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construct/src/channel.c

1397 lines
33 KiB
C

/*
* ircd-ratbox: A slightly useful ircd.
* channel.c: Controls channels.
*
* Copyright (C) 1990 Jarkko Oikarinen and University of Oulu, Co Center
* Copyright (C) 1996-2002 Hybrid Development Team
* Copyright (C) 2002-2005 ircd-ratbox 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
*
* $Id: channel.c 3580 2007-11-07 23:45:14Z jilles $
*/
#include "stdinc.h"
#include "tools.h"
#include "channel.h"
#include "client.h"
#include "common.h"
#include "hash.h"
#include "hook.h"
#include "irc_string.h"
#include "sprintf_irc.h"
#include "ircd.h"
#include "numeric.h"
#include "s_serv.h" /* captab */
#include "s_user.h"
#include "send.h"
#include "whowas.h"
#include "s_conf.h" /* ConfigFileEntry, ConfigChannel */
#include "s_newconf.h"
#include "event.h"
#include "memory.h"
#include "balloc.h"
#include "s_log.h"
extern dlink_list global_channel_list;
extern struct config_channel_entry ConfigChannel;
extern BlockHeap *channel_heap;
extern BlockHeap *ban_heap;
extern BlockHeap *topic_heap;
extern BlockHeap *member_heap;
static int channel_capabs[] = { CAP_EX, CAP_IE,
CAP_SERVICE,
CAP_TS6
};
#define NCHCAPS (sizeof(channel_capabs)/sizeof(int))
#define NCHCAP_COMBOS (1 << NCHCAPS)
static struct ChCapCombo chcap_combos[NCHCAP_COMBOS];
static void free_topic(struct Channel *chptr);
static int h_can_join;
/* init_channels()
*
* input -
* output -
* side effects - initialises the various blockheaps
*/
void
init_channels(void)
{
channel_heap = BlockHeapCreate(sizeof(struct Channel), CHANNEL_HEAP_SIZE);
ban_heap = BlockHeapCreate(sizeof(struct Ban), BAN_HEAP_SIZE);
topic_heap = BlockHeapCreate(TOPICLEN + 1 + USERHOST_REPLYLEN, TOPIC_HEAP_SIZE);
member_heap = BlockHeapCreate(sizeof(struct membership), MEMBER_HEAP_SIZE);
h_can_join = register_hook("can_join");
}
/*
* allocate_channel - Allocates a channel
*/
struct Channel *
allocate_channel(const char *chname)
{
struct Channel *chptr;
chptr = BlockHeapAlloc(channel_heap);
DupString(chptr->chname, chname);
return (chptr);
}
void
free_channel(struct Channel *chptr)
{
MyFree(chptr->chname);
BlockHeapFree(channel_heap, chptr);
}
struct Ban *
allocate_ban(const char *banstr, const char *who)
{
struct Ban *bptr;
bptr = BlockHeapAlloc(ban_heap);
DupString(bptr->banstr, banstr);
DupString(bptr->who, who);
return (bptr);
}
void
free_ban(struct Ban *bptr)
{
MyFree(bptr->banstr);
MyFree(bptr->who);
BlockHeapFree(ban_heap, bptr);
}
/* find_channel_membership()
*
* input - channel to find them in, client to find
* output - membership of client in channel, else NULL
* side effects -
*/
struct membership *
find_channel_membership(struct Channel *chptr, struct Client *client_p)
{
struct membership *msptr;
dlink_node *ptr;
if(!IsClient(client_p))
return NULL;
/* Pick the most efficient list to use to be nice to things like
* CHANSERV which could be in a large number of channels
*/
if(dlink_list_length(&chptr->members) < dlink_list_length(&client_p->user->channel))
{
DLINK_FOREACH(ptr, chptr->members.head)
{
msptr = ptr->data;
if(msptr->client_p == client_p)
return msptr;
}
}
else
{
DLINK_FOREACH(ptr, client_p->user->channel.head)
{
msptr = ptr->data;
if(msptr->chptr == chptr)
return msptr;
}
}
return NULL;
}
/* find_channel_status()
*
* input - membership to get status for, whether we can combine flags
* output - flags of user on channel
* side effects -
*/
const char *
find_channel_status(struct membership *msptr, int combine)
{
static char buffer[3];
char *p;
p = buffer;
if(is_chanop(msptr))
{
if(!combine)
return "@";
*p++ = '@';
}
if(is_voiced(msptr))
*p++ = '+';
*p = '\0';
return buffer;
}
/* add_user_to_channel()
*
* input - channel to add client to, client to add, channel flags
* output -
* side effects - user is added to channel
*/
void
add_user_to_channel(struct Channel *chptr, struct Client *client_p, int flags)
{
struct membership *msptr;
