[1] == 0)) && \
			(((a).s6_addr32[2] != 0) || ((a).s6_addr32[3] != 0)) )
    
    arg = *argv;
    if ((comma = strchr(arg, ',')) == NULL)
	comma = arg + strlen(arg);
    
    /* 
     * If comma first character, then no local identifier
     */
    if (comma != arg) {
	c = *comma;
	*comma = '\0';

	if (inet_pton(AF_INET6, arg, &addr) == 0 || !VALIDID(addr)) {
	    option_error("Illegal interface identifier (local): %s", arg);
	    return 0;
	}

	if (option_priority >= prio_local) {
	    eui64_copy(addr.s6_addr32[2], wo->ourid);
	    wo->opt_local = 1;
	    prio_local = option_priority;
	}
	*comma = c;
    }
    
    /*
     * If comma last character, the no remote identifier
     */
    if (*comma != 0 && *++comma != '\0') {
	if (inet_pton(AF_INET6, comma, &addr) == 0 || !VALIDID(addr)) {
	    option_error("Illegal interface identifier (remote): %s", comma);
	    return 0;
	}
	if (option_priority >= prio_remote) {
	    eui64_copy(addr.s6_addr32[2], wo->hisid);
	    wo->opt_remote = 1;
	    prio_remote = option_priority;
	}
    }

    if (override_value("+ipv6", option_priority, option_source))
	ipv6cp_protent.enabled_flag = 1;
    return 1;
}

static void
printifaceid(opt, printer, arg)
    option_t *opt;
    void (*printer) __P((void *, char *, ...));
    void *arg;
{
	ipv6cp_options *wo = &ipv6cp_wantoptions[0];

	if (wo->opt_local)
		printer(arg, "%s", llv6_ntoa(wo->ourid));
	printer(arg, ",");
	if (wo->opt_remote)
		printer(arg, "%s", llv6_ntoa(wo->hisid));
}

/*
 * Make a string representation of a network address.
 */
char *
llv6_ntoa(ifaceid)
    eui64_t ifaceid;
{
    static char b[64];

    sprintf(b, "fe80::%s", eui64_ntoa(ifaceid));
    return b;
}


/*
 * ipv6cp_init - Initialize IPV6CP.
 */
static void
ipv6cp_init(unit)
    int unit;
{
    fsm *f = &ipv6cp_fsm[unit];
    ipv6cp_options *wo = &ipv6cp_wantoptions[unit];
    ipv6cp_options *ao = &ipv6cp_allowoptions[unit];

    f->unit = unit;
    f->protocol = PPP_IPV6CP;
    f->callbacks = &ipv6cp_callbacks;
    fsm_init(&ipv6cp_fsm[unit]);

    memset(wo, 0, sizeof(*wo));
    memset(ao, 0, sizeof(*ao));

    wo->accept_local = 1;
    wo->neg_ifaceid = 1;
    ao->neg_ifaceid = 1;

#ifdef IPV6CP_COMP
    wo->neg_vj = 1;
    ao->neg_vj = 1;
    wo->vj_protocol = IPV6CP_COMP;
#endif

}


/*
 * ipv6cp_open - IPV6CP is allowed to come up.
 */
static void
ipv6cp_open(unit)
    int unit;
{
    fsm_open(&ipv6cp_fsm[unit]);
}


/*
 * ipv6cp_close - Take IPV6CP down.
 */
static void
ipv6cp_close(unit, reason)
    int unit;
    char *reason;
{
    fsm_close(&ipv6cp_fsm[unit], reason);
}


/*
 * ipv6cp_lowerup - The lower layer is up.
 */
static void
ipv6cp_lowerup(unit)
    int unit;
{
    fsm_lowerup(&ipv6cp_fsm[unit]);
}


/*
 * ipv6cp_lowerdown - The lower layer is down.
 */
static void
ipv6cp_lowerdown(unit)
    int unit;
{
    fsm_lowerdown(&ipv6cp_fsm[unit]);
}


/*
 * ipv6cp_input - Input IPV6CP packet.
 */
static void
ipv6cp_input(unit, p, len)
    int unit;
    u_char *p;
    int len;
{
    fsm_input(&ipv6cp_fsm[unit], p, len);
}


