trunk/src/hostmask.c

/*
 *  ircd-hybrid: an advanced, lightweight Internet Relay Chat Daemon (ircd)
 *
 *  Copyright (c) 2001-2014 ircd-hybrid development team
 *
 *  This program is free software; you can redistribute it and/or modify
 *  it under the terms of the GNU General Public License as published by
 *  the Free Software Foundation; either version 2 of the License, or
 *  (at your option) any later version.
 *
 *  This program is distributed in the hope that it will be useful,
 *  but WITHOUT ANY WARRANTY; without even the implied warranty of
 *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 *  GNU General Public License for more details.
 *
 *  You should have received a copy of the GNU General Public License
 *  along with this program; if not, write to the Free Software
 *  Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307
 *  USA
 */

/*! \file hostmask.c
 * \brief Code to efficiently find IP & hostmask based configs.
 * \version $Id$
 */

#include "stdinc.h"
#include "memory.h"
#include "ircd_defs.h"
#include "list.h"
#include "conf.h"
#include "hostmask.h"
#include "send.h"
#include "irc_string.h"
#include "ircd.h"


#define DigitParse(ch) do { \
                       if (ch >= '0' && ch <= '9') \
                         ch = ch - '0'; \
                       else if (ch >= 'A' && ch <= 'F') \
                         ch = ch - 'A' + 10; \
                       else if (ch >= 'a' && ch <= 'f') \
                         ch = ch - 'a' + 10; \
                       } while (0);

/* The mask parser/type determination code... */

/* int try_parse_v6_netmask(const char *, struct irc_ssaddr *, int *);
 * Input: A possible IPV6 address as a string.
 * Output: An integer describing whether it is an IPV6 or hostmask,
 *         an address(if it is IPV6), a bitlength(if it is IPV6).
 * Side effects: None
 * Comments: Called from parse_netmask
 */
/* Fixed so ::/0 (any IPv6 address) is valid
   Also a bug in DigitParse above.
   -Gozem 2002-07-19 gozem@linux.nu
*/
#ifdef IPV6
static int
try_parse_v6_netmask(const char *text, struct irc_ssaddr *addr, int *b)
{
  char c;
  int d[8] = { 0, 0, 0, 0, 0, 0, 0, 0 };
  int dp = 0;
  int nyble = 4;
  int finsert = -1;
  int bits = 128;
  int deficit = 0;
  short dc[8];
  struct sockaddr_in6 *v6 = (struct sockaddr_in6 *)addr;

  for (const char *p = text; (c = *p); ++p)
  {
    if (IsXDigit(c))
    {
      if (nyble == 0)
        return HM_HOST;
      DigitParse(c);
      d[dp] |= c << (4 * --nyble);
    }
    else if (c == ':')
    {
      if (p > text && *(p - 1) == ':')
      {
        if (finsert >= 0)
          return HM_HOST;
        finsert = dp;
      }
      else
      {
        /* If there were less than 4 hex digits, e.g. :ABC: shift right
         * so we don't interpret it as ABC0 -A1kmm */
        d[dp] = d[dp] >> 4 * nyble;
        nyble = 4;
        if (++dp >= 8)
          return HM_HOST;
      }
    }
    else if (c == '*')
    {
      /* * must be last, and * is ambiguous if there is a ::... -A1kmm */
      if (finsert >= 0 || *(p + 1) || dp == 0 || *(p - 1) != ':')
        return HM_HOST;
      bits = dp * 16;
    }
    else if (c == '/')
    {
      char *after;

      d[dp] = d[dp] >> 4 * nyble;
      ++dp;
      bits = strtoul(p + 1, &after, 10);

      if (bits < 0 || *after)
        return HM_HOST;
      if (bits > dp * 4 && !(finsert >= 0 && bits <= 128))
        return HM_HOST;
      break;
    }
    else
      return HM_HOST;
  }

  d[dp] = d[dp] >> 4 * nyble;

  if (c == 0)
    ++dp;
  if (finsert < 0 && bits == 0)
    bits = dp * 16;

  /* How many words are missing? -A1kmm */
  deficit = bits / 16 + ((bits % 16) ? 1 : 0) - dp;

  /* Now fill in the gaps(from ::) in the copied table... -A1kmm */
  for (dp = 0, nyble = 0; dp < 8; ++dp)
  {
    if (nyble == finsert && deficit)
    {
      dc[dp] = 0;
      deficit--;
    }
    else
      dc[dp] = d[nyble++];
  }

  /* Set unused bits to 0... -A1kmm */
  if (bits < 128 && (bits % 16 != 0))
    dc[bits / 16] &= ~((1 << (15 - bits % 16)) - 1);
  for (dp = bits / 16 + (bits % 16 ? 1 : 0); dp < 8; ++dp)
    dc[dp] = 0;

  /* And assign... -A1kmm */
  if (addr)
    for (dp = 0; dp < 8; ++dp)
      /* The cast is a kludge to make netbsd work. */
      ((unsigned short *)&v6->sin6_addr)[dp] = htons(dc[dp]);

  if (b)
    *b = bits;
  return HM_IPV6;
}
#endif

/* int try_parse_v4_netmask(const char *, struct irc_ssaddr *, int *);
 * Input: A possible IPV4 address as a string.
 * Output: An integer describing whether it is an IPV4 or hostmask,
 *         an address(if it is IPV4), a bitlength(if it is IPV4).
 * Side effects: None
 * Comments: Called from parse_netmask
 */
static int
try_parse_v4_netmask(const char *text, struct irc_ssaddr *addr, int *b)
{
  const char *digits[4];
  unsigned char addb[4];
  int n = 0, bits = 0;
  char c;
  struct sockaddr_in *v4 = (struct sockaddr_in *)addr;

  digits[n++] = text;

  for (const char *p = text; (c = *p); ++p)
  {
    if (c >= '0' && c <= '9')   /* empty */
      ;
    else if (c == '.')
    {
      if (n >= 4)
        return HM_HOST;

      digits[n++] = p + 1;
    }
    else if (c == '*')
    {
      if (*(p + 1) || n == 0 || *(p - 1) != '.')
        return HM_HOST;

      bits = (n - 1) * 8;
      break;
    }
    else if (c == '/')
    {
      char *after;
      bits = strtoul(p + 1, &after, 10);

      if (bits < 0 || *after)
        return HM_HOST;
      if (bits > n * 8)
        return HM_HOST;

      break;
    }
    else
      return HM_HOST;
  }

  if (n < 4 && bits == 0)
    bits = n * 8;
  if (bits)
    while (n < 4)
      digits[n++] = "0";

  for (n = 0; n < 4; ++n)
    addb[n] = strtoul(digits[n], NULL, 10);

  if (bits == 0)
    bits = 32;