s_assert(client_p->user != NULL);
if(client_p->user == NULL)
return;
msptr = BlockHeapAlloc(member_heap);
msptr->chptr = chptr;
msptr->client_p = client_p;
msptr->flags = flags;
dlinkAdd(msptr, &msptr->usernode, &client_p->user->channel);
dlinkAdd(msptr, &msptr->channode, &chptr->members);
if(MyClient(client_p))
dlinkAdd(msptr, &msptr->locchannode, &chptr->locmembers);
}
/* remove_user_from_channel()
*
* input - membership pointer to remove from channel
* output -
* side effects - membership (thus user) is removed from channel
*/
void
remove_user_from_channel(struct membership *msptr)
{
struct Client *client_p;
struct Channel *chptr;
s_assert(msptr != NULL);
if(msptr == NULL)
return;
client_p = msptr->client_p;
chptr = msptr->chptr;
dlinkDelete(&msptr->usernode, &client_p->user->channel);
dlinkDelete(&msptr->channode, &chptr->members);
if(client_p->servptr == &me)
dlinkDelete(&msptr->locchannode, &chptr->locmembers);
chptr->users_last = CurrentTime;
if(!(chptr->mode.mode & MODE_PERMANENT) && dlink_list_length(&chptr->members) <= 0)
destroy_channel(chptr);
BlockHeapFree(member_heap, msptr);
return;
}
/* remove_user_from_channels()
*
* input - user to remove from all channels
* output -
* side effects - user is removed from all channels
*/
void
remove_user_from_channels(struct Client *client_p)
{
struct Channel *chptr;
struct membership *msptr;
dlink_node *ptr;
dlink_node *next_ptr;
if(client_p == NULL)
return;
DLINK_FOREACH_SAFE(ptr, next_ptr, client_p->user->channel.head)
{
msptr = ptr->data;
chptr = msptr->chptr;
dlinkDelete(&msptr->channode, &chptr->members);
if(client_p->servptr == &me)
dlinkDelete(&msptr->locchannode, &chptr->locmembers);
chptr->users_last = CurrentTime;
if(!(chptr->mode.mode & MODE_PERMANENT) && dlink_list_length(&chptr->members) <= 0)
destroy_channel(chptr);
BlockHeapFree(member_heap, msptr);
}
client_p->user->channel.head = client_p->user->channel.tail = NULL;
client_p->user->channel.length = 0;
}
/* invalidate_bancache_user()
*
* input - user to invalidate ban cache for
* output -
* side effects - ban cache is invalidated for all memberships of that user
* to be used after a nick change
*/
void
invalidate_bancache_user(struct Client *client_p)
{
struct membership *msptr;
dlink_node *ptr;
if(client_p == NULL)
return;
DLINK_FOREACH(ptr, client_p->user->channel.head)
{
msptr = ptr->data;
msptr->bants = 0;
msptr->flags &= ~CHFL_BANNED;
}
}
/* check_channel_name()
*
* input - channel name
* output - 1 if valid channel name, else 0
* side effects -
*/
int
check_channel_name(const char *name)
{
s_assert(name != NULL);
if(name == NULL)
return 0;
for (; *name; ++name)
{
if(!IsChanChar(*name))
return 0;
}
return 1;
}
/* free_channel_list()
*
* input - dlink list to free
* output -
* side effects - list of b/e/I modes is cleared
*/
void
free_channel_list(dlink_list * list)
{
dlink_node *ptr;
dlink_node *next_ptr;
struct Ban *actualBan;
DLINK_FOREACH_SAFE(ptr, next_ptr, list->head)
{
actualBan = ptr->data;
free_ban(actualBan);
}
list->head = list->tail = NULL;
list->length = 0;
}
/* destroy_channel()
*
* input - channel to destroy
* output -
* side effects - channel is obliterated
*/
void
destroy_channel(struct Channel *chptr)
{
dlink_node *ptr, *next_ptr;
DLINK_FOREACH_SAFE(ptr, next_ptr, chptr->invites.head)
{
del_invite(chptr, ptr->data);
}
/* free all bans/exceptions/denies */
free_channel_list(&chptr->banlist);
free_channel_list(&chptr->exceptlist);
free_channel_list(&chptr->invexlist);
free_channel_list(&chptr->quietlist);
/* Free the topic */
free_topic(chptr);
dlinkDelete(&chptr->node, &global_channel_list);
del_from_channel_hash(chptr->chname, chptr);
free_channel(chptr);
}
/* channel_pub_or_secret()
*
* input - channel
* output - "=" if public, "@" if secret, else "*"
* side effects -
*/
static const char *
channel_pub_or_secret(struct Channel *chptr)
{
if(PubChannel(chptr))
return ("=");
else if(SecretChannel(chptr))
return ("@");
return ("*");
}
