[adns] / src / addrfam.c

/*
 * addrfam.c
 * - address-family specific code
 */
/*
 *  This file is part of adns, which is
 *    Copyright (C) 1997-2000,2003,2006  Ian Jackson
 *    Copyright (C) 1999-2000,2003,2006  Tony Finch
 *    Copyright (C) 1991 Massachusetts Institute of Technology
 *  (See the file INSTALL for full details.)
 *  
 *  This program is free software; you can redistribute it and/or modify
 *  it under the terms of the GNU General Public License as published by
 *  the Free Software Foundation; either version 2, or (at your option)
 *  any later version.
 *  
 *  This program is distributed in the hope that it will be useful,
 *  but WITHOUT ANY WARRANTY; without even the implied warranty of
 *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 *  GNU General Public License for more details.
 *  
 *  You should have received a copy of the GNU General Public License
 *  along with this program; if not, write to the Free Software Foundation,
 *  Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. 
 */

#include <stdlib.h>
#include <errno.h>
#include <limits.h>
#include <unistd.h>
#include <inttypes.h>
#include <stddef.h>
#include <stdbool.h>

#include <sys/types.h>
#include <netdb.h>
#include <sys/socket.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include <netinet/in.h>
#include <net/if.h>

#include "internal.h"

/*
 * General address-family operations.
 */

#define SIN(sa) ((struct sockaddr_in *)(sa))
#define CSIN(sa) ((const struct sockaddr_in *)(sa))

#define SIN6(sa) ((struct sockaddr_in6 *)(sa))
#define CSIN6(sa) ((const struct sockaddr_in6 *)(sa))

/* This gadget (thanks, Richard Kettlewell) makes sure that we handle the
 * same set of address families in each switch. */
#define AF_CASES(pre)							\
  case AF_INET: goto pre##_inet;					\
  case AF_INET6: goto pre##_inet6

static void unknown_af(int af) {
  fprintf(stderr, "ADNS INTERNAL: unknown address family %d\n", af);
  abort();
}

int adns__af_supported_p(int af)
{
  switch (af) {
    AF_CASES(af);
    af_inet: af_inet6: return 1;
    default: return 0;
  }
}

int adns__sockaddr_equal_p(const struct sockaddr *sa,
			   const struct sockaddr *sb)
{
  if (sa->sa_family != sb->sa_family) return 0;
  switch (sa->sa_family) {
    AF_CASES(af);
    af_inet: {
      const struct sockaddr_in *sina = CSIN(sa), *sinb = CSIN(sb);
      return (sina->sin_addr.s_addr == sinb->sin_addr.s_addr &&
	      sina->sin_port == sinb->sin_port);
    }
    af_inet6: {
      /* Don't check the flowlabel.  That's apparently useful for routing
       * performance, but doesn't affect the address in any important
       * respect.
       */
      const struct sockaddr_in6 *sin6a = CSIN6(sa), *sin6b = CSIN6(sb);
      return (memcmp(sin6a->sin6_addr.s6_addr,
		     sin6b->sin6_addr.s6_addr,
		     sizeof(sin6a->sin6_addr.s6_addr)) == 0 &&
	      sin6a->sin6_port == sin6b->sin6_port &&
	      sin6a->sin6_scope_id == sin6b->sin6_scope_id);
    }
    default:
      unknown_af(sa->sa_family);
      return -1;
  }
}

int adns__gen_pton(const char *p, int *af_r, union gen_addr *addr_r)
{
  static const int aflist[] = { AF_INET6, AF_INET };
  int i, rc;

  for (i = 0; i < sizeof(aflist)/sizeof(*aflist); i++) {
    rc = inet_pton(aflist[i], p, addr_r);
    assert(rc >= 0);
    if (rc) { *af_r = aflist[i]; return 1; }
  }
  return 0;
}

int adns__addr_width(int af)
{
  switch (af) {
    AF_CASES(af);
    af_inet: return 32;
    af_inet6: return 128;
    default: unknown_af(af); return -1;
  }
}

void adns__prefix_mask(int af, int len, union gen_addr *mask_r)
{
  switch (af) {
    AF_CASES(af);
    af_inet:
      assert(len <= 32);
      mask_r->v4.s_addr = htonl(!len ? 0 : 0xffffffff << (32 - len));
      break;
    af_inet6: {
      int i = len/8, j = len%8;
      unsigned char *m = mask_r->v6.s6_addr;

      assert(len <= 128);
      memset(m, 0xff, i);
      if (j) m[i++] = (0xff << (8-j)) & 0xff;
      memset(m+i, 0, 16-i);
    } break;
    default:
      unknown_af(af);
      break;
  }
}

int adns__guess_prefix_length(int af, const union gen_addr *addr)
{
  switch (af) {
    AF_CASES(af);
    af_inet: {
      unsigned a = (ntohl(addr->v4.s_addr) >> 24) & 0xff;

      if (a < 128) return 8;
      else if (a < 192) return 16;
      else if (a < 224) return 24;
      else return -1;
    } break;
    af_inet6:
      return 64;
    default:
      unknown_af(af);
      return -1;
  }
}

int adns__addr_match_p(int addraf, const union gen_addr *addr,
		       int netaf, const union gen_addr *base,
		       const union gen_addr *mask)
{
  if (addraf != netaf) return 0;
  switch (addraf) {
    AF_CASES(af);
    af_inet:
      return (addr->v4.s_addr & mask->v4.s_addr) == base->v4.s_addr;
    af_inet6: {
      int i;
      const char *a = addr->v6.s6_addr;
      const char *b = base->v6.s6_addr;
      const char *m = mask->v6.s6_addr;

      for (i = 0; i < 16; i++)
	if ((a[i] & m[i]) != b[i]) return 0;
      return 1;
    } break;
    default:
      unknown_af(addraf);
      return -1;
  }
}

const void *adns__sockaddr_to_inaddr(const struct sockaddr *sa)
{
  switch (sa->sa_family) {
    AF_CASES(af);
    af_inet: return &CSIN(sa)->sin_addr;
    af_inet6: return &CSIN6(sa)->sin6_addr;
    default: unknown_af(sa->sa_family); return 0;
  }
}

