1
0
mirror of https://github.com/anope/anope.git synced 2026-07-02 22:23:13 +02:00
Files
anope/src/channels.c
T

1930 lines
47 KiB
C

/* Channel-handling routines.
*
* (C) 2003-2010 Anope Team
* Contact us at team@anope.org
*
* Please read COPYING and README for further details.
*
* Based on the original code of Epona by Lara.
* Based on the original code of Services by Andy Church.
*
*
*/
#include "services.h"
#include "language.h"
#include "modules.h"
channel_map ChannelList;
/** Default constructor
* @param name The channel name
* @param ts The time the channel was created
*/
Channel::Channel(const std::string &name, time_t ts)
{
if (name.empty())
throw CoreException("A channel without a name ?");
this->name = name;
ChannelList[this->name.c_str()] = this;
this->creation_time = ts;
this->topic = NULL;
this->bans = this->excepts = this->invites = NULL;
this->bd = NULL;
this->server_modetime = this->chanserv_modetime = 0;
this->server_modecount = this->chanserv_modecount = this->bouncy_modes = this->topic_sync = this->topic_time = 0;
this->ci = cs_findchan(this->name);
if (this->ci)
this->ci->c = this;
FOREACH_MOD(I_OnChannelCreate, OnChannelCreate(this));
}
/** Default destructor
*/
Channel::~Channel()
{
BanData *bd, *next;
FOREACH_MOD(I_OnChannelDelete, OnChannelDelete(this));
Alog(LOG_DEBUG) << "Deleting channel " << this->name;
for (bd = this->bd; bd; bd = next)
{
if (bd->mask)
delete [] bd->mask;
next = bd->next;
delete bd;
}
if (this->ci)
this->ci->c = NULL;
if (this->topic)
delete [] this->topic;
if (this->bans && this->bans->count)
{
while (this->bans->entries)
entry_delete(this->bans, this->bans->entries);
}
if (ModeManager::FindChannelModeByName(CMODE_EXCEPT))
{
if (this->excepts && this->excepts->count)
{
while (this->excepts->entries)
entry_delete(this->excepts, this->excepts->entries);
}
}
if (ModeManager::FindChannelModeByName(CMODE_INVITEOVERRIDE))
{
if (this->invites && this->invites->count)
{
while (this->invites->entries)
entry_delete(this->invites, this->invites->entries);
}
}
ChannelList.erase(this->name.c_str());
}
void Channel::Sync()
{
if (this->ci)
{
check_modes(this);
stick_all(this->ci);
}
if (Me && Me->IsSynced() && !this->topic_sync)
restore_topic(name.c_str());
}
void Channel::JoinUser(User *user)
{
Alog(LOG_DEBUG) << user->nick << " joins " << this->name;
Flags<ChannelModeName> *Status = new Flags<ChannelModeName>;
ChannelContainer *cc = new ChannelContainer(this);
cc->Status = Status;
user->chans.push_back(cc);
UserContainer *uc = new UserContainer(user);
uc->Status = Status;
this->users.push_back(uc);
if (get_ignore(user->nick.c_str()) == NULL)
{
if (this->ci && (check_access(user, this->ci, CA_MEMO)) && (this->ci->memos.memos.size() > 0))
{
if (this->ci->memos.memos.size() == 1)
notice_lang(Config.s_MemoServ, user, MEMO_X_ONE_NOTICE, this->ci->memos.memos.size(), this->ci->name.c_str());
else
notice_lang(Config.s_MemoServ, user, MEMO_X_MANY_NOTICE, this->ci->memos.memos.size(), this->ci->name.c_str());
}
/* Added channelname to entrymsg - 30.03.2004, Certus */
/* Also, don't send the entrymsg when bursting -GD */
if (this->ci && this->ci->entry_message && user->server->IsSynced())
user->SendMessage(whosends(this->ci)->nick, "[%s] %s", this->name.c_str(), this->ci->entry_message);
}
/**
* We let the bot join even if it was an ignored user, as if we don't,
* and the ignored user doesnt just leave, the bot will never
* make it into the channel, leaving the channel botless even for
* legit users - Rob
* But don't join the bot if the channel is persistant - Adam
* But join persistant channels when syncing with our uplink- DP
**/
if (Config.s_BotServ && this->ci && this->ci->bi && (!Me->IsSynced() || !this->ci->HasFlag(CI_PERSIST)))
{
if (this->users.size() == Config.BSMinUsers)
bot_join(this->ci);
}
if (Config.s_BotServ && this->ci && this->ci->bi)
{
if (this->users.size() >= Config.BSMinUsers && (this->ci->botflags.HasFlag(BS_GREET))
&& user->Account() && user->Account()->greet && check_access(user, this->ci, CA_GREET))
{
/* Only display the greet if the main uplink we're connected
* to has synced, or we'll get greet-floods when the net
* recovers from a netsplit. -GD
*/
if (user->server->IsSynced())
{
ircdproto->SendPrivmsg(this->ci->bi, this->name.c_str(), "[%s] %s", user->Account()->display, user->Account()->greet);
this->ci->bi->lastmsg = time(NULL);
}
}
}
}
/** Remove a user internally from the channel
* @param u The user
*/
void Channel::DeleteUser(User *user)
{
if (this->ci)
update_cs_lastseen(user, this->ci);
CUserList::iterator cit;
for (cit = this->users.begin(); (*cit)->user != user && cit != this->users.end(); ++cit);
if (cit == this->users.end())
{
Alog(LOG_DEBUG) << "Channel::DeleteUser() tried to delete nonexistant user " << user->nick << " from channel " << this->name;
return;
}
delete (*cit)->Status;
delete *cit;
this->users.erase(cit);
UChannelList::iterator uit;
for (uit = user->chans.begin(); (*uit)->chan != this && uit != user->chans.end(); ++uit);
if (uit == user->chans.end())
{
Alog(LOG_DEBUG) << "Channel::DeleteUser() tried to delete nonexistant channel " << this->name << " from " << user->nick << "'s channel list";
return;
}
delete *uit;
user->chans.erase(uit);
/* Channel is persistant, it shouldn't be deleted and the service bot should stay */
if (this->HasFlag(CH_PERSIST) || (this->ci && this->ci->HasFlag(CI_PERSIST)))
return;
/* Channel is syncing from a netburst, don't destroy it as more users are probably wanting to join immediatly
* We also don't part the bot here either, if necessary we will part it after the sync
*/
if (this->HasFlag(CH_SYNCING))
return;
/* Additionally, do not delete this channel if ChanServ/a BotServ bot is inhabiting it */
