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test_nat.c

/*
 * This file is part of the Sofia-SIP package
 *
 * Copyright (C) 2005 Nokia Corporation.
 *
 * Contact: Pekka Pessi <pekka.pessi@nokia.com>
 *
 * This library is free software; you can redistribute it and/or
 * modify it under the terms of the GNU Lesser General Public License
 * as published by the Free Software Foundation; either version 2.1 of
 * the License, or (at your option) any later version.
 *
 * This library 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
 * Lesser General Public License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public
 * License along with this library; if not, write to the Free Software
 * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA
 * 02110-1301 USA
 *
 */

/**@CFILE test_nat.c
 * @brief Simulated NAT for testing
 *
 * NAT thing works so that we set the outgoing proxy URI to point
 * towards its "private" address and give the real address of the proxy
 * as its "public" address. If we use different IP families here, we may
 * even manage to test real connectivity problems as proxy and endpoint
 * can not talk to each other.
 *
 * @author Pekka Pessi <Pekka.Pessi@nokia.com>
 *
 * @date Created: Wed Mar  8 19:54:28 EET 2006
 */

#include "config.h"

struct nat;
struct binding;

#define SU_ROOT_MAGIC_T struct nat
#define SU_WAKEUP_ARG_T struct binding

#include <sofia-sip/su.h>
#include <sofia-sip/su_errno.h>
#include <sofia-sip/su_wait.h>
#include <sofia-sip/su_tagarg.h>
#include <sofia-sip/su_localinfo.h>
#include <sofia-sip/su_log.h>

#include <stdlib.h>
#include <assert.h>
#include <string.h>

#define LIST_PROTOS(STORAGE, PREFIX, T)                \
STORAGE void PREFIX ##_insert(T **list, T *node),      \
        PREFIX ##_remove(T *node)

#define LIST_BODIES(STORAGE, PREFIX, T, NEXT, PREV)     \
STORAGE void PREFIX ##_insert(T **list, T *node)   \
{                                          \
  if ((node->NEXT = *list)) {                    \
    node->PREV = node->NEXT->PREV;               \
    node->NEXT->PREV = &node->NEXT;              \
  }                                        \
  else                                           \
    node->PREV = list;                           \
  *list = node;                                  \
}                                          \
STORAGE void PREFIX ##_remove(T *node)                 \
{                                          \
  if (node->PREV)                          \
    if ((*node->PREV = node->NEXT))              \
      node->NEXT->PREV = node->PREV;                   \
  node->PREV = NULL;                             \
}                                          \
extern int LIST_DUMMY_VARIABLE

#include "test_nat.h"

00084 struct nat {
  su_home_t    home[1];
  su_root_t   *parent;
  su_clone_r   clone;
  tagi_t      *tags;

  su_root_t   *root;

  struct binding *bindings;

  struct nat_filter *in_filters, *out_filters;

  /* True if we act in symmetric way */
  int symmetric;
  /* True if we do logging */
  int logging;

  /* Everything sent to in_address will be forwarded to out_address */
  su_sockaddr_t in_address[1], out_address[1];
  socklen_t in_addrlen, out_addrlen;

  int family;                 /* Preferred private family */

  /* ...but source address will be "fake" */
  su_localinfo_t *localinfo, *private, *fake;

  su_socket_t udp_socket, tcp_socket;
  int udp_register, tcp_register;

  char buffer[65536];
};

LIST_PROTOS(static, nat_binding, struct binding);

00118 struct binding
{
  struct binding *next, **prev;
  struct nat *nat;            /* backpointer */
  int socktype, protocol;
  su_socket_t in_socket, out_socket;
  int in_register, out_register;
  int in_closed, out_closed;
  char in_name[64], out_name[64];
};

static struct binding *nat_binding_new(struct nat *nat,
                               char const *protoname,
                               int socktype, int protocol,
                               int connected,
                               su_socket_t in_socket,
                               su_sockaddr_t *from,
                               socklen_t fromlen);
static void nat_binding_destroy(struct binding *);

static int binding_init(struct binding *b,
                  char const *protoname,
                  int connected,
                  su_localinfo_t *li,
                  su_sockaddr_t *from,
                  socklen_t fromlen);

static void flush_bindings(struct nat *nat);
static int invalidate_bindings(void *nat);

static int new_udp(struct nat *, su_wait_t *wait, struct binding *dummy);
static int udp_in_to_out(struct nat *, su_wait_t *wait, struct binding *);
static int udp_out_to_in(struct nat *, su_wait_t *wait, struct binding *);

static int new_tcp(struct nat *, su_wait_t *wait, struct binding *dummy);
static int tcp_in_to_out(struct nat *, su_wait_t *wait, struct binding *);
static int tcp_out_to_in(struct nat *, su_wait_t *wait, struct binding *);

static int invalidate_binding(struct binding *b);