  /* Set unused bits to 0... -A1kmm */
  if (bits < 32 && bits % 8)
    addb[bits / 8] &= ~((1 << (8 - bits % 8)) - 1);
  for (n = bits / 8 + (bits % 8 ? 1 : 0); n < 4; ++n)
    addb[n] = 0;
  if (addr)
    v4->sin_addr.s_addr =
      htonl(addb[0] << 24 | addb[1] << 16 | addb[2] << 8 | addb[3]);
  if (b)
    *b = bits;
  return HM_IPV4;
}

/* int parse_netmask(const char *, struct irc_ssaddr *, int *);
 * Input: A hostmask, or an IPV4/6 address.
 * Output: An integer describing whether it is an IPV4, IPV6 address or a
 *         hostmask, an address(if it is an IP mask),
 *         a bitlength(if it is IP mask).
 * Side effects: None
 */
int
parse_netmask(const char *text, struct irc_ssaddr *addr, int *b)
{
  if (strchr(text, '.'))
    return try_parse_v4_netmask(text, addr, b);
#ifdef IPV6
  if (strchr(text, ':'))
    return try_parse_v6_netmask(text, addr, b);
#endif
  return HM_HOST;
}

/* The address matching stuff... */
/* int match_ipv6(struct irc_ssaddr *, struct irc_ssaddr *, int)
 * Input: An IP address, an IP mask, the number of bits in the mask.
 * Output: if match, -1 else 0
 * Side effects: None
 */
#ifdef IPV6
int
match_ipv6(const struct irc_ssaddr *addr, const struct irc_ssaddr *mask, int bits)
{
  int i, m, n = bits / 8;
  const struct sockaddr_in6 *v6 = (const struct sockaddr_in6 *)addr;
  const struct sockaddr_in6 *v6mask = (const struct sockaddr_in6 *)mask;

  for (i = 0; i < n; ++i)
    if (v6->sin6_addr.s6_addr[i] != v6mask->sin6_addr.s6_addr[i])
      return 0;

  if ((m = bits % 8) == 0)
    return -1;
  if ((v6->sin6_addr.s6_addr[n] & ~((1 << (8 - m)) - 1)) ==
      v6mask->sin6_addr.s6_addr[n])
    return -1;
  return 0;
}
#endif

/* int match_ipv4(struct irc_ssaddr *, struct irc_ssaddr *, int)
 * Input: An IP address, an IP mask, the number of bits in the mask.
 * Output: if match, -1 else 0
 * Side Effects: None
 */
int
match_ipv4(const struct irc_ssaddr *addr, const struct irc_ssaddr *mask, int bits)
{
  const struct sockaddr_in *v4 = (const struct sockaddr_in *)addr;
  const struct sockaddr_in *v4mask = (const struct sockaddr_in *)mask;

  if ((ntohl(v4->sin_addr.s_addr) & ~((1 << (32 - bits)) - 1)) !=
      ntohl(v4mask->sin_addr.s_addr))
    return 0;
  return -1;
}

/*
 * mask_addr
 *
 * inputs       - pointer to the ip to mask
 *              - bitlen
 * output       - NONE
 * side effects -
 */
void
mask_addr(struct irc_ssaddr *ip, int bits)
{
  int mask;
#ifdef IPV6
  struct sockaddr_in6 *v6_base_ip;
  int i, m, n;
#endif
  struct sockaddr_in *v4_base_ip;

#ifdef IPV6
  if (ip->ss.ss_family != AF_INET6)
#endif
  {
    uint32_t tmp = 0;
    v4_base_ip = (struct sockaddr_in *)ip;

    mask = ~((1 << (32 - bits)) - 1);
    tmp = ntohl(v4_base_ip->sin_addr.s_addr);
    v4_base_ip->sin_addr.s_addr = htonl(tmp & mask);
  }
#ifdef IPV6
  else
  {
    n = bits / 8;
    m = bits % 8;
    v6_base_ip = (struct sockaddr_in6 *)ip;

    mask = ~((1 << (8 - m)) -1 );
    v6_base_ip->sin6_addr.s6_addr[n] = v6_base_ip->sin6_addr.s6_addr[n] & mask;

    for (i = n + 1; i < 16; i++)
      v6_base_ip->sin6_addr.s6_addr[i] = 0;
  }
#endif
}

/* Hashtable stuff...now external as it's used in m_stats.c */
dlink_list atable[ATABLE_SIZE];

void
init_host_hash(void)
{
  memset(&atable, 0, sizeof(atable));
}

/* unsigned long hash_ipv4(struct irc_ssaddr*)
 * Input: An IP address.
 * Output: A hash value of the IP address.
 * Side effects: None
 */
static uint32_t
hash_ipv4(const struct irc_ssaddr *addr, int bits)
{
  if (bits != 0)
  {
    const struct sockaddr_in *v4 = (const struct sockaddr_in *)addr;
    uint32_t av = ntohl(v4->sin_addr.s_addr) & ~((1 << (32 - bits)) - 1);

    return (av ^ (av >> 12) ^ (av >> 24)) & (ATABLE_SIZE - 1);
  }

  return 0;
}

/* unsigned long hash_ipv6(struct irc_ssaddr*)
 * Input: An IP address.
 * Output: A hash value of the IP address.
 * Side effects: None
 */
#ifdef IPV6
static uint32_t
hash_ipv6(const struct irc_ssaddr *addr, int bits)
{
  uint32_t v = 0, n;
  const struct sockaddr_in6 *v6 = (const struct sockaddr_in6 *)addr;

  for (n = 0; n < 16; ++n)
  {
    if (bits >= 8)
    {
      v ^= v6->sin6_addr.s6_addr[n];
      bits -= 8;
    }
    else if (bits)
    {
      v ^= v6->sin6_addr.s6_addr[n] & ~((1 << (8 - bits)) - 1);
      return v & (ATABLE_SIZE - 1);
    }
    else
      return v & (ATABLE_SIZE - 1);
  }
  return v & (ATABLE_SIZE - 1);
}
#endif