if (this->ci && this->ci->HasFlag(CI_INHABIT))
return;
if (Config.s_BotServ && this->ci && this->ci->bi && this->users.size() <= Config.BSMinUsers - 1)
ircdproto->SendPart(this->ci->bi, this, NULL);
if (this->users.empty())
delete this;
}
/** Check if the user is on the channel
* @param u The user
* @return A user container if found, else NULL
*/
UserContainer *Channel::FindUser(User *u)
{
for (CUserList::iterator it = this->users.begin(); it != this->users.end(); ++it)
if ((*it)->user == u)
return *it;
return NULL;
}
/** Check if a user has a status on a channel
* @param u The user
* @param cms The status mode, or NULL to represent no status
* @return true or false
*/
bool Channel::HasUserStatus(User *u, ChannelModeStatus *cms)
{
if (!u || (cms && cms->Type != MODE_STATUS))
throw CoreException("Channel::HasUserStatus got bad mode");
/* Usually its more efficient to search the users channels than the channels users */
ChannelContainer *cc = u->FindChannel(this);
if (cc)
{
if (cms)
return cc->Status->HasFlag(cms->Name);
else
return !cc->Status->FlagCount();
}
return false;
}
/** Check if a user has a status on a channel
* Use the overloaded function for ChannelModeStatus* to check for no status
* @param u The user
* @param Name The Mode name, eg CMODE_OP, CMODE_VOICE
* @return true or false
*/
bool Channel::HasUserStatus(User *u, ChannelModeName Name)
{
return HasUserStatus(u, dynamic_cast<ChannelModeStatus *>(ModeManager::FindChannelModeByName(Name)));
}
/**
* See if a channel has a mode
* @param Name The mode name
* @return true or false
*/
bool Channel::HasMode(ChannelModeName Name)
{
return modes.HasFlag(Name);
}
/** Set a mode internally on a channel, this is not sent out to the IRCd
* @param cm The mode
* @param param The param
* @param EnforeMLock true if mlocks should be enforced, false to override mlock
*/
void Channel::SetModeInternal(ChannelMode *cm, const std::string &param, bool EnforceMLock)
{
if (!cm)
return;
EventReturn MOD_RESULT;
FOREACH_RESULT(I_OnChannelModeSet, OnChannelModeSet(this, cm->Name, param));
/* Setting v/h/o/a/q etc */
if (cm->Type == MODE_STATUS)
{
if (param.empty())
{
Alog() << "Channel::SetModeInternal() mode " << cm->ModeChar << " with no parameter for channel " << this->name;
return;
}
/* We don't track bots */
if (findbot(param))
return;
User *u = finduser(param);
if (!u)
{
Alog(LOG_DEBUG) << "MODE " << this->name << " +" << cm->ModeChar << " for nonexistant user " << param;
return;
}
Alog(LOG_DEBUG) << "Setting +" << cm->ModeChar << " on " << this->name << " for " << u->nick;
/* Set the status on the user */
ChannelContainer *cc = u->FindChannel(this);
if (cc)
{
cc->Status->SetFlag(cm->Name);
}
/* Enforce secureops, etc */
chan_set_correct_modes(u, this, 0);
return;
}
/* Setting b/e/I etc */
else if (cm->Type == MODE_LIST)
{
if (param.empty())
{
Alog() << "Channel::SetModeInternal() mode " << cm->ModeChar << " with no parameter for channel " << this->name;
return;
}
ChannelModeList *cml = dynamic_cast<ChannelModeList *>(cm);
cml->AddMask(this, param.c_str());
return;
}
modes.SetFlag(cm->Name);
if (!param.empty())
{
if (cm->Type != MODE_PARAM)
{
Alog() << "Channel::SetModeInternal() mode " << cm->ModeChar << " for " << this->name << " with a paramater, but its not a param mode";
return;
}
/* They could be resetting the mode to change its params */
std::map<ChannelModeName, std::string>::iterator it = Params.find(cm->Name);
if (it != Params.end())
{
Params.erase(it);
}
Params.insert(std::make_pair(cm->Name, param));
}
/* Channel mode +P or so was set, mark this channel as persistant */
if (cm->Name == CMODE_PERM)
{
this->SetFlag(CH_PERSIST);
if (ci)
ci->SetFlag(CI_PERSIST);
}
/* Check if we should enforce mlock */
if (!EnforceMLock || MOD_RESULT == EVENT_STOP)
return;
/* Non registered channels can not be +r */
if (!ci && HasMode(CMODE_REGISTERED))
{
RemoveMode(NULL, CMODE_REGISTERED);
}
/* Non registered channel has no mlock */
if (!ci)
{
return;
}
/* If this channel has this mode locked negative */
if (ci->HasMLock(cm->Name, false))
{
/* Remove the mode */
if (cm->Type == MODE_PARAM)
{
std::string cparam;
GetParam(cm->Name, cparam);
RemoveMode(NULL, cm, cparam);
}
else if (cm->Type == MODE_REGULAR)
RemoveMode(NULL, cm);
}
/* If this is a param mode and its mlocked +, check to ensure someone didn't reset it with the wrong param */
else if (cm->Type == MODE_PARAM && ci->HasMLock(cm->Name, true))
{
ChannelModeParam *cmp = dynamic_cast<ChannelModeParam *>(cm);
std::string cparam, ciparam;
/* Get the param currently set on this channel */
GetParam(cmp->Name, cparam);
/* Get the param set in mlock */
ci->GetParam(cmp->Name, ciparam);
/* We have the wrong param set */
if (cparam.empty() || ciparam.empty() || cparam != ciparam)
{
/* Reset the mode with the correct param */
SetMode(NULL, cm, ciparam);
}
}
}
/** Remove a mode internally on a channel, this is not sent out to the IRCd
* @param cm The mode
* @param param The param
* @param EnforceMLock true if mlocks should be enforced, false to override mlock
*/
void Channel::RemoveModeInternal(ChannelMode *cm, const std::string &param, bool EnforceMLock)
{
if (!cm)
return;
EventReturn MOD_RESULT;
FOREACH_RESULT(I_OnChannelModeUnset, OnChannelModeUnset(this, cm->Name, param));
/* Setting v/h/o/a/q etc */
if (cm->Type == MODE_STATUS)
{
if (param.empty())
{
Alog() << "Channel::RemoveModeInternal() mode " << cm->ModeChar << " with no parameter for channel " << this->name;
return;
}
/* Reset modes on bots if we're supposed to */
BotInfo *bi = findbot(param);
if (bi)
{
if (std::find(BotModes.begin(), BotModes.end(), cm) != BotModes.end())
{
this->SetMode(bi, cm, bi->nick);
}
/* We don't track bots */
return;
}
User *u = finduser(param);
if (!u)
{