LIST_PROTOS(static, nat_filter, struct nat_filter);

00160 struct nat_filter
{
  struct nat_filter *next, **prev;
  size_t (*condition)(void *arg, void *message, size_t len);
  void *arg;
};

/* nat entry point */
static int
test_nat_init(su_root_t *root, struct nat *nat)
{
  su_localinfo_t *li, hints[1] = {{ 0 }};
  int error;
  unsigned port = 0, port0 = 0;
  su_sockaddr_t su[1];
  socklen_t sulen;
  su_wait_t wait[1];

  nat->root = root;
  nat->udp_socket = INVALID_SOCKET, nat->tcp_socket = INVALID_SOCKET;

  tl_gets(nat->tags,
        TESTNATTAG_SYMMETRIC_REF(nat->symmetric),
        TESTNATTAG_LOGGING_REF(nat->logging),
        TAG_END());

  hints->li_scope = LI_SCOPE_HOST | LI_SCOPE_SITE | LI_SCOPE_GLOBAL;

  error = su_getlocalinfo(hints, &nat->localinfo);
  if (error) {
    fprintf(stderr, "test_nat: su_getlocalinfo: %s\n", su_gli_strerror(error));
    return -1;
  }

  /* We must have two different IP addresses. */
  if (!nat->localinfo || !nat->localinfo->li_next) {
    fprintf(stderr, "test_nat: only one IP address available\n");
    return -1;
  }

  for (li = nat->localinfo; li; li = li->li_next) {
    if (nat->family == 0 || nat->family == li->li_family)
      break;
  }
  if (li == NULL)
    li = nat->localinfo;

  memcpy(su, li->li_addr, sulen = li->li_addrlen);
  memset(SU_ADDR(su), 0, SU_ADDRLEN(su));

  nat->private = li;

  /* Bind TCP and UDP to same port */
  for (;;) {
    nat->udp_socket = su_socket(li->li_family, SOCK_DGRAM, IPPROTO_UDP);
    if (nat->udp_socket == INVALID_SOCKET)
      return -1;

    if (bind(nat->udp_socket, (void *)su, sulen) < 0) {
      if (port0 == 0) {
      su_perror("nat: bind(udp_socket)");
      return -1;
      }

      fprintf(stderr, "test_nat: port %u: %s\n",
            port, su_strerror(su_errno()));
      su_close(nat->udp_socket);

      nat->udp_socket = INVALID_SOCKET;

      if (++port > 65535)
      port = 1024;
      if (port == port0) {
      fprintf(stderr, "test_nat: could not find free port pairt\n");
      return -1;
      }

      continue;
    }

    if (getsockname(nat->udp_socket, (void *)su, &sulen) < 0) {
      su_perror("nat: getsockname(udp_socket)");
      return -1;
    }

    if (port0 == 0) {
      port = port0 = ntohs(su->su_port);
      if (port0 == 0) {
      fprintf(stderr, "test_nat: bind did not return port\n");
      return -1;
      }
    }

    nat->tcp_socket = su_socket(li->li_family, SOCK_STREAM, IPPROTO_TCP);
    if (nat->tcp_socket == INVALID_SOCKET)
      return -1;

    if (bind(nat->tcp_socket, (void *)su, sulen) < 0) {
      su_close(nat->tcp_socket);
      nat->tcp_socket = INVALID_SOCKET;

      fprintf(stderr, "test_nat: port %u: %s\n",
            port, su_strerror(su_errno()));

      if (++port > 65535)
      port = 1024;
      if (port == port0) {
      fprintf(stderr, "test_nat: could not find free port pair\n");
      return -1;
      }

      continue;
    }

    break;
  }

  memcpy(nat->in_address, li->li_addr, nat->in_addrlen = li->li_addrlen);
  nat->in_address->su_port = su->su_port;

