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|
/* +------------------------------------+
* | Inspire Internet Relay Chat Daemon |
* +------------------------------------+
*
* InspIRCd: (C) 2002-2009 InspIRCd Development Team
* See: http://wiki.inspircd.org/Credits
*
* This program is free but copyrighted software; see
* the file COPYING for details.
*
* ---------------------------------------------------
*/
#include "inspircd.h"
#include "xline.h"
#include "socket.h"
#include "socketengine.h"
#include "command_parse.h"
#include "dns.h"
#include "exitcodes.h"
#ifndef WIN32
#include <dirent.h>
#endif
// Version is a simple class for holding a modules version number
template<>
VersionBase<API_VERSION>::VersionBase(const std::string &modv, int flags, const std::string& rev)
: description(modv), version(rev), Flags(flags)
{
}
Request::Request(Module* src, Module* dst, const char* idstr)
: id(idstr), source(src), dest(dst)
{
}
void Request::Send()
{
if (dest)
dest->OnRequest(*this);
}
Event::Event(Module* src, const std::string &eventid) : source(src), id(eventid) { }
void Event::Send()
{
FOREACH_MOD(I_OnEvent,OnEvent(*this));
}
// These declarations define the behavours of the base class Module (which does nothing at all)
Module::Module() { }
CullResult Module::cull()
{
return classbase::cull();
}
Module::~Module()
{
}
ModResult Module::OnSendSnotice(char &snomask, std::string &type, const std::string &message) { return MOD_RES_PASSTHRU; }
void Module::OnUserConnect(LocalUser*) { }
void Module::OnUserQuit(User*, const std::string&, const std::string&) { }
void Module::OnUserDisconnect(LocalUser*) { }
void Module::OnUserJoin(Membership*, bool, bool, CUList&) { }
void Module::OnPostJoin(Membership*) { }
void Module::OnUserPart(Membership*, std::string&, CUList&) { }
void Module::OnPreRehash(User*, const std::string&) { }
void Module::OnModuleRehash(User*, const std::string&) { }
void Module::OnRehash(User*) { }
ModResult Module::OnUserPreJoin(User*, Channel*, const char*, std::string&, const std::string&) { return MOD_RES_PASSTHRU; }
void Module::OnMode(User*, void*, int, const std::vector<std::string>&, const std::vector<TranslateType>&) { }
void Module::OnOper(User*, const std::string&) { }
void Module::OnPostOper(User*, const std::string&, const std::string &) { }
void Module::OnInfo(User*) { }
void Module::OnWhois(User*, User*) { }
ModResult Module::OnUserPreInvite(User*, User*, Channel*, time_t) { return MOD_RES_PASSTHRU; }
ModResult Module::OnUserPreMessage(User*, void*, int, std::string&, char, CUList&) { return MOD_RES_PASSTHRU; }
ModResult Module::OnUserPreNotice(User*, void*, int, std::string&, char, CUList&) { return MOD_RES_PASSTHRU; }
ModResult Module::OnUserPreNick(User*, const std::string&) { return MOD_RES_PASSTHRU; }
void Module::OnUserPostNick(User*, const std::string&) { }
ModResult Module::OnPreMode(User*, User*, Channel*, const std::vector<std::string>&) { return MOD_RES_PASSTHRU; }
void Module::On005Numeric(std::string&) { }
ModResult Module::OnKill(User*, User*, const std::string&) { return MOD_RES_PASSTHRU; }
void Module::OnLoadModule(Module*) { }
void Module::OnUnloadModule(Module*) { }
void Module::OnBackgroundTimer(time_t) { }
ModResult Module::OnPreCommand(std::string&, std::vector<std::string>&, User *, bool, const std::string&) { return MOD_RES_PASSTHRU; }
void Module::OnPostCommand(const std::string&, const std::vector<std::string>&, User *, CmdResult, const std::string&) { }
ModResult Module::OnCheckReady(LocalUser*) { return MOD_RES_PASSTHRU; }
ModResult Module::OnUserRegister(LocalUser*) { return MOD_RES_PASSTHRU; }
ModResult Module::OnUserPreKick(User*, Membership*, const std::string&) { return MOD_RES_PASSTHRU; }
void Module::OnUserKick(User*, Membership*, const std::string&, CUList&) { }