Alog() << "Channel::RemoveModeInternal() MODE " << this->name << "-" << cm->ModeChar << " for nonexistant user " << param;
return;
}
Alog(LOG_DEBUG) << "Setting -" << cm->ModeChar << " on " << this->name << " for " << u->nick;
/* Remove the status on the user */
ChannelContainer *cc = u->FindChannel(this);
if (cc)
{
cc->Status->UnsetFlag(cm->Name);
}
return;
}
/* Setting b/e/I etc */
else if (cm->Type == MODE_LIST)
{
if (param.empty())
{
Alog() << "Channel::RemoveModeInternal() mode " << cm->ModeChar << " with no parameter for channel " << this->name;
return;
}
ChannelModeList *cml = dynamic_cast<ChannelModeList *>(cm);
cml->DelMask(this, param.c_str());
return;
}
modes.UnsetFlag(cm->Name);
if (cm->Type == MODE_PARAM)
{
std::map<ChannelModeName, std::string>::iterator it = Params.find(cm->Name);
if (it != Params.end())
{
Params.erase(it);
}
}
if (cm->Name == CMODE_PERM)
{
this->UnsetFlag(CH_PERSIST);
if (ci)
{
ci->UnsetFlag(CI_PERSIST);
if (Config.s_BotServ && ci->bi && users.size() == Config.BSMinUsers - 1)
ircdproto->SendPart(ci->bi, this, NULL);
}
}
/* We set -P in an empty channel, delete the channel */
if (cm->Name == CMODE_PERM && users.empty())
{
delete this;
return;
}
/* Check for mlock */
/* Non registered channel, no mlock */
if (!ci || !EnforceMLock || MOD_RESULT == EVENT_STOP)
return;
/* This channel has this the mode locked on */
if (ci->HasMLock(cm->Name, true))
{
if (cm->Type == MODE_REGULAR)
{
/* Set the mode */
SetMode(NULL, cm);
}
/* This is a param mode */
else if (cm->Type == MODE_PARAM)
{
std::string cparam;
/* Get the param stored in mlock for this mode */
if (ci->GetParam(cm->Name, cparam))
SetMode(NULL, cm, cparam);
}
}
}
/** Set a mode on a channel
* @param bi The client setting the modes
* @param cm The mode
* @param param Optional param arg for the mode
* @param EnforceMLock true if mlocks should be enforced, false to override mlock
*/
void Channel::SetMode(BotInfo *bi, ChannelMode *cm, const std::string &param, bool EnforceMLock)
{
if (!cm)
return;
/* Don't set modes already set */
if (cm->Type == MODE_REGULAR && HasMode(cm->Name))
return;
else if (cm->Type == MODE_PARAM && HasMode(cm->Name))
{
std::string cparam;
if (GetParam(cm->Name, cparam))
{
if (cparam == param)
{
return;
}
}
}
else if (cm->Type == MODE_STATUS)
{
User *u = finduser(param);
if (u && HasUserStatus(u, dynamic_cast<ChannelModeStatus *>(cm)))
return;
}
else if (cm->Type == MODE_LIST)
{
// XXX this needs rewritten
}
ModeManager::StackerAdd(bi, this, cm, true, param);
SetModeInternal(cm, param, EnforceMLock);
}
/**
* Set a mode on a channel
* @param bi The client setting the modes
* @param Name The mode name
* @param param Optional param arg for the mode
* @param EnforceMLock true if mlocks should be enforced, false to override mlock
*/
void Channel::SetMode(BotInfo *bi, ChannelModeName Name, const std::string &param, bool EnforceMLock)
{
SetMode(bi, ModeManager::FindChannelModeByName(Name), param, EnforceMLock);
}
/**
* Set a mode on a channel
* @param bi The client setting the modes
* @param Mode The mode
* @param param Optional param arg for the mode
* @param EnforceMLock true if mlocks should be enforced, false to override mlock
*/
void Channel::SetMode(BotInfo *bi, char Mode, const std::string &param, bool EnforceMLock)
{
SetMode(bi, ModeManager::FindChannelModeByChar(Mode), param, EnforceMLock);
}
/** Remove a mode from a channel
* @param bi The client setting the modes
* @param cm The mode
* @param param Optional param arg for the mode
* @param EnforceMLock true if mlocks should be enforced, false to override mlock
*/
void Channel::RemoveMode(BotInfo *bi, ChannelMode *cm, const std::string &param, bool EnforceMLock)
{
if (!cm)
return;
/* Don't unset modes that arent set */
if ((cm->Type == MODE_REGULAR || cm->Type == MODE_PARAM) && !HasMode(cm->Name))
return;
/* Don't unset status that aren't set */
else if (cm->Type == MODE_STATUS)
{
User *u = finduser(param);
if (u && !HasUserStatus(u, dynamic_cast<ChannelModeStatus *>(cm)))
return;
}
else if (cm->Type == MODE_LIST)
{
// XXX this needs to be rewritten sometime
}
/* If this mode needs no param when being unset, empty the param */
bool SendParam = true;
if (cm->Type == MODE_PARAM)
{
ChannelModeParam *cmp = dynamic_cast<ChannelModeParam *>(cm);
if (cmp->MinusNoArg)
SendParam = false;
}
ModeManager::StackerAdd(bi, this, cm, false, param);
RemoveModeInternal(cm, SendParam ? param : "", EnforceMLock);
}
/**
* Remove a mode from a channel
* @param bi The client setting the modes
* @param Name The mode name
* @param param Optional param arg for the mode
* @param EnforceMLock true if mlocks should be enforced, false to override mlock
*/
void Channel::RemoveMode(BotInfo *bi, ChannelModeName Name, const std::string &param, bool EnforceMLock)
{
RemoveMode(bi, ModeManager::FindChannelModeByName(Name), param, EnforceMLock);
}
/**
* Remove a mode from a channel
* @param bi The client setting the modes
* @param Mode The mode
* @param param Optional param arg for the mode
* @param EnforceMLock true if mlocks should be enforced, false to override mlock
*/
void Channel::RemoveMode(BotInfo *bi, char Mode, const std::string &param, bool EnforceMLock)
{
RemoveMode(bi, ModeManager::FindChannelModeByChar(Mode), param, EnforceMLock);
}
/** Get a param from the channel
* @param Name The mode
* @param Target a string to put the param into
* @return true on success
*/
const bool Channel::GetParam(ChannelModeName Name, std::string &Target)
{
std::map<ChannelModeName, std::string>::iterator it = Params.find(Name);
Target.clear();
if (it != Params.end())
{
Target = it->second;
return true;
}
return false;
}
/** Check if a mode is set and has a param
* @param Name The mode
*/
const bool Channel::HasParam(ChannelModeName Name)
{