  if (su_setreuseaddr(nat->udp_socket, 1) < 0) {
    su_perror("nat: su_setreuseaddr(udp_socket)");
    return -1;
  }

  if (listen(nat->tcp_socket, 5) < 0) {
    su_perror("nat: listen(tcp_socket)");
    return -1;
  }

  if (su_wait_create(wait, nat->udp_socket, SU_WAIT_IN) < 0) {
    su_perror("nat: su_wait_create");
    return -1;
  }

  nat->udp_register = su_root_register(root, wait, new_udp, NULL, 0);
  if (nat->udp_register < 0) {
    su_perror("nat: su_root_register");
    return -1;
  }

  if (su_wait_create(wait, nat->tcp_socket, SU_WAIT_IN) < 0) {
    su_perror("nat: su_wait_create");
    return -1;
  }

  nat->tcp_register = su_root_register(root, wait, new_tcp, NULL, 0);
  if (nat->tcp_register < 0) {
    su_perror("nat: su_root_register");
    return -1;
  }

  return 0;
}

static void
test_nat_deinit(su_root_t *root, struct nat *nat)
{
  flush_bindings(nat);

  if (nat->tcp_register)
    su_root_deregister(root, nat->tcp_register);
  if (nat->udp_register)
    su_root_deregister(root, nat->udp_register);

  if (nat->udp_socket != INVALID_SOCKET)
    su_close(nat->udp_socket);
  if (nat->tcp_socket != INVALID_SOCKET)
    su_close(nat->tcp_socket);

  su_freelocalinfo(nat->localinfo);

  free(nat->tags);
}

struct nat *test_nat_create(su_root_t *root,
                      int family,
                      tag_type_t tag, tag_value_t value, ...)
{
  struct nat *nat = su_home_new(sizeof *nat);

  if (nat) {
    ta_list ta;

    nat->parent = root;
    nat->family = family;

    ta_start(ta, tag, value);
    nat->tags = tl_llist(ta_tags(ta));
    ta_end(ta);

    if (su_clone_start(root,
                   nat->clone,
                   nat,
                   test_nat_init,
                   test_nat_deinit) == -1)
      su_home_unref(nat->home), nat = NULL;
  }

  return nat;
}

void test_nat_destroy(struct nat *nat)
{
  if (nat) {
    su_clone_wait(nat->parent, nat->clone);
    su_home_unref(nat->home);
  }
}

/** Get "private" address. */
int test_nat_private(struct nat *nat, void *address, socklen_t *return_addrlen)
{
  if (nat == NULL || address == NULL || return_addrlen == NULL)
    return su_seterrno(EFAULT);

  if (*return_addrlen < nat->in_addrlen)
    return su_seterrno(EINVAL);

  memcpy(address, nat->in_address, *return_addrlen = nat->in_addrlen);

  return 0;
}

/** Set "public" address. */
int test_nat_public(struct nat *nat, void const *address, int addrlen)
{
  su_sockaddr_t const *su = address;
  su_localinfo_t *li;

  if (nat == NULL)
    return su_seterrno(EFAULT);

  if (address == NULL) {
    nat->fake = NULL;
    return 0;
  }

  if ((size_t)addrlen > sizeof nat->out_address)
    return su_seterrno(EINVAL);

  for (li = nat->localinfo; li; li = li->li_next) {
    if (li != nat->private &&
      li->li_scope == LI_SCOPE_HOST &&
      li->li_family == su->su_family)
      break;
  }

  if (li == NULL)
    for (li = nat->localinfo; li; li = li->li_next) {
      if (li != nat->private && li->li_family == su->su_family)
      break;
    }

  if (li == NULL)
    return su_seterrno(EADDRNOTAVAIL);

  su_clone_pause(nat->clone);
  memcpy(nat->out_address, address, nat->out_addrlen = addrlen);
  nat->fake = li;
  su_clone_resume(nat->clone);

  return 0;
}

int test_nat_flush(struct nat *nat)
{
  if (nat == NULL)
    return su_seterrno(EFAULT);

  return su_task_execute(su_clone_task(nat->clone),
                   invalidate_bindings, nat, NULL);
}