ModResult Module::OnRawMode(User*, Channel*, const char, const std::string &, bool, int) { return MOD_RES_PASSTHRU; }
ModResult Module::OnCheckInvite(User*, Channel*) { return MOD_RES_PASSTHRU; }
ModResult Module::OnCheckKey(User*, Channel*, const std::string&) { return MOD_RES_PASSTHRU; }
ModResult Module::OnCheckLimit(User*, Channel*) { return MOD_RES_PASSTHRU; }
ModResult Module::OnCheckChannelBan(User*, Channel*) { return MOD_RES_PASSTHRU; }
ModResult Module::OnCheckBan(User*, Channel*, const std::string&) { return MOD_RES_PASSTHRU; }
ModResult Module::OnExtBanCheck(User*, Channel*, char) { return MOD_RES_PASSTHRU; }
ModResult Module::OnStats(char, User*, string_list&) { return MOD_RES_PASSTHRU; }
ModResult Module::OnChangeLocalUserHost(LocalUser*, const std::string&) { return MOD_RES_PASSTHRU; }
ModResult Module::OnChangeLocalUserGECOS(LocalUser*, const std::string&) { return MOD_RES_PASSTHRU; }
ModResult Module::OnPreTopicChange(User*, Channel*, const std::string&) { return MOD_RES_PASSTHRU; }
void Module::OnEvent(Event&) { }
void Module::OnRequest(Request&) { }
ModResult Module::OnPassCompare(Extensible* ex, const std::string &password, const std::string &input, const std::string& hashtype) { return MOD_RES_PASSTHRU; }
void Module::OnGlobalOper(User*) { }
void Module::OnPostConnect(User*) { }
ModResult Module::OnAddBan(User*, Channel*, const std::string &) { return MOD_RES_PASSTHRU; }
ModResult Module::OnDelBan(User*, Channel*, const std::string &) { return MOD_RES_PASSTHRU; }
void Module::OnStreamSocketAccept(StreamSocket*, irc::sockets::sockaddrs*, irc::sockets::sockaddrs*) { }
int Module::OnStreamSocketWrite(StreamSocket*, std::string&) { return -1; }
void Module::OnStreamSocketClose(StreamSocket*) { }
void Module::OnStreamSocketConnect(StreamSocket*) { }
int Module::OnStreamSocketRead(StreamSocket*, std::string&) { return -1; }
void Module::OnUserMessage(User*, void*, int, const std::string&, char, const CUList&) { }
void Module::OnUserNotice(User*, void*, int, const std::string&, char, const CUList&) { }
void Module::OnRemoteKill(User*, User*, const std::string&, const std::string&) { }
void Module::OnUserInvite(User*, User*, Channel*, time_t) { }
void Module::OnPostTopicChange(User*, Channel*, const std::string&) { }
void Module::OnGetServerDescription(const std::string&, std::string&) { }
void Module::OnSyncUser(User*, Module*, void*) { }
void Module::OnSyncChannel(Channel*, Module*, void*) { }
void Module::OnSyncNetwork(Module*, void*) { }
void Module::ProtoSendMode(void*, TargetTypeFlags, void*, const std::vector<std::string>&, const std::vector<TranslateType>&) { }
void Module::OnDecodeMetaData(Extensible*, const std::string&, const std::string&) { }
void Module::ProtoSendMetaData(void*, Extensible*, const std::string&, const std::string&) { }
void Module::OnWallops(User*, const std::string&) { }
void Module::OnChangeHost(User*, const std::string&) { }
void Module::OnChangeName(User*, const std::string&) { }
void Module::OnChangeIdent(User*, const std::string&) { }
void Module::OnAddLine(User*, XLine*) { }
void Module::OnDelLine(User*, XLine*) { }
void Module::OnExpireLine(XLine*) { }
void Module::OnCleanup(int, void*) { }
ModResult Module::OnChannelPreDelete(Channel*) { return MOD_RES_PASSTHRU; }
void Module::OnChannelDelete(Channel*) { }
ModResult Module::OnSetAway(User*, const std::string &) { return MOD_RES_PASSTHRU; }
ModResult Module::OnUserList(User*, Channel*) { return MOD_RES_PASSTHRU; }
ModResult Module::OnWhoisLine(User*, User*, int&, std::string&) { return MOD_RES_PASSTHRU; }
void Module::OnBuildNeighborList(User*, UserChanList&, std::map<User*,bool>&) { }
void Module::OnGarbageCollect() { }
void Module::OnText(User*, void*, int, const std::string&, char, CUList&) { }
void Module::OnRunTestSuite() { }
void Module::OnNamesListItem(User*, Membership*, std::string&, std::string&) { }
