/*
* InspIRCd -- Internet Relay Chat Daemon
*
* Copyright (C) 2012 Shawn Smith <shawn@inspircd.org>
* Copyright (C) 2009-2010 Daniel De Graaf <danieldg@inspircd.org>
* Copyright (C) 2007, 2009 Dennis Friis <peavey@inspircd.org>
* Copyright (C) 2006-2008 Robin Burchell <robin+git@viroteck.net>
* Copyright (C) 2008 Thomas Stagner <aquanight@inspircd.org>
* Copyright (C) 2004-2008 Craig Edwards <craigedwards@brainbox.cc>
* Copyright (C) 2006 Oliver Lupton <oliverlupton@gmail.com>
*
* This file is part of InspIRCd. InspIRCd 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, version 2.
*
* 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, see <http://www.gnu.org/licenses/>.
*/
#include "inspircd.h"
ModeHandler::ModeHandler(Module* Creator, const std::string& Name, char modeletter, ParamSpec Params, ModeType type, Class mclass)
: ServiceProvider(Creator, Name, SERVICE_MODE)
, modeid(ModeParser::MODEID_MAX)
, parameters_taken(Params)
, mode(modeletter)
, oper(false)
, list(false)
, m_type(type)
, type_id(mclass)
, ranktoset(HALFOP_VALUE)
, ranktounset(HALFOP_VALUE)
{
}
CullResult ModeHandler::cull()
{
if (ServerInstance)
ServerInstance->Modes->DelMode(this);
return classbase::cull();
}
ModeHandler::~ModeHandler()
{
}
bool ModeHandler::NeedsParam(bool adding) const
{
switch (parameters_taken)
{
case PARAM_ALWAYS:
return true;
case PARAM_SETONLY:
return adding;
case PARAM_NONE:
break;
}
return false;
}
std::string ModeHandler::GetUserParameter(const User* user) const
{
return "";
}
ModResult ModeHandler::AccessCheck(User*, Channel*, std::string &, bool)
{
return MOD_RES_PASSTHRU;
}
ModeAction ModeHandler::OnModeChange(User*, User*, Channel*, std::string&, bool)
{
return MODEACTION_DENY;
}
void ModeHandler::DisplayList(User*, Channel*)
{
}
void ModeHandler::DisplayEmptyList(User*, Channel*)
{
}
void ModeHandler::OnParameterMissing(User* user, User* dest, Channel* channel)
{
std::string message = InspIRCd::Format("You must specify a parameter for the %s mode.", name.c_str());
if (!syntax.empty())
message.append(InspIRCd::Format(" Syntax: %s.", syntax.c_str()));
if (channel)
user->WriteNumeric(Numerics::InvalidModeParameter(channel, this, "*", message));
else
user->WriteNumeric(Numerics::InvalidModeParameter(dest, this, "*", message));
}
bool ModeHandler::ResolveModeConflict(std::string& theirs, const std::string& ours, Channel*)
{
return (theirs < ours);
}
void ModeHandler::RegisterService()
{
ServerInstance->Modes.AddMode(this);
ServerInstance->Modules.AddReferent((GetModeType() == MODETYPE_CHANNEL ? "mode/" : "umode/") + name, this);
}
ModeAction SimpleUserModeHandler::OnModeChange(User* source, User* dest, Channel* channel, std::string ¶meter, bool adding)
{
/* We're either trying to add a mode we already have or
remove a mode we don't have, deny. */
if (dest->IsModeSet(this) == adding)
return MODEACTION_DENY;
/* adding will be either true or false, depending on if we
are adding or removing the mode, since we already checked
to make sure we aren't adding a mode we have or that we
aren't removing a mode we don't have, we don't have to do any
other checks here to see if it's true or false, just add or
remove the mode */
dest->SetMode(this, adding);
return MODEACTION_ALLOW;
}
ModeAction SimpleChannelModeHandler::OnModeChange(User* source, User* dest, Channel* channel, std::string ¶meter, bool adding)
{
/* We're either trying to add a mode we already have or
remove a mode we don't have, deny. */
if (channel->IsModeSet(this) == adding)
return MODEACTION_DENY;
/* adding will be either true or false, depending on if we
are adding or removing the mode, since we already checked
to make sure we aren't adding a mode we have or that we