/* ====================================================================== */

struct binding *nat_binding_new(struct nat *nat,
                        char const *protoname,
                        int socktype,
                        int protocol,
                        int connected,
                        su_socket_t in_socket,
                        su_sockaddr_t *from,
                        socklen_t fromlen)
{
  struct binding *b;

  if (nat->fake == NULL) {    /* Xyzzy */
    fprintf(stderr, "test_nat: fake address missing\n");
    su_close(in_socket);
    return NULL;
  }

  b = su_zalloc(nat->home, sizeof *b);
  if (b == NULL) {
    su_perror("nat_binding_new: su_zalloc");
    su_close(in_socket);
    return 0;
  }

  b->nat = nat;
  b->socktype = socktype;
  b->protocol = protocol;
  b->in_socket = in_socket, b->out_socket = INVALID_SOCKET;
  b->in_register = -1, b->out_register = -1;

  if (binding_init(b, protoname, connected, nat->fake, from, fromlen) < 0)
    nat_binding_destroy(b), b = NULL;

  return b;
}

static int binding_init(struct binding *b,
                  char const *protoname,
                  int connected,
                  su_localinfo_t *li,
                  su_sockaddr_t *from,
                  socklen_t fromlen)
{
  struct nat *nat = b->nat;
  su_socket_t out_socket;
  su_sockaddr_t addr[1];
  socklen_t addrlen = (sizeof addr);
  char ipname[64];
  su_wait_t wait[1];
  su_wakeup_f in_to_out, out_to_in;

  if (b->socktype == SOCK_STREAM)
    in_to_out = tcp_in_to_out, out_to_in = tcp_out_to_in;
  else
    in_to_out = udp_in_to_out, out_to_in = udp_out_to_in;

  if (b->in_socket == INVALID_SOCKET) {
    int in_socket;

    in_socket = su_socket(from->su_family, b->socktype, b->protocol);
    if (in_socket == INVALID_SOCKET) {
      su_perror("nat_binding_new: socket");
      return -1;
    }
    b->in_socket = in_socket;
    if (su_setreuseaddr(in_socket, 1) < 0) {
      su_perror("nat_binding_new: su_setreuseaddr(in_socket)");
      return -1;
    }
    if (bind(in_socket, (void *)nat->in_address, nat->in_addrlen) < 0) {
      su_perror("nat_binding_new: bind(in_socket)");
      return -1;
    }
    if (connect(in_socket, (void *)from, fromlen) < 0) {
      su_perror("nat_binding_new: connect(in_socket)");
      return -1;
    }
  }

  out_socket = su_socket(li->li_family, b->socktype, b->protocol);
  if (out_socket == INVALID_SOCKET) {
    su_perror("nat_binding_new: socket");
    return -1;
  }
  b->out_socket = out_socket;

  if (bind(out_socket, (void *)li->li_addr, li->li_addrlen) < 0) {
    su_perror("nat_binding_new: bind(to)");
    return -1;
  }

  if (connected)
    if (connect(out_socket, (void *)nat->out_address, nat->out_addrlen) < 0) {
      su_perror("nat_binding_new: connect(to)");
      return -1;
    }

  getpeername(b->in_socket, (void *)addr, &addrlen);
  su_inet_ntop(addr->su_family, SU_ADDR(addr), ipname, sizeof ipname);
  snprintf(b->in_name, sizeof b->in_name,
         addr->su_family == AF_INET6 ? "[%s]:%u" : "%s:%u",
         ipname, ntohs(addr->su_port));

  getsockname(out_socket, (void *)addr, &addrlen);
  su_inet_ntop(addr->su_family, SU_ADDR(addr), ipname, sizeof ipname);
  snprintf(b->out_name, sizeof b->out_name,
         addr->su_family == AF_INET6 ? "[%s]:%u" : "%s:%u",
         ipname, ntohs(addr->su_port));

  if (su_wait_create(wait, b->in_socket, SU_WAIT_IN) < 0) {
    su_perror("nat_binding_new: su_wait_create");
    return -1;
  }
  b->in_register = su_root_register(nat->root, wait, in_to_out, b, 0);
  if (b->in_register < 0) {
    su_perror("nat_binding_new: su_root_register");
    su_wait_destroy(wait);
    return -1;
  }