/*
 * addr2text and text2addr
 */

#define ADDRFAM_DEBUG
#ifdef ADDRFAM_DEBUG
static void af_debug_func(const char *fmt, ...) {
  int esave= errno;
  va_list al;
  va_start(al,fmt);
  vfprintf(stderr,fmt,al);
  va_end(al);
  errno= esave;
}
# define af_debug(fmt,...) \
  (af_debug_func("%s: " fmt "\n", __func__, __VA_ARGS__))
#else
# define af_debug(fmt,...) ((void)("" fmt "", __VA_ARGS__))
#endif

static bool addrtext_our_errno(int e) {
  return
    e==EAFNOSUPPORT ||
    e==EINVAL ||
    e==ENOSPC ||
    e==ENOSYS;
}

static bool addrtext_scope_use_ifname(const struct sockaddr *sa) {
  const struct in6_addr *in6= &CSIN6(sa)->sin6_addr;
  return
    IN6_IS_ADDR_LINKLOCAL(in6) ||
    IN6_IS_ADDR_MC_LINKLOCAL(in6);
}

int adns_text2addr(const char *text, uint16_t port, adns_queryflags flags,
		   struct sockaddr *sa, socklen_t *salen_io) {
  int af;
  char copybuf[INET6_ADDRSTRLEN];
  const char *parse=text;
  const char *scopestr=0;
  socklen_t needlen;
  void *dst;
  uint16_t *portp;

#define INVAL(how) do{				\
  af_debug("invalid: %s: `%s'", how, text);	\
  return EINVAL;				\
}while(0)

#define AFCORE(INETx,SINx,sinx)			\
    af= AF_##INETx;				\
    dst = &SINx(sa)->sinx##_addr;		\
    portp = &SINx(sa)->sinx##_port;		\
    needlen= sizeof(*SINx(sa));

  if (!strchr(text, ':')) { /* INET */

    AFCORE(INET,SIN,sin);

  } else { /* INET6 */

    AFCORE(INET6,SIN6,sin6);

    const char *percent= strchr(text, '%');
    if (percent) {
      ptrdiff_t lhslen = percent - text;
      if (lhslen >= INET6_ADDRSTRLEN) INVAL("scoped addr lhs too long");
      memcpy(copybuf, text, lhslen);
      copybuf[lhslen]= 0;

      parse= copybuf;
      scopestr= percent+1;

      af_debug("will parse scoped addr `%s' %% `%s'", parse, scopestr);
    }

  }

#undef AFCORE

  if (scopestr && (flags & adns_qf_addrlit_scope_forbid))
    INVAL("scoped addr but _scope_forbid");

  if (*salen_io < needlen) {
    *salen_io = needlen;
    return ENOSPC;
  }

  memset(sa, 0, needlen);

  sa->sa_family= af;
  *portp = htons(port);

  if (af == AF_INET && !(flags & adns_qf_addrlit_ipv4_quadonly)) {
    /* we have to use inet_aton to deal with non-dotted-quad literals */
    int r= inet_aton(parse,&SIN(sa)->sin_addr);
    if (!r) INVAL("inet_aton rejected");
  } else {
    int r= inet_pton(af,parse,dst);
    if (!r) INVAL("inet_pton rejected");
    assert(r>0);
  }

  if (scopestr) {
    errno=0;
    char *ep;
    unsigned long scope= strtoul(scopestr,&ep,10);
    if (errno==ERANGE) INVAL("numeric scope id too large for unsigned long");
    assert(!errno);
    if (!*ep) {
      if (scope > ~(uint32_t)0)
	INVAL("numeric scope id too large for uint32_t");
    } else { /* !!*ep */
      if (flags & adns_qf_addrlit_scope_numeric)
	INVAL("non-numeric scope but _scope_numeric");
      if (!addrtext_scope_use_ifname(sa)) {
	af_debug("cannot convert non-numeric scope"
		 " in non-link-local addr `%s'", text);
	return ENOSYS;
      }
      errno= 0;
      scope= if_nametoindex(scopestr);
      if (!scope) {
	/* RFC3493 says "No errors are defined".  It's not clear
	 * whether that is supposed to mean if_nametoindex "can't
	 * fail" (other than by the supplied name not being that of an
	 * interface) which seems unrealistic, or that it conflates
	 * all its errors together by failing to set errno, or simply
	 * that they didn't bother to document the errors.
	 *
	 * glibc, FreeBSD and OpenBSD all set errno (to ENXIO when
	 * appropriate).  See Debian bug #749349.
	 *
	 * We attempt to deal with this by clearing errno to start
	 * with, and then perhaps mapping the results. */
	af_debug("if_nametoindex rejected scope name (errno=%s)",
		 strerror(errno));
	if (errno==0) {
	  return ENXIO;
	} else if (addrtext_our_errno(errno)) {
	  /* we use these for other purposes, urgh. */
	  perror("adns: adns_text2addr: if_nametoindex"
		 " failed with unexpected error");
	  return EIO;
	} else {
	  return errno;
	}
      } else { /* ix>0 */
	if (scope > ~(uint32_t)0) {
	  fprintf(stderr,"adns: adns_text2addr: if_nametoindex"
		  " returned an interface index >=2^32 which will not fit"
		  " in sockaddr_in6.sin6_scope_id");
	  return EIO;
	}
      }
    } /* else; !!*ep */