/*
 * ipv6cp_protrej - A Protocol-Reject was received for IPV6CP.
 *
 * Pretend the lower layer went down, so we shut up.
 */
static void
ipv6cp_protrej(unit)
    int unit;
{
    fsm_lowerdown(&ipv6cp_fsm[unit]);
}


/*
 * ipv6cp_resetci - Reset our CI.
 */
static void
ipv6cp_resetci(f)
    fsm *f;
{
    ipv6cp_options *wo = &ipv6cp_wantoptions[f->unit];
    ipv6cp_options *go = &ipv6cp_gotoptions[f->unit];

    wo->req_ifaceid = wo->neg_ifaceid && ipv6cp_allowoptions[f->unit].neg_ifaceid;
    
    if (!wo->opt_local) {
	eui64_magic_nz(wo->ourid);
    }
    
    *go = *wo;
    eui64_zero(go->hisid);	/* last proposed interface identifier */
}


/*
 * ipv6cp_cilen - Return length of our CI.
 */
static int
ipv6cp_cilen(f)
    fsm *f;
{
    ipv6cp_options *go = &ipv6cp_gotoptions[f->unit];

#define LENCIVJ(neg)		(neg ? CILEN_COMPRESS : 0)
#define LENCIIFACEID(neg)	(neg ? CILEN_IFACEID : 0)

    return (LENCIIFACEID(go->neg_ifaceid) +
	    LENCIVJ(go->neg_vj));
}


/*
 * ipv6cp_addci - Add our desired CIs to a packet.
 */
static void
ipv6cp_addci(f, ucp, lenp)
    fsm *f;
    u_char *ucp;
    int *lenp;
{
    ipv6cp_options *go = &ipv6cp_gotoptions[f->unit];
    int len = *lenp;

#define ADDCIVJ(opt, neg, val) \
    if (neg) { \
	int vjlen = CILEN_COMPRESS; \
	if (len >= vjlen) { \
	    PUTCHAR(opt, ucp); \
	    PUTCHAR(vjlen, ucp); \
	    PUTSHORT(val, ucp); \
	    len -= vjlen; \
	} else \
	    neg = 0; \
    }

#define ADDCIIFACEID(opt, neg, val1) \
    if (neg) { \
	int idlen = CILEN_IFACEID; \
	if (len >= idlen) { \
	    PUTCHAR(opt, ucp); \
	    PUTCHAR(idlen, ucp); \
	    eui64_put(val1, ucp); \
	    len -= idlen; \
	} else \
	    neg = 0; \
    }

    ADDCIIFACEID(CI_IFACEID, go->neg_ifaceid, go->ourid);

    ADDCIVJ(CI_COMPRESSTYPE, go->neg_vj, go->vj_protocol);

    *lenp -= len;
}


/*
 * ipv6cp_ackci - Ack our CIs.
 *
 * Returns:
 *	0 - Ack was bad.
 *	1 - Ack was good.
 */
static int
ipv6cp_ackci(f, p, len)
    fsm *f;
    u_char *p;
    int len;
{
    ipv6cp_options *go = &ipv6cp_gotoptions[f->unit];
    u_short cilen, citype, cishort;
    eui64_t ifaceid;

    /*
     * 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 ACKCIVJ(opt, neg, val) \
    if (neg) { \
	int vjlen = CILEN_COMPRESS; \
	if ((len -= vjlen) < 0) \
	    goto bad; \
	GETCHAR(citype, p); \
	GETCHAR(cilen, p); \
	if (cilen != vjlen || \
	    citype != opt)  \
	    goto bad; \
	GETSHORT(cishort, p); \
	if (cishort != val) \
	    goto bad; \
    }

#define ACKCIIFACEID(opt, neg, val1) \
    if (neg) { \
	int idlen = CILEN_IFACEID; \
	if ((len -= idlen) < 0) \
	    goto bad; \
	GETCHAR(citype, p); \
	GETCHAR(cilen, p); \
	if (cilen != idlen || \
	    citype != opt) \
	    goto bad; \
	eui64_get(ifaceid, p); \
	if (! eui64_equals(val1, ifaceid)) \
	    goto bad; \
    }

    ACKCIIFACEID(CI_IFACEID, go->neg_ifaceid, go->ourid);