/* int hash_text(const char *start)
 * Input: The start of the text to hash.
 * Output: The hash of the string between 1 and (TH_MAX-1)
 * Side-effects: None.
 */
static uint32_t
hash_text(const char *start)
{
  uint32_t h = 0;

  for (const char *p = start; *p; ++p)
    h = (h << 4) - (h + ToLower(*p));

  return h & (ATABLE_SIZE - 1);
}

/* unsigned long get_hash_mask(const char *)
 * Input: The text to hash.
 * Output: The hash of the string right of the first '.' past the last
 *         wildcard in the string.
 * Side-effects: None.
 */
static uint32_t
get_mask_hash(const char *text)
{
  const char *hp = "", *p;

  for (p = text + strlen(text) - 1; p >= text; --p)
    if (IsMWildChar(*p))
      return hash_text(hp);
    else if (*p == '.')
      hp = p + 1;
  return hash_text(text);
}

/* struct MaskItem *find_conf_by_address(const char *, struct irc_ssaddr *,
 *                                         int type, int fam, const char *username)
 * Input: The hostname, the address, the type of mask to find, the address
 *        family, the username.
 * Output: The matching value with the highest precedence.
 * Side-effects: None
 * Note: Setting bit 0 of the type means that the username is ignored.
 * Warning: IsNeedPassword for everything that is not an auth{} entry
 * should always be true (i.e. conf->flags & CONF_FLAGS_NEED_PASSWORD == 0)
 */
struct MaskItem *
find_conf_by_address(const char *name, struct irc_ssaddr *addr, unsigned int type,
                     int fam, const char *username, const char *password, int do_match)
{
  unsigned int hprecv = 0;
  dlink_node *ptr = NULL;
  struct MaskItem *hprec = NULL;
  struct AddressRec *arec = NULL;
  int b;
  int (*cmpfunc)(const char *, const char *) = do_match ? match : irccmp;

  if (addr)
  {
    /* Check for IPV6 matches... */
#ifdef IPV6
    if (fam == AF_INET6)
    {
      for (b = 128; b >= 0; b -= 16)
      {
        DLINK_FOREACH(ptr, atable[hash_ipv6(addr, b)].head)
        {
          arec = ptr->data;

          if ((arec->type == type) &&
              arec->precedence > hprecv &&
              arec->masktype == HM_IPV6 &&
              match_ipv6(addr, &arec->Mask.ipa.addr,
                         arec->Mask.ipa.bits) &&
              (!username || !cmpfunc(arec->username, username)) &&
              (IsNeedPassword(arec->conf) || arec->conf->passwd == NULL ||
               match_conf_password(password, arec->conf)))
          {
            hprecv = arec->precedence;
            hprec = arec->conf;
          }
        }
      }
    }
    else
#endif
    if (fam == AF_INET)
    {
      for (b = 32; b >= 0; b -= 8)
      {
        DLINK_FOREACH(ptr, atable[hash_ipv4(addr, b)].head)
        {
          arec = ptr->data;

          if ((arec->type == type) &&
              arec->precedence > hprecv &&
              arec->masktype == HM_IPV4 &&
              match_ipv4(addr, &arec->Mask.ipa.addr,
                         arec->Mask.ipa.bits) &&
              (!username || !cmpfunc(arec->username, username)) &&
              (IsNeedPassword(arec->conf) || arec->conf->passwd == NULL ||
               match_conf_password(password, arec->conf)))
          {
            hprecv = arec->precedence;
            hprec = arec->conf;
          }
        }
      }
    }
  }

  if (name)
  {
    const char *p = name;

    while (1)
    {
        DLINK_FOREACH(ptr, atable[hash_text(p)].head)
        {
          arec = ptr->data;
          if ((arec->type == type) &&
            arec->precedence > hprecv &&
            (arec->masktype == HM_HOST) &&
            !cmpfunc(arec->Mask.hostname, name) &&
            (!username || !cmpfunc(arec->username, username)) &&
            (IsNeedPassword(arec->conf) || arec->conf->passwd == NULL ||
             match_conf_password(password, arec->conf)))
        {
          hprecv = arec->precedence;
          hprec = arec->conf;
        }
      }

      if ((p = strchr(p, '.')) == NULL)
        break;
      ++p;
    }

    DLINK_FOREACH(ptr, atable[0].head)
    {
      arec = ptr->data;

      if (arec->type == type &&
          arec->precedence > hprecv &&
          arec->masktype == HM_HOST &&
          !cmpfunc(arec->Mask.hostname, name) &&
          (!username || !cmpfunc(arec->username, username)) &&
          (IsNeedPassword(arec->conf) || arec->conf->passwd == NULL ||
           match_conf_password(password, arec->conf)))
      {
        hprecv = arec->precedence;
        hprec = arec->conf;
      }
    }
  }

  return hprec;
}

/* struct MaskItem* find_address_conf(const char*, const char*,
 *                                     struct irc_ssaddr*, int, char *);
 * Input: The hostname, username, address, address family.
 * Output: The applicable MaskItem.
 * Side-effects: None
 */
struct MaskItem *
find_address_conf(const char *host, const char *user, struct irc_ssaddr *ip,
                  int aftype, const char *password)
{
  struct MaskItem *authcnf = NULL, *killcnf = NULL;

  /* Find the best auth{} block... If none, return NULL -A1kmm */
  if ((authcnf = find_conf_by_address(host, ip, CONF_CLIENT, aftype, user,
                                      password, 1)) == NULL)
    return NULL;

  /* If they are exempt from K-lines, return the best auth{} block. -A1kmm */
  if (IsConfExemptKline(authcnf))
    return authcnf;

  /* Find the best K-line... -A1kmm */
  killcnf = find_conf_by_address(host, ip, CONF_KLINE, aftype, user, NULL, 1);

  /*
   * If they are K-lined, return the K-line. Otherwise, return the
   * auth{} block. -A1kmm
   */
  if (killcnf)
    return killcnf;

  if (IsConfExemptGline(authcnf))
    return authcnf;

  killcnf = find_conf_by_address(host, ip, CONF_GLINE, aftype, user, NULL, 1);
  if (killcnf)
    return killcnf;

  return authcnf;
}

/* struct MaskItem* find_dline_conf(struct irc_ssaddr*, int)
 *
 * Input:       An address, an address family.
 * Output:      The best matching D-line or exempt line.
 * Side effects: None.
 */
struct MaskItem *
find_dline_conf(struct irc_ssaddr *addr, int aftype)
{
  struct MaskItem *eline;

  eline = find_conf_by_address(NULL, addr, CONF_EXEMPT, aftype, NULL, NULL, 1);
  if (eline)
    return eline;

  return find_conf_by_address(NULL, addr, CONF_DLINE, aftype, NULL, NULL, 1);
}

/* void add_conf_by_address(int, struct MaskItem *aconf)
 * Input:
 * Output: None
 * Side-effects: Adds this entry to the hash table.
 */
struct AddressRec *
add_conf_by_address(const unsigned int type, struct MaskItem *conf)
{
  const char *hostname = conf->host;
  const char *username = conf->user;
  static unsigned int prec_value = 0xFFFFFFFF;
  int bits = 0;
  struct AddressRec *arec = NULL;