/* channel_member_names()
*
* input - channel to list, client to list to, show endofnames
* output -
* side effects - client is given list of users on channel
*/
void
channel_member_names(struct Channel *chptr, struct Client *client_p, int show_eon)
{
struct membership *msptr;
struct Client *target_p;
dlink_node *ptr;
char lbuf[BUFSIZE];
char *t;
int mlen;
int tlen;
int cur_len;
int is_member;
int stack = IsCapable(client_p, CLICAP_MULTI_PREFIX);
if(ShowChannel(client_p, chptr))
{
is_member = IsMember(client_p, chptr);
cur_len = mlen = ircsprintf(lbuf, form_str(RPL_NAMREPLY),
me.name, client_p->name,
channel_pub_or_secret(chptr), chptr->chname);
t = lbuf + cur_len;
DLINK_FOREACH(ptr, chptr->members.head)
{
msptr = ptr->data;
target_p = msptr->client_p;
if(IsInvisible(target_p) && !is_member)
continue;
/* space, possible "@+" prefix */
if(cur_len + strlen(target_p->name) + 3 >= BUFSIZE - 3)
{
*(t - 1) = '\0';
sendto_one(client_p, "%s", lbuf);
cur_len = mlen;
t = lbuf + mlen;
}
tlen = ircsprintf(t, "%s%s ", find_channel_status(msptr, stack),
target_p->name);
cur_len += tlen;
t += tlen;
}
/* The old behaviour here was to always output our buffer,
* even if there are no clients we can show. This happens
* when a client does "NAMES" with no parameters, and all
* the clients on a -sp channel are +i. I dont see a good
* reason for keeping that behaviour, as it just wastes
* bandwidth. --anfl
*/
if(cur_len != mlen)
{
*(t - 1) = '\0';
sendto_one(client_p, "%s", lbuf);
}
}
if(show_eon)
sendto_one(client_p, form_str(RPL_ENDOFNAMES),
me.name, client_p->name, chptr->chname);
}
/* del_invite()
*
* input - channel to remove invite from, client to remove
* output -
* side effects - user is removed from invite list, if exists
*/
void
del_invite(struct Channel *chptr, struct Client *who)
{
dlinkFindDestroy(who, &chptr->invites);
dlinkFindDestroy(chptr, &who->user->invited);
}
/* is_banned()
*
* input - channel to check bans for, user to check bans against
* optional prebuilt buffers
* output - 1 if banned, else 0
* side effects -
*/
int
is_banned(struct Channel *chptr, struct Client *who, struct membership *msptr,
const char *s, const char *s2)
{
char src_host[NICKLEN + USERLEN + HOSTLEN + 6];
char src_iphost[NICKLEN + USERLEN + HOSTLEN + 6];
char src_althost[NICKLEN + USERLEN + HOSTLEN + 6];
char *s3 = NULL;
dlink_node *ptr;
struct Ban *actualBan = NULL;
struct Ban *actualExcept = NULL;
if(!MyClient(who))
return 0;
/* if the buffers havent been built, do it here */
if(s == NULL)
{
ircsprintf(src_host, "%s!%s@%s", who->name, who->username, who->host);
ircsprintf(src_iphost, "%s!%s@%s", who->name, who->username, who->sockhost);
s = src_host;
s2 = src_iphost;
}
if(who->localClient->mangledhost != NULL)
{
/* if host mangling mode enabled, also check their real host */
if(!strcmp(who->host, who->localClient->mangledhost))
{
ircsprintf(src_althost, "%s!%s@%s", who->name, who->username, who->orighost);
s3 = src_althost;
}
/* if host mangling mode not enabled and no other spoof,
* also check the mangled form of their host */
else if (!IsDynSpoof(who))
{
ircsprintf(src_althost, "%s!%s@%s", who->name, who->username, who->localClient->mangledhost);
s3 = src_althost;
}
}
DLINK_FOREACH(ptr, chptr->banlist.head)
{
actualBan = ptr->data;
if(match(actualBan->banstr, s) ||
match(actualBan->banstr, s2) ||
match_cidr(actualBan->banstr, s2) ||
match_extban(actualBan->banstr, who, chptr, CHFL_BAN) ||
(s3 != NULL && match(actualBan->banstr, s3)))
break;
else
actualBan = NULL;
}
if((actualBan != NULL) && ConfigChannel.use_except)
{
DLINK_FOREACH(ptr, chptr->exceptlist.head)
{
actualExcept = ptr->data;
/* theyre exempted.. */
if(match(actualExcept->banstr, s) ||
match(actualExcept->banstr, s2) ||
match_cidr(actualExcept->banstr, s2) ||
match_extban(actualExcept->banstr, who, chptr, CHFL_EXCEPTION) ||
(s3 != NULL && match(actualExcept->banstr, s3)))
{
/* cache the fact theyre not banned */
if(msptr != NULL)
{