aren't removing a mode we don't have, we don't have to do any
other checks here to see if it's true or false, just add or
remove the mode */
channel->SetMode(this, adding);
return MODEACTION_ALLOW;
}
ModeWatcher::ModeWatcher(Module* Creator, const std::string& modename, ModeType type)
: mode(modename), m_type(type), creator(Creator)
{
ServerInstance->Modes->AddModeWatcher(this);
}
ModeWatcher::~ModeWatcher()
{
ServerInstance->Modes->DelModeWatcher(this);
}
bool ModeWatcher::BeforeMode(User*, User*, Channel*, std::string&, bool)
{
return true;
}
void ModeWatcher::AfterMode(User*, User*, Channel*, const std::string&, bool)
{
}
PrefixMode::PrefixMode(Module* Creator, const std::string& Name, char ModeLetter, unsigned int Rank, char PrefixChar)
: ModeHandler(Creator, Name, ModeLetter, PARAM_ALWAYS, MODETYPE_CHANNEL, MC_PREFIX)
, prefix(PrefixChar)
, prefixrank(Rank)
, selfremove(true)
{
list = true;
syntax = "<nick>";
}
ModResult PrefixMode::AccessCheck(User* src, Channel*, std::string& value, bool adding)
{
if (!adding && src->nick == value && selfremove)
return MOD_RES_ALLOW;
return MOD_RES_PASSTHRU;
}
ModeAction PrefixMode::OnModeChange(User* source, User*, Channel* chan, std::string& parameter, bool adding)
{
User* target;
if (IS_LOCAL(source))
target = ServerInstance->FindNickOnly(parameter);
else
target = ServerInstance->FindNick(parameter);
if (!target)
{
source->WriteNumeric(Numerics::NoSuchNick(parameter));
return MODEACTION_DENY;
}
Membership* memb = chan->GetUser(target);
if (!memb)
return MODEACTION_DENY;
parameter = target->nick;
return (memb->SetPrefix(this, adding) ? MODEACTION_ALLOW : MODEACTION_DENY);
}
void PrefixMode::Update(unsigned int rank, unsigned int setrank, unsigned int unsetrank, bool selfrm)
{
prefixrank = rank;
ranktoset = setrank;
ranktounset = unsetrank;
selfremove = selfrm;
}
ModeAction ParamModeBase::OnModeChange(User* source, User*, Channel* chan, std::string& parameter, bool adding)
{
if (adding)
{
if (chan->GetModeParameter(this) == parameter)
return MODEACTION_DENY;
if (OnSet(source, chan, parameter) != MODEACTION_ALLOW)
return MODEACTION_DENY;
chan->SetMode(this, true);
// Handler might have changed the parameter internally
parameter.clear();
this->GetParameter(chan, parameter);
}
else
{
if (!chan->IsModeSet(this))
return MODEACTION_DENY;
this->OnUnsetInternal(source, chan);
chan->SetMode(this, false);
}
return MODEACTION_ALLOW;
}
ModeAction ModeParser::TryMode(User* user, User* targetuser, Channel* chan, Modes::Change& mcitem, bool SkipACL)
{
ModeType type = chan ? MODETYPE_CHANNEL : MODETYPE_USER;
ModeHandler* mh = mcitem.mh;
bool adding = mcitem.adding;
const bool needs_param = mh->NeedsParam(adding);
std::string& parameter = mcitem.param;
// crop mode parameter size to MODE_PARAM_MAX characters
if (parameter.length() > MODE_PARAM_MAX && adding)
parameter.erase(MODE_PARAM_MAX);
ModResult MOD_RESULT;
FIRST_MOD_RESULT(OnRawMode, MOD_RESULT, (user, chan, mh, parameter, adding));
if (IS_LOCAL(user) && (MOD_RESULT == MOD_RES_DENY))
return MODEACTION_DENY;
const char modechar = mh->GetModeChar();
if (chan && !SkipACL && (MOD_RESULT != MOD_RES_ALLOW))
{
MOD_RESULT = mh->AccessCheck(user, chan, parameter, adding);
if (MOD_RESULT == MOD_RES_DENY)
return MODEACTION_DENY;
if (MOD_RESULT == MOD_RES_PASSTHRU)
{
unsigned int neededrank = mh->GetLevelRequired(adding);
/* Compare our rank on the channel against the rank of the required prefix,
* allow if >= ours. Because mIRC and xchat throw a tizz if the modes shown
* in NAMES(X) are not in rank order, we know the most powerful mode is listed
* first, so we don't need to iterate, we just look up the first instead.