std::map<ChannelModeName, std::string>::iterator it = Params.find(Name);
if (it != Params.end())
{
return true;
}
return false;
}
/*************************************************************************/
/** Clear all the modes from the channel
* @param bi The client setting the modes
*/
void Channel::ClearModes(BotInfo *bi)
{
ChannelMode *cm;
for (size_t n = CMODE_BEGIN + 1; n != CMODE_END; ++n)
{
cm = ModeManager::FindChannelModeByName(static_cast<ChannelModeName>(n));
if (cm && this->HasMode(cm->Name))
{
if (cm->Type == MODE_REGULAR)
{
this->RemoveMode(NULL, cm);
}
else if (cm->Type == MODE_PARAM)
{
std::string param;
this->GetParam(cm->Name, param);
this->RemoveMode(NULL, cm, param);
}
}
}
modes.ClearFlags();
}
/** Clear all the bans from the channel
* @param bi The client setting the modes
*/
void Channel::ClearBans(BotInfo *bi)
{
Entry *entry, *nexte;
ChannelModeList *cml;
cml = dynamic_cast<ChannelModeList *>(ModeManager::FindChannelModeByName(CMODE_BAN));
if (cml && this->bans && this->bans->count)
{
for (entry = this->bans->entries; entry; entry = nexte)
{
nexte = entry->next;
this->RemoveMode(bi, CMODE_BAN, entry->mask);
}
}
}
/** Clear all the excepts from the channel
* @param bi The client setting the modes
*/
void Channel::ClearExcepts(BotInfo *bi)
{
Entry *entry, *nexte;
ChannelModeList *cml;
cml = dynamic_cast<ChannelModeList *>(ModeManager::FindChannelModeByName(CMODE_EXCEPT));
if (cml && this->excepts && this->excepts->count)
{
for (entry = this->excepts->entries; entry; entry = nexte)
{
nexte = entry->next;
this->RemoveMode(bi, CMODE_EXCEPT, entry->mask);
}
}
}
/** Clear all the invites from the channel
* @param bi The client setting the modes
*/
void Channel::ClearInvites(BotInfo *bi)
{
Entry *entry, *nexte;
ChannelModeList *cml;
cml = dynamic_cast<ChannelModeList *>(ModeManager::FindChannelModeByName(CMODE_INVITEOVERRIDE));
if (cml && this->invites && this->invites->count)
{
for (entry = this->invites->entries; entry; entry = nexte)
{
nexte = entry->next;
this->RemoveMode(bi, CMODE_INVITEOVERRIDE, entry->mask);
}
}
}
/** Set a string of modes on the channel
* @param bi The client setting the modes
* @param EnforceMLock Should mlock be enforced on this mode change
* @param cmodes The modes to set
*/
void Channel::SetModes(BotInfo *bi, bool EnforceMLock, const char *cmodes, ...)
{
char buf[BUFSIZE] = "";
va_list args;
std::string modebuf, sbuf;
int add = -1;
va_start(args, cmodes);
vsnprintf(buf, BUFSIZE - 1, cmodes, args);
va_end(args);
spacesepstream sep(buf);
sep.GetToken(modebuf);
for (unsigned i = 0; i < modebuf.size(); ++i)
{
ChannelMode *cm;
switch (modebuf[i])
{
case '+':
add = 1;
continue;
case '-':
add = 0;
continue;
default:
if (add == -1)
continue;
cm = ModeManager::FindChannelModeByChar(modebuf[i]);
if (!cm)
continue;
}
if (add)
{
if (cm->Type != MODE_REGULAR && sep.GetToken(sbuf))
this->SetMode(bi, cm, sbuf, EnforceMLock);
else
this->SetMode(bi, cm, "", EnforceMLock);
}
else if (add == 0)
{
if (cm->Type != MODE_REGULAR && sep.GetToken(sbuf))
this->RemoveMode(bi, cm, sbuf, EnforceMLock);
else
this->RemoveMode(bi, cm, "", EnforceMLock);
}
}
}
/*************************************************************************/
/** Set modes internally on the channel
* @param c The channel
* @param ac Number of args
* @param av args
*/
void ChanSetInternalModes(Channel *c, int ac, const char **av)
{
if (!ac)
return;
int k = 0, j = 0, add = -1;
for (unsigned int i = 0; i < strlen(av[0]); ++i)
{
ChannelMode *cm;
switch (av[0][i])
{
case '+':
add = 1;
continue;
case '-':
add = 0;
continue;
default:
if (add == -1)
continue;
cm = ModeManager::FindChannelModeByChar(av[0][i]);
if (!cm)
continue;
}
if (cm->Type == MODE_REGULAR)
{
if (add)
c->SetModeInternal(cm);
else
c->RemoveModeInternal(cm);
continue;
}
else if (cm->Type == MODE_PARAM)
{
ChannelModeParam *cmp = dynamic_cast<ChannelModeParam *>(cm);
if (!add && cmp->MinusNoArg)
{
c->RemoveModeInternal(cm);
++k;
continue;
}
}
if (++j < ac)
{
if (add)
c->SetModeInternal(cm, av[j]);
else
c->RemoveModeInternal(cm, av[j]);
}
else
{
Alog() << "warning: ChanSetInternalModes() recieved more modes requiring params than params, modes: " << merge_args(ac, av) << ", ac: " << ac << ", j: " << j;
}
}
if (j + k + 1 < ac)
{
Alog() << "warning: ChanSetInternalModes() recieved more params than modes requiring them, modes: " << merge_args(ac, av) << ", ac: " << ac << ", j: " << j << " k: " << k;
}
}
/** Kick a user from a channel internally
* @param source The sender of the kick
* @param nick The nick being kicked
* @param reason The reason for the kick
*/
void Channel::KickInternal(const std::string &source, const std::string &nick, const std::string &reason)
{
/* If it is the bot that is being kicked, we make it rejoin the
* channel and stop immediately.
* --lara
*/
if (Config.s_BotServ && this->ci && findbot(nick))
{
bot_join(this->ci);
return;
}
User *user = finduser(nick);
if (!user)
{
Alog(LOG_DEBUG) << "Channel::KickInternal got a nonexistent user " << nick << " on " << this->name << ": " << reason;
return;
}
Alog(LOG_DEBUG) << "Channel::KickInternal kicking " << user->nick << " from " << this->name;
if (user->FindChannel(this))
{
FOREACH_MOD(I_OnUserKicked, OnUserKicked(this, user, source, reason));
this->DeleteUser(user);
}
else
Alog(LOG_DEBUG) << "Channel::KickInternal got kick for user " << user->nick << " who isn't on channel " << this->name << " ?";
}
/** Kick a user from the channel
* @param bi The sender, can be NULL for the service bot for this channel
* @param u The user being kicked
* @param reason The reason for the kick
* @return true if the kick was scucessful, false if a module blocked the kick
*/
bool Channel::Kick(BotInfo *bi, User *u, const char *reason, ...)