msptr->bants = chptr->bants;
msptr->flags &= ~CHFL_BANNED;
}
return CHFL_EXCEPTION;
}
}
}
/* cache the banned/not banned status */
if(msptr != NULL)
{
msptr->bants = chptr->bants;
if(actualBan != NULL)
{
msptr->flags |= CHFL_BANNED;
return CHFL_BAN;
}
else
{
msptr->flags &= ~CHFL_BANNED;
return 0;
}
}
return ((actualBan ? CHFL_BAN : 0));
}
/* is_quieted()
*
* input - channel to check bans for, user to check bans against
* optional prebuilt buffers
* output - 1 if banned, else 0
* side effects -
*/
int
is_quieted(struct Channel *chptr, struct Client *who, struct membership *msptr,
const char *s, const char *s2)
{
char src_host[NICKLEN + USERLEN + HOSTLEN + 6];
char src_iphost[NICKLEN + USERLEN + HOSTLEN + 6];
char src_althost[NICKLEN + USERLEN + HOSTLEN + 6];
char *s3 = NULL;
dlink_node *ptr;
struct Ban *actualBan = NULL;
struct Ban *actualExcept = NULL;
if(!MyClient(who))
return 0;
/* if the buffers havent been built, do it here */
if(s == NULL)
{
ircsprintf(src_host, "%s!%s@%s", who->name, who->username, who->host);
ircsprintf(src_iphost, "%s!%s@%s", who->name, who->username, who->sockhost);
s = src_host;
s2 = src_iphost;
}
if(who->localClient->mangledhost != NULL)
{
/* if host mangling mode enabled, also check their real host */
if(!strcmp(who->host, who->localClient->mangledhost))
{
ircsprintf(src_althost, "%s!%s@%s", who->name, who->username, who->orighost);
s3 = src_althost;
}
/* if host mangling mode not enabled and no other spoof,
* also check the mangled form of their host */
else if (!IsDynSpoof(who))
{
ircsprintf(src_althost, "%s!%s@%s", who->name, who->username, who->localClient->mangledhost);
s3 = src_althost;
}
}
DLINK_FOREACH(ptr, chptr->quietlist.head)
{
actualBan = ptr->data;
if(match(actualBan->banstr, s) ||
match(actualBan->banstr, s2) ||
match_cidr(actualBan->banstr, s2) ||
match_extban(actualBan->banstr, who, chptr, CHFL_QUIET) ||
(s3 != NULL && match(actualBan->banstr, s3)))
break;
else
actualBan = NULL;
}
if((actualBan != NULL) && ConfigChannel.use_except)
{
DLINK_FOREACH(ptr, chptr->exceptlist.head)
{
actualExcept = ptr->data;
/* theyre exempted.. */
if(match(actualExcept->banstr, s) ||
match(actualExcept->banstr, s2) ||
match_cidr(actualExcept->banstr, s2) ||
match_extban(actualExcept->banstr, who, chptr, CHFL_EXCEPTION) ||
(s3 != NULL && match(actualExcept->banstr, s3)))
{
/* cache the fact theyre not banned */
if(msptr != NULL)
{
msptr->bants = chptr->bants;
msptr->flags &= ~CHFL_BANNED;
}
return CHFL_EXCEPTION;
}
}
}
/* cache the banned/not banned status */
if(msptr != NULL)
{
msptr->bants = chptr->bants;
if(actualBan != NULL)
{
msptr->flags |= CHFL_BANNED;
return CHFL_BAN;
}
else
{
msptr->flags &= ~CHFL_BANNED;
return 0;
}
}
return ((actualBan ? CHFL_BAN : 0));
}
/* can_join()
*
* input - client to check, channel to check for, key
* output - reason for not being able to join, else 0
* side effects -
*/
int
can_join(struct Client *source_p, struct Channel *chptr, char *key)
{
dlink_node *invite = NULL;
dlink_node *ptr;
struct Ban *invex = NULL;
char src_host[NICKLEN + USERLEN + HOSTLEN + 6];
char src_iphost[NICKLEN + USERLEN + HOSTLEN + 6];
char src_althost[NICKLEN + USERLEN + HOSTLEN + 6];
int use_althost = 0;
int i = 0;
hook_data_channel moduledata;
s_assert(source_p->localClient != NULL);
ircsprintf(src_host, "%s!%s@%s", source_p->name, source_p->username, source_p->host);
ircsprintf(src_iphost, "%s!%s@%s", source_p->name, source_p->username, source_p->sockhost);
if(source_p->localClient->mangledhost != NULL)
{
/* if host mangling mode enabled, also check their real host */
if(!strcmp(source_p->host, source_p->localClient->mangledhost))
{
ircsprintf(src_althost, "%s!%s@%s", source_p->name, source_p->username, source_p->orighost);
use_althost = 1;
}
/* if host mangling mode not enabled and no other spoof,
* also check the mangled form of their host */
else if (!IsDynSpoof(source_p))
{
ircsprintf(src_althost, "%s!%s@%s", source_p->name, source_p->username, source_p->localClient->mangledhost);