    ACKCIVJ(CI_COMPRESSTYPE, go->neg_vj, go->vj_protocol);

    /*
     * If there are any remaining CIs, then this packet is bad.
     */
    if (len != 0)
	goto bad;
    return (1);

bad:
    IPV6CPDEBUG(("ipv6cp_ackci: received bad Ack!"));
    return (0);
}

/*
 * ipv6cp_nakci - Peer has sent a NAK for some of our CIs.
 * This should not modify any state if the Nak is bad
 * or if IPV6CP is in the OPENED state.
 *
 * Returns:
 *	0 - Nak was bad.
 *	1 - Nak was good.
 */
static int
ipv6cp_nakci(f, p, len)
    fsm *f;
    u_char *p;
    int len;
{
    ipv6cp_options *go = &ipv6cp_gotoptions[f->unit];
    u_char citype, cilen, *next;
    u_short cishort;
    eui64_t ifaceid;
    ipv6cp_options no;		/* options we've seen Naks for */
    ipv6cp_options try;		/* options to request next time */

    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 NAKCIIFACEID(opt, neg, code) \
    if (go->neg && \
	len >= (cilen = CILEN_IFACEID) && \
	p[1] == cilen && \
	p[0] == opt) { \
	len -= cilen; \
	INCPTR(2, p); \
	eui64_get(ifaceid, p); \
	no.neg = 1; \
	code \
    }

#define NAKCIVJ(opt, neg, code) \
    if (go->neg && \
	((cilen = p[1]) == CILEN_COMPRESS) && \
	len >= cilen && \
	p[0] == opt) { \
	len -= cilen; \
	INCPTR(2, p); \
	GETSHORT(cishort, p); \
	no.neg = 1; \
        code \
    }

    /*
     * Accept the peer's idea of {our,his} interface identifier, if different
     * from our idea, only if the accept_{local,remote} flag is set.
     */
    NAKCIIFACEID(CI_IFACEID, neg_ifaceid,
	      if (go->accept_local) {
		  while (eui64_iszero(ifaceid) || 
			 eui64_equals(ifaceid, go->hisid)) /* bad luck */
		      eui64_magic(ifaceid);
		  try.ourid = ifaceid;
		  IPV6CPDEBUG(("local LL address %s", llv6_ntoa(ifaceid)));
	      }
	      );

#ifdef IPV6CP_COMP
    NAKCIVJ(CI_COMPRESSTYPE, neg_vj,
	    {
		if (cishort == IPV6CP_COMP) {
		    try.vj_protocol = cishort;
		} else {
		    try.neg_vj = 0;
		}
	    }
	    );
#else
    NAKCIVJ(CI_COMPRESSTYPE, neg_vj,
	    {
		try.neg_vj = 0;
	    }
	    );
#endif

    /*
     * There may be remaining CIs, if the peer is requesting negotiation
     * on an option that we didn't include in our request packet.
     * If they want to negotiate about interface identifier, we comply.
     * If they want us to ask for compression, we refuse.
     */
    while (len > CILEN_VOID) {
	GETCHAR(citype, p);
	GETCHAR(cilen, p);
	if( (len -= cilen) < 0 )
	    goto bad;
	next = p + cilen - 2;

	switch (citype) {
	case CI_COMPRESSTYPE:
	    if (go->neg_vj || no.neg_vj ||
		(cilen != CILEN_COMPRESS))
		goto bad;
	    no.neg_vj = 1;
	    break;
	case CI_IFACEID:
	    if (go->neg_ifaceid || no.neg_ifaceid || cilen != CILEN_IFACEID)
		goto bad;
	    try.neg_ifaceid = 1;
	    eui64_get(ifaceid, p);
	    if (go->accept_local) {
		while (eui64_iszero(ifaceid) || 
		       eui64_equals(ifaceid, go->hisid)) /* bad luck */
		    eui64_magic(ifaceid);
		try.ourid = ifaceid;
	    }
	    no.neg_ifaceid = 1;
	    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)
	*go = try;

    return 1;