*/
unsigned int ourrank = chan->GetPrefixValue(user);
if (ourrank < neededrank)
{
const PrefixMode* neededmh = NULL;
const PrefixModeList& prefixmodes = GetPrefixModes();
for (PrefixModeList::const_iterator i = prefixmodes.begin(); i != prefixmodes.end(); ++i)
{
const PrefixMode* const privmh = *i;
if (privmh->GetPrefixRank() >= neededrank)
{
// this mode is sufficient to allow this action
if (!neededmh || privmh->GetPrefixRank() < neededmh->GetPrefixRank())
neededmh = privmh;
}
}
if (neededmh)
user->WriteNumeric(ERR_CHANOPRIVSNEEDED, chan->name, InspIRCd::Format("You must have channel %s access or above to %sset channel mode %c",
neededmh->name.c_str(), adding ? "" : "un", modechar));
else
user->WriteNumeric(ERR_CHANOPRIVSNEEDED, chan->name, InspIRCd::Format("You cannot %sset channel mode %c", (adding ? "" : "un"), modechar));
return MODEACTION_DENY;
}
}
}
// Ask mode watchers whether this mode change is OK
std::pair<ModeWatcherMap::iterator, ModeWatcherMap::iterator> itpair = modewatchermap.equal_range(mh->name);
for (ModeWatcherMap::iterator i = itpair.first; i != itpair.second; ++i)
{
ModeWatcher* mw = i->second;
if (mw->GetModeType() == type)
{
if (!mw->BeforeMode(user, targetuser, chan, parameter, adding))
return MODEACTION_DENY;
// A module whacked the parameter completely, and there was one. Abort.
if ((needs_param) && (parameter.empty()))
return MODEACTION_DENY;
}
}
if ((chan || (!chan && adding)) && IS_LOCAL(user) && mh->NeedsOper() && !user->HasModePermission(mh))
{
/* It's an oper only mode, and they don't have access to it. */
if (user->IsOper())
{
user->WriteNumeric(ERR_NOPRIVILEGES, InspIRCd::Format("Permission Denied - Oper type %s does not have access to %sset %s mode %c",
user->oper->name.c_str(), adding ? "" : "un", type == MODETYPE_CHANNEL ? "channel" : "user", modechar));
}
else
{
user->WriteNumeric(ERR_NOPRIVILEGES, InspIRCd::Format("Permission Denied - Only operators may %sset %s mode %c",
adding ? "" : "un", type == MODETYPE_CHANNEL ? "channel" : "user", modechar));
}
return MODEACTION_DENY;
}
/* Call the handler for the mode */
ModeAction ma = mh->OnModeChange(user, targetuser, chan, parameter, adding);
if ((needs_param) && (parameter.empty()))
return MODEACTION_DENY;
if (ma != MODEACTION_ALLOW)
return ma;
itpair = modewatchermap.equal_range(mh->name);
for (ModeWatcherMap::iterator i = itpair.first; i != itpair.second; ++i)
{
ModeWatcher* mw = i->second;
if (mw->GetModeType() == type)
mw->AfterMode(user, targetuser, chan, parameter, adding);
}
return MODEACTION_ALLOW;
}
void ModeParser::ModeParamsToChangeList(User* user, ModeType type, const std::vector<std::string>& parameters, Modes::ChangeList& changelist, unsigned int beginindex, unsigned int endindex)
{
if (endindex > parameters.size())
endindex = parameters.size();
const std::string& mode_sequence = parameters[beginindex];
bool adding = true;
unsigned int param_at = beginindex+1;
for (std::string::const_iterator letter = mode_sequence.begin(); letter != mode_sequence.end(); letter++)
{
unsigned char modechar = *letter;
if (modechar == '+' || modechar == '-')
{
adding = (modechar == '+');
continue;
}
ModeHandler *mh = this->FindMode(modechar, type);
if (!mh)
{
/* No mode handler? Unknown mode character then. */
user->WriteNumeric(type == MODETYPE_CHANNEL ? ERR_UNKNOWNMODE : ERR_UNKNOWNSNOMASK, modechar, "is an unknown mode character");
continue;
}
std::string parameter;
