X-Git-Url: http://www.chiark.greenend.org.uk/ucgi/~mdw/git/preload-hacks/blobdiff_plain/6df6f816f8152954dd3499b7c4048099994a28a7..9111857cc67644ff89749d5919647b38033bb6fd:/noip.c

diff --git a/noip.c b/noip.c
index acb60ef..345f325 100644
--- a/noip.c
+++ b/noip.c
@@ -14,14 +14,14 @@
  * the Free Software Foundation; either version 2 of the License, or (at
  * your option) any later version.
  *
- * Preload-hacks 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.
+ * Preload-hacks are 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 mLib; if not, write to the Free Software Foundation, Inc., 59 Temple
- * Place - Suite 330, Boston, MA 02111-1307, USA.
+ * with preload-hacks; if not, write to the Free Software Foundation, Inc.,
+ * 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
  */
 
 #define _GNU_SOURCE
@@ -31,8 +31,11 @@
 
 /*----- Header files ------------------------------------------------------*/
 
+#include <assert.h>
 #include <ctype.h>
 #include <errno.h>
+#include <stdarg.h>
+#include <stddef.h>
 #include <stdio.h>
 #include <stdlib.h>
 
@@ -51,25 +54,74 @@
 #include <arpa/inet.h>
 #include <netinet/tcp.h>
 #include <netinet/udp.h>
-#include <net/if.h>
+#include <ifaddrs.h>
+#include <netdb.h>
+
+#ifndef SUN_LEN
+#  define SUN_LEN (sun) \
+	(strlen((sun)->sun_path) + offsetof(struct sockaddr_un, sun_path))
+#endif
 
 /*----- Data structures ---------------------------------------------------*/
 
-enum { UNUSED, STALE, USED };		/* Unix socket status values */
-enum { WANT_FRESH, WANT_EXISTING };	/* Socket address dispositions */
+/* Unix socket status values. */
+#define UNUSED 0u			/* No sign of anyone using it */
+#define STALE 1u			/* Socket exists, but is abandoned */
+#define USED 16u			/* Socket is in active use */
+#define LISTEN 2u			/* Socket has an active listener */
+
 enum { DENY, ALLOW };			/* ACL verdicts */
 
+static int address_families[] = { AF_INET, AF_INET6, -1 };
+
+#define ADDRBUFSZ 64
+
+/* Address representations. */
+typedef union ipaddr {
+  struct in_addr v4;
+  struct in6_addr v6;
+} ipaddr;
+
+/* Convenient socket address hacking. */
+typedef union address {
+  struct sockaddr sa;
+  struct sockaddr_in sin;
+  struct sockaddr_in6 sin6;
+} address;
+
 /* Access control list nodes */
 typedef struct aclnode {
   struct aclnode *next;
   int act;
-  unsigned long minaddr, maxaddr;
+  int af;
+  ipaddr minaddr, maxaddr;
   unsigned short minport, maxport;
 } aclnode;
 
+/* Implicit bind records */
+typedef struct impbind {
+  struct impbind *next;
+  int af, how;
+  ipaddr minaddr, maxaddr, bindaddr;
+} impbind;
+enum { EXPLICIT, SAME };
+
+/* A type for an address range */
+typedef struct addrrange {
+  int type;
+  union {
+    struct { int af; ipaddr min, max; } range;
+  } u;
+} addrrange;
+enum { EMPTY, ANY, LOCAL, RANGE };
+
 /* Local address records */
-#define MAX_LOCAL_IPADDRS 16
-static struct in_addr local_ipaddrs[MAX_LOCAL_IPADDRS];
+typedef struct full_ipaddr {
+  int af;
+  ipaddr addr;
+} full_ipaddr;
+#define MAX_LOCAL_IPADDRS 64
+static full_ipaddr local_ipaddrs[MAX_LOCAL_IPADDRS];
 static int n_local_ipaddrs;
 
 /* General configuration */
@@ -81,6 +133,7 @@ static unsigned minautoport = 16384, maxautoport = 65536;
 /* Access control lists */
 static aclnode *bind_real, **bind_tail = &bind_real;
 static aclnode *connect_real,  **connect_tail = &connect_real;
+static impbind *impbinds, **impbind_tail = &impbinds;
 
 /*----- Import the real versions of functions -----------------------------*/
 
@@ -98,10 +151,10 @@ static aclnode *connect_real,  **connect_tail = &connect_real;
   _(sendto, ssize_t, (int, const void *buf, size_t, int,		\
 		      const struct sockaddr *to, socklen_t tolen))	\
   _(recvfrom, ssize_t, (int, void *buf, size_t, int,			\
-		        struct sockaddr *from, socklen_t *fromlen))	\
+			struct sockaddr *from, socklen_t *fromlen))	\
   _(sendmsg, ssize_t, (int, const struct msghdr *, int))		\
   _(recvmsg, ssize_t, (int, struct msghdr *, int))			\
-  _(close, int, (int))
+  _(ioctl, int, (int, unsigned long, ...))
 
 /* Function pointers to set up. */
 #define DECL(imp, ret, args) static ret (*real_##imp) args;
@@ -122,6 +175,7 @@ static void import(void)
 /* Socket address casts */
 #define SA(sa) ((struct sockaddr *)(sa))
 #define SIN(sa) ((struct sockaddr_in *)(sa))
+#define SIN6(sa) ((struct sockaddr_in6 *)(sa))
 #define SUN(sa) ((struct sockaddr_un *)(sa))
 
 /* Raw bytes */
@@ -134,8 +188,10 @@ static void import(void)
 /* Debugging */
 #ifdef DEBUG
 #  define D(body) { if (debug) { body } }
+#  define Dpid pid_t pid = debug ? getpid() : -1
 #else
 #  define D(body) ;
+#  define Dpid
 #endif
 