bad:
    IPV6CPDEBUG(("ipv6cp_nakci: received bad Nak!"));
    return 0;
}


/*
 * ipv6cp_rejci - Reject some of our CIs.
 */
static int
ipv6cp_rejci(f, p, len)
    fsm *f;
    u_char *p;
    int len;
{
    ipv6cp_options *go = &ipv6cp_gotoptions[f->unit];
    u_char cilen;
    u_short cishort;
    eui64_t ifaceid;
    ipv6cp_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 REJCIIFACEID(opt, neg, val1) \
    if (go->neg && \
	len >= (cilen = CILEN_IFACEID) && \
	p[1] == cilen && \
	p[0] == opt) { \
	len -= cilen; \
	INCPTR(2, p); \
	eui64_get(ifaceid, p); \
	/* Check rejected value. */ \
	if (! eui64_equals(ifaceid, val1)) \
	    goto bad; \
	try.neg = 0; \
    }

#define REJCIVJ(opt, neg, val) \
    if (go->neg && \
	p[1] == CILEN_COMPRESS && \
	len >= p[1] && \
	p[0] == opt) { \
	len -= p[1]; \
	INCPTR(2, p); \
	GETSHORT(cishort, p); \
	/* Check rejected value. */  \
	if (cishort != val) \
	    goto bad; \
	try.neg = 0; \
     }

    REJCIIFACEID(CI_IFACEID, neg_ifaceid, go->ourid);

    REJCIVJ(CI_COMPRESSTYPE, neg_vj, go->vj_protocol);

    /*
     * 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:
    IPV6CPDEBUG(("ipv6cp_rejci: received bad Reject!"));
    return 0;
}


/*
 * ipv6cp_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
ipv6cp_reqci(f, inp, len, reject_if_disagree)
    fsm *f;
    u_char *inp;		/* Requested CIs */
    int *len;			/* Length of requested CIs */
    int reject_if_disagree;
{
    ipv6cp_options *wo = &ipv6cp_wantoptions[f->unit];
    ipv6cp_options *ho = &ipv6cp_hisoptions[f->unit];
    ipv6cp_options *ao = &ipv6cp_allowoptions[f->unit];
    ipv6cp_options *go = &ipv6cp_gotoptions[f->unit];
    u_char *cip, *next;		/* Pointer to current and next CIs */
    u_short cilen, citype;	/* Parsed len, type */
    u_short cishort;		/* Parsed short value */
    eui64_t ifaceid;		/* Parsed interface identifier */
    int rc = CONFACK;		/* Final packet return code */
    int orc;			/* Individual option return code */
    u_char *p;			/* Pointer to next char to parse */
    u_char *ucp = inp;		/* Pointer to current output char */
    int l = *len;		/* Length left */

    /*
     * Reset all his options.
     */
    BZERO(ho, sizeof(*ho));
    
    /*
     * Process all his options.
     */
    next = 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? */
	    IPV6CPDEBUG(("ipv6cp_reqci: bad CI length!"));
	    orc = CONFREJ;		/* Reject bad CI */
	    cilen = l;			/* Reject till end of packet */
	    l = 0;			/* Don't loop again */
	    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_IFACEID:
	    IPV6CPDEBUG(("ipv6cp: received interface identifier "));

	    if (!ao->neg_ifaceid ||
		cilen != CILEN_IFACEID) {	/* Check CI length */
		orc = CONFREJ;		/* Reject CI */
		break;
	    }

	    /*
	     * If he has no interface identifier, or if we both have same 
	     * identifier then NAK it with new idea.
	     * In particular, if we don't know his identifier, but he does,
	     * then accept it.
	     */
	    eui64_get(ifaceid, p);
	    IPV6CPDEBUG(("(%s)", llv6_ntoa(ifaceid)));
	    if (eui64_iszero(ifaceid) && eui64_iszero(go->ourid)) {
		orc = CONFREJ;		/* Reject CI */
		break;
	    }
	    if (!eui64_iszero(wo->hisid) && 
		!eui64_equals(ifaceid, wo->hisid) && 
		eui64_iszero(go->hisid)) {
		    