if ((mh->NeedsParam(adding)) && (param_at < endindex))
parameter = parameters[param_at++];
changelist.push(mh, adding, parameter);
}
}
static bool IsModeParamValid(User* user, Channel* targetchannel, User* targetuser, const Modes::Change& item)
{
// An empty parameter is never acceptable
if (item.param.empty())
{
item.mh->OnParameterMissing(user, targetuser, targetchannel);
return false;
}
// The parameter cannot begin with a ':' character or contain a space
if ((item.param[0] == ':') || (item.param.find(' ') != std::string::npos))
return false;
return true;
}
// Returns true if we should apply a merged mode, false if we should skip it
static bool ShouldApplyMergedMode(Channel* chan, Modes::Change& item)
{
ModeHandler* mh = item.mh;
if ((!chan) || (!chan->IsModeSet(mh)) || (mh->IsListMode()))
// Mode not set here or merge is not applicable, apply the incoming mode
return true;
// Mode handler decides
std::string ours = chan->GetModeParameter(mh);
return mh->ResolveModeConflict(item.param, ours, chan);
}
void ModeParser::Process(User* user, Channel* targetchannel, User* targetuser, Modes::ChangeList& changelist, ModeProcessFlag flags)
{
// Call ProcessSingle until the entire list is processed, but at least once to ensure
// LastParse and LastChangeList are cleared
unsigned int processed = 0;
do
{
unsigned int n = ProcessSingle(user, targetchannel, targetuser, changelist, flags, processed);
processed += n;
}
while (processed < changelist.size());
}
unsigned int ModeParser::ProcessSingle(User* user, Channel* targetchannel, User* targetuser, Modes::ChangeList& changelist, ModeProcessFlag flags, unsigned int beginindex)
{
LastChangeList.clear();
unsigned int modes_processed = 0;
Modes::ChangeList::List& list = changelist.getlist();
for (Modes::ChangeList::List::iterator i = list.begin()+beginindex; i != list.end(); ++i)
{
modes_processed++;
Modes::Change& item = *i;
ModeHandler* mh = item.mh;
// If a mode change has been given for a mode that does not exist then reject
// it. This can happen when core_reloadmodule attempts to restore a mode that
// no longer exists.
if (!mh)
continue;
// If the mode is supposed to have a parameter then we first take a look at item.param
// and, if we were asked to, also handle mode merges now
if (mh->NeedsParam(item.adding))
{
// Skip the mode if the parameter does not pass basic validation
if (!IsModeParamValid(user, targetchannel, targetuser, item))
continue;
// If this is a merge and we won we don't apply this mode
if ((flags & MODE_MERGE) && (!ShouldApplyMergedMode(targetchannel, item)))
continue;
}
ModeAction ma = TryMode(user, targetuser, targetchannel, item, (!(flags & MODE_CHECKACCESS)));
if (ma != MODEACTION_ALLOW)
continue;
LastChangeList.push(mh, item.adding, item.param);
if (LastChangeList.size() >= ServerInstance->Config->Limits.MaxModes)
{
/* mode sequence is getting too long */
break;
}
}
if (!LastChangeList.empty())
{
ClientProtocol::Events::Mode modeevent(user, targetchannel, targetuser, LastChangeList);
if (targetchannel)
{
targetchannel->Write(modeevent);
}
else
{
LocalUser* localtarget = IS_LOCAL(targetuser);
if (localtarget)
localtarget->Send(modeevent);
}
FOREACH_MOD(OnMode, (user, targetuser, targetchannel, LastChangeList, flags));
}
return modes_processed;
}
void ModeParser::ShowListModeList(User* user, Channel* chan, ModeHandler* mh)
{
{
ModResult MOD_RESULT;
FIRST_MOD_RESULT(OnRawMode, MOD_RESULT, (user, chan, mh, "", true));