 /* Preservation of error status */
@@ -160,29 +216,399 @@ static char *xstrdup(const char *p)
   memcpy(q, p, n);
   return (q);
 }
+
+/*----- Address-type hacking ----------------------------------------------*/
+
+/* If M is a simple mask, i.e., consists of a sequence of zero bits followed
+ * by a sequence of one bits, then return the length of the latter sequence
+ * (which may be zero); otherwise return -1.
+ */
+static int simple_mask_length(unsigned long m)
+{
+  int n = 0;
+
+  while (m & 1) { n++; m >>= 1; }
+  return (m ? -1 : n);
+}
+
+/* Answer whether AF is an interesting address family. */
+static int family_known_p(int af)
+{
+  switch (af) {
+    case AF_INET:
+    case AF_INET6:
+      return (1);
+    default:
+      return (0);
+  }
+}
+
+/* Return the socket address length for address family AF. */
+static socklen_t family_socklen(int af)
+{
+  switch (af) {
+    case AF_INET: return (sizeof(struct sockaddr_in));
+    case AF_INET6: return (sizeof(struct sockaddr_in6));
+    default: abort();
+  }
+}
+
+/* Return the width of addresses of kind AF. */
+static int address_width(int af)
+{
+  switch (af) {
+    case AF_INET: return 32;
+    case AF_INET6: return 128;
+    default: abort();
+  }
+}
+
+/* If addresses A and B share a common prefix then return its length;
+ * otherwise return -1.
+ */
+static int common_prefix_length(int af, const ipaddr *a, const ipaddr *b)
+{
+  switch (af) {
+    case AF_INET: {
+      unsigned long aa = ntohl(a->v4.s_addr), bb = ntohl(b->v4.s_addr);
+      unsigned long m = aa^bb;
+      if ((aa&m) == 0 && (bb&m) == m) return (32 - simple_mask_length(m));
+      else return (-1);
+    } break;
+    case AF_INET6: {
+      const uint8_t *aa = a->v6.s6_addr, *bb = b->v6.s6_addr;
+      unsigned m;
+      unsigned n;
+      int i;
+
+      for (i = 0; i < 16 && aa[i] == bb[i]; i++);
+      n = 8*i;
+      if (i < 16) {
+	m = aa[i]^bb[i];
+	if ((aa[i]&m) != 0 || (bb[i]&m) != m) return (-1);
+	n += 8 - simple_mask_length(m);
+	for (i++; i < 16; i++)
+	  if (aa[i] || bb[i] != 0xff) return (-1);
+      }
+      return (n);
+    } break;
+    default:
+      abort();
+  }
+}
+
+/* Extract the port number (in host byte-order) from SA. */
+static int port_from_sockaddr(const struct sockaddr *sa)
+{
+  switch (sa->sa_family) {
+    case AF_INET: return (ntohs(SIN(sa)->sin_port));
+    case AF_INET6: return (ntohs(SIN6(sa)->sin6_port));
+    default: abort();
+  }
+}
+
+/* Store the port number PORT (in host byte-order) in SA. */
+static void port_to_sockaddr(struct sockaddr *sa, int port)
+{
+  switch (sa->sa_family) {
+    case AF_INET: SIN(sa)->sin_port = htons(port); break;
+    case AF_INET6: SIN6(sa)->sin6_port = htons(port); break;
+    default: abort();
+  }
+}
+
+/* Extract the address part from SA and store it in A. */
+static void ipaddr_from_sockaddr(ipaddr *a, const struct sockaddr *sa)
+{
+  switch (sa->sa_family) {
+    case AF_INET: a->v4 = SIN(sa)->sin_addr; break;
+    case AF_INET6: a->v6 = SIN6(sa)->sin6_addr; break;
+    default: abort();
+  }
+}
+
+/* Store the address A in SA. */
+static void ipaddr_to_sockaddr(struct sockaddr *sa, const ipaddr *a)
+{
+  switch (sa->sa_family) {
+    case AF_INET:
+      SIN(sa)->sin_addr = a->v4;
+      break;
+    case AF_INET6:
+      SIN6(sa)->sin6_addr = a->v6;
+      SIN6(sa)->sin6_scope_id = 0;
+      SIN6(sa)->sin6_flowinfo = 0;
+      break;
+    default:
+      abort();
+  }
+}
+
+/* Copy a whole socket address about. */
+static void copy_sockaddr(struct sockaddr *sa_dst,
+			  const struct sockaddr *sa_src)
+  { memcpy(sa_dst, sa_src, family_socklen(sa_src->sa_family)); }
+
+/* Convert an AF_INET socket address into the equivalent IPv4-mapped AF_INET6
+ * address.
+ */
+static void map_ipv4_sockaddr(struct sockaddr_in6 *a6,
+			      const struct sockaddr_in *a4)
+{
+  size_t i;
+  in_addr_t a = ntohl(a4->sin_addr.s_addr);
+
+  a6->sin6_family = AF_INET6;
+  a6->sin6_port = a4->sin_port;
+  a6->sin6_scope_id = 0;
+  a6->sin6_flowinfo = 0;
+  for (i = 0; i < 10; i++) a6->sin6_addr.s6_addr[i] = 0;
+  for (i = 10; i < 12; i++) a6->sin6_addr.s6_addr[i] = 0xff;
+  for (i = 0; i < 4; i++) a6->sin6_addr.s6_addr[15 - i] = (a >> 8*i)&0xff;
+}
+
+/* Convert an AF_INET6 socket address containing an IPv4-mapped IPv6 address
+ * into the equivalent AF_INET4 address.  Return zero on success, or -1 if
+ * the address has the wrong form.
+ */
+static int unmap_ipv4_sockaddr(struct sockaddr_in *a4,
+			       const struct sockaddr_in6 *a6)
+{
+  size_t i;
+  in_addr_t a;
+
+  for (i = 0; i < 10; i++) if (a6->sin6_addr.s6_addr[i] != 0) return (-1);
+  for (i = 10; i < 12; i++) if (a6->sin6_addr.s6_addr[i] != 0xff) return (-1);
+  for (i = 0, a = 0; i < 4; i++) a |= a6->sin6_addr.s6_addr[15 - i] << 8*i;
+  a4->sin_family = AF_INET;
+  a4->sin_port = a6->sin6_port;
+  a4->sin_addr.s_addr = htonl(a);
+  return (0);
+}
+
+/* Answer whether two addresses are equal. */
+static int ipaddr_equal_p(int af, const ipaddr *a, const ipaddr *b)
+{
+  switch (af) {
+    case AF_INET: return (a->v4.s_addr == b->v4.s_addr);
+    case AF_INET6: return (memcmp(a->v6.s6_addr, b->v6.s6_addr, 16) == 0);
+    default: abort();
+  }
+}
+
+/* Answer whether the address part of SA is between A and B (inclusive).  We
+ * assume that SA has the correct address family.
+ */
+static int sockaddr_in_range_p(const struct sockaddr *sa,
+			       const ipaddr *a, const ipaddr *b)
+{
+  switch (sa->sa_family) {
+    case AF_INET: {
+      unsigned long addr = ntohl(SIN(sa)->sin_addr.s_addr);
+      return (ntohl(a->v4.s_addr) <= addr &&
+	      addr <= ntohl(b->v4.s_addr));
+    } break;
+    case AF_INET6: {
+      const uint8_t *ss = SIN6(sa)->sin6_addr.s6_addr;
+      const uint8_t *aa = a->v6.s6_addr, *bb = b->v6.s6_addr;
+      int h = 1, l = 1;
+      int i;
+
+      for (i = 0; h && l && i < 16; i++, ss++, aa++, bb++) {
+	if (*ss < *aa || *bb < *ss) return (0);
+	if (*aa < *ss) l = 0;
+	if (*ss < *bb) h = 0;
+      }
+      return (1);
+    } break;
+    default:
+      abort();
+  }
+}
+
+/* Fill in SA with the appropriate wildcard address. */
+static void wildcard_address(int af, struct sockaddr *sa)
+{
+  switch (af) {
+    case AF_INET: {
+      struct sockaddr_in *sin = SIN(sa);
+      memset(sin, 0, sizeof(*sin));
+      sin->sin_family = AF_INET;
+      sin->sin_port = 0;
+      sin->sin_addr.s_addr = INADDR_ANY;
+    } break;
+    case AF_INET6: {
+      struct sockaddr_in6 *sin6 = SIN6(sa);
+      memset(sin6, 0, sizeof(*sin6));
+      sin6->sin6_family = AF_INET6;
+      sin6->sin6_port = 0;
+      sin6->sin6_addr = in6addr_any;
+      sin6->sin6_scope_id = 0;
+      sin6->sin6_flowinfo = 0;
+    } break;
+    default:
+      abort();
+  }
+}
+
+/* Mask the address A, forcing all but the top PLEN bits to zero or one
+ * according to HIGHP.
+ */
+static void mask_address(int af, ipaddr *a, int plen, int highp)
+{
+  switch (af) {
+    case AF_INET: {
+      unsigned long addr = ntohl(a->v4.s_addr);
+      unsigned long mask = plen ? ~0ul << (32 - plen) : 0;
+      addr &= mask;
+      if (highp) addr |= ~mask;
+      a->v4.s_addr = htonl(addr & 0xffffffff);
+    } break;
+    case AF_INET6: {
+      int i = plen/8;
+      unsigned m = (0xff << (8 - plen%8)) & 0xff;
+      unsigned s = highp ? 0xff : 0;
+      if (m) {
+	a->v6.s6_addr[i] = (a->v6.s6_addr[i] & m) | (s & ~m);
+	i++;
+      }
+      for (; i < 16; i++) a->v6.s6_addr[i] = s;
+    } break;
+    default:
+      abort();
+  }
+}
+
+/* Write a presentation form of SA to BUF, a buffer of length SZ.  LEN is the
+ * address length; if it's zero, look it up based on the address family.
+ * Return a pointer to the string (which might, in an emergency, be a static
+ * string rather than your buffer).
+ */
+static char *present_sockaddr(const struct sockaddr *sa, socklen_t len,
+			      char *buf, size_t sz)
+{
+#define WANT(n_) do { if (sz < (n_)) goto nospace; } while (0)
+#define PUTC(c_) do { *buf++ = (c_); sz--; } while (0)
+
+  if (!sa) return "<null-address>";
+  if (!sz) return "<no-space-in-buffer>";
+  if (!len) len = family_socklen(sa->sa_family);
+
+  switch (sa->sa_family) {
+    case AF_UNIX: {
+      struct sockaddr_un *sun = SUN(sa);
+      char *p = sun->sun_path;
+      size_t n = len - offsetof(struct sockaddr_un, sun_path);
+
+      assert(n);
+      if (*p == 0) {
+	WANT(1); PUTC('@');
+	p++; n--;
+	while (n) {
+	  switch (*p) {
+	    case 0: WANT(2); PUTC('\\'); PUTC('0'); break;
+	    case '\a': WANT(2); PUTC('\\'); PUTC('a'); break;
+	    case '\n': WANT(2); PUTC('\\'); PUTC('n'); break;
+	    case '\r': WANT(2); PUTC('\\'); PUTC('r'); break;
+	    case '\t': WANT(2); PUTC('\\'); PUTC('t'); break;
+	    case '\v': WANT(2); PUTC('\\'); PUTC('v'); break;
+	    case '\\': WANT(2); PUTC('\\'); PUTC('\\'); break;
+	    default:
+	      if (*p > ' ' && *p <= '~')
+		{ WANT(1); PUTC(*p); }
+	      else {
+		WANT(4); PUTC('\\'); PUTC('x');
+		PUTC((*p >> 4)&0xf); PUTC((*p >> 0)&0xf);
+	      }
+	      break;
+	  }
+	  p++; n--;
+	}
+      } else {
+	if (*p != '/') { WANT(2); PUTC('.'); PUTC('/'); }
+	while (n && *p) { WANT(1); PUTC(*p); p++; n--; }
+      }
+      WANT(1); PUTC(0);
+    } break;
+    case AF_INET: case AF_INET6: {
+      char addrbuf[NI_MAXHOST], portbuf[NI_MAXSERV];
+      int err = getnameinfo(sa, len,
+			    addrbuf, sizeof(addrbuf),
+			    portbuf, sizeof(portbuf),
+			    NI_NUMERICHOST | NI_NUMERICSERV);
+      assert(!err);
+      snprintf(buf, sz, strchr(addrbuf, ':') ? "[%s]:%s" : "%s:%s",
+	       addrbuf, portbuf);
+    } break;
+    default:
+      snprintf(buf, sz, "<unknown-address-family %d>", sa->sa_family);
+      break;
+  }
+  return (buf);
+
+nospace:
+  buf[sz - 1] = 0;
+  return (buf);
+}
+
+/* Guess the family of a textual socket address. */
+static int guess_address_family(const char *p)
+  { return (strchr(p, ':') ? AF_INET6 : AF_INET); }
+
+/* Parse a socket address P and write the result to SA. */
+static int parse_sockaddr(struct sockaddr *sa, const char *p)
+{
+  char buf[ADDRBUFSZ];
+  char *q;
+  struct addrinfo *ai, ai_hint = { 0 };
+
+  if (strlen(p) >= sizeof(buf) - 1) return (-1);
+  strcpy(buf, p); p = buf;
+  if (*p != '[') {
+    if ((q = strchr(p, ':')) == 0) return (-1);
+    *q++ = 0;
+  } else {
+    p++;
+    if ((q = strchr(p, ']')) == 0) return (-1);
+    *q++ = 0;
+    if (*q != ':') return (-1);
+    q++;
+  }
+
+  ai_hint.ai_family = AF_UNSPEC;
+  ai_hint.ai_socktype = SOCK_DGRAM;
+  ai_hint.ai_flags = AI_NUMERICHOST | AI_NUMERICSERV;
+  if (getaddrinfo(p, q, &ai_hint, &ai)) return (-1);
+  memcpy(sa, ai->ai_addr, ai->ai_addrlen);
+  freeaddrinfo(ai);
+  return (0);
+}
+
 /*----- Access control lists ----------------------------------------------*/
 
 #ifdef DEBUG
 
-/* Write to standard error a description of the ACL node A. */
-static void dump_aclnode(aclnode *a)
+static void dump_addrrange(int af, const ipaddr *min, const ipaddr *max)
 {
-  char minbuf[16], maxbuf[16];
-  struct in_addr amin, amax;
+  char buf[ADDRBUFSZ];
+  const char *p;
+  int plen;
+
+  plen = common_prefix_length(af, min, max);
+  p = inet_ntop(af, min, buf, sizeof(buf));
+  fprintf(stderr, strchr(p, ':') ? "[%s]" : "%s", p);
+  if (plen < 0) {
+    p = inet_ntop(af, &max, buf, sizeof(buf));
+    fprintf(stderr, strchr(p, ':') ? "-[%s]" : "-%s", p);
+  } else if (plen < address_width(af))
+    fprintf(stderr, "/%d", plen);
+}
 
-  amin.s_addr = htonl(a->minaddr);
-  amax.s_addr = htonl(a->maxaddr);
-  fprintf(stderr, "noip:   %c ", a->act ? '+' : '-');
-  if (a->minaddr == 0 && a->maxaddr == 0xffffffff)
-    fprintf(stderr, "any");
-  else {
-    fprintf(stderr, "%s",
-	    inet_ntop(AF_INET, &amin, minbuf, sizeof(minbuf)));
-    if (a->maxaddr != a->minaddr) {
-      fprintf(stderr, "-%s",
-	      inet_ntop(AF_INET, &amax, maxbuf, sizeof(maxbuf)));
-    }
-  }
+/* Write to standard error a description of the ACL node A. */
+static void dump_aclnode(const aclnode *a)
+{
+  fprintf(stderr, "noip(%d):   %c ", getpid(), a->act ? '+' : '-');
+  dump_addrrange(a->af, &a->minaddr, &a->maxaddr);
   if (a->minport != 0 || a->maxport != 0xffff) {
     fprintf(stderr, ":%u", (unsigned)a->minport);
     if (a->minport != a->maxport)
@@ -191,7 +617,7 @@ static void dump_aclnode(aclnode *a)
   fputc('\n', stderr);
 }
 
-static void dump_acl(aclnode *a)
+static void dump_acl(const aclnode *a)
 {
   int act = ALLOW;
 
@@ -199,33 +625,35 @@ static void dump_acl(aclnode *a)
     dump_aclnode(a);
     act = a->act;
   }
-  fprintf(stderr, "noip:   [default policy: %s]\n",
+  fprintf(stderr, "noip(%d):   [default policy: %s]\n", getpid(),
 	  act == ALLOW ? "DENY" : "ALLOW");
 }
 
 #endif
 
-/* Returns nonzero if the ACL A allows the IP socket SIN. */
-static int acl_allows_p(aclnode *a, const struct sockaddr_in *sin)
+/* Returns nonzero if the ACL A allows the socket address SA. */
+static int acl_allows_p(const aclnode *a, const struct sockaddr *sa)
 {
-  unsigned long addr = ntohl(sin->sin_addr.s_addr);
-  unsigned short port = ntohs(sin->sin_port);
+  unsigned short port = port_from_sockaddr(sa);
   int act = ALLOW;
+  Dpid;
 