		orc = CONFNAK;
		ifaceid = wo->hisid;
		go->hisid = ifaceid;
		DECPTR(sizeof(ifaceid), p);
		eui64_put(ifaceid, p);
	    } else
	    if (eui64_iszero(ifaceid) || eui64_equals(ifaceid, go->ourid)) {
		orc = CONFNAK;
		if (eui64_iszero(go->hisid))	/* first time, try option */
		    ifaceid = wo->hisid;
		while (eui64_iszero(ifaceid) || 
		       eui64_equals(ifaceid, go->ourid)) /* bad luck */
		    eui64_magic(ifaceid);
		go->hisid = ifaceid;
		DECPTR(sizeof(ifaceid), p);
		eui64_put(ifaceid, p);
	    }

	    ho->neg_ifaceid = 1;
	    ho->hisid = ifaceid;
	    break;

	case CI_COMPRESSTYPE:
	    IPV6CPDEBUG(("ipv6cp: received COMPRESSTYPE "));
	    if (!ao->neg_vj ||
		(cilen != CILEN_COMPRESS)) {
		orc = CONFREJ;
		break;
	    }
	    GETSHORT(cishort, p);
	    IPV6CPDEBUG(("(%d)", cishort));

#ifdef IPV6CP_COMP
	    if (!(cishort == IPV6CP_COMP)) {
		orc = CONFREJ;
		break;
	    }

	    ho->neg_vj = 1;
	    ho->vj_protocol = cishort;
	    break;
#else
	    orc = CONFREJ;
	    break;
#endif

	default:
	    orc = CONFREJ;
	    break;
	}

endswitch:
	IPV6CPDEBUG((" (%s)\n", CODENAME(orc)));

	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? */
		orc = CONFREJ;		/* Get tough if so */
	    else {
		if (rc == CONFREJ)	/* Rejecting prior CI? */
		    continue;		/* Don't send this one */
		if (rc == CONFACK) {	/* Ack'd all prior CIs? */
		    rc = CONFNAK;	/* Not anymore... */
		    ucp = inp;		/* Backup */
		}
	    }
	}

	if (orc == CONFREJ &&		/* Reject this CI */
	    rc != CONFREJ) {		/*  but no prior ones? */
	    rc = CONFREJ;
	    ucp = inp;			/* Backup */
	}

	/* Need to move CI? */
	if (ucp != cip)
	    BCOPY(cip, ucp, cilen);	/* Move it */

	/* Update output pointer */
	INCPTR(cilen, ucp);
    }

    /*
     * If we aren't rejecting this packet, and we want to negotiate
     * their identifier and they didn't send their identifier, then we
     * send a NAK with a CI_IFACEID option appended.  We assume the
     * input buffer is long enough that we can append the extra
     * option safely.
     */
    if (rc != CONFREJ && !ho->neg_ifaceid &&
	wo->req_ifaceid && !reject_if_disagree) {
	if (rc == CONFACK) {
	    rc = CONFNAK;
	    ucp = inp;				/* reset pointer */
	    wo->req_ifaceid = 0;		/* don't ask again */
	}
	PUTCHAR(CI_IFACEID, ucp);
	PUTCHAR(CILEN_IFACEID, ucp);
	eui64_put(wo->hisid, ucp);
    }

    *len = ucp - inp;			/* Compute output length */
    IPV6CPDEBUG(("ipv6cp: returning Configure-%s", CODENAME(rc)));
    return (rc);			/* Return final code */
}


/*
 * ipv6_check_options - check that any IP-related options are OK,
 * and assign appropriate defaults.
 */
static void
ipv6_check_options()
{
    ipv6cp_options *wo = &ipv6cp_wantoptions[0];

    if (!ipv6cp_protent.enabled_flag)
	return;

#if defined(SOL2)
    /*
     * Persistent link-local id is only used when user has not explicitly
     * configure/hard-code the id
     */
    if ((wo->use_persistent) && (!wo->opt_local) && (!wo->opt_remote)) {