    SIN6(sa)->sin6_scope_id= scope;
  } /* if (scopestr) */

  *salen_io = needlen;
  return 0;
}

int adns_addr2text(const struct sockaddr *sa, adns_queryflags flags,
		   char *buffer, int *buflen_io, int *port_r) {
  const void *src;
  int port;

  if (*buflen_io < ADNS_ADDR2TEXT_BUFLEN) {
    *buflen_io = ADNS_ADDR2TEXT_BUFLEN;
    return ENOSPC;
  }

  switch (sa->sa_family) {
    AF_CASES(af);
    af_inet:  src= &CSIN(sa)->sin_addr;    port= CSIN(sa)->sin_port;    break;
    af_inet6: src= &CSIN6(sa)->sin6_addr;  port= CSIN6(sa)->sin6_port;  break;
    default: return EAFNOSUPPORT;
  }

  const char *ok= inet_ntop(sa->sa_family, src, buffer, *buflen_io);
  assert(ok);

  if (sa->sa_family == AF_INET6) {
    uint32_t scope = CSIN6(sa)->sin6_scope_id;
    if (scope) {
      if (flags & adns_qf_addrlit_scope_forbid)
	return EINVAL;
      int scopeoffset = strlen(buffer);
      int remain = *buflen_io - scopeoffset;
      char *scopeptr =  buffer + scopeoffset;
      assert(remain >= IF_NAMESIZE+1/*%*/);
      *scopeptr++= '%'; remain--;
      bool parsedname = 0;
      af_debug("will print scoped addr %s %% %"PRIu32"", buffer, scope);
      if (scope <= UINT_MAX /* so we can pass it to if_indextoname */
	  && !(flags & adns_qf_addrlit_scope_numeric)
	  && addrtext_scope_use_ifname(sa)) {
	parsedname = if_indextoname(scope, scopeptr);
	if (!parsedname) {
	  af_debug("if_indextoname rejected scope (errno=%s)",
		   strerror(errno));
	  if (errno==ENXIO) {
	    /* fair enough, show it as a number then */
	  } else if (addrtext_our_errno(errno)) {
	    /* we use these for other purposes, urgh. */
	    perror("adns: adns_addr2text: if_indextoname"
		   " failed with unexpected error");
	    return EIO;
	  } else {
	    return errno;
	  }
	}
      }
      if (!parsedname) {
	int r = snprintf(scopeptr, remain,
			 "%"PRIu32"", scope);
	assert(r < *buflen_io - scopeoffset);
      }
      af_debug("printed scoped addr `%s'", buffer);
    }
  }

  if (port_r) *port_r= ntohs(port);
  return 0;
}

/*
 * Reverse-domain parsing and construction.
 */

int adns__make_reverse_domain(const struct sockaddr *sa,
			      const char *zone,
			      char **buf_io, size_t bufsz,
			      char **buf_free_r)
{
  size_t req;
  char *p;
  unsigned c, y;
  unsigned long aa;
  const unsigned char *ap;
  int i, j;

  switch (sa->sa_family) {
    AF_CASES(af);
    af_inet:
      req = 4 * 4;
      if (!zone) zone = "in-addr.arpa";
      break;
    af_inet6:
      req = 2 * 32;
      if (!zone) zone = "ip6.arpa";
      break;
    default:
      return ENOSYS;
  }

  req += strlen(zone) + 1;
  if (req <= bufsz)
    p = *buf_io;
  else {
    p = malloc(req); if (!p) return errno;
    *buf_free_r = p;
  }

  *buf_io = p;
  switch (sa->sa_family) {
    AF_CASES(bf);
    bf_inet:
      aa = ntohl(CSIN(sa)->sin_addr.s_addr);
      for (i = 0; i < 4; i++) {
	p += sprintf(p, "%d", (int)(aa & 0xff));
	*p++ = '.';
	aa >>= 8;
      }
      break;
    bf_inet6:
      ap = CSIN6(sa)->sin6_addr.s6_addr + 16;
      for (i = 0; i < 16; i++) {
	c = *--ap;
	for (j = 0; j < 2; j++) {
	  y = c & 0xf;
	  if (y < 10) *p++ = y + '0';
	  else *p++ = y - 10 + 'a';
	  c >>= 4;
	  *p++ = '.';
	}
      }
      break;
    default:
      unknown_af(sa->sa_family);
  }

  strcpy(p, zone);
  return 0;
}


static int inet_rev_parsecomp(const char *p, size_t n)
{
  int i = 0;
  if (n > 3) return -1;

  while (n--) {
    if ('0' <= *p && *p <= '9') i = 10*i + *p++ - '0';
    else return -1;
  }
  return i;
}

static void inet_rev_mkaddr(union gen_addr *addr, const byte *ipv)
{
  addr->v4.s_addr = htonl((ipv[3]<<24) | (ipv[2]<<16) |
			  (ipv[1]<<8) | (ipv[0]));
}

static int inet6_rev_parsecomp(const char *p, size_t n)
{
  if (n != 1) return -1;
  else if ('0' <= *p && *p <= '9') return *p - '0';
  else if ('a' <= *p && *p <= 'f') return *p - 'a' + 10;
  else if ('A' <= *p && *p <= 'F') return *p - 'a' + 10;
  else return -1;
}

static void inet6_rev_mkaddr(union gen_addr *addr, const byte *ipv)
{
  unsigned char *a = addr->v6.s6_addr;
  int i;

  for (i = 0; i < 16; i++)
    a[i] = (ipv[31-2*i] << 4) | (ipv[30-2*i] << 0);
}

static const struct revparse_domain {
  int af;				/* address family */
  int nrevlab;				/* n of reverse-address labels */
  adns_rrtype rrtype;			/* forward-lookup type */

  int (*rev_parsecomp)(const char *p, size_t n);
  /* parse a single component from a label; return the integer value, or -1
   * if it was unintelligible.
   */

  void (*rev_mkaddr)(union gen_addr *addr, const byte *ipv);
  /* write out the parsed address from a vector of parsed components */

  const char *const tail[3];		/* tail label names */
} revparse_domains[NREVDOMAINS] = {
  { AF_INET, 4, adns_r_a, inet_rev_parsecomp, inet_rev_mkaddr,
    { DNS_INADDR_ARPA, 0 } },
  { AF_INET6, 32, adns_r_aaaa, inet6_rev_parsecomp, inet6_rev_mkaddr,
    { DNS_IP6_ARPA, 0 } },
};