{
va_list args;
char buf[BUFSIZE] = "";
va_start(args, reason);
vsnprintf(buf, BUFSIZE - 1, reason, args);
va_end(args);
/* May not kick ulines */
if (u->server->IsULined())
return false;
/* Do not kick protected clients */
if (u->IsProtected())
return false;
EventReturn MOD_RESULT;
FOREACH_RESULT(I_OnBotKick, OnBotKick(bi, this, u, buf));
if (MOD_RESULT == EVENT_STOP)
return false;
ircdproto->SendKick(bi ? bi : whosends(this->ci), this, u, "%s", buf);
this->KickInternal(bi ? bi->nick : whosends(this->ci)->nick, u->nick, buf);
return true;
}
/* Returns a fully featured binary modes string. If complete is 0, the
* eventual parameters won't be added to the string.
*/
char *chan_get_modes(Channel * chan, int complete, int plus)
{
static char res[BUFSIZE];
char params[BUFSIZE];
char *end = res, *value, *pend = params, *pend2 = params;
std::string param;
if (chan->HasModes())
{
for (std::list<Mode *>::iterator it = ModeManager::Modes.begin(); it != ModeManager::Modes.end(); ++it)
{
if ((*it)->Class != MC_CHANNEL)
continue;
ChannelMode *cm = dynamic_cast<ChannelMode *>(*it);
if (chan->HasMode(cm->Name))
{
*end++ = cm->ModeChar;
if (complete)
{
if (cm->Type == MODE_PARAM)
{
ChannelModeParam *cmp = dynamic_cast<ChannelModeParam *>(cm);
if (plus || !cmp->MinusNoArg)
{
chan->GetParam(cmp->Name, param);
if (!param.empty())
{
value = const_cast<char *>(param.c_str());
*pend++ = ' ';
while (*value)
*pend++ = *value++;
}
}
}
}
}
}
while (*pend2)
*end++ = *pend2++;
}
*end = 0;
return res;
}
/*************************************************************************/
Channel *findchan(const char *chan)
{
return findchan(ci::string(chan));
}
Channel *findchan(const std::string &chan)
{
return findchan(ci::string(chan.c_str()));
}
Channel *findchan(const ci::string &chan)
{
channel_map::const_iterator it = ChannelList.find(chan);
if (it != ChannelList.end())
return it->second;
return NULL;
}
/*************************************************************************/
/* Return statistics. Pointers are assumed to be valid. */
void get_channel_stats(long *nrec, long *memuse)
{
long count = 0, mem = 0;
BanData *bd;
std::string buf;
for (channel_map::const_iterator cit = ChannelList.begin(); cit != ChannelList.end(); ++cit)
{
Channel *chan = cit->second;
count++;
mem += sizeof(*chan);
if (chan->topic)
mem += strlen(chan->topic) + 1;
if (chan->GetParam(CMODE_KEY, buf))
mem += buf.length() + 1;
if (chan->GetParam(CMODE_FLOOD, buf))
mem += buf.length() + 1;
if (chan->GetParam(CMODE_REDIRECT, buf))
mem += buf.length() + 1;
mem += get_memuse(chan->bans);
if (ModeManager::FindChannelModeByName(CMODE_EXCEPT))
mem += get_memuse(chan->excepts);
if (ModeManager::FindChannelModeByName(CMODE_INVITEOVERRIDE))
mem += get_memuse(chan->invites);
for (CUserList::iterator it = chan->users.begin(); it != chan->users.end(); ++it)
{
mem += sizeof(*it);
mem += sizeof((*it)->ud);
if ((*it)->ud.lastline)
mem += strlen((*it)->ud.lastline) + 1;
}
for (bd = chan->bd; bd; bd = bd->next) {
if (bd->mask)
mem += strlen(bd->mask) + 1;
mem += sizeof(*bd);
}
}
*nrec = count;
*memuse = mem;
}
/*************************************************************************/
/* Is the given nick on the given channel?
This function supports links. */
User *nc_on_chan(Channel * c, NickCore * nc)
{
if (!c || !nc)
return NULL;
for (CUserList::iterator it = c->users.begin(); it != c->users.end(); ++it)
{
UserContainer *uc = *it;
if (uc->user->Account() == nc)
return uc->user;
}
return NULL;
}
/*************************************************************************/
/*************************** Message Handling ****************************/
/*************************************************************************/
/* Handle a JOIN command.
* av[0] = channels to join
*/
void do_join(const char *source, int ac, const char **av)
{
User *user;
Channel *chan;
time_t ctime = time(NULL);
user = finduser(source);
if (!user)
{
Alog(LOG_DEBUG) << "JOIN from nonexistent user " << source << ": " << merge_args(ac, av);
return;
}
commasepstream sep(av[0]);
ci::string buf;
while (sep.GetToken(buf))
{
if (buf[0] == '0')
{
for (UChannelList::iterator it = user->chans.begin(); it != user->chans.end();)
{
ChannelContainer *cc = *it++;
std::string channame = cc->chan->name;
FOREACH_MOD(I_OnPrePartChannel, OnPrePartChannel(user, cc->chan));
cc->chan->DeleteUser(user);
FOREACH_MOD(I_OnPartChannel, OnPartChannel(user, findchan(channame.c_str()), channame, ""));
}
user->chans.clear();
continue;
}
chan = findchan(buf.c_str());
/* Channel doesn't exist, create it */
if (!chan)
{
chan = new Channel(av[0], ctime);
}
/* Join came with a TS */
if (ac == 2)
{
time_t ts = atol(av[1]);
/* Their time is older, we lose */
if (chan->creation_time > ts)
{
Alog(LOG_DEBUG) << "recieved a new TS for JOIN: " << ts;
if (chan->ci)
{
/* Cycle the bot to fix ts */
if (chan->ci->bi)
{
ircdproto->SendPart(chan->ci->bi, chan, "TS reop");
bot_join(chan->ci);
}
/* Be sure to set mlock again, else we could be -r etc.. */
check_modes(chan);
}
}
}
EventReturn MOD_RESULT;
FOREACH_RESULT(I_OnPreJoinChannel, OnPreJoinChannel(user, chan));
/* Join the user to the channel */
chan->JoinUser(user);
/* Set the propre modes on the user */
chan_set_correct_modes(user, chan, 1);
/* Modules may want to allow this user in the channel, check.
* If not, CheckKick will kick/ban them, don't call OnJoinChannel after this as the user will have
* been destroyed
*/
if (MOD_RESULT != EVENT_STOP && chan && chan->ci && chan->ci->CheckKick(user))
continue;
FOREACH_MOD(I_OnJoinChannel, OnJoinChannel(user, chan));
}
}
/*************************************************************************/
/** Handle a KICK command.