	/* 
	 * On systems where there are no Ethernet interfaces used, there
	 * may be other ways to obtain a persistent id. Right now, it
	 * will fall back to using magic [see eui64_magic] below when
	 * an EUI-48 from MAC address can't be obtained. Other possibilities
	 * include obtaining EEPROM serial numbers, or some other unique
	 * yet persistent number. On Sparc platforms, this is possible,
	 * but too bad there's no standards yet for x86 machines.
	 */
	if (ether_to_eui64(&wo->ourid)) {
	    wo->opt_local = 1;
	}
    }
#endif

    if (!wo->opt_local) {	/* init interface identifier */
	if (wo->use_ip && eui64_iszero(wo->ourid)) {
	    eui64_setlo32(wo->ourid, ntohl(ipcp_wantoptions[0].ouraddr));
	    if (!eui64_iszero(wo->ourid))
		wo->opt_local = 1;
	}
	
	while (eui64_iszero(wo->ourid))
	    eui64_magic(wo->ourid);
    }

    if (!wo->opt_remote) {
	if (wo->use_ip && eui64_iszero(wo->hisid)) {
	    eui64_setlo32(wo->hisid, ntohl(ipcp_wantoptions[0].hisaddr));
	    if (!eui64_iszero(wo->hisid))
		wo->opt_remote = 1;
	}
    }

    if (demand && (eui64_iszero(wo->ourid) || eui64_iszero(wo->hisid))) {
	option_error("local/remote LL address required for demand-dialling\n");
	exit(1);
    }
}


/*
 * ipv6_demand_conf - configure the interface as though
 * IPV6CP were up, for use with dial-on-demand.
 */
static int
ipv6_demand_conf(u)
    int u;
{
    ipv6cp_options *wo = &ipv6cp_wantoptions[u];

#if defined(__linux__) || defined(SOL2) || (defined(SVR4) && (defined(SNI) || defined(__USLC__)))
#if defined(SOL2)
    if (!sif6up(u))
	return 0;
#else
    if (!sifup(u))
	return 0;
#endif /* defined(SOL2) */
#endif    
    if (!sif6addr(u, wo->ourid, wo->hisid))
	return 0;
#if !defined(__linux__) && !(defined(SVR4) && (defined(SNI) || defined(__USLC__)))
    if (!sifup(u))
	return 0;
#endif
    if (!sifnpmode(u, PPP_IPV6, NPMODE_QUEUE))
	return 0;

    notice("ipv6_demand_conf");
    notice("local  LL address %s", llv6_ntoa(wo->ourid));
    notice("remote LL address %s", llv6_ntoa(wo->hisid));

    return 1;
}


/*
 * ipv6cp_up - IPV6CP has come UP.
 *
 * Configure the IPv6 network interface appropriately and bring it up.
 */
static void
ipv6cp_up(f)
    fsm *f;
{
    ipv6cp_options *ho = &ipv6cp_hisoptions[f->unit];
    ipv6cp_options *go = &ipv6cp_gotoptions[f->unit];
    ipv6cp_options *wo = &ipv6cp_wantoptions[f->unit];

    IPV6CPDEBUG(("ipv6cp: up"));

    /*
     * We must have a non-zero LL address for both ends of the link.
     */
    if (!ho->neg_ifaceid)
	ho->hisid = wo->hisid;

    if(!no_ifaceid_neg) {
	if (eui64_iszero(ho->hisid)) {
	    error("Could not determine remote LL address");
	    ipv6cp_close(f->unit, "Could not determine remote LL address");
	    return;
	}
	if (eui64_iszero(go->ourid)) {
	    error("Could not determine local LL address");
	    ipv6cp_close(f->unit, "Could not determine local LL address");
	    return;
	}
	if (eui64_equals(go->ourid, ho->hisid)) {
	    error("local and remote LL addresses are equal");
	    ipv6cp_close(f->unit, "local and remote LL addresses are equal");
	    return;
	}
    }
    script_setenv("LLLOCAL", llv6_ntoa(go->ourid), 0);
    script_setenv("LLREMOTE", llv6_ntoa(ho->hisid), 0);

#ifdef IPV6CP_COMP
    /* set tcp compression */
    sif6comp(f->unit, ho->neg_vj);
#endif

    /*
     * If we are doing dial-on-demand, the interface is already
     * configured, so we put out any saved-up packets, then set the
     * interface to pass IPv6 packets.
     */
    if (demand) {
	if (! eui64_equals(go->ourid, wo->ourid) || 
	    ! eui64_equals(ho->hisid, wo->hisid)) {
	    if (! eui64_equals(go->ourid, wo->ourid))
		warn("Local LL address changed to %s", 
		     llv6_ntoa(go->ourid));
	    if (! eui64_equals(ho->hisid, wo->hisid))
		warn("Remote LL address changed to %s", 
		     llv6_ntoa(ho->hisid));
	    ipv6cp_clear_addrs(f->unit, go->ourid, ho->hisid);