if (MOD_RESULT == MOD_RES_DENY)
return;
bool display = true;
// Ask mode watchers whether it's OK to show the list
std::pair<ModeWatcherMap::iterator, ModeWatcherMap::iterator> itpair = modewatchermap.equal_range(mh->name);
for (ModeWatcherMap::iterator i = itpair.first; i != itpair.second; ++i)
{
ModeWatcher* mw = i->second;
if (mw->GetModeType() == MODETYPE_CHANNEL)
{
std::string dummyparam;
if (!mw->BeforeMode(user, NULL, chan, dummyparam, true))
{
// A mode watcher doesn't want us to show the list
display = false;
break;
}
}
}
if (display)
mh->DisplayList(user, chan);
else
mh->DisplayEmptyList(user, chan);
}
}
void ModeParser::CleanMask(std::string &mask)
{
std::string::size_type pos_of_pling = mask.find_first_of('!');
std::string::size_type pos_of_at = mask.find_first_of('@');
std::string::size_type pos_of_dot = mask.find_first_of('.');
std::string::size_type pos_of_colons = mask.find("::"); /* Because ipv6 addresses are colon delimited -- double so it treats extban as nick */
if (mask.length() >= 2 && mask[1] == ':')
return; // if it's an extban, don't even try guess how it needs to be formed.
if ((pos_of_pling == std::string::npos) && (pos_of_at == std::string::npos))
{
/* Just a nick, or just a host - or clearly ipv6 (starting with :) */
if ((pos_of_dot == std::string::npos) && (pos_of_colons == std::string::npos) && mask[0] != ':')
{
/* It has no '.' in it, it must be a nick. */
mask.append("!*@*");
}
else
{
/* Got a dot in it? Has to be a host */
mask = "*!*@" + mask;
}
}
else if ((pos_of_pling == std::string::npos) && (pos_of_at != std::string::npos))
{
/* Has an @ but no !, its a user@host */
mask = "*!" + mask;
}
else if ((pos_of_pling != std::string::npos) && (pos_of_at == std::string::npos))
{
/* Has a ! but no @, it must be a nick!ident */
mask.append("@*");
}
}
ModeHandler::Id ModeParser::AllocateModeId(ModeType mt)
{
for (ModeHandler::Id i = 0; i != MODEID_MAX; ++i)
{
if (!modehandlersbyid[mt][i])
return i;
}
throw ModuleException("Out of ModeIds");
}
void ModeParser::AddMode(ModeHandler* mh)
{
if (!ModeParser::IsModeChar(mh->GetModeChar()))
throw ModuleException(InspIRCd::Format("Mode letter for %s is invalid: %c",
mh->name.c_str(), mh->GetModeChar()));
/* A mode prefix of ',' is not acceptable, it would fuck up server to server.
* A mode prefix of ':' will fuck up both server to server, and client to server.
* A mode prefix of '#' will mess up /whois and /privmsg
*/
PrefixMode* pm = mh->IsPrefixMode();
if (pm)
{
if ((pm->GetPrefix() > 126) || (pm->GetPrefix() == ',') || (pm->GetPrefix() == ':') || (pm->GetPrefix() == '#'))
throw ModuleException(InspIRCd::Format("Mode prefix for %s is invalid: %c",
mh->name.c_str(), pm->GetPrefix()));
PrefixMode* otherpm = FindPrefix(pm->GetPrefix());
if (otherpm)
throw ModuleException(InspIRCd::Format("Mode prefix for %s already used by %s from %s: %c",
mh->name.c_str(), otherpm->name.c_str(), otherpm->creator->ModuleSourceFile.c_str(), pm->GetPrefix()));
}
ModeHandler*& slot = modehandlers[mh->GetModeType()][mh->GetModeChar()-65];
if (slot)
throw ModuleException(InspIRCd::Format("Mode letter for %s already used by %s from %s: %c",
mh->name.c_str(), slot->name.c_str(), slot->creator->ModuleSourceFile.c_str(), mh->GetModeChar()));
// The mode needs an id if it is either a user mode, a simple mode (flag) or a parameter mode.
// Otherwise (for listmodes and prefix modes) the id remains MODEID_MAX, which is invalid.