#define REVDOMAIN_MAP(rps, labnum) \
  ((labnum) ? (rps)->map : (1 << NREVDOMAINS) - 1)

int adns__revparse_label(struct revparse_state *rps, int labnum,
			 const char *label, int lablen)
{
  unsigned f = REVDOMAIN_MAP(rps, labnum);
  const struct revparse_domain *rpd;
  const char *tp;
  unsigned d;
  int i, ac;

  for (rpd=revparse_domains, i=0, d=1; i<NREVDOMAINS; rpd++, i++, d <<= 1) {
    if (!(f & d)) continue;
    if (labnum >= rpd->nrevlab) {
      tp = rpd->tail[labnum - rpd->nrevlab];
      if (!tp || strncmp(label, tp, lablen) != 0 || tp[lablen])
	goto mismatch;
    } else {
      ac = rpd->rev_parsecomp(label, lablen);
      if (ac < 0) goto mismatch;
      assert(labnum < sizeof(rps->ipv[i]));
      rps->ipv[i][labnum] = ac;
    }
    continue;

  mismatch:
    f &= ~d;
    if (!f) return -1;
  }

  rps->map = f;
  return 0;
}

int adns__revparse_done(struct revparse_state *rps, int nlabels,
			adns_rrtype *rrtype_r, struct af_addr *addr_r)
{
  unsigned f = REVDOMAIN_MAP(rps, nlabels);
  const struct revparse_domain *rpd;
  unsigned d;
  int i, found = -1;

  for (rpd=revparse_domains, i=0, d=1; i<NREVDOMAINS; rpd++, i++, d <<= 1) {
    if (!(f & d)) continue;
    if (nlabels >= rpd->nrevlab && !rpd->tail[nlabels - rpd->nrevlab])
      { found = i; continue; }
    f &= ~d;
    if (!f) return -1;
  }
  assert(found >= 0); assert(f == (1 << found));