  assert(type && !EmptyString(hostname));

  arec = MyCalloc(sizeof(struct AddressRec));
  arec->masktype = parse_netmask(hostname, &arec->Mask.ipa.addr, &bits);
  arec->Mask.ipa.bits = bits;
  arec->username = username;
  arec->conf = conf;
  arec->precedence = prec_value--;
  arec->type = type;

  switch (arec->masktype)
  {
    case HM_IPV4:
      /* We have to do this, since we do not re-hash for every bit -A1kmm. */
      bits -= bits % 8;
      dlinkAdd(arec, &arec->node, &atable[hash_ipv4(&arec->Mask.ipa.addr, bits)]);
      break;
#ifdef IPV6
    case HM_IPV6:
      /* We have to do this, since we do not re-hash for every bit -A1kmm. */
      bits -= bits % 16;
      dlinkAdd(arec, &arec->node, &atable[hash_ipv6(&arec->Mask.ipa.addr, bits)]);
      break;
#endif
    default: /* HM_HOST */
      arec->Mask.hostname = hostname;
      dlinkAdd(arec, &arec->node, &atable[get_mask_hash(hostname)]);
      break;
  }

  return arec;
}

/* void delete_one_address(const char*, struct MaskItem*)
 * Input: An address string, the associated MaskItem.
 * Output: None
 * Side effects: Deletes an address record. Frees the MaskItem if there
 *               is nothing referencing it, sets it as illegal otherwise.
 */
void
delete_one_address_conf(const char *address, struct MaskItem *conf)
{
  int bits = 0;
  uint32_t hv = 0;
  dlink_node *ptr = NULL;
  struct irc_ssaddr addr;

  switch (parse_netmask(address, &addr, &bits))
  {
    case HM_IPV4:
      /* We have to do this, since we do not re-hash for every bit -A1kmm. */
      bits -= bits % 8;
      hv = hash_ipv4(&addr, bits);
      break;
#ifdef IPV6
    case HM_IPV6:
      /* We have to do this, since we do not re-hash for every bit -A1kmm. */
      bits -= bits % 16;
      hv = hash_ipv6(&addr, bits);
      break;
#endif
    default: /* HM_HOST */
      hv = get_mask_hash(address);
      break;
  }

  DLINK_FOREACH(ptr, atable[hv].head)
  {
    struct AddressRec *arec = ptr->data;

    if (arec->conf == conf)
    {
      dlinkDelete(&arec->node, &atable[hv]);

      if (!conf->ref_count)
        conf_free(conf);

      MyFree(arec);
      return;
    }
  }
}

/* void clear_out_address_conf(void)
 * Input: None
 * Output: None
 * Side effects: Clears out all address records in the hash table,
 *               frees them, and frees the MaskItems if nothing references
 *               them, otherwise sets them as illegal.
 */
void
clear_out_address_conf(void)
{
  dlink_node *ptr = NULL, *ptr_next = NULL;

  for (unsigned int i = 0; i < ATABLE_SIZE; ++i)
  {
    DLINK_FOREACH_SAFE(ptr, ptr_next, atable[i].head)
    {
      struct AddressRec *arec = ptr->data;

      /*
       * We keep the temporary K-lines and destroy the permanent ones,
       * just to be confusing :) -A1kmm
       */
      if (arec->conf->until || IsConfDatabase(arec->conf))
        continue;

      dlinkDelete(&arec->node, &atable[i]);

      if (!arec->conf->ref_count)
        conf_free(arec->conf);
      MyFree(arec);
    }
  }
}

static void
hostmask_send_expiration(struct AddressRec *arec)
{
  char ban_type = '\0';

  if (!ConfigFileEntry.tkline_expire_notices)
    return;

  switch (arec->type)
  {
    case CONF_KLINE:
      ban_type = 'K';
      break;
    case CONF_DLINE:
      ban_type = 'D';
      break;
    case CONF_GLINE:
      ban_type = 'G';
      break;
    default: break;
  }

  sendto_realops_flags(UMODE_ALL, L_ALL, SEND_NOTICE,
                       "Temporary %c-line for [%s@%s] expired", ban_type,
                       (arec->conf->user) ? arec->conf->user : "*",
                       (arec->conf->host) ? arec->conf->host : "*");
}

void
hostmask_expire_temporary(void)
{
  dlink_node *ptr = NULL, *ptr_next = NULL;

  for (unsigned int i = 0; i < ATABLE_SIZE; ++i)
  {
    DLINK_FOREACH_SAFE(ptr, ptr_next, atable[i].head)
    {
      struct AddressRec *arec = ptr->data;

      if (!arec->conf->until || arec->conf->until > CurrentTime)
        continue;

      switch (arec->type)
      {
        case CONF_KLINE:
        case CONF_DLINE:
        case CONF_GLINE:
          hostmask_send_expiration(arec);