-  D( char buf[16];
-     fprintf(stderr, "noip: check %s:%u\n",
-	     inet_ntop(AF_INET, &sin->sin_addr, buf, sizeof(buf)),
-	     ntohs((unsigned)sin->sin_port)); )
+  D({ char buf[ADDRBUFSZ];
+      fprintf(stderr, "noip(%d): check %s\n", pid,
+	      present_sockaddr(sa, 0, buf, sizeof(buf))); })
   for (; a; a = a->next) {
     D( dump_aclnode(a); )
-    if (a->minaddr <= addr && addr <= a->maxaddr &&
+    if (a->af == sa->sa_family &&
+	sockaddr_in_range_p(sa, &a->minaddr, &a->maxaddr) &&
 	a->minport <= port && port <= a->maxport) {
-      D( fprintf(stderr, "noip: aha!  %s\n", a->act ? "ALLOW" : "DENY"); )
+      D( fprintf(stderr, "noip(%d): aha!  %s\n", pid,
+		 a->act ? "ALLOW" : "DENY"); )
       return (a->act);
     }
     act = a->act;
   }
-  D( fprintf(stderr, "noip: nothing found: %s\n", act ? "DENY" : "ALLOW"); )
+  D( fprintf(stderr, "noip(%d): nothing found: %s\n", pid,
+	     act ? "DENY" : "ALLOW"); )
   return (!act);
 }
 
@@ -237,7 +665,8 @@ static unsigned randrange(unsigned min, unsigned max)
   unsigned mask, i;
 
   /* It's so nice not to have to care about the quality of the generator
-     much! */
+   * much!
+   */
   max -= min;
   for (mask = 1; mask < max; mask = (mask << 1) | 1)
     ;
@@ -257,112 +686,251 @@ static int unix_socket_status(struct sockaddr_un *sun, int quickp)
   FILE *fp = 0;
   size_t len, n;
   int rc;
+  unsigned long f;
   char buf[256];
 
+  /* If we can't find the socket node, then it's definitely not in use.  If
+   * we get some other error, then this socket is weird.
+   */
   if (stat(sun->sun_path, &st))
     return (errno == ENOENT ? UNUSED : USED);
+
+  /* If it's not a socket, then something weird is going on.  If we're just
+   * probing quickly to find a spare port, then existence is sufficient to
+   * discourage us now.
+   */
   if (!S_ISSOCK(st.st_mode) || quickp)
     return (USED);
+
+  /* The socket's definitely there, but is anyone actually still holding it
+   * open?  The only way I know to discover this is to trundle through
+   * `/proc/net/unix'.  If there's no entry, then the socket must be stale.
+   */
   rc = USED;
   if ((fp = fopen("/proc/net/unix", "r")) == 0)
     goto done;
-  fgets(buf, sizeof(buf), fp); /* skip header */
+  if (!fgets(buf, sizeof(buf), fp)) goto done; /* skip header */
   len = strlen(sun->sun_path);
+  rc = 0;
   while (fgets(buf, sizeof(buf), fp)) {
     n = strlen(buf);
     if (n >= len + 2 && buf[n - len - 2] == ' ' && buf[n - 1] == '\n' &&
-	memcmp(buf + n - len - 1, sun->sun_path, len) == 0)
-      goto done;
+	memcmp(buf + n - len - 1, sun->sun_path, len) == 0) {
+      rc |= USED;
+      if (sscanf(buf, "%*s %*x %*x %lx", &f) < 0 || (f&0x00010000))
+	rc |= LISTEN;
+    }
   }
   if (ferror(fp))
     goto done;
-  rc = STALE;
+  if (!rc) rc = STALE;
 done:
   if (fp) fclose(fp);
+
+  /* All done. */
   return (rc);
 }
 
-/* Encode the Internet address SIN as a Unix-domain address SUN.  If WANT is
- * WANT_FRESH, and SIN->sin_port is zero, then we pick an arbitrary local
- * port.  Otherwise we pick the port given.  There's an unpleasant hack to
- * find servers bound to INADDR_ANY.  Returns zero on success; -1 on failure.
+/* Encode SA as a Unix-domain address SUN, and return whether it's currently
+ * in use.
  */
+static int encode_single_inet_addr(const struct sockaddr *sa,
+				   struct sockaddr_un *sun,
+				   int quickp)
+{
+  char buf[ADDRBUFSZ];
+  int rc;
+
+  snprintf(sun->sun_path, sizeof(sun->sun_path), "%s/%s", sockdir,
+	   present_sockaddr(sa, 0, buf, sizeof(buf)));
+  rc = unix_socket_status(sun, quickp);
+  if (rc == STALE) unlink(sun->sun_path);
+  return (rc);
+}
+
+/* Convert the IP address SA to a Unix-domain address SUN.  Fail if the
+ * address seems already taken.  If DESPARATEP then try cleaning up stale old
+ * sockets.
+ */
+static int encode_unused_inet_addr(struct sockaddr *sa,
+				   struct sockaddr_un *sun,
+				   int desperatep)
+{
+  address waddr, maddr;
+  struct sockaddr_un wsun;
+  int port = port_from_sockaddr(sa);
+
+  /* First, look for an exact match.  Only look quickly unless we're
+   * desperate.  If the socket is in use, we fail here.  (This could get
+   * racy.  Let's not worry about that for now.)
+   */
+  if (encode_single_inet_addr(sa, sun, !desperatep)&USED)
+    return (-1);
+
+  /* Next, check the corresponding wildcard address, so as to avoid
+   * inadvertant collisions with listeners.  Do this in the same way.
+   */
+  wildcard_address(sa->sa_family, &waddr.sa);
+  port_to_sockaddr(&waddr.sa, port);
+  if (encode_single_inet_addr(&waddr.sa, &wsun, !desperatep)&USED)
+    return (-1);
+
+  /* We're not done yet.  If this is an IPv4 address, then /also/ check (a)
+   * the v6-mapped version, (b) the v6-mapped v4 wildcard, /and/ (c) the v6
+   * wildcard.  Ugh!
+   */
+  if (sa->sa_family == AF_INET) {
+    map_ipv4_sockaddr(&maddr.sin6, SIN(&sa));
+    if (encode_single_inet_addr(&maddr.sa, &wsun, !desperatep)&USED)
+      return (-1);
+
+    map_ipv4_sockaddr(&maddr.sin6, &waddr.sin);
+    if (encode_single_inet_addr(&maddr.sa, &wsun, !desperatep)&USED)
+      return (-1);
+
+    wildcard_address(AF_INET6, &waddr.sa);
+    port_to_sockaddr(&waddr.sa, port);
+    if (encode_single_inet_addr(&waddr.sa, &wsun, !desperatep)&USED)
+      return (-1);
+  }
+
+  /* All is well. */
+  return (0);
+}
+
+/* Encode the Internet address SA as a Unix-domain address SUN.  If the flag
+ * `ENCF_FRESH' is set, and SA's port number is zero, then we pick an
+ * arbitrary local port.  Otherwise we pick the port given.  There's an
+ * unpleasant hack to find servers bound to local wildcard addresses.
+ * Returns zero on success; -1 on failure.
+ */
+#define ENCF_FRESH 1u
+#define ENCF_REUSEADDR 2u
 static int encode_inet_addr(struct sockaddr_un *sun,
-			    const struct sockaddr_in *sin,
-			    int want)
+			    const struct sockaddr *sa,
+			    unsigned f)
 {
   int i;
   int desperatep = 0;
-  char buf[INET_ADDRSTRLEN];
+  address addr;
+  struct sockaddr_in6 sin6;
+  int port = port_from_sockaddr(sa);
   int rc;
+  char buf[ADDRBUFSZ];
 
-  D( fprintf(stderr, "noip: encode %s:%u (%s)",
-	     inet_ntop(AF_INET, &sin->sin_addr, buf, sizeof(buf)),
-	     (unsigned)ntohs(sin->sin_port),
-	     want == WANT_EXISTING ? "EXISTING" : "FRESH"); )
+  D( fprintf(stderr, "noip(%d): encode %s (%s)", getpid(),
+	     present_sockaddr(sa, 0, buf, sizeof(buf)),
+	     (f&ENCF_FRESH) ? "FRESH" : "EXISTING"); )
+
+  /* Start making the Unix-domain address. */
   sun->sun_family = AF_UNIX;
-  if (sin->sin_port || want == WANT_EXISTING) {
-    snprintf(sun->sun_path, sizeof(sun->sun_path), "%s/%s:%u", sockdir,
-	     inet_ntop(AF_INET, &sin->sin_addr, buf, sizeof(buf)),
-	     (unsigned)ntohs(sin->sin_port));
-    rc = unix_socket_status(sun, 0);
-    if (rc == STALE) unlink(sun->sun_path);
-    if (rc != USED && want == WANT_EXISTING) {
-      snprintf(sun->sun_path, sizeof(sun->sun_path), "%s/0.0.0.0:%u",
-	       sockdir, (unsigned)ntohs(sin->sin_port));
-      if (unix_socket_status(sun, 0) == STALE) unlink(sun->sun_path);
+
+  if (port || !(f&ENCF_FRESH)) {
+
+    /* Try the address as given.  If it's in use, or we don't necessarily
+     * want an existing socket, then we're done.
+     */
+    rc = encode_single_inet_addr(sa, sun, 0);
+    if ((f&ENCF_REUSEADDR) && !(rc&LISTEN)) unlink(sun->sun_path);
+    if ((rc&USED) || (f&ENCF_FRESH)) goto found;
+
+    /* We're looking for a socket which already exists.  This is
+     * unfortunately difficult, because we must deal both with wildcards and
+     * v6-mapped IPv4 addresses.
+     *
+     *   * We've just tried searching for a socket whose name is an exact
+     *	   match for our remote address.  If the remote address is IPv4, then
+     *	   we should try again with the v6-mapped equivalent.
+     *
+     *   * Failing that, we try again with the wildcard address for the
+     *	   appropriate address family.
+     *
+     *   * Failing /that/, if the remote address is IPv4, then we try
+     *	   /again/, increasingly desperately, first with the v6-mapped IPv4
+     *	   wildcard address, and then with the IPv6 wildcard address.  This
+     *	   will cause magic v6-mapping to occur when the connection is
+     *	   accepted, which we hope won't cause too much trouble.
+     */
+
+    if (sa->sa_family == AF_INET) {
+      map_ipv4_sockaddr(&addr.sin6, SIN(sa));
+      if (encode_single_inet_addr(&addr.sa, sun, 0)&USED) goto found;
     }
+
+    wildcard_address(sa->sa_family, &addr.sa);
+    port_to_sockaddr(&addr.sa, port);
+    if (encode_single_inet_addr(&addr.sa, sun, 0)&USED) goto found;
+
+    if (sa->sa_family == AF_INET) {
+      map_ipv4_sockaddr(&sin6, &addr.sin);
+      if (encode_single_inet_addr(SA(&sin6), sun, 0)&USED) goto found;
+      wildcard_address(AF_INET6, &addr.sa);
+      port_to_sockaddr(&addr.sa, port);
+      if (encode_single_inet_addr(&addr.sa, sun, 0)&USED) goto found;
+    }
+
+    /* Well, this isn't going to work (unless a miraculous race is lost), but
+     * we might as well try.
+     */
+    encode_single_inet_addr(sa, sun, 1);
+
   } else {
+    /* We want a fresh new socket. */
+
+    /* Make a copy of the given address, because we're going to mangle it. */
+    copy_sockaddr(&addr.sa, sa);
+
+    /* Try a few random-ish port numbers to see if any of them is spare. */
     for (i = 0; i < 10; i++) {
-      snprintf(sun->sun_path, sizeof(sun->sun_path), "%s/%s:%u", sockdir,
-	       inet_ntop(AF_INET, &sin->sin_addr, buf, sizeof(buf)),
-	       randrange(minautoport, maxautoport));
-      if (unix_socket_status(sun, 1) == UNUSED) goto found;
+      port_to_sockaddr(&addr.sa, randrange(minautoport, maxautoport));
+      if (!encode_unused_inet_addr(&addr.sa, sun, 0)) goto found;
     }
+
+    /* Things must be getting tight.  Work through all of the autoport range
+     * to see if we can find a spare one.  The first time, just do it the
+     * quick way; if that doesn't work, then check harder for stale sockets.
+     */
     for (desperatep = 0; desperatep < 2; desperatep++) {
       for (i = minautoport; i <= maxautoport; i++) {
-	snprintf(sun->sun_path, sizeof(sun->sun_path), "%s/%s:%u", sockdir,
-		 inet_ntop(AF_INET, &sin->sin_addr, buf, sizeof(buf)),
-		 (unsigned)i);
-	rc = unix_socket_status(sun, !desperatep);
-	switch (rc) {
-	  case STALE: unlink(sun->sun_path);
-	  case UNUSED: goto found;
-	}
+	port_to_sockaddr(&addr.sa, i);
+	if (!encode_unused_inet_addr(&addr.sa, sun, 0)) goto found;
       }
     }
+
+    /* We failed to find any free ports. */
     errno = EADDRINUSE;
     D( fprintf(stderr, " -- can't resolve\n"); )
     return (-1);
-  found:;
   }
+
+  /* Success. */
+found:
   D( fprintf(stderr, " -> `%s'\n", sun->sun_path); )
   return (0);
 }
 