  rpd = &revparse_domains[found];
  *rrtype_r = rpd->rrtype;
  addr_r->af = rpd->af;
  rpd->rev_mkaddr(&addr_r->addr, rps->ipv[found]);
  return 0;
}
Commit	Line	Data
9136cf0c MW	1	/*
	2	* addrfam.c
	3	* - address-family specific code
	4	*/
	5	/*
	6	* This file is part of adns, which is
	7	* Copyright (C) 1997-2000,2003,2006 Ian Jackson
	8	* Copyright (C) 1999-2000,2003,2006 Tony Finch
	9	* Copyright (C) 1991 Massachusetts Institute of Technology
	10	* (See the file INSTALL for full details.)
	11	*
	12	* This program is free software; you can redistribute it and/or modify
	13	* it under the terms of the GNU General Public License as published by
	14	* the Free Software Foundation; either version 2, or (at your option)
	15	* any later version.
	16	*
	17	* This program is distributed in the hope that it will be useful,
	18	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	19	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	20	* GNU General Public License for more details.
	21	*
	22	* You should have received a copy of the GNU General Public License
	23	* along with this program; if not, write to the Free Software Foundation,
	24	* Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
	25	*/
	26
	27	#include <stdlib.h>
	28	#include <errno.h>
	29	#include <limits.h>
	30	#include <unistd.h>
b0f1ed64 IJ	31	#include <inttypes.h>
b0f1ed64 IJ	32	#include <stddef.h>
1a9d7092	33	#include <stdbool.h>
9136cf0c MW	34
	35	#include <sys/types.h>
	36	#include <netdb.h>
	37	#include <sys/socket.h>
	38	#include <netinet/in.h>
	39	#include <arpa/inet.h>
b0f1ed64 IJ	40	#include <netinet/in.h>
b0f1ed64 IJ	41	#include <net/if.h>
9136cf0c MW	42
	43	#include "internal.h"
	44
	45	/*
6480e2df	46	* General address-family operations.
9136cf0c MW	47	*/
	48
	49	#define SIN(sa) ((struct sockaddr_in *)(sa))
705b9b15	50	#define CSIN(sa) ((const struct sockaddr_in *)(sa))
9136cf0c	51
6480e2df MW	52	#define SIN6(sa) ((struct sockaddr_in6 *)(sa))
	53	#define CSIN6(sa) ((const struct sockaddr_in6 *)(sa))
	54
	55	/* This gadget (thanks, Richard Kettlewell) makes sure that we handle the
	56	* same set of address families in each switch. */
	57	#define AF_CASES(pre) \
	58	case AF_INET: goto pre##_inet; \
	59	case AF_INET6: goto pre##_inet6
	60
	61	static void unknown_af(int af) {
	62	fprintf(stderr, "ADNS INTERNAL: unknown address family %d\n", af);
	63	abort();
	64	}
9136cf0c	65
6480e2df	66	int adns__af_supported_p(int af)
705b9b15	67	{
6480e2df MW	68	switch (af) {
	69	AF_CASES(af);
	70	af_inet: af_inet6: return 1;
	71	default: return 0;
	72	}
705b9b15 MW	73	}
705b9b15 MW	74
6480e2df MW	75	int adns__sockaddr_equal_p(const struct sockaddr *sa,
	76	const struct sockaddr *sb)
	77	{
	78	if (sa->sa_family != sb->sa_family) return 0;
	79	switch (sa->sa_family) {
	80	AF_CASES(af);
	81	af_inet: {
	82	const struct sockaddr_in sina = CSIN(sa), sinb = CSIN(sb);
	83	return (sina->sin_addr.s_addr == sinb->sin_addr.s_addr &&
	84	sina->sin_port == sinb->sin_port);
	85	}
	86	af_inet6: {
	87	/* Don't check the flowlabel. That's apparently useful for routing
	88	* performance, but doesn't affect the address in any important
	89	* respect.
	90	*/
	91	const struct sockaddr_in6 sin6a = CSIN6(sa), sin6b = CSIN6(sb);
	92	return (memcmp(sin6a->sin6_addr.s6_addr,
	93	sin6b->sin6_addr.s6_addr,
	94	sizeof(sin6a->sin6_addr.s6_addr)) == 0 &&
	95	sin6a->sin6_port == sin6b->sin6_port &&
	96	sin6a->sin6_scope_id == sin6b->sin6_scope_id);
	97	}
	98	default:
	99	unknown_af(sa->sa_family);
	100	return -1;
	101	}
	102	}
9136cf0c	103
6480e2df	104	int adns__gen_pton(const char p, int af_r, union gen_addr *addr_r)
9136cf0c	105	{
6480e2df MW	106	static const int aflist[] = { AF_INET6, AF_INET };
6480e2df MW	107	int i, rc;
9136cf0c	108
6480e2df MW	109	for (i = 0; i < sizeof(aflist)/sizeof(*aflist); i++) {
	110	rc = inet_pton(aflist[i], p, addr_r);
	111	assert(rc >= 0);
	112	if (rc) { *af_r = aflist[i]; return 1; }
	113	}
	114	return 0;
9136cf0c MW	115	}
9136cf0c MW	116
6480e2df	117	int adns__addr_width(int af)
8a53cf7f	118	{
6480e2df MW	119	switch (af) {
	120	AF_CASES(af);
	121	af_inet: return 32;
	122	af_inet6: return 128;
	123	default: unknown_af(af); return -1;
8a53cf7f	124	}
8a53cf7f MW	125	}
8a53cf7f MW	126
6480e2df	127	void adns__prefix_mask(int af, int len, union gen_addr *mask_r)
8a53cf7f	128	{
6480e2df MW	129	switch (af) {
	130	AF_CASES(af);
	131	af_inet:
	132	assert(len <= 32);
	133	mask_r->v4.s_addr = htonl(!len ? 0 : 0xffffffff << (32 - len));
	134	break;
	135	af_inet6: {
	136	int i = len/8, j = len%8;
	137	unsigned char *m = mask_r->v6.s6_addr;
	138
	139	assert(len <= 128);
	140	memset(m, 0xff, i);
	141	if (j) m[i++] = (0xff << (8-j)) & 0xff;
	142	memset(m+i, 0, 16-i);
	143	} break;
	144	default:
	145	unknown_af(af);
	146	break;
	147	}
8a53cf7f MW	148	}
8a53cf7f MW	149