ModResult Module::OnNumeric(User*, unsigned int, const std::string&) { return MOD_RES_PASSTHRU; }
void Module::OnHookIO(StreamSocket*, ListenSocket*) { }
ModResult Module::OnAcceptConnection(int, ListenSocket*, irc::sockets::sockaddrs*, irc::sockets::sockaddrs*) { return MOD_RES_PASSTHRU; }
void Module::OnSendWhoLine(User*, User*, Channel*, std::string&) { }
ModResult Module::OnChannelRestrictionApply(User*, Channel*, const char*) { return MOD_RES_PASSTHRU; }
ModuleManager::ModuleManager() : ModCount(0)
{
}
ModuleManager::~ModuleManager()
{
}
bool ModuleManager::Attach(Implementation i, Module* mod)
{
if (std::find(EventHandlers[i].begin(), EventHandlers[i].end(), mod) != EventHandlers[i].end())
return false;
EventHandlers[i].push_back(mod);
return true;
}
bool ModuleManager::Detach(Implementation i, Module* mod)
{
EventHandlerIter x = std::find(EventHandlers[i].begin(), EventHandlers[i].end(), mod);
if (x == EventHandlers[i].end())
return false;
EventHandlers[i].erase(x);
return true;
}
void ModuleManager::Attach(Implementation* i, Module* mod, size_t sz)
{
for (size_t n = 0; n < sz; ++n)
Attach(i[n], mod);
}
void ModuleManager::DetachAll(Module* mod)
{
for (size_t n = I_BEGIN + 1; n != I_END; ++n)
Detach((Implementation)n, mod);
}
bool ModuleManager::SetPriority(Module* mod, Priority s)
{
for (size_t n = I_BEGIN + 1; n != I_END; ++n)
SetPriority(mod, (Implementation)n, s);
return true;
}
bool ModuleManager::SetPriority(Module* mod, Implementation i, Priority s, Module** modules, size_t sz)
{
/** To change the priority of a module, we first find its position in the vector,
* then we find the position of the other modules in the vector that this module
* wants to be before/after. We pick off either the first or last of these depending
* on which they want, and we make sure our module is *at least* before or after
* the first or last of this subset, depending again on the type of priority.
*/
size_t swap_pos = 0;
size_t source = 0;
bool swap = true;
bool found = false;
/* Locate our module. This is O(n) but it only occurs on module load so we're
* not too bothered about it
*/
for (size_t x = 0; x != EventHandlers[i].size(); ++x)
{
if (EventHandlers[i][x] == mod)
{
source = x;
found = true;
break;
}
}
/* Eh? this module doesnt exist, probably trying to set priority on an event
* theyre not attached to.
*/
if (!found)
return false;
switch (s)
{
/* Dummy value */
case PRIORITY_DONTCARE:
swap = false;
break;
/* Module wants to be first, sod everything else */
case PRIORITY_FIRST:
if (prioritizationState != PRIO_STATE_FIRST)
swap = false;
else
swap_pos = 0;
break;
/* Module wants to be last. */
case PRIORITY_LAST:
if (prioritizationState != PRIO_STATE_FIRST)
swap = false;
else if (EventHandlers[i].empty())
swap_pos = 0;
else
swap_pos = EventHandlers[i].size() - 1;
break;
/* Place this module after a set of other modules */
case PRIORITY_AFTER:
{
/* Find the latest possible position */
swap_pos = 0;
swap = false;
for (size_t x = 0; x != EventHandlers[i].size(); ++x)
{
for (size_t n = 0; n < sz; ++n)
{
if ((modules[n]) && (EventHandlers[i][x] == modules[n]) && (x >= swap_pos) && (source <= swap_pos))
{
swap_pos = x;
swap = true;
}
}
}
}
break;
/* Place this module before a set of other modules */
case PRIORITY_BEFORE:
{
swap_pos = EventHandlers[i].size() - 1;
swap = false;
for (size_t x = 0; x != EventHandlers[i].size(); ++x)
{
for (size_t n = 0; n < sz; ++n)
{
if ((modules[n]) && (EventHandlers[i][x] == modules[n]) && (x <= swap_pos) && (source >= swap_pos))
{
swap = true;
swap_pos = x;
}
}
}
}
break;
}
/* Do we need to swap? */
if (swap && (swap_pos != source))
{
// We are going to change positions; we'll need to run again to verify all requirements
if (prioritizationState == PRIO_STATE_LAST)
prioritizationState = PRIO_STATE_AGAIN;