-/* Decode the Unix address SUN to an Internet address SIN.  Returns zero on
- * success; -1 on failure (e.g., it wasn't one of our addresses). */
-static int decode_inet_addr(struct sockaddr_in *sin,
+/* Decode the Unix address SUN to an Internet address SIN.  If AF_HINT is
+ * nonzero, an empty address (indicative of an unbound Unix-domain socket) is
+ * translated to a wildcard Internet address of the appropriate family.
+ * Returns zero on success; -1 on failure (e.g., it wasn't one of our
+ * addresses).
+ */
+static int decode_inet_addr(struct sockaddr *sa, int af_hint,
 			    const struct sockaddr_un *sun,
 			    socklen_t len)
 {
-  char buf[INET_ADDRSTRLEN + 16];
-  char *p;
-  size_t n = strlen(sockdir), nn = strlen(sun->sun_path);
-  struct sockaddr_in sin_mine;
-  unsigned long port;
-
-  if (!sin)
-    sin = &sin_mine;
-  if (sun->sun_family != AF_UNIX)
-    return (-1);
-  if (len < sizeof(sun)) ((char *)sun)[len] = 0;
-  D( fprintf(stderr, "noip: decode (%d) `%s'",
-	     *sun->sun_path, sun->sun_path); )
-  if (!sun->sun_path[0]) {
-    sin->sin_family = AF_INET;
-    sin->sin_addr.s_addr = INADDR_ANY;
-    sin->sin_port = 0;
+  char buf[ADDRBUFSZ];
+  size_t n = strlen(sockdir), nn;
+  address addr;
+
+  if (!sa) sa = &addr.sa;
+  if (sun->sun_family != AF_UNIX) return (-1);
+  if (len > sizeof(*sun)) return (-1);
+  ((char *)sun)[len] = 0;
+  nn = strlen(sun->sun_path);
+  D( fprintf(stderr, "noip(%d): decode `%s'", getpid(), sun->sun_path); )
+  if (af_hint && !sun->sun_path[0]) {
+    wildcard_address(af_hint, sa);
     D( fprintf(stderr, " -- unbound socket\n"); )
     return (0);
   }
@@ -371,40 +939,25 @@ static int decode_inet_addr(struct sockaddr_in *sin,
     D( fprintf(stderr, " -- not one of ours\n"); )
     return (-1);
   }
-  memcpy(buf, sun->sun_path + n + 1, nn - n);
-  if ((p = strchr(buf, ':')) == 0) {
-    D( fprintf(stderr, " -- malformed (no port)\n"); )
-    return (-1);
-  }
-  *p++ = 0;
-  sin->sin_family = AF_INET;
-  if (inet_pton(AF_INET, buf, &sin->sin_addr) <= 0) {
-    D( fprintf(stderr, " -- malformed (bad address `%s')\n", buf); )
-    return (-1);
-  }
-  port = strtoul(p, &p, 10);
-  if (*p || port >= 65536) {
-    D( fprintf(stderr, " -- malformed (port out of range)"); )
-    return (-1);
-  }
-  sin->sin_port = htons(port);
-  D( fprintf(stderr, " -> %s:%u\n",
-	     inet_ntop(AF_INET, &sin->sin_addr, buf, sizeof(buf)),
-	     (unsigned)port); )
+  if (parse_sockaddr(sa, sun->sun_path + n + 1)) return (-1);
+  D( fprintf(stderr, " -> %s\n",
+	     present_sockaddr(sa, 0, buf, sizeof(buf))); )
   return (0);
 }
 
 /* SK is (or at least might be) a Unix-domain socket we created when an
  * Internet socket was asked for.  We've decided it should be an Internet
- * socket after all, so convert it.
+ * socket after all, with family AF_HINT, so convert it.  If TMP is not null,
+ * then don't replace the existing descriptor: store the new socket in *TMP
+ * and return zero.
  */
-static int fixup_real_ip_socket(int sk)
+static int fixup_real_ip_socket(int sk, int af_hint, int *tmp)
 {
   int nsk;
   int type;
   int f, fd;
   struct sockaddr_un sun;
-  struct sockaddr_in sin;
+  address addr;
   socklen_t len;
 
 #define OPTS(_)								\
@@ -425,67 +978,38 @@ static int fixup_real_ip_socket(int sk)
   len = sizeof(sun);
   if (real_getsockname(sk, SA(&sun), &len))
     return (-1);
-  if (decode_inet_addr(&sin, &sun, len))
+  if (decode_inet_addr(&addr.sa, af_hint, &sun, len))
     return (0); /* Not one of ours */
   len = sizeof(type);
   if (real_getsockopt(sk, SOL_SOCKET, SO_TYPE, &type, &len) < 0 ||
-      (nsk = real_socket(PF_INET, type, 0)) < 0)
+      (nsk = real_socket(addr.sa.sa_family, type, 0)) < 0)
     return (-1);
 #define FIX(opt, ty) do {						\
   ty ov_;								\
   len = sizeof(ov_);							\
   if (real_getsockopt(sk, SOL_SOCKET, SO_##opt, &ov_, &len) < 0 ||	\
       real_setsockopt(nsk, SOL_SOCKET, SO_##opt, &ov_, len)) {		\
-    real_close(nsk);							\
+    close(nsk);								\
     return (-1);							\
   }									\
 } while (0);
   OPTS(FIX)
 #undef FIX
-  if ((f = fcntl(sk, F_GETFL)) < 0 ||
-      (fd = fcntl(sk, F_GETFD)) < 0 ||
-      fcntl(nsk, F_SETFL, f) < 0 ||
-      dup2(nsk, sk) < 0) {
-    real_close(nsk);
-    return (-1);
-  }
-  unlink(sun.sun_path);
-  real_close(nsk);
-  if (fcntl(sk, F_SETFD, fd) < 0) {
-    perror("noip: fixup_real_ip_socket F_SETFD");
-    abort();
-  }
-  return (0);
-}
-
-/* The socket SK is about to be used to communicate with the remote address
- * SA.  Assign it a local address so that getpeername does something useful.
- */
-static int do_implicit_bind(int sk, const struct sockaddr **sa,
-			    socklen_t *len, struct sockaddr_un *sun)
-{
-  struct sockaddr_in sin;
-  socklen_t mylen = sizeof(*sun);
-
-  if (acl_allows_p(connect_real, SIN(*sa))) {
-    if (fixup_real_ip_socket(sk))
-      return (-1);
-  } else {
-    if (real_getsockname(sk, SA(sun), &mylen) < 0)
+  if (tmp)
+    *tmp = nsk;
+  else {
+    if ((f = fcntl(sk, F_GETFL)) < 0 ||
+	(fd = fcntl(sk, F_GETFD)) < 0 ||
+	fcntl(nsk, F_SETFL, f) < 0 ||
+	dup2(nsk, sk) < 0) {
+      close(nsk);
       return (-1);
-    if (sun->sun_family == AF_UNIX) {
-      if (mylen < sizeof(*sun)) ((char *)sun)[mylen] = 0;
-      if (!sun->sun_path[0]) {
-	sin.sin_family = AF_INET;
-	sin.sin_addr.s_addr = htonl(INADDR_LOOPBACK);
-	sin.sin_port = 0;
-	encode_inet_addr(sun, &sin, WANT_FRESH);
-	if (real_bind(sk, SA(sun), SUN_LEN(sun)))
-	  return (-1);
-      }
-      encode_inet_addr(sun, SIN(*sa), WANT_EXISTING);
-      *sa = SA(sun);
-      *len = SUN_LEN(sun);
+    }
+    unlink(sun.sun_path);
+    close(nsk);
+    if (fcntl(sk, F_SETFD, fd) < 0) {
+      perror("noip: fixup_real_ip_socket F_SETFD");
+      abort();
     }
   }
   return (0);
@@ -496,24 +1020,182 @@ static int do_implicit_bind(int sk, const struct sockaddr **sa,
  * deception.  Whatever happens, put the result at FAKE and store its length
  * at FAKELEN.
  */
+#define FNF_V6MAPPED 1u
 static void return_fake_name(struct sockaddr *sa, socklen_t len,
-			     struct sockaddr *fake, socklen_t *fakelen)
+			     struct sockaddr *fake, socklen_t *fakelen,
+			     unsigned f)
 {
-  struct sockaddr_in sin;
+  address addr;
+  struct sockaddr_in6 sin6;
   socklen_t alen;
 
-  if (sa->sa_family == AF_UNIX && !decode_inet_addr(&sin, SUN(sa), len)) {
-    sa = SA(&sin);
-    len = sizeof(sin);
+  if (sa->sa_family == AF_UNIX &&
+      !decode_inet_addr(&addr.sa, 0, SUN(sa), len)) {
+    if (addr.sa.sa_family != AF_INET || !(f&FNF_V6MAPPED)) {
+      sa = &addr.sa;
+      len = family_socklen(addr.sa.sa_family);
+    } else {
+      map_ipv4_sockaddr(&sin6, &addr.sin);
+      sa = SA(&sin6);
+      len = family_socklen(AF_INET6);
+    }
   }
   alen = len;
-  if (len > *fakelen)
-    len = *fakelen;
-  if (len > 0)
-    memcpy(fake, sa, len);
+  if (len > *fakelen) len = *fakelen;
+  if (len > 0) memcpy(fake, sa, len);
   *fakelen = alen;
 }
 