use_althost = 1;
}
}
if((is_banned(chptr, source_p, NULL, src_host, src_iphost)) == CHFL_BAN)
return (ERR_BANNEDFROMCHAN);
if(chptr->mode.mode & MODE_INVITEONLY)
{
DLINK_FOREACH(invite, source_p->user->invited.head)
{
if(invite->data == chptr)
break;
}
if(invite == NULL)
{
if(!ConfigChannel.use_invex)
return (ERR_INVITEONLYCHAN);
DLINK_FOREACH(ptr, chptr->invexlist.head)
{
invex = ptr->data;
if(match(invex->banstr, src_host)
|| match(invex->banstr, src_iphost)
|| match_cidr(invex->banstr, src_iphost)
|| match_extban(invex->banstr, source_p, chptr, CHFL_INVEX)
|| (use_althost && match(invex->banstr, src_althost)))
break;
}
if(ptr == NULL)
return (ERR_INVITEONLYCHAN);
}
}
if(*chptr->mode.key && (EmptyString(key) || irccmp(chptr->mode.key, key)))
return (ERR_BADCHANNELKEY);
if(chptr->mode.limit &&
dlink_list_length(&chptr->members) >= (unsigned long) chptr->mode.limit)
i = ERR_CHANNELISFULL;
if(chptr->mode.mode & MODE_REGONLY && EmptyString(source_p->user->suser))
i = ERR_NEEDREGGEDNICK;
/* join throttling stuff --nenolod */
else if(chptr->mode.join_num > 0 && chptr->mode.join_time > 0)
{
if ((CurrentTime - chptr->join_delta <=
chptr->mode.join_time) && (chptr->join_count >=
chptr->mode.join_num))
i = ERR_THROTTLE;
}
/* allow /invite to override +l/+r/+j also -- jilles */
if (i != 0 && invite == NULL)
{
DLINK_FOREACH(invite, source_p->user->invited.head)
{
if(invite->data == chptr)
break;
}
if (invite == NULL)
return i;
}
moduledata.client = source_p;
moduledata.chptr = chptr;
moduledata.approved = 0;
call_hook(h_can_join, &moduledata);
return moduledata.approved;
}
/* can_send()
*
* input - user to check in channel, membership pointer
* output - whether can explicitly send or not, else CAN_SEND_NONOP
* side effects -
*/
int
can_send(struct Channel *chptr, struct Client *source_p, struct membership *msptr)
{
if(IsServer(source_p) || IsService(source_p))
return CAN_SEND_OPV;
if(MyClient(source_p) && hash_find_resv(chptr->chname) &&
!IsOper(source_p) && !IsExemptResv(source_p))
return CAN_SEND_NO;
if(msptr == NULL)
{
msptr = find_channel_membership(chptr, source_p);
if(msptr == NULL)
{
/* if its +m or +n and theyre not in the channel,
* they cant send. we dont check bans here because
* theres no possibility of caching them --fl
*/
if(chptr->mode.mode & MODE_NOPRIVMSGS || chptr->mode.mode & MODE_MODERATED)
return CAN_SEND_NO;
else
return CAN_SEND_NONOP;
}
}
if(is_chanop_voiced(msptr))
return CAN_SEND_OPV;
if(chptr->mode.mode & MODE_MODERATED)
return CAN_SEND_NO;
if(MyClient(source_p))
{
/* cached can_send */
if(msptr->bants == chptr->bants)
{
if(can_send_banned(msptr))
return CAN_SEND_NO;
}
else if(is_banned(chptr, source_p, msptr, NULL, NULL) == CHFL_BAN
|| is_quieted(chptr, source_p, msptr, NULL, NULL) == CHFL_BAN)
return CAN_SEND_NO;
}
return CAN_SEND_NONOP;
}
/* find_bannickchange_channel()
* Input: client to check
* Output: channel preventing nick change
*/
struct Channel *
find_bannickchange_channel(struct Client *client_p)
{
struct Channel *chptr;
struct membership *msptr;
dlink_node *ptr;
char src_host[NICKLEN + USERLEN + HOSTLEN + 6];
char src_iphost[NICKLEN + USERLEN + HOSTLEN + 6];
if (!MyClient(client_p))
return NULL;
ircsprintf(src_host, "%s!%s@%s", client_p->name, client_p->username, client_p->host);
ircsprintf(src_iphost, "%s!%s@%s", client_p->name, client_p->username, client_p->sockhost);
DLINK_FOREACH(ptr, client_p->user->channel.head)
{
msptr = ptr->data;
chptr = msptr->chptr;
if (is_chanop_voiced(msptr))
continue;
/* cached can_send */
if (msptr->bants == chptr->bants)
{
if (can_send_banned(msptr))
return chptr;
}
else if (is_banned(chptr, client_p, msptr, src_host, src_iphost) == CHFL_BAN
|| is_quieted(chptr, client_p, msptr, src_host, src_iphost) == CHFL_BAN)
return chptr;
}
return NULL;
}
/* void check_spambot_warning(struct Client *source_p)
* Input: Client to check, channel name or NULL if this is a part.