ModeHandler::Id modeid = MODEID_MAX;
if ((mh->GetModeType() == MODETYPE_USER) || (mh->IsParameterMode()) || (!mh->IsListMode()))
modeid = AllocateModeId(mh->GetModeType());
std::pair<ModeHandlerMap::iterator, bool> res = modehandlersbyname[mh->GetModeType()].insert(std::make_pair(mh->name, mh));
if (!res.second)
{
ModeHandler* othermh = res.first->second;
throw ModuleException(InspIRCd::Format("Mode name %s already used by %c from %s",
mh->name.c_str(), othermh->GetModeChar(), othermh->creator->ModuleSourceFile.c_str()));
}
// Everything is fine, add the mode
// If we allocated an id for this mode then save it and put the mode handler into the slot
if (modeid != MODEID_MAX)
{
mh->modeid = modeid;
modehandlersbyid[mh->GetModeType()][modeid] = mh;
}
slot = mh;
if (pm)
mhlist.prefix.push_back(pm);
else if (mh->IsListModeBase())
mhlist.list.push_back(mh->IsListModeBase());
}
bool ModeParser::DelMode(ModeHandler* mh)
{
if (!ModeParser::IsModeChar(mh->GetModeChar()))
return false;
ModeHandlerMap& mhmap = modehandlersbyname[mh->GetModeType()];
ModeHandlerMap::iterator mhmapit = mhmap.find(mh->name);
if ((mhmapit == mhmap.end()) || (mhmapit->second != mh))
return false;
ModeHandler*& slot = modehandlers[mh->GetModeType()][mh->GetModeChar()-65];
if (slot != mh)
return false;
/* Note: We can't stack here, as we have modes potentially being removed across many different channels.
* To stack here we have to make the algorithm slower. Discuss.
*/
switch (mh->GetModeType())
{
case MODETYPE_USER:
{
const user_hash& users = ServerInstance->Users->GetUsers();
for (user_hash::const_iterator i = users.begin(); i != users.end(); )
{
User* user = i->second;
++i;
mh->RemoveMode(user);
}
}
break;
case MODETYPE_CHANNEL:
{
const chan_hash& chans = ServerInstance->GetChans();
for (chan_hash::const_iterator i = chans.begin(); i != chans.end(); )
{
// The channel may not be in the hash after RemoveMode(), see m_permchannels
Channel* chan = i->second;
++i;
Modes::ChangeList changelist;
mh->RemoveMode(chan, changelist);
this->Process(ServerInstance->FakeClient, chan, NULL, changelist, MODE_LOCALONLY);
}
}
break;
}
mhmap.erase(mhmapit);
if (mh->GetId() != MODEID_MAX)
modehandlersbyid[mh->GetModeType()][mh->GetId()] = NULL;
slot = NULL;
if (mh->IsPrefixMode())
mhlist.prefix.erase(std::find(mhlist.prefix.begin(), mhlist.prefix.end(), mh->IsPrefixMode()));
else if (mh->IsListModeBase())
mhlist.list.erase(std::find(mhlist.list.begin(), mhlist.list.end(), mh->IsListModeBase()));
return true;
}
ModeHandler* ModeParser::FindMode(const std::string& modename, ModeType mt)
{
ModeHandlerMap& mhmap = modehandlersbyname[mt];
ModeHandlerMap::const_iterator it = mhmap.find(modename);
if (it != mhmap.end())
return it->second;
return NULL;
}
ModeHandler* ModeParser::FindMode(unsigned const char modeletter, ModeType mt)
{
if (!ModeParser::IsModeChar(modeletter))
return NULL;
return modehandlers[mt][modeletter-65];
}
PrefixMode* ModeParser::FindPrefixMode(unsigned char modeletter)
{
ModeHandler* mh = FindMode(modeletter, MODETYPE_CHANNEL);
if (!mh)
return NULL;
return mh->IsPrefixMode();
}
PrefixMode* ModeParser::FindPrefix(unsigned const char pfxletter)
{
const PrefixModeList& list = GetPrefixModes();
for (PrefixModeList::const_iterator i = list.begin(); i != list.end(); ++i)
{
PrefixMode* pm = *i;
if (pm->GetPrefix() == pfxletter)
return pm;