          dlinkDelete(&arec->node, &atable[i]);
          conf_free(arec->conf);
          MyFree(arec);
          break;
        default: break;
      }
    }
  }
}
Revision:	4298
Committed:	Sun Jul 20 13:51:16 2014 UTC (11 years, 1 month ago) by michael
Content type:	text/x-csrc
File size:	21056 byte(s)
Log Message:	- Fixed typos all over the place
#	Content
1	/*
2	* ircd-hybrid: an advanced, lightweight Internet Relay Chat Daemon (ircd)
3	*
4	* Copyright (c) 2001-2014 ircd-hybrid development team
5	*
6	* This program is free software; you can redistribute it and/or modify
7	* it under the terms of the GNU General Public License as published by
8	* the Free Software Foundation; either version 2 of the License, or
9	* (at your option) any later version.
10	*
11	* This program is distributed in the hope that it will be useful,
12	* but WITHOUT ANY WARRANTY; without even the implied warranty of
13	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14	* GNU General Public License for more details.
15	*
16	* You should have received a copy of the GNU General Public License
17	* along with this program; if not, write to the Free Software
18	* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
19	* USA
20	*/
21
22	/*! \file hostmask.c
23	* \brief Code to efficiently find IP & hostmask based configs.
24	* \version $Id$
25	*/
26
27	#include "stdinc.h"
28	#include "memory.h"
29	#include "ircd_defs.h"
30	#include "list.h"
31	#include "conf.h"
32	#include "hostmask.h"
33	#include "send.h"
34	#include "irc_string.h"
35	#include "ircd.h"
36
37
38	#define DigitParse(ch) do { \
39	if (ch >= '0' && ch <= '9') \
40	ch = ch - '0'; \
41	else if (ch >= 'A' && ch <= 'F') \
42	ch = ch - 'A' + 10; \
43	else if (ch >= 'a' && ch <= 'f') \
44	ch = ch - 'a' + 10; \
45	} while (0);
46
47	/* The mask parser/type determination code... */
48
49	/* int try_parse_v6_netmask(const char , struct irc_ssaddr , int *);
50	* Input: A possible IPV6 address as a string.
51	* Output: An integer describing whether it is an IPV6 or hostmask,
52	* an address(if it is IPV6), a bitlength(if it is IPV6).
53	* Side effects: None
54	* Comments: Called from parse_netmask
55	*/
56	/* Fixed so ::/0 (any IPv6 address) is valid
57	Also a bug in DigitParse above.
58	-Gozem 2002-07-19 gozem@linux.nu
59	*/
60	#ifdef IPV6
61	static int
62	try_parse_v6_netmask(const char text, struct irc_ssaddr addr, int *b)
63	{
64	char c;
65	int d[8] = { 0, 0, 0, 0, 0, 0, 0, 0 };
66	int dp = 0;
67	int nyble = 4;
68	int finsert = -1;
69	int bits = 128;
70	int deficit = 0;
71	short dc[8];
72	struct sockaddr_in6 v6 = (struct sockaddr_in6 )addr;
73
74	for (const char p = text; (c = p); ++p)
75	{
76	if (IsXDigit(c))
77	{
78	if (nyble == 0)
79	return HM_HOST;
80	DigitParse(c);
81	d[dp] \|= c << (4 * --nyble);
82	}
83	else if (c == ':')
84	{
85	if (p > text && *(p - 1) == ':')
86	{
87	if (finsert >= 0)
88	return HM_HOST;
89	finsert = dp;
90	}
91	else
92	{
93	/* If there were less than 4 hex digits, e.g. :ABC: shift right
94	* so we don't interpret it as ABC0 -A1kmm */
95	d[dp] = d[dp] >> 4 * nyble;
96	nyble = 4;
97	if (++dp >= 8)
98	return HM_HOST;
99	}
100	}
101	else if (c == '*')
102	{
103	/* * must be last, and * is ambiguous if there is a ::... -A1kmm */
104	if (finsert >= 0 \|\| (p + 1) \|\| dp == 0 \|\| (p - 1) != ':')
105	return HM_HOST;
106	bits = dp * 16;
107	}
108	else if (c == '/')
109	{
110	char *after;
111
112	d[dp] = d[dp] >> 4 * nyble;
113	++dp;
114	bits = strtoul(p + 1, &after, 10);
115
116	if (bits < 0 \|\| *after)
117	return HM_HOST;
118	if (bits > dp * 4 && !(finsert >= 0 && bits <= 128))
119	return HM_HOST;
120	break;
121	}
122	else
123	return HM_HOST;
124	}
125
126	d[dp] = d[dp] >> 4 * nyble;
127
128	if (c == 0)
129	++dp;
130	if (finsert < 0 && bits == 0)
131	bits = dp * 16;
132
133	/* How many words are missing? -A1kmm */
134	deficit = bits / 16 + ((bits % 16) ? 1 : 0) - dp;
135
136	/* Now fill in the gaps(from ::) in the copied table... -A1kmm */
137	for (dp = 0, nyble = 0; dp < 8; ++dp)
138	{
139	if (nyble == finsert && deficit)
140	{
141	dc[dp] = 0;
142	deficit--;
143	}
144	else
145	dc[dp] = d[nyble++];
146	}
147
148	/* Set unused bits to 0... -A1kmm */
149	if (bits < 128 && (bits % 16 != 0))
150	dc[bits / 16] &= ~((1 << (15 - bits % 16)) - 1);
151	for (dp = bits / 16 + (bits % 16 ? 1 : 0); dp < 8; ++dp)
152	dc[dp] = 0;
153
154	/* And assign... -A1kmm */
155	if (addr)
156	for (dp = 0; dp < 8; ++dp)
157	/* The cast is a kludge to make netbsd work. */
158	((unsigned short *)&v6->sin6_addr)[dp] = htons(dc[dp]);
159
160	if (b)
161	*b = bits;
162	return HM_IPV6;
163	}
164	#endif
165
166	/* int try_parse_v4_netmask(const char , struct irc_ssaddr , int *);
167	* Input: A possible IPV4 address as a string.
168	* Output: An integer describing whether it is an IPV4 or hostmask,
169	* an address(if it is IPV4), a bitlength(if it is IPV4).
170	* Side effects: None
171	* Comments: Called from parse_netmask
172	*/
173	static int
174	try_parse_v4_netmask(const char text, struct irc_ssaddr addr, int *b)
175	{
176	const char *digits[4];
177	unsigned char addb[4];
178	int n = 0, bits = 0;
179	char c;
180	struct sockaddr_in v4 = (struct sockaddr_in )addr;
181
182	digits[n++] = text;
183
184	for (const char p = text; (c = p); ++p)
185	{
186	if (c >= '0' && c <= '9') /* empty */
187	;
188	else if (c == '.')
189	{
190	if (n >= 4)
191	return HM_HOST;