+/* Variant of `return_fake_name' above, specifically handling the weirdness
+ * of remote v6-mapped IPv4 addresses.  If SK's fake local address is IPv6,
+ * and the remote address is IPv4, then return a v6-mapped version of the
+ * remote address.
+ */
+static void return_fake_peer(int sk, struct sockaddr *sa, socklen_t len,
+			     struct sockaddr *fake, socklen_t *fakelen)
+{
+  char sabuf[1024];
+  socklen_t mylen = sizeof(sabuf);
+  unsigned fnf = 0;
+  address addr;
+  int rc;
+
+  PRESERVING_ERRNO({
+    rc = real_getsockname(sk, SA(sabuf), &mylen);
+    if (!rc && sa->sa_family == AF_UNIX &&
+	!decode_inet_addr(&addr.sa, 0, SUN(sabuf), mylen) &&
+	addr.sa.sa_family == AF_INET6)
+      fnf |= FNF_V6MAPPED;
+  });
+  return_fake_name(sa, len, fake, fakelen, fnf);
+}
+
+/*----- Implicit binding --------------------------------------------------*/
+
+#ifdef DEBUG
+
+static void dump_impbind(const impbind *i)
+{
+  char buf[ADDRBUFSZ];
+
+  fprintf(stderr, "noip(%d):   ", getpid());
+  dump_addrrange(i->af, &i->minaddr, &i->maxaddr);
+  switch (i->how) {
+    case SAME: fprintf(stderr, " <self>"); break;
+    case EXPLICIT:
+      fprintf(stderr, " %s", inet_ntop(i->af, &i->bindaddr,
+				       buf, sizeof(buf)));
+      break;
+    default: abort();
+  }
+  fputc('\n', stderr);
+}
+
+static void dump_impbind_list(void)
+{
+  const impbind *i;
+
+  for (i = impbinds; i; i = i->next) dump_impbind(i);
+}
+
+#endif
+
+/* The socket SK is about to be used to communicate with the remote address
+ * SA.  Assign it a local address so that getpeername(2) does something
+ * useful.
+ *
+ * If the flag `IBF_V6MAPPED' is set then, then SA must be an `AF_INET'
+ * address; after deciding on the appropriate local address, convert it to be
+ * an IPv4-mapped IPv6 address before final conversion to a Unix-domain
+ * socket address and actually binding.  Note that this could well mean that
+ * the socket ends up bound to the v6-mapped v4 wildcard address
+ * ::ffff:0.0.0.0, which looks very strange but is meaningful.
+ */
+#define IBF_V6MAPPED 1u
+static int do_implicit_bind(int sk, const struct sockaddr *sa, unsigned f)
+{
+  address addr;
+  struct sockaddr_in6 sin6;
+  struct sockaddr_un sun;
+  const impbind *i;
+  Dpid;
+
+  D( fprintf(stderr, "noip(%d): checking impbind list...\n", pid); )
+  for (i = impbinds; i; i = i->next) {
+    D( dump_impbind(i); )
+    if (sa->sa_family == i->af &&
+	sockaddr_in_range_p(sa, &i->minaddr, &i->maxaddr)) {
+      D( fprintf(stderr, "noip(%d): match!\n", pid); )
+      addr.sa.sa_family = sa->sa_family;
+      switch (i->how) {
+	case EXPLICIT: ipaddr_to_sockaddr(&addr.sa, &i->bindaddr); break;
+	case SAME: copy_sockaddr(&addr.sa, sa); break;
+      }
+      port_to_sockaddr(&addr.sa, 0);
+      goto found;
+    }
+  }
+  D( fprintf(stderr, "noip(%d): no match; using wildcard\n", pid); )
+  wildcard_address(sa->sa_family, &addr.sa);
+found:
+  if (addr.sa.sa_family != AF_INET || !(f&IBF_V6MAPPED)) sa = &addr.sa;
+  else { map_ipv4_sockaddr(&sin6, &addr.sin); sa = SA(&sin6); }
+  encode_inet_addr(&sun, sa, ENCF_FRESH);
+  D( fprintf(stderr, "noip(%d): implicitly binding to %s\n",
+	     pid, sun.sun_path); )
+  if (real_bind(sk, SA(&sun), SUN_LEN(&sun))) return (-1);
+  return (0);
+}
+
+/* The socket SK is about to communicate with the remote address *SA.  Ensure
+ * that the socket has a local address, and adjust *SA to refer to the real
+ * remote endpoint.
+ *
+ * If we need to translate the remote address, then the Unix-domain endpoint
+ * address will end in *SUN, and *SA will be adjusted to point to it.
+ */
+static int fixup_client_socket(int sk, const struct sockaddr **sa_r,
+			       socklen_t *len_r, struct sockaddr_un *sun)
+{
+  struct sockaddr_in sin;
+  socklen_t mylen = sizeof(*sun);
+  const struct sockaddr *sa = *sa_r;
+  unsigned ibf = 0;
+
+  /* If this isn't a Unix-domain socket then there's nothing to do. */
+  if (real_getsockname(sk, SA(sun), &mylen) < 0) return (-1);
+  if (sun->sun_family != AF_UNIX) return (0);
+  if (mylen < sizeof(*sun)) ((char *)sun)[mylen] = 0;
+
+  /* If the remote address is v6-mapped IPv4, then unmap it so as to search
+   * for IPv4 servers.  Also remember to v6-map the local address when we
+   * autobind.
+   */
+  if (sa->sa_family == AF_INET6 && !(unmap_ipv4_sockaddr(&sin, SIN6(sa)))) {
+    sa = SA(&sin);
+    ibf |= IBF_V6MAPPED;
+  }
+
+  /* If we're allowed to talk to a real remote endpoint, then fix things up
+   * as necessary and proceed.
+   */
+  if (acl_allows_p(connect_real, sa)) {
+    if (fixup_real_ip_socket(sk, (*sa_r)->sa_family, 0)) return (-1);
+    return (0);
+  }
+
+  /* Speaking of which, if we don't have a local address, then we should
+   * arrange one now.
+   */
+  if (!sun->sun_path[0] && do_implicit_bind(sk, sa, ibf)) return (-1);
+
+  /* And then come up with a remote address. */
+  encode_inet_addr(sun, sa, 0);
+  *sa_r = SA(sun);
+  *len_r = SUN_LEN(sun);
+  return (0);
+}
+
 /*----- Configuration -----------------------------------------------------*/
 
 /* Return the process owner's home directory. */
@@ -571,13 +1253,25 @@ static char *user(void)
 
 /* Set Q to point to the next dotted-quad address, store the ending delimiter
  * in DEL, null-terminate it, and step P past it. */
-#define NEXTADDR(q, del) do {						\
-  SKIPSPC;								\
-  q = p;								\
-  while (*p && (*p == '.' || isdigit(UC(*p)))) p++;			\
-  del = *p;								\
-  if (*p) *p++ = 0;							\
-} while (0)
+static void parse_nextaddr(char **pp, char **qq, int *del)
+{
+  char *p = *pp;
+
+  SKIPSPC;
+  if (*p == '[') {
+    p++; SKIPSPC;
+    *qq = p;
+    p += strcspn(p, "]");
+    if (*p) *p++ = 0;
+    *del = 0;
+  } else {
+    *qq = p;
+    while (*p && (*p == '.' || isdigit(UC(*p)))) p++;
+    *del = *p;
+    if (*p) *p++ = 0;
+  }
+  *pp = p;
+}
 
 /* Set Q to point to the next decimal number, store the ending delimiter in
  * DEL, null-terminate it, and step P past it. */
@@ -625,104 +1319,242 @@ static void parse_ports(char **pp, unsigned short *min, unsigned short *max)
   *pp = p;
 }
 
-/* Make a new ACL node.  ACT is the verdict; MINADDR and MAXADDR are the
- * ranges on IP addresses; MINPORT and MAXPORT are the ranges on port
- * numbers; TAIL is the list tail to attach the new node to.
+/* Parse an address range designator starting at PP and store a
+ * representation of it in R.  An address range designator has the form:
+ *
+ *	any | local | ADDR | ADDR - ADDR | ADDR/ADDR | ADDR/INT
  */
-#define ACLNODE(tail_, act_,						\
-		minaddr_, maxaddr_, minport_, maxport_) do {		\
-  aclnode *a_;								\
-  NEW(a_);								\
-  a_->act = act_;							\
-  a_->minaddr = minaddr_; a_->maxaddr = maxaddr_;			\
-  a_->minport = minport_; a_->maxport = maxport_;			\
-  *tail_ = a_; tail_ = &a_->next;					\
-} while (0)
+static int parse_addrrange(char **pp, addrrange *r)
+{
+  char *p = *pp, *q;
+  int n;
+  int del;
+  int af;
+
+  SKIPSPC;
+  if (KWMATCHP("any")) r->type = ANY;
+  else if (KWMATCHP("local")) r->type = LOCAL;
+  else {
+    parse_nextaddr(&p, &q, &del);
+    af = guess_address_family(q);
+    if (inet_pton(af, q, &r->u.range.min) <= 0) goto bad;
+    RESCAN(del);
+    SKIPSPC;
+    if (*p == '-') {
+      p++;
+      parse_nextaddr(&p, &q, &del);
+      if (inet_pton(af, q, &r->u.range.max) <= 0) goto bad;
+      RESCAN(del);
+    } else if (*p == '/') {
+      p++;
+      NEXTNUMBER(q, del);
+      n = strtoul(q, 0, 0);
+      r->u.range.max = r->u.range.min;
+      mask_address(af, &r->u.range.min, n, 0);
+      mask_address(af, &r->u.range.max, n, 1);
+      RESCAN(del);
+    } else
+      r->u.range.max = r->u.range.min;
+    r->type = RANGE;
+    r->u.range.af = af;
+  }
+  *pp = p;
+  return (0);
+
+bad:
+  return (-1);
+}
+
+/* Call FUNC on each individual address range in R. */
+static void foreach_addrrange(const addrrange *r,
+			      void (*func)(int af,
+					   const ipaddr *min,
+					   const ipaddr *max,
+					   void *p),
+			      void *p)
+{
+  ipaddr minaddr, maxaddr;
+  int i, af;
+
+  switch (r->type) {
+    case EMPTY:
+      break;
+    case ANY:
+      for (i = 0; address_families[i] >= 0; i++) {
+	af = address_families[i];
+	memset(&minaddr, 0, sizeof(minaddr));
+	maxaddr = minaddr; mask_address(af, &maxaddr, 0, 1);
+	func(af, &minaddr, &maxaddr, p);
+      }
+      break;
+    case LOCAL:
+      for (i = 0; address_families[i] >= 0; i++) {
+	af = address_families[i];
+	memset(&minaddr, 0, sizeof(minaddr));
+	maxaddr = minaddr; mask_address(af, &maxaddr, 0, 1);
+	func(af, &minaddr, &minaddr, p);
+	func(af, &maxaddr, &maxaddr, p);
+      }
+      for (i = 0; i < n_local_ipaddrs; i++) {
+	func(local_ipaddrs[i].af,
+	     &local_ipaddrs[i].addr, &local_ipaddrs[i].addr,
+	     p);
+      }
+      break;
+    case RANGE:
+      func(r->u.range.af, &r->u.range.min, &r->u.range.max, p);
+      break;
+    default:
+      abort();
+  }
+}
+
+struct add_aclnode_ctx {
+  int act;
+  unsigned short minport, maxport;
+  aclnode ***tail;
+};
+
+static void add_aclnode(int af, const ipaddr *min, const ipaddr *max,
+			void *p)
+{
+  struct add_aclnode_ctx *ctx = p;
+  aclnode *a;
+
+  NEW(a);
+  a->act = ctx->act;
+  a->af = af;
+  a->minaddr = *min; a->maxaddr = *max;
+  a->minport = ctx->minport; a->maxport = ctx->maxport;
+  **ctx->tail = a; *ctx->tail = &a->next;
+}
 