6480e2df	150	int adns__guess_prefix_length(int af, const union gen_addr *addr)
8a53cf7f	151	{
6480e2df MW	152	switch (af) {
	153	AF_CASES(af);
	154	af_inet: {
	155	unsigned a = (ntohl(addr->v4.s_addr) >> 24) & 0xff;
	156
	157	if (a < 128) return 8;
	158	else if (a < 192) return 16;
	159	else if (a < 224) return 24;
	160	else return -1;
	161	} break;
	162	af_inet6:
	163	return 64;
	164	default:
	165	unknown_af(af);
	166	return -1;
	167	}
	168	}
8a53cf7f	169
6480e2df MW	170	int adns__addr_match_p(int addraf, const union gen_addr *addr,
	171	int netaf, const union gen_addr *base,
	172	const union gen_addr *mask)
	173	{
	174	if (addraf != netaf) return 0;
	175	switch (addraf) {
	176	AF_CASES(af);
	177	af_inet:
	178	return (addr->v4.s_addr & mask->v4.s_addr) == base->v4.s_addr;
	179	af_inet6: {
	180	int i;
	181	const char *a = addr->v6.s6_addr;
	182	const char *b = base->v6.s6_addr;
	183	const char *m = mask->v6.s6_addr;
	184
	185	for (i = 0; i < 16; i++)
	186	if ((a[i] & m[i]) != b[i]) return 0;
	187	return 1;
	188	} break;
	189	default:
	190	unknown_af(addraf);
	191	return -1;
8a53cf7f	192	}
8a53cf7f MW	193	}
8a53cf7f MW	194
6480e2df MW	195	const void adns__sockaddr_to_inaddr(const struct sockaddr sa)
	196	{
	197	switch (sa->sa_family) {
	198	AF_CASES(af);
	199	af_inet: return &CSIN(sa)->sin_addr;
	200	af_inet6: return &CSIN6(sa)->sin6_addr;
	201	default: unknown_af(sa->sa_family); return 0;
	202	}
	203	}
9136cf0c MW	204
9136cf0c MW	205	/*
504877d1 IJ	206	* addr2text and text2addr
	207	*/
	208
b0f1ed64 IJ	209	#define ADDRFAM_DEBUG
b0f1ed64 IJ	210	#ifdef ADDRFAM_DEBUG
9964d805 IJ	211	static void af_debug_func(const char *fmt, ...) {
	212	int esave= errno;
	213	va_list al;
	214	va_start(al,fmt);
	215	vfprintf(stderr,fmt,al);
	216	va_end(al);
	217	errno= esave;
	218	}
b0f1ed64	219	# define af_debug(fmt,...) \
9964d805	220	(af_debug_func("%s: " fmt "\n", __func__, __VA_ARGS__))
b0f1ed64 IJ	221	#else
	222	# define af_debug(fmt,...) ((void)("" fmt "", __VA_ARGS__))
	223	#endif
	224
1a9d7092 IJ	225	static bool addrtext_our_errno(int e) {
	226	return
	227	e==EAFNOSUPPORT \|\|
	228	e==EINVAL \|\|
	229	e==ENOSPC \|\|
	230	e==ENOSYS;
	231	}
	232
3121b6a6 IJ	233	static bool addrtext_scope_use_ifname(const struct sockaddr *sa) {
	234	const struct in6_addr *in6= &CSIN6(sa)->sin6_addr;
	235	return
	236	IN6_IS_ADDR_LINKLOCAL(in6) \|\|
	237	IN6_IS_ADDR_MC_LINKLOCAL(in6);
	238	}
	239
7efa5bdc IJ	240	int adns_text2addr(const char *text, uint16_t port, adns_queryflags flags,
7efa5bdc IJ	241	struct sockaddr sa, socklen_t salen_io) {
504877d1 IJ	242	int af;
504877d1 IJ	243	char copybuf[INET6_ADDRSTRLEN];
7efa5bdc	244	const char *parse=text;
b0f1ed64 IJ	245	const char *scopestr=0;
	246	socklen_t needlen;
	247	void *dst;
	248	uint16_t *portp;
	249
	250	#define INVAL(how) do{ \
7efa5bdc	251	af_debug("invalid: %s: `%s'", how, text); \
b0f1ed64 IJ	252	return EINVAL; \
b0f1ed64 IJ	253	}while(0)
504877d1	254
b0f1ed64 IJ	255	#define AFCORE(INETx,SINx,sinx) \
	256	af= AF_##INETx; \
	257	dst = &SINx(sa)->sinx##_addr; \
	258	portp = &SINx(sa)->sinx##_port; \
	259	needlen= sizeof(*SINx(sa));
	260
7efa5bdc	261	if (!strchr(text, ':')) { /* INET */
62c62d61	262
b0f1ed64 IJ	263	AFCORE(INET,SIN,sin);
	264
	265	} else { /* INET6 */
	266
	267	AFCORE(INET6,SIN6,sin6);
	268
7efa5bdc	269	const char *percent= strchr(text, '%');
504877d1	270	if (percent) {
7efa5bdc	271	ptrdiff_t lhslen = percent - text;
b0f1ed64	272	if (lhslen >= INET6_ADDRSTRLEN) INVAL("scoped addr lhs too long");
7efa5bdc	273	memcpy(copybuf, text, lhslen);
b0f1ed64	274	copybuf[lhslen]= 0;
504877d1	275
b0f1ed64 IJ	276	parse= copybuf;
b0f1ed64 IJ	277	scopestr= percent+1;
504877d1	278
71a5b6fc	279	af_debug("will parse scoped addr `%s' %% `%s'", parse, scopestr);
b0f1ed64	280	}
504877d1	281
504877d1 IJ	282	}
504877d1 IJ	283
62c62d61 IJ	284	#undef AFCORE
62c62d61 IJ	285
71a5b6fc IJ	286	if (scopestr && (flags & adns_qf_addrlit_scope_forbid))
	287	INVAL("scoped addr but _scope_forbid");
	288
7efa5bdc IJ	289	if (*salen_io < needlen) {
7efa5bdc IJ	290	*salen_io = needlen;
b0f1ed64 IJ	291	return ENOSPC;
b0f1ed64 IJ	292	}
b0f1ed64 IJ	293
b0f1ed64 IJ	294	memset(sa, 0, needlen);
76af9c49 IJ	295
76af9c49 IJ	296	sa->sa_family= af;
b0f1ed64 IJ	297	*portp = htons(port);
b0f1ed64 IJ	298
b4e502bf IJ	299	if (af == AF_INET && !(flags & adns_qf_addrlit_ipv4_quadonly)) {
	300	/* we have to use inet_aton to deal with non-dotted-quad literals */
	301	int r= inet_aton(parse,&SIN(sa)->sin_addr);
	302	if (!r) INVAL("inet_aton rejected");
	303	} else {
	304	int r= inet_pton(af,parse,dst);
	305	if (!r) INVAL("inet_pton rejected");
	306	assert(r>0);
b0f1ed64 IJ	307	}
	308
	309	if (scopestr) {
	310	errno=0;
	311	char *ep;
	312	unsigned long scope= strtoul(scopestr,&ep,10);