* @param source The source of the kick
* @param ac number of args
* @param av The channel, nick(s) being kicked, and reason
*/
void do_kick(const std::string &source, int ac, const char **av)
{
Channel *c = findchan(av[0]);
if (!c)
{
Alog(LOG_DEBUG) << "Recieved kick for nonexistant channel " << av[0];
return;
}
std::string buf;
commasepstream sep(av[1]);
while (sep.GetToken(buf))
{
c->KickInternal(source, buf, av[2]);
}
}
/*************************************************************************/
/* Handle a PART command.
* av[0] = channels to leave
* av[1] = reason (optional)
*/
void do_part(const char *source, int ac, const char **av)
{
User *user = finduser(source);
if (!user)
{
Alog(LOG_DEBUG) << "PART from nonexistent user " << source << ": " << merge_args(ac, av);
return;
}
commasepstream sep(av[0]);
ci::string buf;
while (sep.GetToken(buf))
{
Channel *c = findchan(buf.c_str());
if (!c)
{
Alog(LOG_DEBUG) << "Recieved PART from " << user->nick << " for nonexistant channel " << buf;
}
Alog(LOG_DEBUG) << source << " leaves " << buf;
if (user->FindChannel(c))
{
FOREACH_MOD(I_OnPrePartChannel, OnPrePartChannel(user, c));
std::string ChannelName = c->name;
c->DeleteUser(user);
FOREACH_MOD(I_OnPartChannel, OnPartChannel(user, findchan(ChannelName.c_str()), ChannelName, av[1] ? av[1] : ""));
}
else
Alog(LOG_DEBUG) << "Recieved PART from " << user->nick << " for " << c->name << ", but " << user->nick << " isn't in " << c->name << "?";
}
}
/*************************************************************************/
/** Process a MODE command from the server, and set the modes on the user/channel
* it was sent for
* @param source The source of the command
* @param ac Number of args in array..
* @param av Array of args
*/
void do_cmode(const char *source, int ac, const char **av)
{
Channel *c;
ChannelInfo *ci;
unsigned int i;
const char *t;
if (Capab.HasFlag(CAPAB_TSMODE) || UseTSMODE)
{
for (i = 0; i < strlen(av[1]); i++)
if (!isdigit(av[1][i]))
break;
if (av[1][i] == '\0')
{
t = av[0];
av[0] = av[1];
av[1] = t;
ac--;
av++;
}
else
Alog() << "TSMODE enabled but MODE has no valid TS";
}
/* :42XAAAAAO TMODE 1106409026 #ircops +b *!*@*.aol.com */
if (ircd->ts6)
{
if (isdigit(av[0][0]))
{
ac--;
av++;
}
}
c = findchan(av[0]);
if (!c)
{
if (debug)
{
ci = cs_findchan(av[0]);
if (!ci || ci->HasFlag(CI_FORBIDDEN))
Alog(LOG_DEBUG) << "MODE " << merge_args(ac - 1, av + 1) << " for nonexistant channel " << av[0];
}
return;
}
if (strchr(source, '.') && !av[1][strcspn(av[1], "bovahq")])
{
if (time(NULL) != c->server_modetime)
{
c->server_modecount = 0;
c->server_modetime = time(NULL);
}
c->server_modecount++;
}
ac--;
av++;
ChanSetInternalModes(c, ac, av);
}
/*************************************************************************/
/* Handle a TOPIC command. */
void do_topic(const char *source, int ac, const char **av)
{
Channel *c = findchan(av[0]);
ChannelInfo *ci;
int ts;
time_t topic_time;
char *topicsetter;
if (ircd->sjb64) {
ts = base64dects(av[2]);
Alog(LOG_DEBUG) << "encoded TOPIC TS " << av[2] << " converted to " << ts;
} else {
ts = strtoul(av[2], NULL, 10);
}
topic_time = ts;
if (!c)
{
Alog(LOG_DEBUG) << "TOPIC " << merge_args(ac - 1, av + 1) << " for nonexistent channel " << av[0];
return;
}
/* We can be sure that the topic will be in sync here -GD */
c->topic_sync = 1;
ci = c->ci;
/* For Unreal, cut off the ! and any futher part of the topic setter.
* This way, nick!ident@host setters will only show the nick. -GD
*/
topicsetter = myStrGetToken(av[1], '!', 0);
/* If the current topic we have matches the last known topic for this
* channel exactly, there's no need to update anything and we can as
* well just return silently without updating anything. -GD
*/
if ((ac > 3) && *av[3] && ci && ci->last_topic
&& (strcmp(av[3], ci->last_topic) == 0)
&& (strcmp(topicsetter, ci->last_topic_setter.c_str()) == 0)) {
delete [] topicsetter;
return;
}
if (check_topiclock(c, topic_time)) {
delete [] topicsetter;
return;
}
if (c->topic) {
delete [] c->topic;
c->topic = NULL;
}
if (ac > 3 && *av[3]) {
c->topic = sstrdup(av[3]);
}
c->topic_setter = topicsetter;
c->topic_time = topic_time;
delete [] topicsetter;
record_topic(av[0]);
FOREACH_MOD(I_OnTopicUpdated, OnTopicUpdated(c, av[0]));
}
/*************************************************************************/
/**************************** Internal Calls *****************************/
/*************************************************************************/
/**
* Set the correct modes, or remove the ones granted without permission,
* for the specified user on ths specified channel. This doesn't give
* modes to ignored users, but does remove them if needed.