}
return NULL;
}
std::string ModeParser::GiveModeList(ModeType mt)
{
std::string type1; /* Listmodes EXCEPT those with a prefix */
std::string type2; /* Modes that take a param when adding or removing */
std::string type3; /* Modes that only take a param when adding */
std::string type4; /* Modes that dont take a param */
for (unsigned char mode = 'A'; mode <= 'z'; mode++)
{
ModeHandler* mh = modehandlers[mt][mode-65];
/* One parameter when adding */
if (mh)
{
if (mh->NeedsParam(true))
{
PrefixMode* pm = mh->IsPrefixMode();
if ((mh->IsListMode()) && ((!pm) || (pm->GetPrefix() == 0)))
{
type1 += mh->GetModeChar();
}
else
{
/* ... and one parameter when removing */
if (mh->NeedsParam(false))
{
/* But not a list mode */
if (!pm)
{
type2 += mh->GetModeChar();
}
}
else
{
/* No parameters when removing */
type3 += mh->GetModeChar();
}
}
}
else
{
type4 += mh->GetModeChar();
}
}
}
return type1 + "," + type2 + "," + type3 + "," + type4;
}
struct PrefixModeSorter
{
bool operator()(PrefixMode* lhs, PrefixMode* rhs)
{
return lhs->GetPrefixRank() < rhs->GetPrefixRank();
}
};
std::string ModeParser::BuildPrefixes(bool lettersAndModes)
{
std::string mletters;
std::string mprefixes;
std::vector<PrefixMode*> prefixes;
const PrefixModeList& list = GetPrefixModes();
for (PrefixModeList::const_iterator i = list.begin(); i != list.end(); ++i)
{
PrefixMode* pm = *i;
if (pm->GetPrefix())
prefixes.push_back(pm);
}
std::sort(prefixes.begin(), prefixes.end(), PrefixModeSorter());
for (std::vector<PrefixMode*>::const_reverse_iterator n = prefixes.rbegin(); n != prefixes.rend(); ++n)
{
mletters += (*n)->GetPrefix();
mprefixes += (*n)->GetModeChar();
}
return lettersAndModes ? "(" + mprefixes + ")" + mletters : mletters;
}
void ModeParser::AddModeWatcher(ModeWatcher* mw)
{
modewatchermap.insert(std::make_pair(mw->GetModeName(), mw));
}
bool ModeParser::DelModeWatcher(ModeWatcher* mw)
{
std::pair<ModeWatcherMap::iterator, ModeWatcherMap::iterator> itpair = modewatchermap.equal_range(mw->GetModeName());
for (ModeWatcherMap::iterator i = itpair.first; i != itpair.second; ++i)
{
if (i->second == mw)
{
modewatchermap.erase(i);
return true;
}
}
return false;
}
void ModeHandler::RemoveMode(User* user)
{
// Remove the mode if it's set on the user
if (user->IsModeSet(this->GetModeChar()))
{
Modes::ChangeList changelist;
changelist.push_remove(this);
ServerInstance->Modes->Process(ServerInstance->FakeClient, NULL, user, changelist, ModeParser::MODE_LOCALONLY);
}
}
void ModeHandler::RemoveMode(Channel* channel, Modes::ChangeList& changelist)
{
if (channel->IsModeSet(this))
{
if (this->NeedsParam(false))
// Removing this mode requires a parameter
changelist.push_remove(this, channel->GetModeParameter(this));
else
changelist.push_remove(this);
}
}
void PrefixMode::RemoveMode(Channel* chan, Modes::ChangeList& changelist)
{
const Channel::MemberMap& userlist = chan->GetUsers();
for (Channel::MemberMap::const_iterator i = userlist.begin(); i != userlist.end(); ++i)
{
if (i->second->HasMode(this))
changelist.push_remove(this, i->first->nick);
}
}
bool ModeParser::IsModeChar(char chr)
{
return ((chr >= 'A' && chr <= 'Z') || (chr >= 'a' && chr <= 'z'));
}
ModeParser::ModeParser()
{
/* Clear mode handler list */
memset(modehandlers, 0, sizeof(modehandlers));
memset(modehandlersbyid, 0, sizeof(modehandlersbyid));
}
ModeParser::~ModeParser()
{
}