 /* Parse an ACL line.  *PP points to the end of the line; *TAIL points to
  * the list tail (i.e., the final link in the list).  An ACL entry has the
- * form +|- [any | local | ADDR | ADDR - ADDR | ADDR/ADDR | ADDR/INT] PORTS
+ * form +|- ADDR-RANGE PORTS
  * where PORTS is parsed by parse_ports above; an ACL line consists of a
  * comma-separated sequence of entries..
  */
 static void parse_acl_line(char **pp, aclnode ***tail)
 {
-  struct in_addr addr;
-  unsigned long minaddr, maxaddr, mask;
-  unsigned short minport, maxport;
-  int i, n;
-  int act;
-  int del;
+  struct add_aclnode_ctx ctx;
+  addrrange r;
   char *p = *pp;
-  char *q;
 
+  ctx.tail = tail;
   for (;;) {
     SKIPSPC;
-    if (*p == '+') act = ALLOW;
-    else if (*p == '-') act = DENY;
+    if (*p == '+') ctx.act = ALLOW;
+    else if (*p == '-') ctx.act = DENY;
     else goto bad;
 
     p++;
+    if (parse_addrrange(&p, &r)) goto bad;
+    parse_ports(&p, &ctx.minport, &ctx.maxport);
+    foreach_addrrange(&r, add_aclnode, &ctx);
     SKIPSPC;
-    if (KWMATCHP("any")) {
-      minaddr = 0;
-      maxaddr = 0xffffffff;
-      goto justone;
-    } else if (KWMATCHP("local")) {
-      parse_ports(&p, &minport, &maxport);
-      ACLNODE(*tail, act, 0, 0, minport, maxport);
-      ACLNODE(*tail, act, 0xffffffff, 0xffffffff, minport, maxport);
-      for (i = 0; i < n_local_ipaddrs; i++) {
-	minaddr = ntohl(local_ipaddrs[i].s_addr);
-	ACLNODE(*tail, act, minaddr, minaddr, minport, maxport);
-      }
+    if (*p != ',') break;
+    if (*p) p++;
+  }
+  if (*p) goto bad;
+  *pp = p;
+  return;
+
+bad:
+  D( fprintf(stderr, "noip(%d): bad acl spec (ignored)\n", getpid()); )
+  return;
+}
+
+/* Parse an ACL from an environment variable VAR, attaching it to the list
+ * TAIL.
+ */
+static void parse_acl_env(const char *var, aclnode ***tail)
+{
+  char *p, *q;
+
+  if ((p = getenv(var)) != 0) {
+    p = q = xstrdup(p);
+    parse_acl_line(&q, tail);
+    free(p);
+  }
+}
+
+struct add_impbind_ctx {
+  int af, how;
+  ipaddr addr;
+};
+
+static void add_impbind(int af, const ipaddr *min, const ipaddr *max,
+			void *p)
+{
+  struct add_impbind_ctx *ctx = p;
+  impbind *i;
+
+  if (ctx->af && af != ctx->af) return;
+  NEW(i);
+  i->af = af;
+  i->how = ctx->how;
+  i->minaddr = *min; i->maxaddr = *max;
+  switch (ctx->how) {
+    case EXPLICIT: i->bindaddr = ctx->addr;
+    case SAME: break;
+    default: abort();
+  }
+  *impbind_tail = i; impbind_tail = &i->next;
+}
+
+/* Parse an implicit-bind line.  An implicit-bind entry has the form
+ * ADDR-RANGE {ADDR | same}
+ */
+static void parse_impbind_line(char **pp)
+{
+  struct add_impbind_ctx ctx;
+  char *p = *pp, *q;
+  addrrange r;
+  int del;
+
+  for (;;) {
+    if (parse_addrrange(&p, &r)) goto bad;
+    SKIPSPC;
+    if (KWMATCHP("same")) {
+      ctx.how = SAME;
+      ctx.af = 0;
     } else {
-      if (*p == ':') {
-	minaddr = 0;
-	maxaddr = 0xffffffff;
-      } else {
-	NEXTADDR(q, del);
-	if (inet_pton(AF_INET, q, &addr) <= 0) goto bad;
-	minaddr = ntohl(addr.s_addr);
-	RESCAN(del);
-	SKIPSPC;
-	if (*p == '-') {
-	  p++;
-	  NEXTADDR(q, del);
-	  if (inet_pton(AF_INET, q, &addr) <= 0) goto bad;
-	  RESCAN(del);
-	  maxaddr = ntohl(addr.s_addr);
-	} else if (*p == '/') {
-	  p++;
-	  NEXTADDR(q, del);
-	  if (strchr(q, '.')) {
-	    if (inet_pton(AF_INET, q, &addr) <= 0) goto bad;
-	    mask = ntohl(addr.s_addr);
-	  } else {
-	    n = strtoul(q, 0, 0);
-	    mask = (~0ul << (32 - n)) & 0xffffffff;
-	  }
-	  RESCAN(del);
-	  minaddr &= mask;
-	  maxaddr = minaddr | (mask ^ 0xffffffff);
-	} else
-	  maxaddr = minaddr;
-      }
-    justone:
-      parse_ports(&p, &minport, &maxport);
-      ACLNODE(*tail, act, minaddr, maxaddr, minport, maxport);
+      ctx.how = EXPLICIT;
+      parse_nextaddr(&p, &q, &del);
+      ctx.af = guess_address_family(q);
+      if (inet_pton(ctx.af, q, &ctx.addr) < 0) goto bad;
+      RESCAN(del);
     }
+    foreach_addrrange(&r, add_impbind, &ctx);
     SKIPSPC;
     if (*p != ',') break;
-    p++;
+    if (*p) p++;
   }
+  if (*p) goto bad;
+  *pp = p;
   return;
 
 bad:
-  D( fprintf(stderr, "noip: bad acl spec (ignored)\n"); )
+  D( fprintf(stderr, "noip(%d): bad implicit-bind spec (ignored)\n",
+	     getpid()); )
   return;
 }
 
+/* Parse implicit-bind instructions from an environment variable VAR,
+ * attaching it to the list.
+ */
+static void parse_impbind_env(const char *var)
+{
+  char *p, *q;
+
+  if ((p = getenv(var)) != 0) {
+    p = q = xstrdup(p);
+    parse_impbind_line(&q);
+    free(p);
+  }
+}
+
 /* Parse the autoports configuration directive.  Syntax is MIN - MAX. */
 static void parse_autoports(char **pp)
 {
@@ -733,29 +1565,19 @@ static void parse_autoports(char **pp)
   SKIPSPC;
   NEXTNUMBER(q, del); x = strtoul(q, 0, 0); RESCAN(del);
   SKIPSPC;
-  if (*p != '-') goto bad; p++;
+  if (*p != '-') goto bad;
+  p++;
   NEXTNUMBER(q, del); y = strtoul(q, 0, 0); RESCAN(del);
   minautoport = x; maxautoport = y;
+  SKIPSPC; if (*p) goto bad;
+  *pp = p;
   return;
 
 bad:
-  D( fprintf(stderr, "bad port range (ignored)\n"); )
+  D( fprintf(stderr, "noip(%d): bad port range (ignored)\n", getpid()); )
   return;
 }
 
-/* Parse an ACL from an environment variable VAR, attaching it to the list
- * TAIL. */
-static void parse_acl_env(const char *var, aclnode ***tail)
-{
-  char *p, *q;
-
-  if ((p = getenv(var)) != 0) {
-    p = q = xstrdup(p);
-    parse_acl_line(&q, tail);
-    free(p);
-  }
-}
-
 /* Read the configuration from the config file and environment. */
 static void readconfig(void)
 {
@@ -763,9 +1585,11 @@ static void readconfig(void)
   char buf[1024];
   size_t n;
   char *p, *q, *cmd;
+  Dpid;
 
   parse_acl_env("NOIP_REALBIND_BEFORE", &bind_tail);
   parse_acl_env("NOIP_REALCONNECT_BEFORE", &connect_tail);
+  parse_impbind_env("NOIP_IMPBIND_BEFORE");
   if ((p = getenv("NOIP_AUTOPORTS")) != 0) {
     p = q = xstrdup(p);
     parse_autoports(&q);
@@ -773,11 +1597,11 @@ static void readconfig(void)
   }
   if ((p = getenv("NOIP_CONFIG")) == 0)
     snprintf(p = buf, sizeof(buf), "%s/.noip", home());
-  D( fprintf(stderr, "noip: config file: %s\n", p); )
+  D( fprintf(stderr, "noip(%d): config file: %s\n", pid, p); )
 
   if ((fp = fopen(p, "r")) == 0) {
-    D( fprintf(stderr, "noip: couldn't read config: %s\n",
-	       strerror(errno)); )
+    D( fprintf(stderr, "noip(%d): couldn't read config: %s\n",
+	       pid, strerror(errno)); )
     goto done;
   }
   while (fgets(buf, sizeof(buf), fp)) {
@@ -797,112 +1621,209 @@ static void readconfig(void)
       parse_acl_line(&p, &bind_tail);
     else if (strcmp(cmd, "realconnect") == 0)
       parse_acl_line(&p, &connect_tail);
+    else if (strcmp(cmd, "impbind") == 0)
+      parse_impbind_line(&p);
     else if (strcmp(cmd, "autoports") == 0)
       parse_autoports(&p);
     else if (strcmp(cmd, "debug") == 0)
       debug = *p ? atoi(p) : 1;
     else
-      D( fprintf(stderr, "noip: bad config command %s\n", cmd); )
+      D( fprintf(stderr, "noip(%d): bad config command %s\n", pid, cmd); )
   }
   fclose(fp);
 
 done:
   parse_acl_env("NOIP_REALBIND", &bind_tail);
   parse_acl_env("NOIP_REALCONNECT", &connect_tail);
+  parse_impbind_env("NOIP_IMPBIND");
   parse_acl_env("NOIP_REALBIND_AFTER", &bind_tail);
   parse_acl_env("NOIP_REALCONNECT_AFTER", &connect_tail);
+  parse_impbind_env("NOIP_IMPBIND_AFTER");
   *bind_tail = 0;
   *connect_tail = 0;
+  *impbind_tail = 0;
   if (!sockdir) sockdir = getenv("NOIP_SOCKETDIR");
   if (!sockdir) {
     snprintf(buf, sizeof(buf), "%s/noip-%s", tmpdir(), user());
     sockdir = xstrdup(buf);
   }
-  D( fprintf(stderr, "noip: socketdir: %s\n", sockdir);
-     fprintf(stderr, "noip: autoports: %u-%u\n",
-	     minautoport, maxautoport);
-     fprintf(stderr, "noip: realbind acl:\n");
+  D( fprintf(stderr, "noip(%d): socketdir: %s\n", pid, sockdir);
+     fprintf(stderr, "noip(%d): autoports: %u-%u\n",
+	     pid, minautoport, maxautoport);
+     fprintf(stderr, "noip(%d): realbind acl:\n", pid);
      dump_acl(bind_real);
-     fprintf(stderr, "noip: realconnect acl:\n");
-     dump_acl(connect_real); )
+     fprintf(stderr, "noip(%d): realconnect acl:\n", pid);
+     dump_acl(connect_real);
+     fprintf(stderr, "noip(%d): impbind list:\n", pid);
+     dump_impbind_list(); )
 }
 