  if (su_wait_create(wait, out_socket, SU_WAIT_IN) < 0) {
    su_perror("nat_binding_new: su_wait_create");
    return -1;
  }
  b->out_register = su_root_register(nat->root, wait, out_to_in, b, 0);
  if (b->out_register < 0) {
    su_perror("nat_binding_new: su_root_register");
    su_wait_destroy(wait);
    return -1;
  }

  nat_binding_insert(&nat->bindings, b);

  if (nat->logging)
    printf("nat: new %s binding %s <=> %s\n",
         protoname, b->in_name, b->out_name);

  return 0;
}

static void nat_binding_destroy(struct binding *b)
{
  nat_binding_remove(b);
  if (b->in_register != -1)
    su_root_deregister(b->nat->root, b->in_register);
  if (b->out_register != -1)
    su_root_deregister(b->nat->root, b->out_register);
  su_close(b->in_socket), su_close(b->out_socket);
}

static void flush_bindings(struct nat *nat)
{
  struct binding *b;

  for (b = nat->bindings; b; b = b->next) {
    if (b->in_register)
      su_root_deregister(nat->root, b->in_register);
    su_close(b->in_socket);
    if (b->out_register)
      su_root_deregister(nat->root, b->out_register);
    su_close(b->out_socket);
  }
}

static int invalidate_bindings(void *arg)
{
  struct nat *nat = arg;
  struct binding *b;

  for (b = nat->bindings; b; b = b->next) {
    invalidate_binding(b);
  }
  return 0;
}

#if 0
static struct binding *nat_binding_find(struct nat *nat,
                              su_sockaddr_t *from,
                              int fromlen)
{
  char name[64], ipname[64];
  size_t namelen;
  struct binding *b;

  su_inet_ntop(from->su_family, SU_ADDR(from), ipname, sizeof ipname);
  snprintf(name, sizeof name,
         from->su_family == AF_INET6 ? "[%s]:%u" : "%s:%u",
         ipname, ntohs(from->su_port));
  namelen = strlen(name) + 1;

  for (b = nat->bindings; b; b = b->next) {
    if (memcmp(name, b->in_name, namelen) == 0)
      return b;
  }

  if (b == NULL)
    b = nat_binding_new(nat, "UDP", SOCK_DGRAM, IPPROTO_UDP, nat->symmetric,
                  INVALID_SOCKET, from, fromlen);

  return b;
}
#endif

/* ====================================================================== */

LIST_BODIES(static, nat_binding, struct binding, next, prev);

/* ====================================================================== */

static int new_udp(struct nat *nat, su_wait_t *wait, struct binding *dummy)
{
  int events;
  su_sockaddr_t from[1];
  socklen_t fromlen = (sizeof from);
  struct binding *b;
  ssize_t n, m;

  events = su_wait_events(wait, nat->udp_socket);

  n = su_recvfrom(nat->udp_socket, nat->buffer, sizeof nat->buffer, 0,
              from, &fromlen);
  if (n < 0) {
    su_perror("new_udp: recvfrom");
    return 0;
  }

  b = nat_binding_new(nat, "UDP", SOCK_DGRAM, IPPROTO_UDP, nat->symmetric,
                  INVALID_SOCKET, from, fromlen);
  if (b == NULL)
    return 0;

  if (nat->symmetric)
    m = su_send(b->out_socket, nat->buffer, n, 0);
  else
    m = su_sendto(b->out_socket, nat->buffer, n, 0,
              nat->out_address, nat->out_addrlen);

  if (nat->logging)
    printf("nat: udp out %d/%d %s => %s\n",
         (int)m, (int)n, b->in_name, b->out_name);

  return 0;
}

static int udp_in_to_out(struct nat *nat, su_wait_t *wait, struct binding *b)
{
  int events;
  ssize_t n, m;
  size_t len, filtered;
  struct nat_filter *f;

  events = su_wait_events(wait, b->in_socket);

  n = su_recv(b->in_socket, nat->buffer, sizeof nat->buffer, 0);
  if (n == -1) {
    su_perror("udp_in_to_out: recv");
    return 0;
  }

  len = (size_t)n;

  for (f = nat->out_filters; f; f = f->next) {
    filtered = f->condition(f->arg, nat->buffer, len);
    if (filtered != len) {
      if (nat->logging)
      printf("nat: udp filtered "MOD_ZU" from %s => "MOD_ZU" to %s\n",
             len, b->in_name, filtered, b->out_name);
      if (filtered == 0)
      return 0;
      len = filtered;
    }
  }