192
193	digits[n++] = p + 1;
194	}
195	else if (c == '*')
196	{
197	if ((p + 1) \|\| n == 0 \|\| (p - 1) != '.')
198	return HM_HOST;
199
200	bits = (n - 1) * 8;
201	break;
202	}
203	else if (c == '/')
204	{
205	char *after;
206	bits = strtoul(p + 1, &after, 10);
207
208	if (bits < 0 \|\| *after)
209	return HM_HOST;
210	if (bits > n * 8)
211	return HM_HOST;
212
213	break;
214	}
215	else
216	return HM_HOST;
217	}
218
219	if (n < 4 && bits == 0)
220	bits = n * 8;
221	if (bits)
222	while (n < 4)
223	digits[n++] = "0";
224
225	for (n = 0; n < 4; ++n)
226	addb[n] = strtoul(digits[n], NULL, 10);
227
228	if (bits == 0)
229	bits = 32;
230
231	/* Set unused bits to 0... -A1kmm */
232	if (bits < 32 && bits % 8)
233	addb[bits / 8] &= ~((1 << (8 - bits % 8)) - 1);
234	for (n = bits / 8 + (bits % 8 ? 1 : 0); n < 4; ++n)
235	addb[n] = 0;
236	if (addr)
237	v4->sin_addr.s_addr =
238	htonl(addb[0] << 24 \| addb[1] << 16 \| addb[2] << 8 \| addb[3]);
239	if (b)
240	*b = bits;
241	return HM_IPV4;
242	}
243
244	/* int parse_netmask(const char , struct irc_ssaddr , int *);
245	* Input: A hostmask, or an IPV4/6 address.
246	* Output: An integer describing whether it is an IPV4, IPV6 address or a
247	* hostmask, an address(if it is an IP mask),
248	* a bitlength(if it is IP mask).
249	* Side effects: None
250	*/
251	int
252	parse_netmask(const char text, struct irc_ssaddr addr, int *b)
253	{
254	if (strchr(text, '.'))
255	return try_parse_v4_netmask(text, addr, b);
256	#ifdef IPV6
257	if (strchr(text, ':'))
258	return try_parse_v6_netmask(text, addr, b);
259	#endif
260	return HM_HOST;
261	}
262
263	/* The address matching stuff... */
264	/* int match_ipv6(struct irc_ssaddr , struct irc_ssaddr , int)
265	* Input: An IP address, an IP mask, the number of bits in the mask.
266	* Output: if match, -1 else 0
267	* Side effects: None
268	*/
269	#ifdef IPV6
270	int
271	match_ipv6(const struct irc_ssaddr addr, const struct irc_ssaddr mask, int bits)
272	{
273	int i, m, n = bits / 8;
274	const struct sockaddr_in6 v6 = (const struct sockaddr_in6 )addr;
275	const struct sockaddr_in6 v6mask = (const struct sockaddr_in6 )mask;
276
277	for (i = 0; i < n; ++i)
278	if (v6->sin6_addr.s6_addr[i] != v6mask->sin6_addr.s6_addr[i])
279	return 0;
280
281	if ((m = bits % 8) == 0)
282	return -1;
283	if ((v6->sin6_addr.s6_addr[n] & ~((1 << (8 - m)) - 1)) ==
284	v6mask->sin6_addr.s6_addr[n])
285	return -1;
286	return 0;
287	}
288	#endif
289
290	/* int match_ipv4(struct irc_ssaddr , struct irc_ssaddr , int)
291	* Input: An IP address, an IP mask, the number of bits in the mask.
292	* Output: if match, -1 else 0
293	* Side Effects: None
294	*/
295	int
296	match_ipv4(const struct irc_ssaddr addr, const struct irc_ssaddr mask, int bits)
297	{
298	const struct sockaddr_in v4 = (const struct sockaddr_in )addr;
299	const struct sockaddr_in v4mask = (const struct sockaddr_in )mask;
300
301	if ((ntohl(v4->sin_addr.s_addr) & ~((1 << (32 - bits)) - 1)) !=
302	ntohl(v4mask->sin_addr.s_addr))
303	return 0;
304	return -1;
305	}
306
307	/*
308	* mask_addr
309	*
310	* inputs - pointer to the ip to mask
311	* - bitlen
312	* output - NONE
313	* side effects -
314	*/
315	void
316	mask_addr(struct irc_ssaddr *ip, int bits)
317	{
318	int mask;
319	#ifdef IPV6
320	struct sockaddr_in6 *v6_base_ip;
321	int i, m, n;
322	#endif
323	struct sockaddr_in *v4_base_ip;
324
325	#ifdef IPV6
326	if (ip->ss.ss_family != AF_INET6)
327	#endif
328	{
329	uint32_t tmp = 0;
330	v4_base_ip = (struct sockaddr_in *)ip;
331
332	mask = ~((1 << (32 - bits)) - 1);
333	tmp = ntohl(v4_base_ip->sin_addr.s_addr);
334	v4_base_ip->sin_addr.s_addr = htonl(tmp & mask);
335	}
336	#ifdef IPV6
337	else
338	{
339	n = bits / 8;
340	m = bits % 8;
341	v6_base_ip = (struct sockaddr_in6 *)ip;
342
343	mask = ~((1 << (8 - m)) -1 );
344	v6_base_ip->sin6_addr.s6_addr[n] = v6_base_ip->sin6_addr.s6_addr[n] & mask;
345
346	for (i = n + 1; i < 16; i++)
347	v6_base_ip->sin6_addr.s6_addr[i] = 0;
348	}
349	#endif
350	}
351
352	/* Hashtable stuff...now external as it's used in m_stats.c */
353	dlink_list atable[ATABLE_SIZE];
354
355	void
356	init_host_hash(void)
357	{
358	memset(&atable, 0, sizeof(atable));
359	}
360
361	/* unsigned long hash_ipv4(struct irc_ssaddr*)
362	* Input: An IP address.
363	* Output: A hash value of the IP address.
364	* Side effects: None
365	*/
366	static uint32_t
367	hash_ipv4(const struct irc_ssaddr *addr, int bits)
368	{
369	if (bits != 0)
370	{
371	const struct sockaddr_in v4 = (const struct sockaddr_in )addr;
372	uint32_t av = ntohl(v4->sin_addr.s_addr) & ~((1 << (32 - bits)) - 1);
373
374	return (av ^ (av >> 12) ^ (av >> 24)) & (ATABLE_SIZE - 1);
375	}
376
377	return 0;
378	}
379
380	/* unsigned long hash_ipv6(struct irc_ssaddr*)
381	* Input: An IP address.
382	* Output: A hash value of the IP address.
383	* Side effects: None
384	*/
385	#ifdef IPV6
386	static uint32_t
387	hash_ipv6(const struct irc_ssaddr *addr, int bits)
388	{
389	uint32_t v = 0, n;
390	const struct sockaddr_in6 v6 = (const struct sockaddr_in6 )addr;
391
392	for (n = 0; n < 16; ++n)
393	{
394	if (bits >= 8)
395	{
396	v ^= v6->sin6_addr.s6_addr[n];
397	bits -= 8;
398	}
399	else if (bits)
400	{
401	v ^= v6->sin6_addr.s6_addr[n] & ~((1 << (8 - bits)) - 1);
402	return v & (ATABLE_SIZE - 1);
403	}
404	else
405	return v & (ATABLE_SIZE - 1);
406	}
407	return v & (ATABLE_SIZE - 1);
408	}
409	#endif