/* Suggestion from Phoenix, "shuffle" the modules to better retain call order */
int incrmnt = 1;
if (source > swap_pos)
incrmnt = -1;
for (unsigned int j = source; j != swap_pos; j += incrmnt)
{
if (( j + incrmnt > EventHandlers[i].size() - 1) || (j + incrmnt < 0))
continue;
std::swap(EventHandlers[i][j], EventHandlers[i][j+incrmnt]);
}
}
return true;
}
std::string& ModuleManager::LastError()
{
return LastModuleError;
}
bool ModuleManager::PublishFeature(const std::string &FeatureName, Module* Mod)
{
if (Features.find(FeatureName) == Features.end())
{
Features[FeatureName] = Mod;
return true;
}
return false;
}
bool ModuleManager::UnpublishFeature(const std::string &FeatureName)
{
featurelist::iterator iter = Features.find(FeatureName);
if (iter == Features.end())
return false;
Features.erase(iter);
return true;
}
Module* ModuleManager::FindFeature(const std::string &FeatureName)
{
featurelist::iterator iter = Features.find(FeatureName);
if (iter == Features.end())
return NULL;
return iter->second;
}
bool ModuleManager::PublishInterface(const std::string &InterfaceName, Module* Mod)
{
interfacelist::iterator iter = Interfaces.find(InterfaceName);
if (iter == Interfaces.end())
{
modulelist ml;
ml.push_back(Mod);
Interfaces[InterfaceName] = std::make_pair(0, ml);
}
else
{
iter->second.second.push_back(Mod);
}
return true;
}
bool ModuleManager::UnpublishInterface(const std::string &InterfaceName, Module* Mod)
{
interfacelist::iterator iter = Interfaces.find(InterfaceName);
if (iter == Interfaces.end())
return false;
for (modulelist::iterator x = iter->second.second.begin(); x != iter->second.second.end(); x++)
{
if (*x == Mod)
{
iter->second.second.erase(x);
if (iter->second.second.empty())
Interfaces.erase(InterfaceName);
return true;
}
}
return false;
}
modulelist* ModuleManager::FindInterface(const std::string &InterfaceName)
{
interfacelist::iterator iter = Interfaces.find(InterfaceName);
if (iter == Interfaces.end())
return NULL;
else
return &(iter->second.second);
}
bool ModuleManager::ModuleHasInterface(Module* mod, const std::string& InterfaceName)
{
interfacelist::iterator iter = Interfaces.find(InterfaceName);
if (iter == Interfaces.end())
return false;
else
{
modulelist& ml = iter->second.second;
modulelist::iterator mi = std::find(ml.begin(), ml.end(), mod);
return (mi != ml.end());
}
}
void ModuleManager::UseInterface(const std::string &InterfaceName)
{
interfacelist::iterator iter = Interfaces.find(InterfaceName);
if (iter != Interfaces.end())
iter->second.first++;
}
void ModuleManager::DoneWithInterface(const std::string &InterfaceName)
{
interfacelist::iterator iter = Interfaces.find(InterfaceName);
if (iter != Interfaces.end())
iter->second.first--;
}
std::pair<int,std::string> ModuleManager::GetInterfaceInstanceCount(Module* m)
{
for (interfacelist::iterator iter = Interfaces.begin(); iter != Interfaces.end(); iter++)
{
for (modulelist::iterator x = iter->second.second.begin(); x != iter->second.second.end(); x++)
{
if (*x == m)
{
return std::make_pair(iter->second.first, iter->first);
}
}
}
return std::make_pair(0, "");
}
const std::string& ModuleManager::GetModuleName(Module* m)
{
static std::string nothing;
for (std::map<std::string, Module*>::iterator n = Modules.begin(); n != Modules.end(); ++n)
{
if (n->second == m)
return n->first;
}
return nothing;
}
CmdResult InspIRCd::CallCommandHandler(const std::string &commandname, const std::vector<std::string>& parameters, User* user)
{
return this->Parser->CallHandler(commandname, parameters, user);
}
bool InspIRCd::IsValidModuleCommand(const std::string &commandname, int pcnt, User* user)
{
return this->Parser->IsValidCommand(commandname, pcnt, user);
}
void InspIRCd::AddCommand(Command *f)
{
if (!this->Parser->AddCommand(f))
{
throw ModuleException("Command "+std::string(f->command)+" already exists.");