* @param user The user to give/remove modes to/from
* @param c The channel to give/remove modes on
* @param give_modes Set to 1 to give modes, 0 to not give modes
* @return void
**/
void chan_set_correct_modes(User * user, Channel * c, int give_modes)
{
ChannelInfo *ci;
ChannelMode *owner, *admin, *op, *halfop, *voice;
owner = ModeManager::FindChannelModeByName(CMODE_OWNER);
admin = ModeManager::FindChannelModeByName(CMODE_PROTECT);
op = ModeManager::FindChannelModeByName(CMODE_OP);
halfop = ModeManager::FindChannelModeByName(CMODE_HALFOP);
voice = ModeManager::FindChannelModeByName(CMODE_VOICE);
if (!c || !(ci = c->ci))
return;
if ((ci->HasFlag(CI_FORBIDDEN)) || (*(c->name.c_str()) == '+'))
return;
Alog(LOG_DEBUG) << "Setting correct user modes for " << user->nick << " on " << c->name << " (" << (give_modes ? "" : "not ") << "giving modes)";
if (give_modes && !get_ignore(user->nick.c_str()) && (!user->Account() || user->Account()->HasFlag(NI_AUTOOP)))
{
if (owner && check_access(user, ci, CA_AUTOOWNER))
c->SetMode(NULL, CMODE_OWNER, user->nick);
else if (admin && check_access(user, ci, CA_AUTOPROTECT))
c->SetMode(NULL, CMODE_PROTECT, user->nick);
if (op && check_access(user, ci, CA_AUTOOP))
c->SetMode(NULL, CMODE_OP, user->nick);
else if (halfop && check_access(user, ci, CA_AUTOHALFOP))
c->SetMode(NULL, CMODE_HALFOP, user->nick);
else if (voice && check_access(user, ci, CA_AUTOVOICE))
c->SetMode(NULL, CMODE_VOICE, user->nick);
}
/* If this channel has secureops or the user matches autodeop or the channel is syncing and this is the first user and they are not ulined, check to remove modes */
if ((ci->HasFlag(CI_SECUREOPS) || check_access(user, ci, CA_AUTODEOP) || (c->HasFlag(CH_SYNCING) && c->users.size() == 1)) && !user->server->IsULined())
{
if (owner && c->HasUserStatus(user, CMODE_OWNER) && !check_access(user, ci, CA_FOUNDER))
c->RemoveMode(NULL, CMODE_OWNER, user->nick);
if (admin && c->HasUserStatus(user, CMODE_PROTECT) && !check_access(user, ci, CA_AUTOPROTECT) && !check_access(user, ci, CA_PROTECTME))
c->RemoveMode(NULL, CMODE_PROTECT, user->nick);
if (op && c->HasUserStatus(user, CMODE_OP) && !check_access(user, ci, CA_AUTOOP) && !check_access(user, ci, CA_OPDEOPME))
c->RemoveMode(NULL, CMODE_OP, user->nick);
if (halfop && c->HasUserStatus(user, CMODE_HALFOP) && !check_access(user, ci, CA_AUTOHALFOP) && !check_access(user, ci, CA_HALFOPME))
c->RemoveMode(NULL, CMODE_HALFOP, user->nick);
}
}
/*************************************************************************/
/** Set modes on every channel
* This overrides mlock on channels
* @param bi The bot to send the modes from
* @param modes The modes
*/
void MassChannelModes(BotInfo *bi, const std::string &modes)
{
for (channel_map::const_iterator it = ChannelList.begin(); it != ChannelList.end(); ++it)
{
Channel *c = it->second;
if (c->bouncy_modes)
return;
c->SetModes(bi, false, modes.c_str());
}
}
/*************************************************************************/
void restore_unsynced_topics()
{
for (channel_map::const_iterator it = ChannelList.begin(); it != ChannelList.end(); ++it)
{
Channel *c = it->second;
if (!(c->topic_sync))
restore_topic(c->name.c_str());
}
}
/*************************************************************************/
/**
* This handles creating a new Entry.
* This function destroys and free's the given mask as a side effect.
* @param mask Host/IP/CIDR mask to convert to an entry
* @return Entry struct for the given mask, NULL if creation failed
*/
Entry *entry_create(char *mask)
{
Entry *entry;
char *nick = NULL, *user, *host, *cidrhost;
uint32 ip, cidr;
entry = new Entry;
entry->SetFlag(ENTRYTYPE_NONE);
entry->prev = NULL;
entry->next = NULL;
entry->nick = NULL;
entry->user = NULL;
entry->host = NULL;
entry->mask = sstrdup(mask);
host = strchr(mask, '@');
if (host) {
*host++ = '\0';
/* If the user is purely a wildcard, ignore it */
if (str_is_pure_wildcard(mask))
user = NULL;
else {
/* There might be a nick too */
user = strchr(mask, '!');
if (user) {
*user++ = '\0';
/* If the nick is purely a wildcard, ignore it */
if (str_is_pure_wildcard(mask))
nick = NULL;
else
nick = mask;
} else {
nick = NULL;
user = mask;
}
}
} else {
/* It is possibly an extended ban/invite mask, but we do
* not support these at this point.. ~ Viper */
/* If there's no user in the mask, assume a pure wildcard */
user = NULL;
host = mask;
}
if (nick) {
entry->nick = sstrdup(nick);
/* Check if we have a wildcard user */
if (str_is_wildcard(nick))
entry->SetFlag(ENTRYTYPE_NICK_WILD);
else
entry->SetFlag(ENTRYTYPE_NICK);
}
if (user) {
entry->user = sstrdup(user);
/* Check if we have a wildcard user */
if (str_is_wildcard(user))
entry->SetFlag(ENTRYTYPE_USER_WILD);
else
entry->SetFlag(ENTRYTYPE_USER);
}
/* Only check the host if it's not a pure wildcard */
if (*host && !str_is_pure_wildcard(host)) {
if (ircd->cidrchanbei && str_is_cidr(host, &ip, &cidr, &cidrhost)) {
entry->cidr_ip = ip;
entry->cidr_mask = cidr;
entry->SetFlag(ENTRYTYPE_CIDR4);
host = cidrhost;
} else if (ircd->cidrchanbei && strchr(host, '/')) {
/* Most IRCd's don't enforce sane bans therefore it is not
* so unlikely we will encounter this.
* Currently we only support strict CIDR without taking into
* account quirks of every single ircd (nef) that ignore everything
* after the first /cidr. To add this, sanitaze before sending to
* str_is_cidr() as this expects a standard cidr.
* Add it to the internal list (so it is included in for example clear)
* but do not use if during matching.. ~ Viper */
entry->ClearFlags();
entry->SetFlag(ENTRYTYPE_NONE);
} else {
entry->host = sstrdup(host);
if (str_is_wildcard(host))
entry->SetFlag(ENTRYTYPE_HOST_WILD);
else
entry->SetFlag(ENTRYTYPE_HOST);
}
}
delete [] mask;
return entry;
}
/**
* Create an entry and add it at the beginning of given list.
* @param list The List the mask should be added to
* @param mask The mask to parse and add to the list
* @return Pointer to newly added entry. NULL if it fails.
*/
Entry *entry_add(EList * list, const char *mask)
{
Entry *e;
char *hostmask;
hostmask = sstrdup(mask);
e = entry_create(hostmask);
if (!e)
return NULL;
e->next = list->entries;
e->prev = NULL;
if (list->entries)
list->entries->prev = e;
list->entries = e;
list->count++;
return e;
}
/**
* Delete the given entry from a given list.
* @param list Linked list from which entry needs to be removed.
* @param e The entry to be deleted, must be member of list.