410
411	/* int hash_text(const char *start)
412	* Input: The start of the text to hash.
413	* Output: The hash of the string between 1 and (TH_MAX-1)
414	* Side-effects: None.
415	*/
416	static uint32_t
417	hash_text(const char *start)
418	{
419	uint32_t h = 0;
420
421	for (const char p = start; p; ++p)
422	h = (h << 4) - (h + ToLower(*p));
423
424	return h & (ATABLE_SIZE - 1);
425	}
426
427	/* unsigned long get_hash_mask(const char *)
428	* Input: The text to hash.
429	* Output: The hash of the string right of the first '.' past the last
430	* wildcard in the string.
431	* Side-effects: None.
432	*/
433	static uint32_t
434	get_mask_hash(const char *text)
435	{
436	const char hp = "", p;
437
438	for (p = text + strlen(text) - 1; p >= text; --p)
439	if (IsMWildChar(*p))
440	return hash_text(hp);
441	else if (*p == '.')
442	hp = p + 1;
443	return hash_text(text);
444	}
445
446	/* struct MaskItem find_conf_by_address(const char , struct irc_ssaddr *,
447	* int type, int fam, const char *username)
448	* Input: The hostname, the address, the type of mask to find, the address
449	* family, the username.
450	* Output: The matching value with the highest precedence.
451	* Side-effects: None
452	* Note: Setting bit 0 of the type means that the username is ignored.
453	* Warning: IsNeedPassword for everything that is not an auth{} entry
454	* should always be true (i.e. conf->flags & CONF_FLAGS_NEED_PASSWORD == 0)
455	*/
456	struct MaskItem *
457	find_conf_by_address(const char name, struct irc_ssaddr addr, unsigned int type,
458	int fam, const char username, const char password, int do_match)
459	{
460	unsigned int hprecv = 0;
461	dlink_node *ptr = NULL;
462	struct MaskItem *hprec = NULL;
463	struct AddressRec *arec = NULL;
464	int b;
465	int (cmpfunc)(const char , const char *) = do_match ? match : irccmp;
466
467	if (addr)
468	{
469	/* Check for IPV6 matches... */
470	#ifdef IPV6
471	if (fam == AF_INET6)
472	{
473	for (b = 128; b >= 0; b -= 16)
474	{
475	DLINK_FOREACH(ptr, atable[hash_ipv6(addr, b)].head)
476	{
477	arec = ptr->data;
478
479	if ((arec->type == type) &&
480	arec->precedence > hprecv &&
481	arec->masktype == HM_IPV6 &&
482	match_ipv6(addr, &arec->Mask.ipa.addr,
483	arec->Mask.ipa.bits) &&
484	(!username \|\| !cmpfunc(arec->username, username)) &&
485	(IsNeedPassword(arec->conf) \|\| arec->conf->passwd == NULL \|\|
486	match_conf_password(password, arec->conf)))
487	{
488	hprecv = arec->precedence;
489	hprec = arec->conf;
490	}
491	}
492	}
493	}
494	else
495	#endif
496	if (fam == AF_INET)
497	{
498	for (b = 32; b >= 0; b -= 8)
499	{
500	DLINK_FOREACH(ptr, atable[hash_ipv4(addr, b)].head)
501	{
502	arec = ptr->data;
503
504	if ((arec->type == type) &&
505	arec->precedence > hprecv &&
506	arec->masktype == HM_IPV4 &&
507	match_ipv4(addr, &arec->Mask.ipa.addr,
508	arec->Mask.ipa.bits) &&
509	(!username \|\| !cmpfunc(arec->username, username)) &&
510	(IsNeedPassword(arec->conf) \|\| arec->conf->passwd == NULL \|\|
511	match_conf_password(password, arec->conf)))
512	{
513	hprecv = arec->precedence;
514	hprec = arec->conf;
515	}
516	}
517	}
518	}
519	}
520
521	if (name)
522	{
523	const char *p = name;
524
525	while (1)
526	{
527	DLINK_FOREACH(ptr, atable[hash_text(p)].head)
528	{
529	arec = ptr->data;
530	if ((arec->type == type) &&
531	arec->precedence > hprecv &&
532	(arec->masktype == HM_HOST) &&
533	!cmpfunc(arec->Mask.hostname, name) &&
534	(!username \|\| !cmpfunc(arec->username, username)) &&
535	(IsNeedPassword(arec->conf) \|\| arec->conf->passwd == NULL \|\|
536	match_conf_password(password, arec->conf)))
537	{
538	hprecv = arec->precedence;
539	hprec = arec->conf;
540	}
541	}
542
543	if ((p = strchr(p, '.')) == NULL)
544	break;
545	++p;
546	}
547
548	DLINK_FOREACH(ptr, atable[0].head)
549	{
550	arec = ptr->data;
551
552	if (arec->type == type &&
553	arec->precedence > hprecv &&
554	arec->masktype == HM_HOST &&
555	!cmpfunc(arec->Mask.hostname, name) &&
556	(!username \|\| !cmpfunc(arec->username, username)) &&
557	(IsNeedPassword(arec->conf) \|\| arec->conf->passwd == NULL \|\|
558	match_conf_password(password, arec->conf)))
559	{
560	hprecv = arec->precedence;
561	hprec = arec->conf;
562	}
563	}
564	}
565
566	return hprec;
567	}
568
569	/* struct MaskItem* find_address_conf(const char, const char,
570	* struct irc_ssaddr, int, char );
571	* Input: The hostname, username, address, address family.
572	* Output: The applicable MaskItem.
573	* Side-effects: None
574	*/
575	struct MaskItem *
576	find_address_conf(const char host, const char user, struct irc_ssaddr *ip,
577	int aftype, const char *password)
578	{
579	struct MaskItem authcnf = NULL, killcnf = NULL;
580
581	/* Find the best auth{} block... If none, return NULL -A1kmm */
582	if ((authcnf = find_conf_by_address(host, ip, CONF_CLIENT, aftype, user,
583	password, 1)) == NULL)
584	return NULL;
585
586	/* If they are exempt from K-lines, return the best auth{} block. -A1kmm */
587	if (IsConfExemptKline(authcnf))
588	return authcnf;
589
590	/* Find the best K-line... -A1kmm */
591	killcnf = find_conf_by_address(host, ip, CONF_KLINE, aftype, user, NULL, 1);
592
593	/*
594	* If they are K-lined, return the K-line. Otherwise, return the
595	* auth{} block. -A1kmm
596	*/
597	if (killcnf)
598	return killcnf;
599
600	if (IsConfExemptGline(authcnf))
601	return authcnf;
602