}
}
void InspIRCd::SendMode(const std::vector<std::string>& parameters, User *user)
{
this->Modes->Process(parameters, user);
}
bool InspIRCd::AddResolver(Resolver* r, bool cached)
{
if (!cached)
return this->Res->AddResolverClass(r);
else
{
r->TriggerCachedResult();
delete r;
return true;
}
}
Module* ModuleManager::Find(const std::string &name)
{
std::map<std::string, Module*>::iterator modfind = Modules.find(name);
if (modfind == Modules.end())
return NULL;
else
return modfind->second;
}
const std::vector<std::string> ModuleManager::GetAllModuleNames(int filter)
{
std::vector<std::string> retval;
for (std::map<std::string, Module*>::iterator x = Modules.begin(); x != Modules.end(); ++x)
if (!filter || (x->second->GetVersion().Flags & filter))
retval.push_back(x->first);
return retval;
}
ConfigReader::ConfigReader()
{
this->error = 0;
}
ConfigReader::~ConfigReader()
{
}
static ConfigTag* SlowGetTag(const std::string &tag, int index)
{
ConfigTagList tags = ServerInstance->Config->ConfTags(tag);
while (tags.first != tags.second)
{
if (!index)
return tags.first->second;
tags.first++;
index--;
}
return NULL;
}
std::string ConfigReader::ReadValue(const std::string &tag, const std::string &name, const std::string &default_value, int index, bool allow_linefeeds)
{
std::string result = default_value;
if (!SlowGetTag(tag, index)->readString(name, result, allow_linefeeds))
{
this->error = CONF_VALUE_NOT_FOUND;
}
return result;
}
std::string ConfigReader::ReadValue(const std::string &tag, const std::string &name, int index, bool allow_linefeeds)
{
return ReadValue(tag, name, "", index, allow_linefeeds);
}
bool ConfigReader::ReadFlag(const std::string &tag, const std::string &name, const std::string &default_value, int index)
{
bool def = (default_value == "yes");
return SlowGetTag(tag, index)->getBool(name, def);
}
bool ConfigReader::ReadFlag(const std::string &tag, const std::string &name, int index)
{
return ReadFlag(tag, name, "", index);
}
int ConfigReader::ReadInteger(const std::string &tag, const std::string &name, const std::string &default_value, int index, bool need_positive)
{
int v = atoi(default_value.c_str());
int result = SlowGetTag(tag, index)->getInt(name, v);
if ((need_positive) && (result < 0))
{
this->error = CONF_INT_NEGATIVE;
return 0;
}
return result;
}
int ConfigReader::ReadInteger(const std::string &tag, const std::string &name, int index, bool need_positive)
{
return ReadInteger(tag, name, "", index, need_positive);
}
long ConfigReader::GetError()
{
long olderr = this->error;
this->error = 0;
return olderr;
}
int ConfigReader::Enumerate(const std::string &tag)
{
ServerInstance->Logs->Log("MODULE", DEBUG, "Module is using ConfigReader::Enumerate on %s; this is slow!",
tag.c_str());
int i=0;
while (SlowGetTag(tag, i)) i++;
return i;
}
FileReader::FileReader(const std::string &filename)
{
LoadFile(filename);
}
FileReader::FileReader()
{
}
std::string FileReader::Contents()
{
std::string x;
for (file_cache::iterator a = this->fc.begin(); a != this->fc.end(); a++)
{
x.append(*a);
x.append("\r\n");
}
return x;
}
unsigned long FileReader::ContentSize()
{
return this->contentsize;
}
void FileReader::CalcSize()
{
unsigned long n = 0;
for (file_cache::iterator a = this->fc.begin(); a != this->fc.end(); a++)
n += (a->length() + 2);
this->contentsize = n;
}
void FileReader::LoadFile(const std::string &filename)
{
file_cache c;
c.clear();
if (ServerInstance->Config->ReadFile(c,filename.c_str()))
{
this->fc = c;
this->CalcSize();
}
}
FileReader::~FileReader()
{
}
bool FileReader::Exists()
{
return (!(fc.size() == 0));
}
std::string FileReader::GetLine(int x)
{
if ((x<0) || ((unsigned)x>fc.size()))
return "";
return fc[x];
}
int FileReader::FileSize()
{
return fc.size();
}
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