*/
void entry_delete(EList * list, Entry * e)
{
if (!list || !e)
return;
if (e->next)
e->next->prev = e->prev;
if (e->prev)
e->prev->next = e->next;
if (list->entries == e)
list->entries = e->next;
if (e->nick)
delete [] e->nick;
if (e->user)
delete [] e->user;
if (e->host)
delete [] e->host;
delete [] e->mask;
delete e;
list->count--;
}
/**
* Create and initialize a new entrylist
* @return Pointer to the created EList object
**/
EList *list_create()
{
EList *list;
list = new EList;
list->entries = NULL;
list->count = 0;
return list;
}
/**
* Match the given Entry to the given user/host and optional IP addy
* @param e Entry struct to match against
* @param nick Nick to match against
* @param user User to match against
* @param host Host to match against
* @param ip IP to match against, set to 0 to not match this
* @return 1 for a match, 0 for no match
*/
int entry_match(Entry *e, const ci::string &nick, const ci::string &user, const ci::string &host, uint32 ip)
{
/* If we don't get an entry, or it s an invalid one, no match ~ Viper */
if (!e || !e->FlagCount())
return 0;
ci::string ci_nick(nick.c_str()), ci_user(user.c_str()), ci_host(host.c_str());
if (ircd->cidrchanbei && e->HasFlag(ENTRYTYPE_CIDR4) && (!ip || (ip && (ip & e->cidr_mask) != e->cidr_ip)))
return 0;
if (e->HasFlag(ENTRYTYPE_NICK) && (nick.empty() || nick != e->nick))
return 0;
if (e->HasFlag(ENTRYTYPE_USER) && (user.empty() || user != e->user))
return 0;
if (e->HasFlag(ENTRYTYPE_HOST) && (host.empty() || host != e->host))
return 0;
if (e->HasFlag(ENTRYTYPE_NICK_WILD) && !Anope::Match(nick, e->nick))
return 0;
if (e->HasFlag(ENTRYTYPE_USER_WILD) && !Anope::Match(user, e->user))
return 0;
if (e->HasFlag(ENTRYTYPE_HOST_WILD) && !Anope::Match(host, e->host))
return 0;
return 1;
}
/**
* Match the given Entry to the given hostmask and optional IP addy.
* @param e Entry struct to match against
* @param mask Hostmask to match against
* @param ip IP to match against, set to 0 to not match this
* @return 1 for a match, 0 for no match
*/
int entry_match_mask(Entry * e, const char *mask, uint32 ip)
{
char *hostmask, *nick, *user, *host;
int res;
hostmask = sstrdup(mask);
host = strchr(hostmask, '@');
if (host) {
*host++ = '\0';
user = strchr(hostmask, '!');
if (user) {
*user++ = '\0';
nick = hostmask;
} else {
nick = NULL;
user = hostmask;
}
} else {
nick = NULL;
user = NULL;
host = hostmask;
}
res = entry_match(e, nick ? nick : "", user ? user : "", host ? host : "", ip);
/* Free the destroyed mask. */
delete [] hostmask;
return res;
}
/**
* Match a nick, user, host, and ip to a list entry
* @param e List that should be matched against
* @param nick The nick to match
* @param user The user to match
* @param host The host to match
* @param ip The ip to match
* @return Returns the first matching entry, if none, NULL is returned.
*/
Entry *elist_match(EList * list, const char *nick, const char *user, const char *host,
uint32 ip)
{
Entry *e;
if (!list || !list->entries)
return NULL;
for (e = list->entries; e; e = e->next) {
if (entry_match(e, nick ? nick : "", user ? user : "", host ? host : "", ip))
return e;
}
/* We matched none */
return NULL;
}
/**
* Match a mask and ip to a list.
* @param list EntryList that should be matched against
* @param mask The nick!user@host mask to match
* @param ip The ip to match
* @return Returns the first matching entry, if none, NULL is returned.
*/
Entry *elist_match_mask(EList * list, const char *mask, uint32 ip)
{
char *hostmask, *nick, *user, *host;
Entry *res;
if (!list || !list->entries || !mask)
return NULL;
hostmask = sstrdup(mask);
host = strchr(hostmask, '@');
if (host) {
*host++ = '\0';
user = strchr(hostmask, '!');
if (user) {
*user++ = '\0';
nick = hostmask;
} else {
nick = NULL;
user = hostmask;
}
} else {
nick = NULL;
user = NULL;
host = hostmask;
}
res = elist_match(list, nick, user, host, ip);
/* Free the destroyed mask. */
delete [] hostmask;
return res;
}
/**
* Check if a user matches an entry on a list.
* @param list EntryList that should be matched against
* @param user The user to match against the entries
* @return Returns the first matching entry, if none, NULL is returned.
*/
Entry *elist_match_user(EList * list, User * u)
{
Entry *res;
char *host;
uint32 ip = 0;
if (!list || !list->entries || !u)
return NULL;
if (u->hostip == NULL) {
host = host_resolve(u->host);
/* we store the just resolved hostname so we don't
* need to do this again */
if (host) {
u->hostip = sstrdup(host);
}
} else {
host = sstrdup(u->hostip);
}
/* Convert the host to an IP.. */
if (host)
ip = str_is_ip(host);
/* Match what we ve got against the lists.. */
res = elist_match(list, u->nick.c_str(), u->GetIdent().c_str(), u->host, ip);
if (!res)
res = elist_match(list, u->nick.c_str(), u->GetIdent().c_str(), u->GetDisplayedHost().c_str(), ip);
if (!res && !u->GetCloakedHost().empty() && u->GetCloakedHost() != u->GetDisplayedHost())
res = elist_match(list, u->nick.c_str(), u->GetIdent().c_str(), u->GetCloakedHost().c_str(), ip);
if (host)
delete [] host;
return res;
}
/**
* Find a entry identical to the given mask..
* @param list EntryList that should be matched against
* @param mask The *!*@* mask to match
* @return Returns the first matching entry, if none, NULL is returned.
*/
Entry *elist_find_mask(EList * list, const char *mask)
{
Entry *e;
if (!list || !list->entries || !mask)
return NULL;
for (e = list->entries; e; e = e->next) {
if (!stricmp(e->mask, mask))
return e;
}
return NULL;
}
/**
* Gets the total memory use of an entrylit.
* @param list The list we should estimate the mem use of.
* @return Returns the memory useage of the given list.
*/
long get_memuse(EList * list)
{
Entry *e;
long mem = 0;
if (!list)
return 0;
mem += sizeof(EList *);
mem += sizeof(Entry *) * list->count;
if (list->entries) {
for (e = list->entries; e; e = e->next) {
if (e->nick)
mem += strlen(e->nick) + 1;
if (e->user)
mem += strlen(e->user) + 1;
if (e->host)
mem += strlen(e->host) + 1;
if (e->mask)
mem += strlen(e->mask) + 1;
}
}
return mem;
}
/*************************************************************************/