603	killcnf = find_conf_by_address(host, ip, CONF_GLINE, aftype, user, NULL, 1);
604	if (killcnf)
605	return killcnf;
606
607	return authcnf;
608	}
609
610	/* struct MaskItem* find_dline_conf(struct irc_ssaddr*, int)
611	*
612	* Input: An address, an address family.
613	* Output: The best matching D-line or exempt line.
614	* Side effects: None.
615	*/
616	struct MaskItem *
617	find_dline_conf(struct irc_ssaddr *addr, int aftype)
618	{
619	struct MaskItem *eline;
620
621	eline = find_conf_by_address(NULL, addr, CONF_EXEMPT, aftype, NULL, NULL, 1);
622	if (eline)
623	return eline;
624
625	return find_conf_by_address(NULL, addr, CONF_DLINE, aftype, NULL, NULL, 1);
626	}
627
628	/* void add_conf_by_address(int, struct MaskItem *aconf)
629	* Input:
630	* Output: None
631	* Side-effects: Adds this entry to the hash table.
632	*/
633	struct AddressRec *
634	add_conf_by_address(const unsigned int type, struct MaskItem *conf)
635	{
636	const char *hostname = conf->host;
637	const char *username = conf->user;
638	static unsigned int prec_value = 0xFFFFFFFF;
639	int bits = 0;
640	struct AddressRec *arec = NULL;
641
642	assert(type && !EmptyString(hostname));
643
644	arec = MyCalloc(sizeof(struct AddressRec));
645	arec->masktype = parse_netmask(hostname, &arec->Mask.ipa.addr, &bits);
646	arec->Mask.ipa.bits = bits;
647	arec->username = username;
648	arec->conf = conf;
649	arec->precedence = prec_value--;
650	arec->type = type;
651
652	switch (arec->masktype)
653	{
654	case HM_IPV4:
655	/* We have to do this, since we do not re-hash for every bit -A1kmm. */
656	bits -= bits % 8;
657	dlinkAdd(arec, &arec->node, &atable[hash_ipv4(&arec->Mask.ipa.addr, bits)]);
658	break;
659	#ifdef IPV6
660	case HM_IPV6:
661	/* We have to do this, since we do not re-hash for every bit -A1kmm. */
662	bits -= bits % 16;
663	dlinkAdd(arec, &arec->node, &atable[hash_ipv6(&arec->Mask.ipa.addr, bits)]);
664	break;
665	#endif
666	default: /* HM_HOST */
667	arec->Mask.hostname = hostname;
668	dlinkAdd(arec, &arec->node, &atable[get_mask_hash(hostname)]);
669	break;
670	}
671
672	return arec;
673	}
674
675	/* void delete_one_address(const char, struct MaskItem)
676	* Input: An address string, the associated MaskItem.
677	* Output: None
678	* Side effects: Deletes an address record. Frees the MaskItem if there
679	* is nothing referencing it, sets it as illegal otherwise.
680	*/
681	void
682	delete_one_address_conf(const char address, struct MaskItem conf)
683	{
684	int bits = 0;
685	uint32_t hv = 0;
686	dlink_node *ptr = NULL;
687	struct irc_ssaddr addr;
688
689	switch (parse_netmask(address, &addr, &bits))
690	{
691	case HM_IPV4:
692	/* We have to do this, since we do not re-hash for every bit -A1kmm. */
693	bits -= bits % 8;
694	hv = hash_ipv4(&addr, bits);
695	break;
696	#ifdef IPV6
697	case HM_IPV6:
698	/* We have to do this, since we do not re-hash for every bit -A1kmm. */
699	bits -= bits % 16;
700	hv = hash_ipv6(&addr, bits);
701	break;
702	#endif
703	default: /* HM_HOST */
704	hv = get_mask_hash(address);
705	break;
706	}
707
708	DLINK_FOREACH(ptr, atable[hv].head)
709	{
710	struct AddressRec *arec = ptr->data;
711
712	if (arec->conf == conf)
713	{
714	dlinkDelete(&arec->node, &atable[hv]);
715
716	if (!conf->ref_count)
717	conf_free(conf);
718
719	MyFree(arec);
720	return;
721	}
722	}
723	}
724
725	/* void clear_out_address_conf(void)
726	* Input: None
727	* Output: None
728	* Side effects: Clears out all address records in the hash table,
729	* frees them, and frees the MaskItems if nothing references
730	* them, otherwise sets them as illegal.
731	*/
732	void
733	clear_out_address_conf(void)
734	{
735	dlink_node ptr = NULL, ptr_next = NULL;
736
737	for (unsigned int i = 0; i < ATABLE_SIZE; ++i)
738	{
739	DLINK_FOREACH_SAFE(ptr, ptr_next, atable[i].head)
740	{
741	struct AddressRec *arec = ptr->data;
742
743	/*
744	* We keep the temporary K-lines and destroy the permanent ones,
745	* just to be confusing :) -A1kmm
746	*/
747	if (arec->conf->until \|\| IsConfDatabase(arec->conf))
748	continue;
749
750	dlinkDelete(&arec->node, &atable[i]);
751
752	if (!arec->conf->ref_count)
753	conf_free(arec->conf);
754	MyFree(arec);
755	}
756	}
757	}
758
759	static void
760	hostmask_send_expiration(struct AddressRec *arec)
761	{
762	char ban_type = '\0';
763
764	if (!ConfigFileEntry.tkline_expire_notices)
765	return;
766
767	switch (arec->type)
768	{
769	case CONF_KLINE:
770	ban_type = 'K';
771	break;
772	case CONF_DLINE:
773	ban_type = 'D';
774	break;
775	case CONF_GLINE:
776	ban_type = 'G';
777	break;
778	default: break;
779	}
780
781	sendto_realops_flags(UMODE_ALL, L_ALL, SEND_NOTICE,
782	"Temporary %c-line for [%s@%s] expired", ban_type,
783	(arec->conf->user) ? arec->conf->user : "*",
784	(arec->conf->host) ? arec->conf->host : "*");
785	}
786
787	void
788	hostmask_expire_temporary(void)
789	{
790	dlink_node ptr = NULL, ptr_next = NULL;
791
792	for (unsigned int i = 0; i < ATABLE_SIZE; ++i)
793	{
794	DLINK_FOREACH_SAFE(ptr, ptr_next, atable[i].head)
795	{
796	struct AddressRec *arec = ptr->data;
797
798	if (!arec->conf->until \|\| arec->conf->until > CurrentTime)
799	continue;
800
801	switch (arec->type)
802	{
803	case CONF_KLINE:
804	case CONF_DLINE:
805	case CONF_GLINE:
806	hostmask_send_expiration(arec);
807
808	dlinkDelete(&arec->node, &atable[i]);
809	conf_free(arec->conf);
810	MyFree(arec);
811	break;
812	default: break;
813	}
814	}
815	}
816	}