 /*----- Overridden system calls -------------------------------------------*/
 
+static void dump_syserr(long rc)
+  { fprintf(stderr, " => %ld (E%d)\n", rc, errno); }
+
+static void dump_sysresult(long rc)
+{
+  if (rc < 0) dump_syserr(rc);
+  else fprintf(stderr, " => %ld\n", rc);
+}
+
+static void dump_addrresult(long rc, const struct sockaddr *sa,
+			    socklen_t len)
+{
+  char addrbuf[ADDRBUFSZ];
+
+  if (rc < 0) dump_syserr(rc);
+  else {
+    fprintf(stderr, " => %ld [%s]\n", rc,
+	    present_sockaddr(sa, len, addrbuf, sizeof(addrbuf)));
+  }
+}
+
 int socket(int pf, int ty, int proto)
 {
-  if (pf == PF_INET) {
-    pf = PF_UNIX;
-    proto = 0;
+  int sk;
+
+  D( fprintf(stderr, "noip(%d): SOCKET pf=%d, type=%d, proto=%d",
+	     getpid(), pf, ty, proto); )
+
+  switch (pf) {
+    default:
+      if (!family_known_p(pf)) {
+	D( fprintf(stderr, " -> unknown; refuse\n"); )
+	errno = EAFNOSUPPORT;
+	sk = -1;
+      }
+      D( fprintf(stderr, " -> inet; substitute"); )
+      pf = PF_UNIX;
+      proto = 0;
+      break;
+    case PF_UNIX:
+#ifdef PF_NETLINK
+    case PF_NETLINK:
+#endif
+      D( fprintf(stderr, " -> safe; permit"); )
+      break;
   }
-  return real_socket(pf, ty, proto);
+  sk = real_socket(pf, ty, proto);
+  D( dump_sysresult(sk); )
+  return (sk);
 }
 
 int socketpair(int pf, int ty, int proto, int *sk)
 {
-  if (pf == PF_INET) {
+  int rc;
+
+  D( fprintf(stderr, "noip(%d): SOCKETPAIR pf=%d, type=%d, proto=%d",
+	     getpid(), pf, ty, proto); )
+  if (!family_known_p(pf))
+    D( fprintf(stderr, " -> unknown; permit"); )
+  else {
+    D( fprintf(stderr, " -> inet; substitute"); )
     pf = PF_UNIX;
     proto = 0;
   }
-  return (real_socketpair(pf, ty, proto, sk));
+  rc = real_socketpair(pf, ty, proto, sk);
+  D( if (rc < 0) dump_syserr(rc);
+     else fprintf(stderr, " => %d (%d, %d)\n", rc, sk[0], sk[1]); )
+  return (rc);
 }
 
 int bind(int sk, const struct sockaddr *sa, socklen_t len)
 {
   struct sockaddr_un sun;
+  int rc;
+  unsigned f;
+  int reusep;
+  socklen_t n;
+  Dpid;
 
-  if (sa->sa_family == AF_INET) {
+  D({ char buf[ADDRBUFSZ];
+      fprintf(stderr, "noip(%d): BIND sk=%d, sa[%d]=%s", pid,
+	      sk, len, present_sockaddr(sa, len, buf, sizeof(buf))); })
+
+  if (!family_known_p(sa->sa_family))
+    D( fprintf(stderr, " -> unknown af; pass through"); )
+  else {
+    D( fprintf(stderr, " -> checking...\n"); )
     PRESERVING_ERRNO({
-      if (acl_allows_p(bind_real, SIN(sa))) {
-	if (fixup_real_ip_socket(sk))
+      if (acl_allows_p(bind_real, sa)) {
+	if (fixup_real_ip_socket(sk, sa->sa_family, 0))
 	  return (-1);
       } else {
-	encode_inet_addr(&sun, SIN(sa), WANT_FRESH);
+	f = ENCF_FRESH;
+	n = sizeof(reusep);
+	if (!getsockopt(sk, SOL_SOCKET, SO_REUSEADDR, &reusep, &n) && reusep)
+	  f |= ENCF_REUSEADDR;
+	encode_inet_addr(&sun, sa, f);
 	sa = SA(&sun);
 	len = SUN_LEN(&sun);
       }
     });
+    D( fprintf(stderr, "noip(%d): BIND ...", pid); )
   }
-  return real_bind(sk, sa, len);
+  rc = real_bind(sk, sa, len);
+  D( dump_sysresult(rc); )
+  return (rc);
 }
 
 int connect(int sk, const struct sockaddr *sa, socklen_t len)
 {
   struct sockaddr_un sun;
-  int fixup_p = 0;
   int rc;
+  Dpid;
 
-  switch (sa->sa_family) {
-    case AF_INET:
-      PRESERVING_ERRNO({
-	do_implicit_bind(sk, &sa, &len, &sun);
-	fixup_p = 1;
-      });
-      rc = real_connect(sk, sa, len);
-      if (rc < 0) {
-	switch (errno) {
-	  case ENOENT:	errno = ECONNREFUSED;	break;
-	}
+  D({ char buf[ADDRBUFSZ];
+      fprintf(stderr, "noip(%d): CONNECT sk=%d, sa[%d]=%s", pid,
+	      sk, len, present_sockaddr(sa, len, buf, sizeof(buf))); })
+
+  if (!family_known_p(sa->sa_family)) {
+    D( fprintf(stderr, " -> unknown af; pass through"); )
+    rc = real_connect(sk, sa, len);
+  } else {
+    D( fprintf(stderr, " -> checking...\n"); )
+    PRESERVING_ERRNO({
+      fixup_client_socket(sk, &sa, &len, &sun);
+    });
+    D( fprintf(stderr, "noip(%d): CONNECT ...", pid); )
+    rc = real_connect(sk, sa, len);
+    if (rc < 0) {
+      switch (errno) {
+	case ENOENT: errno = ECONNREFUSED; break;
       }
-      break;
-    default:
-      rc = real_connect(sk, sa, len);
-      break;
+    }
   }
-  return rc;
+  D( dump_sysresult(rc); )
+  return (rc);
 }
 
 ssize_t sendto(int sk, const void *buf, size_t len, int flags,
 	       const struct sockaddr *to, socklen_t tolen)
 {
   struct sockaddr_un sun;
+  ssize_t n;
+  Dpid;
+
+  D({ char addrbuf[ADDRBUFSZ];
+      fprintf(stderr, "noip(%d): SENDTO sk=%d, len=%lu, flags=%d, to[%d]=%s",
+	      pid, sk, (unsigned long)len, flags, tolen,
+	      present_sockaddr(to, tolen, addrbuf, sizeof(addrbuf))); })
 
-  if (to && to->sa_family == AF_INET) {
+  if (!to)
+    D( fprintf(stderr, " -> null address; leaving"); )
+  else if (!family_known_p(to->sa_family))
+    D( fprintf(stderr, " -> unknown af; pass through"); )
+  else {
+    D( fprintf(stderr, " -> checking...\n"); )
     PRESERVING_ERRNO({
-      do_implicit_bind(sk, &to, &tolen, &sun);
+      fixup_client_socket(sk, &to, &tolen, &sun);
     });
+    D( fprintf(stderr, "noip(%d): SENDTO ...", pid); )
   }
-  return real_sendto(sk, buf, len, flags, to, tolen);
+  n = real_sendto(sk, buf, len, flags, to, tolen);
+  D( dump_sysresult(n); )
+  return (n);
 }
 
 ssize_t recvfrom(int sk, void *buf, size_t len, int flags,
@@ -911,57 +1832,91 @@ ssize_t recvfrom(int sk, void *buf, size_t len, int flags,
   char sabuf[1024];
   socklen_t mylen = sizeof(sabuf);
   ssize_t n;
+  Dpid;
 
-  if (!from)
-    return real_recvfrom(sk, buf, len, flags, 0, 0);
-  PRESERVING_ERRNO({
+  D( fprintf(stderr, "noip(%d): RECVFROM sk=%d, len=%lu, flags=%d",
+	     pid, sk, (unsigned long)len, flags); )
+
+  if (!from) {
+    D( fprintf(stderr, " -> null addr; pass through"); )
+    n = real_recvfrom(sk, buf, len, flags, 0, 0);
+  } else {
     n = real_recvfrom(sk, buf, len, flags, SA(sabuf), &mylen);
-    if (n < 0)
-      return (-1);
-    return_fake_name(SA(sabuf), mylen, from, fromlen);
-  });
+    if (n >= 0) {
+      D( fprintf(stderr, " -> converting...\n"); )
+      PRESERVING_ERRNO({
+	return_fake_peer(sk, SA(sabuf), mylen, from, fromlen);
+      });
+      D( fprintf(stderr, "noip(%d): ... RECVFROM", pid); )
+    }
+  }
+  D( dump_addrresult(n, from, fromlen ? *fromlen : 0); )
   return (n);
 }
 
 ssize_t sendmsg(int sk, const struct msghdr *msg, int flags)
 {
   struct sockaddr_un sun;
-  const struct sockaddr *sa;
+  const struct sockaddr *sa = SA(msg->msg_name);
   struct msghdr mymsg;
-
-  if (msg->msg_name && SA(msg->msg_name)->sa_family == AF_INET) {
+  ssize_t n;
+  Dpid;
+
+  D({ char addrbuf[ADDRBUFSZ];
+      fprintf(stderr, "noip(%d): SENDMSG sk=%d, "
+		      "msg_flags=%d, msg_name[%d]=%s, ...",
+	      pid, sk, msg->msg_flags, msg->msg_namelen,
+	      present_sockaddr(sa, msg->msg_namelen,
+			       addrbuf, sizeof(addrbuf))); })
+
+  if (!sa)
+    D( fprintf(stderr, " -> null address; leaving"); )
+  else if (!family_known_p(sa->sa_family))
+    D( fprintf(stderr, " -> unknown af; pass through"); )
+  else {
+    D( fprintf(stderr, " -> checking...\n"); )
     PRESERVING_ERRNO({
-      sa = SA(msg->msg_name);
       mymsg = *msg;
-      do_implicit_bind(sk, &sa, &mymsg.msg_namelen, &sun);
+      fixup_client_socket(sk, &sa, &mymsg.msg_namelen, &sun);
       mymsg.msg_name = SA(sa);
       msg = &mymsg;
     });
+    D( fprintf(stderr, "noip(%d): SENDMSG ...", pid); )
   }
-  return real_sendmsg(sk, msg, flags);
+  n = real_sendmsg(sk, msg, flags);
+  D( dump_sysresult(n); )
+  return (n);
 }
 
 ssize_t recvmsg(int sk, struct msghdr *msg, int flags)
 {
   char sabuf[1024];
-  struct sockaddr *sa;
-  socklen_t len;
+  struct sockaddr *sa = SA(msg->msg_name);
+  socklen_t len = msg->msg_namelen;
   ssize_t n;
+  Dpid;
 