  if (nat->symmetric)
    m = su_send(b->out_socket, nat->buffer, len, 0);
  else
    m = su_sendto(b->out_socket, nat->buffer, len, 0,
              nat->out_address, nat->out_addrlen);

  if (nat->logging)
    printf("nat: udp out %d/%d %s => %s\n",
         (int)m, (int)n, b->in_name, b->out_name);

  return 0;
}

static int udp_out_to_in(struct nat *nat, su_wait_t *wait, struct binding *b)
{
  int events;
  ssize_t n, m;
  size_t len, filtered;
  struct nat_filter *f;

  events = su_wait_events(wait, b->out_socket);

  n = su_recv(b->out_socket, nat->buffer, sizeof nat->buffer, 0);
  if (n < 0) {
    su_perror("udp_out_to_out: recv");
    return 0;
  }

  len = (size_t)n;

  for (f = nat->in_filters; f; f = f->next) {
    filtered = f->condition(f->arg, nat->buffer, len);
    if (filtered != len) {
      if (nat->logging)
      printf("nat: udp filtered "MOD_ZU" from %s => "MOD_ZU" to %s\n",
             len, b->out_name, filtered, b->in_name);
      if (filtered == 0)
      return 0;
      len = filtered;
    }
  }

  m = su_send(b->in_socket, nat->buffer, n, 0);

  if (nat->logging)
    printf("nat: udp in %d/%d %s => %s\n",
         (int)m, (int)n, b->out_name, b->in_name);

  return 0;
}

/* ====================================================================== */

static int new_tcp(struct nat *nat, su_wait_t *wait, struct binding *dummy)
{
  int events;
  su_socket_t in_socket;
  su_sockaddr_t from[1];
  socklen_t fromlen = (sizeof from);
  struct binding *b;

  events = su_wait_events(wait, nat->tcp_socket);

  in_socket = accept(nat->tcp_socket, (void *)from, &fromlen);
  if (in_socket == INVALID_SOCKET) {
    su_perror("new_tcp: accept");
    return 0;
  }

  b = nat_binding_new(nat, "TCP", SOCK_STREAM, IPPROTO_TCP, 1,
                  in_socket, from, fromlen);
  if (b == NULL)
    return 0;

  return 0;
}

static int tcp_in_to_out(struct nat *nat, su_wait_t *wait, struct binding *b)
{
  int events;
  ssize_t n, m, o;

  events = su_wait_events(wait, b->in_socket);

  n = su_recv(b->in_socket, nat->buffer, sizeof nat->buffer, 0);
  if (n < 0) {
    su_perror("tcp_in_to_out: recv");
    return 0;
  }

  if (n == 0) {
    if (nat->logging)
      printf("nat: tcp out FIN %s => %s\n", b->in_name, b->out_name);
    shutdown(b->out_socket, 1);
    su_root_eventmask(nat->root, b->in_register, b->in_socket, 0);
    b->in_closed = 1;
    if (b->out_closed && b->in_closed)
      nat_binding_destroy(b);
    return 0;
  }

  for (m = 0; m < n; m += o) {
    o = su_send(b->out_socket, nat->buffer + m, n - m, 0);
    if (o < 0) {
      su_perror("tcp_in_to_out: send");
      break;
    }
  }

  if (nat->logging)
    printf("nat: tcp out %d/%d %s => %s\n",
         (int)m, (int)n, b->in_name, b->out_name);

  return 0;
}

static int tcp_out_to_in(struct nat *nat, su_wait_t *wait, struct binding *b)
{
  int events;
  ssize_t n, m, o;

  events = su_wait_events(wait, b->out_socket);

  n = su_recv(b->out_socket, nat->buffer, sizeof nat->buffer, 0);
  if (n < 0) {
    su_perror("tcp_out_to_in: recv");
    return 0;
  }

  if (n == 0) {
    if (nat->logging)
      printf("nat: tcp out FIN %s => %s\n", b->out_name, b->in_name);
    shutdown(b->in_socket, 1);
    su_root_eventmask(nat->root, b->in_register, b->out_socket, 0);
    b->out_closed = 1;
    if (b->out_closed && b->in_closed)
      nat_binding_destroy(b);
    return 0;
  }