	    /* Set the interface to the new addresses */
	    if (!sif6addr(f->unit, go->ourid, ho->hisid)) {
		if (debug)
		    warn("sif6addr failed");
		ipv6cp_close(f->unit, "Interface configuration failed");
		return;
	    }

	}
	demand_rexmit(PPP_IPV6);
	sifnpmode(f->unit, PPP_IPV6, NPMODE_PASS);

    } else {
	/*
	 * Set LL addresses
	 */
#if !defined(__linux__) && !defined(SOL2) && !(defined(SVR4) && (defined(SNI) || defined(__USLC__)))
	if (!sif6addr(f->unit, go->ourid, ho->hisid)) {
	    if (debug)
		warn("sif6addr failed");
	    ipv6cp_close(f->unit, "Interface configuration failed");
	    return;
	}
#endif

	/* bring the interface up for IPv6 */
#if defined(SOL2)
	if (!sif6up(f->unit)) {
	    if (debug)
		warn("sifup failed (IPV6)");
	    ipv6cp_close(f->unit, "Interface configuration failed");
	    return;
	}
#else
	if (!sifup(f->unit)) {
	    if (debug)
		warn("sifup failed (IPV6)");
	    ipv6cp_close(f->unit, "Interface configuration failed");
	    return;
	}
#endif /* defined(SOL2) */

#if defined(__linux__) || defined(SOL2) || (defined(SVR4) && (defined(SNI) || defined(__USLC__)))
	if (!sif6addr(f->unit, go->ourid, ho->hisid)) {
	    if (debug)
		warn("sif6addr failed");
	    ipv6cp_close(f->unit, "Interface configuration failed");
	    return;
	}
#endif
	sifnpmode(f->unit, PPP_IPV6, NPMODE_PASS);

	notice("local  LL address %s", llv6_ntoa(go->ourid));
	notice("remote LL address %s", llv6_ntoa(ho->hisid));
    }

    np_up(f->unit, PPP_IPV6);
    ipv6cp_is_up = 1;

    /*
     * Execute the ipv6-up script, like this:
     *	/etc/ppp/ipv6-up interface tty speed local-LL remote-LL
     */
    if (ipv6cp_script_state == s_down && ipv6cp_script_pid == 0) {
	ipv6cp_script_state = s_up;
	ipv6cp_script(_PATH_IPV6UP);
    }
}


/*
 * ipv6cp_down - IPV6CP has gone DOWN.
 *
 * Take the IPv6 network interface down, clear its addresses
 * and delete routes through it.
 */
static void
ipv6cp_down(f)
    fsm *f;
{
    IPV6CPDEBUG(("ipv6cp: down"));
    update_link_stats(f->unit);
    if (ipv6cp_is_up) {
	ipv6cp_is_up = 0;
	np_down(f->unit, PPP_IPV6);
    }
#ifdef IPV6CP_COMP
    sif6comp(f->unit, 0);
#endif

    /*
     * If we are doing dial-on-demand, set the interface
     * to queue up outgoing packets (for now).
     */
    if (demand) {
	sifnpmode(f->unit, PPP_IPV6, NPMODE_QUEUE);
    } else {
	sifnpmode(f->unit, PPP_IPV6, NPMODE_DROP);
#if !defined(__linux__) && !(defined(SVR4) && (defined(SNI) || defined(__USLC)))
#if defined(SOL2)
	sif6down(f->unit);
#else
	sifdown(f->unit);
#endif /* defined(SOL2) */
#endif
	ipv6cp_clear_addrs(f->unit, 
			   ipv6cp_gotoptions[f->unit].ourid,
			   ipv6cp_hisoptions[f->unit].hisid);
#if defined(__linux__) || (defined(SVR4) && (defined(SNI) || defined(__USLC)))
	sifdown(f->unit);
#endif
    }

    /* Execute the ipv6-down script */
    if (ipv6cp_script_state == s_up && ipv6cp_script_pid == 0) {