* Output: none
* Side-effects: Updates the client's oper_warn_count_down, warns the
* IRC operators if necessary, and updates join_leave_countdown as
* needed.
*/
void
check_spambot_warning(struct Client *source_p, const char *name)
{
int t_delta;
int decrement_count;
if((GlobalSetOptions.spam_num &&
(source_p->localClient->join_leave_count >= GlobalSetOptions.spam_num)))
{
if(source_p->localClient->oper_warn_count_down > 0)
source_p->localClient->oper_warn_count_down--;
else
source_p->localClient->oper_warn_count_down = 0;
if(source_p->localClient->oper_warn_count_down == 0)
{
/* Its already known as a possible spambot */
if(name != NULL)
sendto_realops_snomask(SNO_BOTS, L_ALL,
"User %s (%s@%s) trying to join %s is a possible spambot",
source_p->name,
source_p->username, source_p->orighost, name);
else
sendto_realops_snomask(SNO_BOTS, L_ALL,
"User %s (%s@%s) is a possible spambot",
source_p->name,
source_p->username, source_p->orighost);
source_p->localClient->oper_warn_count_down = OPER_SPAM_COUNTDOWN;
}
}
else
{
if((t_delta =
(CurrentTime - source_p->localClient->last_leave_time)) >
JOIN_LEAVE_COUNT_EXPIRE_TIME)
{
decrement_count = (t_delta / JOIN_LEAVE_COUNT_EXPIRE_TIME);
if(decrement_count > source_p->localClient->join_leave_count)
source_p->localClient->join_leave_count = 0;
else
source_p->localClient->join_leave_count -= decrement_count;
}
else
{
if((CurrentTime -
(source_p->localClient->last_join_time)) < GlobalSetOptions.spam_time)
{
/* oh, its a possible spambot */
source_p->localClient->join_leave_count++;
}
}
if(name != NULL)
source_p->localClient->last_join_time = CurrentTime;
else
source_p->localClient->last_leave_time = CurrentTime;
}
}
/* check_splitmode()
*
* input -
* output -
* side effects - compares usercount and servercount against their split
* values and adjusts splitmode accordingly
*/
void
check_splitmode(void *unused)
{
if(splitchecking && (ConfigChannel.no_join_on_split || ConfigChannel.no_create_on_split))
{
/* not split, we're being asked to check now because someone
* has left
*/
if(!splitmode)
{
if(eob_count < split_servers || Count.total < split_users)
{
splitmode = 1;
sendto_realops_snomask(SNO_GENERAL, L_ALL,
"Network split, activating splitmode");
eventAddIsh("check_splitmode", check_splitmode, NULL, 2);
}
}
/* in splitmode, check whether its finished */
else if(eob_count >= split_servers && Count.total >= split_users)
{
splitmode = 0;
sendto_realops_snomask(SNO_GENERAL, L_ALL,
"Network rejoined, deactivating splitmode");
eventDelete(check_splitmode, NULL);
}
}
}
/* allocate_topic()
*
* input - channel to allocate topic for
* output - 1 on success, else 0
* side effects - channel gets a topic allocated
*/
static void
allocate_topic(struct Channel *chptr)
{
void *ptr;
if(chptr == NULL)
return;
ptr = BlockHeapAlloc(topic_heap);
/* Basically we allocate one large block for the topic and
* the topic info. We then split it up into two and shove it
* in the chptr
*/
chptr->topic = ptr;
chptr->topic_info = (char *) ptr + TOPICLEN + 1;
*chptr->topic = '\0';
*chptr->topic_info = '\0';
}
/* free_topic()
*
* input - channel which has topic to free
* output -
* side effects - channels topic is free'd
*/
static void
free_topic(struct Channel *chptr)
{
void *ptr;
if(chptr == NULL || chptr->topic == NULL)
return;
/* This is safe for now - If you change allocate_topic you
* MUST change this as well
*/
ptr = chptr->topic;
BlockHeapFree(topic_heap, ptr);
chptr->topic = NULL;
chptr->topic_info = NULL;
}
/* set_channel_topic()
*
* input - channel, topic to set, topic info and topic ts
* output -
* side effects - channels topic, topic info and TS are set.