-  if (!msg->msg_name)
-    return real_recvmsg(sk, msg, flags);
-  PRESERVING_ERRNO({
-    sa = SA(msg->msg_name);
-    len = msg->msg_namelen;
+  D( fprintf(stderr, "noip(%d): RECVMSG sk=%d msg_flags=%d, ...",
+	     pid, sk, msg->msg_flags); )
+
+  if (!msg->msg_name) {
+    D( fprintf(stderr, " -> null addr; pass through"); )
+    return (real_recvmsg(sk, msg, flags));
+  } else {
     msg->msg_name = sabuf;
     msg->msg_namelen = sizeof(sabuf);
     n = real_recvmsg(sk, msg, flags);
-    if (n < 0)
-      return (-1);
-    return_fake_name(SA(sabuf), msg->msg_namelen, sa, &len);
+    if (n >= 0) {
+      D( fprintf(stderr, " -> converting...\n"); )
+      PRESERVING_ERRNO({
+	return_fake_peer(sk, SA(sabuf), msg->msg_namelen, sa, &len);
+      });
+    }
+    D( fprintf(stderr, "noip(%d): ... RECVMSG", pid); )
     msg->msg_name = sa;
     msg->msg_namelen = len;
-  });
+  }
+  D( dump_addrresult(n, sa, len); )
   return (n);
 }
 
@@ -969,57 +1924,80 @@ int accept(int sk, struct sockaddr *sa, socklen_t *len)
 {
   char sabuf[1024];
   socklen_t mylen = sizeof(sabuf);
-  int nsk = real_accept(sk, SA(sabuf), &mylen);
+  int nsk;
+  Dpid;
 
-  if (nsk < 0)
-    return (-1);
-  return_fake_name(SA(sabuf), mylen, sa, len);
+  D( fprintf(stderr, "noip(%d): ACCEPT sk=%d", pid, sk); )
+
+  nsk = real_accept(sk, SA(sabuf), &mylen);
+  if (nsk < 0) /* failed */;
+  else if (!sa) D( fprintf(stderr, " -> address not wanted"); )
+  else {
+    D( fprintf(stderr, " -> converting...\n"); )
+    return_fake_peer(sk, SA(sabuf), mylen, sa, len);
+    D( fprintf(stderr, "noip(%d): ... ACCEPT", pid); )
+  }
+  D( dump_addrresult(nsk, sa, len ? *len : 0); )
   return (nsk);
 }
 
 int getsockname(int sk, struct sockaddr *sa, socklen_t *len)
 {
-  PRESERVING_ERRNO({
-    char sabuf[1024];
-    socklen_t mylen = sizeof(sabuf);
-    if (real_getsockname(sk, SA(sabuf), &mylen))
-      return (-1);
-    return_fake_name(SA(sabuf), mylen, sa, len);
-  });
-  return (0);
+  char sabuf[1024];
+  socklen_t mylen = sizeof(sabuf);
+  int rc;
+  Dpid;
+
+  D( fprintf(stderr, "noip(%d): GETSOCKNAME sk=%d", pid, sk); )
+  rc = real_getsockname(sk, SA(sabuf), &mylen);
+  if (rc >= 0) {
+    D( fprintf(stderr, " -> converting...\n"); )
+    return_fake_name(SA(sabuf), mylen, sa, len, 0);
+    D( fprintf(stderr, "noip(%d): ... GETSOCKNAME", pid); )
+  }
+  D( dump_addrresult(rc, sa, *len); )
+  return (rc);
 }
 
 int getpeername(int sk, struct sockaddr *sa, socklen_t *len)
 {
-  PRESERVING_ERRNO({
-    char sabuf[1024];
-    socklen_t mylen = sizeof(sabuf);
-    if (real_getpeername(sk, SA(sabuf), &mylen))
-      return (-1);
-    return_fake_name(SA(sabuf), mylen, sa, len);
-  });
-  return (0);
+  char sabuf[1024];
+  socklen_t mylen = sizeof(sabuf);
+  int rc;
+  Dpid;
+
+  D( fprintf(stderr, "noip(%d): GETPEERNAME sk=%d", pid, sk); )
+  rc = real_getpeername(sk, SA(sabuf), &mylen);
+  if (rc >= 0) {
+    D( fprintf(stderr, " -> converting...\n"); )
+    return_fake_peer(sk, SA(sabuf), mylen, sa, len);
+    D( fprintf(stderr, "noip(%d): ... GETPEERNAME", pid); )
+  }
+  D( dump_addrresult(rc, sa, *len); )
+  return (rc);
 }
 
 int getsockopt(int sk, int lev, int opt, void *p, socklen_t *len)
 {
   switch (lev) {
-    case SOL_IP:
-    case SOL_TCP:
-    case SOL_UDP:
+    case IPPROTO_IP:
+    case IPPROTO_IPV6:
+    case IPPROTO_TCP:
+    case IPPROTO_UDP:
       if (*len > 0)
 	memset(p, 0, *len);
       return (0);
   }
-  return real_getsockopt(sk, lev, opt, p, len);
+  return (real_getsockopt(sk, lev, opt, p, len));
 }
 
 int setsockopt(int sk, int lev, int opt, const void *p, socklen_t len)
 {
   switch (lev) {
-    case SOL_IP:
-    case SOL_TCP:
-    case SOL_UDP:
+    case IPPROTO_IP:
+    case IPPROTO_IPV6:
+    case IPPROTO_TCP:
+    case IPPROTO_UDP:
       return (0);
   }
   switch (opt) {
@@ -1028,7 +2006,37 @@ int setsockopt(int sk, int lev, int opt, const void *p, socklen_t len)
     case SO_DETACH_FILTER:
       return (0);
   }
-  return real_setsockopt(sk, lev, opt, p, len);
+  return (real_setsockopt(sk, lev, opt, p, len));
+}
+
+int ioctl(int fd, unsigned long op, ...)
+{
+  va_list ap;
+  void *arg;
+  int sk;
+  int rc;
+
+  va_start(ap, op);
+  arg = va_arg(ap, void *);
+
+  switch (op) {
+    case SIOCGIFADDR:
+    case SIOCGIFBRDADDR:
+    case SIOCGIFDSTADDR:
+    case SIOCGIFNETMASK:
+      PRESERVING_ERRNO({
+	if (fixup_real_ip_socket(fd, AF_INET, &sk)) goto real;
+      });
+      rc = real_ioctl(sk, op, arg);
+      PRESERVING_ERRNO({ close(sk); });
+      break;
+    default:
+    real:
+      rc = real_ioctl(fd, op, arg);
+      break;
+  }
+  va_end(ap);
+  return (rc);
 }
 
 /*----- Initialization ----------------------------------------------------*/
@@ -1038,27 +2046,27 @@ static void cleanup_sockdir(void)
 {
   DIR *dir;
   struct dirent *d;
-  struct sockaddr_in sin;
+  address addr;
   struct sockaddr_un sun;
   struct stat st;
+  Dpid;
 
-  if ((dir = opendir(sockdir)) == 0)
-    return;
+  if ((dir = opendir(sockdir)) == 0) return;
   sun.sun_family = AF_UNIX;
   while ((d = readdir(dir)) != 0) {
     if (d->d_name[0] == '.') continue;
     snprintf(sun.sun_path, sizeof(sun.sun_path),
 	     "%s/%s", sockdir, d->d_name);
-    if (decode_inet_addr(&sin, &sun, SUN_LEN(&sun)) ||
+    if (decode_inet_addr(&addr.sa, 0, &sun, SUN_LEN(&sun)) ||
 	stat(sun.sun_path, &st) ||
 	!S_ISSOCK(st.st_mode)) {
-      D( fprintf(stderr, "noip: ignoring unknown socketdir entry `%s'\n",
-		 sun.sun_path); )
+      D( fprintf(stderr, "noip(%d): ignoring unknown socketdir entry `%s'\n",
+		 pid, sun.sun_path); )
       continue;
     }
     if (unix_socket_status(&sun, 0) == STALE) {
-      D( fprintf(stderr, "noip: clearing away stale socket %s\n",
-		 d->d_name); )
+      D( fprintf(stderr, "noip(%d): clearing away stale socket %s\n",
+		 pid, d->d_name); )
       unlink(sun.sun_path);
     }
   }
@@ -1070,44 +2078,56 @@ static void cleanup_sockdir(void)
  */
 static void get_local_ipaddrs(void)
 {
-  struct if_nameindex *ifn;
-  struct ifreq ifr;
-  int sk;
+  struct ifaddrs *ifa_head, *ifa;
+  ipaddr a;
   int i;
-
-  ifn = if_nameindex();
-  if ((sk = real_socket(PF_INET, SOCK_STREAM, 00)) < 0)
-    return;
-  for (i = n_local_ipaddrs = 0;
-       n_local_ipaddrs < MAX_LOCAL_IPADDRS &&
-         ifn[i].if_name && *ifn[i].if_name;
-       i++) {
-    strcpy(ifr.ifr_name, ifn[i].if_name);
-    if (ioctl(sk, SIOCGIFADDR, &ifr) || ifr.ifr_addr.sa_family != AF_INET)
+  Dpid;
+
+  D( fprintf(stderr, "noip(%d): fetching local addresses...\n", pid); )
+  if (getifaddrs(&ifa_head)) { perror("getifaddrs"); return; }
+  for (n_local_ipaddrs = 0, ifa = ifa_head;
+       n_local_ipaddrs < MAX_LOCAL_IPADDRS && ifa;
+       ifa = ifa->ifa_next) {
+    if (!ifa->ifa_addr || !family_known_p(ifa->ifa_addr->sa_family))
       continue;
-    local_ipaddrs[n_local_ipaddrs++] =
-      SIN(&ifr.ifr_addr)->sin_addr;
-    D( fprintf(stderr, "noip: local addr %s = %s\n", ifn[i].if_name,
-	       inet_ntoa(local_ipaddrs[n_local_ipaddrs - 1])); )
+    ipaddr_from_sockaddr(&a, ifa->ifa_addr);
+    D({ char buf[ADDRBUFSZ];
+	fprintf(stderr, "noip(%d):   local addr %s = %s", pid,
+		ifa->ifa_name,
+		inet_ntop(ifa->ifa_addr->sa_family, &a,
+			  buf, sizeof(buf))); })
+    for (i = 0; i < n_local_ipaddrs; i++) {
+      if (ifa->ifa_addr->sa_family == local_ipaddrs[i].af &&
+	  ipaddr_equal_p(local_ipaddrs[i].af, &a, &local_ipaddrs[i].addr)) {
+	D( fprintf(stderr, " (duplicate)\n"); )
+	goto skip;
+      }
+    }
+    D( fprintf(stderr, "\n"); )
+    local_ipaddrs[n_local_ipaddrs].af = ifa->ifa_addr->sa_family;
+    local_ipaddrs[n_local_ipaddrs].addr = a;
+    n_local_ipaddrs++;
+  skip:;
   }
-  close(sk);
+  freeifaddrs(ifa_head);
 }
 
 /* Print the given message to standard error.  Avoids stdio. */
-static void printerr(const char *p) { write(STDERR_FILENO, p, strlen(p)); }
+static void printerr(const char *p)
+  { if (write(STDERR_FILENO, p, strlen(p))) ; }
 
 /* Create the socket directory, being careful about permissions. */
 static void create_sockdir(void)
 {
   struct stat st;
 
-  if (stat(sockdir, &st)) {
+  if (lstat(sockdir, &st)) {
     if (errno == ENOENT) {
       if (mkdir(sockdir, 0700)) {
 	perror("noip: creating socketdir");
 	exit(127);
       }
-      if (!stat(sockdir, &st))
+      if (!lstat(sockdir, &st))
 	goto check;
     }
     perror("noip: checking socketdir");