  for (m = 0; m < n; m += o) {
    o = su_send(b->in_socket, nat->buffer + m, n - m, 0);
    if (o < 0) {
      if (su_errno() != EPIPE)
      su_perror("tcp_in_to_out: send");
      break;
    }
  }

  if (nat->logging)
    printf("nat: tcp in %d/%d %s => %s\n",
         (int)m, (int)n, b->out_name, b->in_name);

  return 0;
}

static int invalidate_binding(struct binding *b)
{
  struct nat *nat = b->nat;
  su_sockaddr_t addr[1];
  socklen_t addrlen = (sizeof addr);
  su_socket_t out;
  int out_register;
  su_wait_t wout[1];
  char name[64];

  out = su_socket(nat->fake->li_family, b->socktype, 0);
  if (out == INVALID_SOCKET) {
    su_perror("new_udp: socket");
    return -1;
  }
  if (bind(out, (void *)nat->fake->li_addr, nat->fake->li_addrlen) < 0) {
    su_perror("new_udp: bind(to)");
    su_close(out);
    return -1;
  }

  if (nat->symmetric)
    if (connect(out, (void *)nat->out_address, nat->out_addrlen) < 0) {
      su_perror("new_udp: connect(to)");
      su_close(out);
      return -1;
    }

  if (su_wait_create(wout, out, SU_WAIT_IN) < 0) {
    su_perror("new_udp: su_wait_create");
    su_close(out);
    return -1;
  }

  if (b->socktype == SOCK_DGRAM)
    out_register = su_root_register(nat->root, wout, udp_out_to_in, b, 0);
  else
    out_register = su_root_register(nat->root, wout, tcp_out_to_in, b, 0);

  if (out_register < 0) {
    su_perror("new_udp: su_root_register");
    su_wait_destroy(wout);
    su_close(out);
    return -1;
  }

  su_root_deregister(nat->root, b->out_register);
  su_close(b->out_socket);

  b->out_socket = out;
  b->out_register = out_register;

  getsockname(out, (void *)addr, &addrlen);
  su_inet_ntop(addr->su_family, SU_ADDR(addr), name, sizeof name);
  snprintf(b->out_name, sizeof b->out_name,
         addr->su_family == AF_INET6 ? "[%s]:%u" : "%s:%u",
         name, ntohs(addr->su_port));

  if (nat->logging)
    printf("nat: flushed binding %s <=> %s\n", b->in_name, b->out_name);

  return 0;
}

LIST_BODIES(static, nat_filter, struct nat_filter, next, prev);

00931 struct args {
  struct nat *nat;
  struct nat_filter *f;
  int outbound;
};

int execute_nat_filter_insert(void *_args)
{
  struct args *a = (struct args *)_args;
  if (a->outbound)
    nat_filter_insert(&a->nat->out_filters, a->f);
  else
    nat_filter_insert(&a->nat->in_filters, a->f);
  return 0;
}

int execute_nat_filter_remove(void *_args)
{
  struct args *a = (struct args *)_args;
  nat_filter_remove(a->f);
  return 0;
}

struct nat_filter *test_nat_add_filter(struct nat *nat,
                               size_t (*condition)(void *arg,
                                             void *message,
                                             size_t len),
                               void *arg,
                               int outbound)
{
  struct args a[1];

  if (nat == NULL)
    return su_seterrno(EFAULT), NULL;

  a->nat = nat;
  a->f = su_zalloc(nat->home, sizeof *a->f);
  a->outbound = outbound;

  if (a->f) {
    a->f->condition = condition;
    a->f->arg = arg;
    if (su_task_execute(su_clone_task(nat->clone),
                  execute_nat_filter_insert, a, NULL) < 0)
      su_free(nat->home, a->f), a->f = NULL;
  }

  return a->f;
}


int test_nat_remove_filter(struct nat *nat,
                     struct nat_filter *filter)
{
  struct args a[1];

  if (nat == NULL)
    return su_seterrno(EFAULT);

  a->nat = nat;
  a->f = filter;

  if (su_task_execute(su_clone_task(nat->clone),
                  execute_nat_filter_remove, a, NULL) < 0)
    return -1;

  su_free(nat->home, filter);
  return 0;
}

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