*/
void
set_channel_topic(struct Channel *chptr, const char *topic, const char *topic_info, time_t topicts)
{
if(strlen(topic) > 0)
{
if(chptr->topic == NULL)
allocate_topic(chptr);
strlcpy(chptr->topic, topic, TOPICLEN + 1);
strlcpy(chptr->topic_info, topic_info, USERHOST_REPLYLEN);
chptr->topic_time = topicts;
}
else
{
if(chptr->topic != NULL)
free_topic(chptr);
chptr->topic_time = 0;
}
}
static const struct mode_letter
{
const unsigned int mode;
const unsigned char letter;
} flags[] =
{
{MODE_INVITEONLY, 'i'},
{MODE_MODERATED, 'm'},
{MODE_NOPRIVMSGS, 'n'},
{MODE_PRIVATE, 'p'},
{MODE_SECRET, 's'},
{MODE_TOPICLIMIT, 't'},
{MODE_NOCOLOR, 'c'},
{MODE_FREEINVITE, 'g'},
{MODE_OPMODERATE, 'z'},
{MODE_EXLIMIT, 'L'},
{MODE_PERMANENT, 'P'},
{MODE_FREETARGET, 'F'},
{MODE_DISFORWARD, 'Q'},
{MODE_REGONLY, 'r'},
{0, '\0'}
};
/* channel_modes()
*
* inputs - pointer to channel
* - pointer to client
* output - string with simple modes
* side effects - result from previous calls overwritten
*
* Stolen from ShadowIRCd 4 --nenolod
*/
const char *
channel_modes(struct Channel *chptr, struct Client *client_p)
{
int i;
char buf1[BUFSIZE];
char buf2[BUFSIZE];
static char final[BUFSIZE];
char *mbuf = buf1;
char *pbuf = buf2;
*mbuf++ = '+';
*pbuf = '\0';
for (i = 0; flags[i].mode; ++i)
if(chptr->mode.mode & flags[i].mode)
*mbuf++ = flags[i].letter;
if(chptr->mode.limit)
{
*mbuf++ = 'l';
if(!IsClient(client_p) || IsMember(client_p, chptr))
pbuf += ircsprintf(pbuf, " %d", chptr->mode.limit);
}
if(*chptr->mode.key)
{
*mbuf++ = 'k';
if(pbuf > buf2 || !IsClient(client_p) || IsMember(client_p, chptr))
pbuf += ircsprintf(pbuf, " %s", chptr->mode.key);
}
if(chptr->mode.join_num)
{
*mbuf++ = 'j';
if(pbuf > buf2 || !IsClient(client_p) || IsMember(client_p, chptr))
pbuf += ircsprintf(pbuf, " %d:%d", chptr->mode.join_num,
chptr->mode.join_time);
}
if(*chptr->mode.forward && (ConfigChannel.use_forward || !IsClient(client_p)))
{
*mbuf++ = 'f';
if(pbuf > buf2 || !IsClient(client_p) || IsMember(client_p, chptr))
pbuf += ircsprintf(pbuf, " %s", chptr->mode.forward);
}
*mbuf = '\0';
strlcpy(final, buf1, sizeof final);
strlcat(final, buf2, sizeof final);
return final;
}
/* Now lets do some stuff to keep track of what combinations of
* servers exist...
* Note that the number of combinations doubles each time you add
* something to this list. Each one is only quick if no servers use that
* combination, but if the numbers get too high here MODE will get too
* slow. I suggest if you get more than 7 here, you consider getting rid
* of some and merging or something. If it wasn't for irc+cs we would
* probably not even need to bother about most of these, but unfortunately
* we do. -A1kmm
*/
/* void init_chcap_usage_counts(void)
*
* Inputs - none
* Output - none
* Side-effects - Initialises the usage counts to zero. Fills in the
* chcap_yes and chcap_no combination tables.
*/
void
init_chcap_usage_counts(void)
{
unsigned long m, c, y, n;
memset(chcap_combos, 0, sizeof(chcap_combos));
/* For every possible combination */
for (m = 0; m < NCHCAP_COMBOS; m++)
{
/* Check each capab */
for (c = y = n = 0; c < NCHCAPS; c++)
{
if((m & (1 << c)) == 0)
n |= channel_capabs[c];
else
y |= channel_capabs[c];
}
chcap_combos[m].cap_yes = y;
chcap_combos[m].cap_no = n;
}
}
/* void set_chcap_usage_counts(struct Client *serv_p)
* Input: serv_p; The client whose capabs to register.
* Output: none
* Side-effects: Increments the usage counts for the correct capab
* combination.