	313	if (errno==ERANGE) INVAL("numeric scope id too large for unsigned long");
	314	assert(!errno);
	315	if (!*ep) {
	316	if (scope > ~(uint32_t)0)
	317	INVAL("numeric scope id too large for uint32_t");
	318	} else { /* !!ep /
71a5b6fc IJ	319	if (flags & adns_qf_addrlit_scope_numeric)
71a5b6fc IJ	320	INVAL("non-numeric scope but _scope_numeric");
3121b6a6	321	if (!addrtext_scope_use_ifname(sa)) {
b0f1ed64	322	af_debug("cannot convert non-numeric scope"
7efa5bdc	323	" in non-link-local addr `%s'", text);
b0f1ed64 IJ	324	return ENOSYS;
	325	}
	326	errno= 0;
	327	scope= if_nametoindex(scopestr);
	328	if (!scope) {
	329	/* RFC3493 says "No errors are defined". It's not clear
	330	* whether that is supposed to mean if_nametoindex "can't
	331	* fail" (other than by the supplied name not being that of an
	332	* interface) which seems unrealistic, or that it conflates
	333	* all its errors together by failing to set errno, or simply
	334	* that they didn't bother to document the errors.
	335	*
	336	* glibc, FreeBSD and OpenBSD all set errno (to ENXIO when
	337	* appropriate). See Debian bug #749349.
	338	*
	339	* We attempt to deal with this by clearing errno to start
	340	* with, and then perhaps mapping the results. */
	341	af_debug("if_nametoindex rejected scope name (errno=%s)",
	342	strerror(errno));
	343	if (errno==0) {
	344	return ENXIO;
1a9d7092	345	} else if (addrtext_our_errno(errno)) {
b0f1ed64 IJ	346	/* we use these for other purposes, urgh. */
	347	perror("adns: adns_text2addr: if_nametoindex"
	348	" failed with unexpected error");
	349	return EIO;
	350	} else {
	351	return errno;
	352	}
	353	} else { /* ix>0 */
	354	if (scope > ~(uint32_t)0) {
	355	fprintf(stderr,"adns: adns_text2addr: if_nametoindex"
02fd91f8	356	" returned an interface index >=2^32 which will not fit"
b0f1ed64 IJ	357	" in sockaddr_in6.sin6_scope_id");
	358	return EIO;
	359	}
	360	}
	361	} /* else; !!ep /
	362
76af9c49	363	SIN6(sa)->sin6_scope_id= scope;
b0f1ed64 IJ	364	} /* if (scopestr) */
b0f1ed64 IJ	365
7efa5bdc	366	*salen_io = needlen;
b0f1ed64 IJ	367	return 0;
b0f1ed64 IJ	368	}
504877d1	369
7efa5bdc IJ	370	int adns_addr2text(const struct sockaddr *sa, adns_queryflags flags,
7efa5bdc IJ	371	char buffer, int buflen_io, int *port_r) {
bfd4cc54 IJ	372	const void *src;
	373	int port;
	374
7efa5bdc IJ	375	if (*buflen_io < ADNS_ADDR2TEXT_BUFLEN) {
7efa5bdc IJ	376	*buflen_io = ADNS_ADDR2TEXT_BUFLEN;
bfd4cc54 IJ	377	return ENOSPC;
	378	}
	379
	380	switch (sa->sa_family) {
	381	AF_CASES(af);
	382	af_inet: src= &CSIN(sa)->sin_addr; port= CSIN(sa)->sin_port; break;
	383	af_inet6: src= &CSIN6(sa)->sin6_addr; port= CSIN6(sa)->sin6_port; break;
	384	default: return EAFNOSUPPORT;
	385	}
	386
7efa5bdc	387	const char ok= inet_ntop(sa->sa_family, src, buffer, buflen_io);
bfd4cc54 IJ	388	assert(ok);
	389
	390	if (sa->sa_family == AF_INET6) {
	391	uint32_t scope = CSIN6(sa)->sin6_scope_id;
	392	if (scope) {
71a5b6fc IJ	393	if (flags & adns_qf_addrlit_scope_forbid)
71a5b6fc IJ	394	return EINVAL;
7efa5bdc IJ	395	int scopeoffset = strlen(buffer);
	396	int remain = *buflen_io - scopeoffset;
	397	char *scopeptr = buffer + scopeoffset;
1a9d7092 IJ	398	assert(remain >= IF_NAMESIZE+1/%/);
1a9d7092 IJ	399	*scopeptr++= '%'; remain--;
3121b6a6	400	bool parsedname = 0;
7efa5bdc	401	af_debug("will print scoped addr %s %% %"PRIu32"", buffer, scope);
3121b6a6	402	if (scope <= UINT_MAX /* so we can pass it to if_indextoname */
71a5b6fc	403	&& !(flags & adns_qf_addrlit_scope_numeric)
3121b6a6 IJ	404	&& addrtext_scope_use_ifname(sa)) {
	405	parsedname = if_indextoname(scope, scopeptr);
	406	if (!parsedname) {
9964d805 IJ	407	af_debug("if_indextoname rejected scope (errno=%s)",
9964d805 IJ	408	strerror(errno));
3121b6a6 IJ	409	if (errno==ENXIO) {
	410	/* fair enough, show it as a number then */
	411	} else if (addrtext_our_errno(errno)) {
	412	/* we use these for other purposes, urgh. */
	413	perror("adns: adns_addr2text: if_indextoname"
	414	" failed with unexpected error");
	415	return EIO;
	416	} else {
	417	return errno;
	418	}
1a9d7092	419	}
3121b6a6 IJ	420	}
3121b6a6 IJ	421	if (!parsedname) {
1a9d7092 IJ	422	int r = snprintf(scopeptr, remain,
1a9d7092 IJ	423	"%"PRIu32"", scope);
7efa5bdc	424	assert(r < *buflen_io - scopeoffset);
1a9d7092	425	}
7efa5bdc	426	af_debug("printed scoped addr `%s'", buffer);
bfd4cc54 IJ	427	}
	428	}
	429
	430	if (port_r) *port_r= ntohs(port);
	431	return 0;
	432	}
	433
504877d1	434	/*
6480e2df	435	* Reverse-domain parsing and construction.
9136cf0c MW	436	*/
9136cf0c MW	437
6480e2df MW	438	int adns__make_reverse_domain(const struct sockaddr *sa,
	439	const char *zone,
	440	char **buf_io, size_t bufsz,
	441	char **buf_free_r)
	442	{
	443	size_t req;
	444	char *p;
	445	unsigned c, y;
	446	unsigned long aa;
	447	const unsigned char *ap;
	448	int i, j;
9136cf0c	449