*/
void
set_chcap_usage_counts(struct Client *serv_p)
{
int n;
for (n = 0; n < NCHCAP_COMBOS; n++)
{
if(IsCapable(serv_p, chcap_combos[n].cap_yes) &&
NotCapable(serv_p, chcap_combos[n].cap_no))
{
chcap_combos[n].count++;
return;
}
}
/* This should be impossible -A1kmm. */
s_assert(0);
}
/* void set_chcap_usage_counts(struct Client *serv_p)
*
* Inputs - serv_p; The client whose capabs to register.
* Output - none
* Side-effects - Decrements the usage counts for the correct capab
* combination.
*/
void
unset_chcap_usage_counts(struct Client *serv_p)
{
int n;
for (n = 0; n < NCHCAP_COMBOS; n++)
{
if(IsCapable(serv_p, chcap_combos[n].cap_yes) &&
NotCapable(serv_p, chcap_combos[n].cap_no))
{
/* Hopefully capabs can't change dynamically or anything... */
s_assert(chcap_combos[n].count > 0);
if(chcap_combos[n].count > 0)
chcap_combos[n].count--;
return;
}
}
/* This should be impossible -A1kmm. */
s_assert(0);
}
/* void send_cap_mode_changes(struct Client *client_p,
* struct Client *source_p,
* struct Channel *chptr, int cap, int nocap)
* Input: The client sending(client_p), the source client(source_p),
* the channel to send mode changes for(chptr)
* Output: None.
* Side-effects: Sends the appropriate mode changes to capable servers.
*
* Reverted back to my original design, except that we now keep a count
* of the number of servers which each combination as an optimisation, so
* the capabs combinations which are not needed are not worked out. -A1kmm
*/
void
send_cap_mode_changes(struct Client *client_p, struct Client *source_p,
struct Channel *chptr, struct ChModeChange mode_changes[], int mode_count)
{
static char modebuf[BUFSIZE];
static char parabuf[BUFSIZE];
int i, mbl, pbl, nc, mc, preflen, len;
char *pbuf;
const char *arg;
int dir;
int j;
int cap;
int nocap;
int arglen;
/* Now send to servers... */
for (j = 0; j < NCHCAP_COMBOS; j++)
{
if(chcap_combos[j].count == 0)
continue;
mc = 0;
nc = 0;
pbl = 0;
parabuf[0] = 0;
pbuf = parabuf;
dir = MODE_QUERY;
cap = chcap_combos[j].cap_yes;
nocap = chcap_combos[j].cap_no;
if(cap & CAP_TS6)
mbl = preflen = ircsprintf(modebuf, ":%s TMODE %ld %s ",
use_id(source_p), (long) chptr->channelts,
chptr->chname);
else
mbl = preflen = ircsprintf(modebuf, ":%s MODE %s ",
source_p->name, chptr->chname);
/* loop the list of - modes we have */
for (i = 0; i < mode_count; i++)
{
/* if they dont support the cap we need, or they do support a cap they
* cant have, then dont add it to the modebuf.. that way they wont see
* the mode
*/
if((mode_changes[i].letter == 0) ||
((cap & mode_changes[i].caps) != mode_changes[i].caps)
|| ((nocap & mode_changes[i].nocaps) != mode_changes[i].nocaps))
continue;
if((cap & CAP_TS6) && !EmptyString(mode_changes[i].id))
arg = mode_changes[i].id;
else
arg = mode_changes[i].arg;
if(arg)
{
arglen = strlen(arg);
/* dont even think about it! --fl */
if(arglen > MODEBUFLEN - 5)
continue;
}
/* if we're creeping past the buf size, we need to send it and make
* another line for the other modes
* XXX - this could give away server topology with uids being
* different lengths, but not much we can do, except possibly break
* them as if they were the longest of the nick or uid at all times,
* which even then won't work as we don't always know the uid -A1kmm.
*/
if(arg && ((mc == MAXMODEPARAMSSERV) ||
((mbl + pbl + arglen + 4) > (BUFSIZE - 3))))
{
if(nc != 0)
sendto_server(client_p, chptr, cap, nocap,
"%s %s", modebuf, parabuf);
nc = 0;
mc = 0;
mbl = preflen;
pbl = 0;
pbuf = parabuf;
parabuf[0] = 0;
dir = MODE_QUERY;
}
if(dir != mode_changes[i].dir)
{
modebuf[mbl++] = (mode_changes[i].dir == MODE_ADD) ? '+' : '-';
dir = mode_changes[i].dir;
}
modebuf[mbl++] = mode_changes[i].letter;
modebuf[mbl] = 0;
nc++;
if(arg != NULL)
{
len = ircsprintf(pbuf, "%s ", arg);
pbuf += len;
pbl += len;
mc++;
}
}
if(pbl && parabuf[pbl - 1] == ' ')
parabuf[pbl - 1] = 0;
if(nc != 0)
sendto_server(client_p, chptr, cap, nocap, "%s %s", modebuf, parabuf);
}
}