6480e2df MW	450	switch (sa->sa_family) {
	451	AF_CASES(af);
	452	af_inet:
	453	req = 4 * 4;
	454	if (!zone) zone = "in-addr.arpa";
	455	break;
	456	af_inet6:
	457	req = 2 * 32;
	458	if (!zone) zone = "ip6.arpa";
	459	break;
	460	default:
	461	return ENOSYS;
	462	}
9136cf0c	463
6480e2df MW	464	req += strlen(zone) + 1;
	465	if (req <= bufsz)
	466	p = *buf_io;
	467	else {
	468	p = malloc(req); if (!p) return errno;
	469	*buf_free_r = p;
	470	}
705b9b15	471
6480e2df MW	472	*buf_io = p;
	473	switch (sa->sa_family) {
	474	AF_CASES(bf);
	475	bf_inet:
	476	aa = ntohl(CSIN(sa)->sin_addr.s_addr);
	477	for (i = 0; i < 4; i++) {
	478	p += sprintf(p, "%d", (int)(aa & 0xff));
	479	*p++ = '.';
	480	aa >>= 8;
	481	}
	482	break;
	483	bf_inet6:
	484	ap = CSIN6(sa)->sin6_addr.s6_addr + 16;
	485	for (i = 0; i < 16; i++) {
	486	c = *--ap;
	487	for (j = 0; j < 2; j++) {
	488	y = c & 0xf;
	489	if (y < 10) *p++ = y + '0';
	490	else *p++ = y - 10 + 'a';
	491	c >>= 4;
	492	*p++ = '.';
	493	}
	494	}
	495	break;
	496	default:
	497	unknown_af(sa->sa_family);
	498	}
9136cf0c	499
6480e2df MW	500	strcpy(p, zone);
6480e2df MW	501	return 0;
9136cf0c MW	502	}
9136cf0c MW	503
9136cf0c	504
6480e2df	505	static int inet_rev_parsecomp(const char *p, size_t n)
9136cf0c	506	{
6480e2df MW	507	int i = 0;
6480e2df MW	508	if (n > 3) return -1;
9136cf0c	509
6480e2df MW	510	while (n--) {
	511	if ('0' <= p && p <= '9') i = 10i + p++ - '0';
	512	else return -1;
	513	}
	514	return i;
	515	}
	516
	517	static void inet_rev_mkaddr(union gen_addr addr, const byte ipv)
	518	{
	519	addr->v4.s_addr = htonl((ipv[3]<<24) \| (ipv[2]<<16) \|
	520	(ipv[1]<<8) \| (ipv[0]));
9136cf0c MW	521	}
9136cf0c MW	522
8a53cf7f MW	523	static int inet6_rev_parsecomp(const char *p, size_t n)
	524	{
	525	if (n != 1) return -1;
	526	else if ('0' <= p && p <= '9') return *p - '0';
	527	else if ('a' <= p && p <= 'f') return *p - 'a' + 10;
	528	else if ('A' <= p && p <= 'F') return *p - 'a' + 10;
	529	else return -1;
	530	}
	531
	532	static void inet6_rev_mkaddr(union gen_addr addr, const byte ipv)
	533	{
	534	unsigned char *a = addr->v6.s6_addr;
	535	int i;
	536
	537	for (i = 0; i < 16; i++)
	538	a[i] = (ipv[31-2i] << 4) \| (ipv[30-2i] << 0);
	539	}
	540
6480e2df MW	541	static const struct revparse_domain {
	542	int af; /* address family */
	543	int nrevlab; /* n of reverse-address labels */
	544	adns_rrtype rrtype; /* forward-lookup type */
	545
	546	int (rev_parsecomp)(const char p, size_t n);
	547	/* parse a single component from a label; return the integer value, or -1
	548	* if it was unintelligible.
	549	*/
	550
	551	void (rev_mkaddr)(union gen_addr addr, const byte *ipv);
	552	/* write out the parsed address from a vector of parsed components */
	553
	554	const char const tail[3]; / tail label names */
	555	} revparse_domains[NREVDOMAINS] = {
	556	{ AF_INET, 4, adns_r_a, inet_rev_parsecomp, inet_rev_mkaddr,
	557	{ DNS_INADDR_ARPA, 0 } },
	558	{ AF_INET6, 32, adns_r_aaaa, inet6_rev_parsecomp, inet6_rev_mkaddr,
	559	{ DNS_IP6_ARPA, 0 } },
	560	};
8a53cf7f	561
6480e2df MW	562	#define REVDOMAIN_MAP(rps, labnum) \
	563	((labnum) ? (rps)->map : (1 << NREVDOMAINS) - 1)
	564
	565	int adns__revparse_label(struct revparse_state *rps, int labnum,
	566	const char *label, int lablen)
	567	{
	568	unsigned f = REVDOMAIN_MAP(rps, labnum);
	569	const struct revparse_domain *rpd;
	570	const char *tp;
	571	unsigned d;
	572	int i, ac;
	573
	574	for (rpd=revparse_domains, i=0, d=1; i<NREVDOMAINS; rpd++, i++, d <<= 1) {
	575	if (!(f & d)) continue;
	576	if (labnum >= rpd->nrevlab) {
	577	tp = rpd->tail[labnum - rpd->nrevlab];
	578	if (!tp \|\| strncmp(label, tp, lablen) != 0 \|\| tp[lablen])
	579	goto mismatch;
	580	} else {
	581	ac = rpd->rev_parsecomp(label, lablen);
	582	if (ac < 0) goto mismatch;
	583	assert(labnum < sizeof(rps->ipv[i]));
	584	rps->ipv[i][labnum] = ac;
8a53cf7f	585	}
6480e2df MW	586	continue;
	587
	588	mismatch:
	589	f &= ~d;
	590	if (!f) return -1;
8a53cf7f	591	}
6480e2df MW	592
	593	rps->map = f;
	594	return 0;
8a53cf7f MW	595	}
8a53cf7f MW	596
6480e2df MW	597	int adns__revparse_done(struct revparse_state *rps, int nlabels,
	598	adns_rrtype rrtype_r, struct af_addr addr_r)
	599	{
	600	unsigned f = REVDOMAIN_MAP(rps, nlabels);
	601	const struct revparse_domain *rpd;
	602	unsigned d;
	603	int i, found = -1;
	604
	605	for (rpd=revparse_domains, i=0, d=1; i<NREVDOMAINS; rpd++, i++, d <<= 1) {
	606	if (!(f & d)) continue;
	607	if (nlabels >= rpd->nrevlab && !rpd->tail[nlabels - rpd->nrevlab])
	608	{ found = i; continue; }
	609	f &= ~d;
	610	if (!f) return -1;
	611	}
	612	assert(found >= 0); assert(f == (1 << found));
	613
	614	rpd = &revparse_domains[found];
	615	*rrtype_r = rpd->rrtype;
	616	addr_r->af = rpd->af;
	617	rpd->rev_mkaddr(&addr_r->addr, rps->ipv[found]);
	618	return 0;
	619	}