/* +------------------------------------+ * | 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. * * --------------------------------------------------- */ /* $Core */ #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 #endif // version is a simple class for holding a modules version number Version::Version(const std::string &sversion, int flags, int api_ver) : version(sversion), Flags(flags), API(api_ver) { } Request::Request(char* anydata, Module* src, Module* dst) : data(anydata), source(src), dest(dst) { /* Ensure that because this module doesnt support ID strings, it doesnt break modules that do * by passing them uninitialized pointers (could happen) */ id = '\0'; } Request::Request(Module* src, Module* dst, const char* idstr) : id(idstr), source(src), dest(dst) { } char* Request::GetData() { return this->data; } const char* Request::GetId() { return this->id; } Module* Request::GetSource() { return this->source; } Module* Request::GetDest() { return this->dest; } const char* Request::Send() { if (this->dest) { return dest->OnRequest(this); } else { return NULL; } } Event::Event(char* anydata, Module* src, const std::string &eventid) : data(anydata), source(src), id(eventid) { } char* Event::GetData() { return (char*)this->data; } Module* Event::GetSource() { return this->source; } char* Event::Send(InspIRCd* ServerInstance) { FOREACH_MOD(I_OnEvent,OnEvent(this)); return NULL; } std::string Event::GetEventID() { return this->id; } // These declarations define the behavours of the base class Module (which does nothing at all) Module::Module(InspIRCd* Me) : ServerInstance(Me) { } Module::~Module() { } int Module::OnSendSnotice(char &snomask, std::string &type, const std::string &message) { return 0; } void Module::OnUserConnect(User*) { } void Module::OnUserQuit(User*, const std::string&, const std::string&) { } void Module::OnUserDisconnect(User*) { } void Module::OnUserJoin(User*, Channel*, bool, bool&) { } void Module::OnPostJoin(User*, Channel*) { } void Module::OnUserPart(User*, Channel*, std::string&, bool&) { } void Module::OnPreRehash(User*, const std::string&) { } void Module::OnModuleRehash(User*, const std::string&) { } void Module::OnRehash(User*) { } int Module::OnUserPreJoin(User*, Channel*, const char*, std::string&, const std::string&) { return 0; } void Module::OnMode(User*, void*, int, const std::deque&, const std::deque&) { } Version Module::GetVersion() { return Version("Misconfigured", VF_VENDOR, -1); } 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*) { } int Module::OnUserPreInvite(User*, User*, Channel*, time_t) { return 0; } int Module::OnUserPreMessage(User*, void*, int, std::string&, char, CUList&) { return 0; } int Module::OnUserPreNotice(User*, void*, int, std::string&, char, CUList&) { return 0; } int Module::OnUserPreNick(User*, const std::string&) { return 0; } void Module::OnUserPostNick(User*, const std::string&) { } int Module::OnAccessCheck(User*, User*, Channel*, int) { return ACR_DEFAULT; } void Module::On005Numeric(std::string&) { } int Module::OnKill(User*, User*, const std::string&) { return 0; } void Module::OnLoadModule(Module*, const std::string&) { } void Module::OnUnloadModule(Module*, const std::string&) { } void Module::OnBackgroundTimer(time_t) { } int Module::OnPreCommand(std::string&, std::vector&, User *, bool, const std::string&) { return 0; } void Module::OnPostCommand(const std::string&, const std::vector&, User *, CmdResult, const std::string&) { } bool Module::OnCheckReady(User*) { return true; } int Module::OnUserRegister(User*) { return 0; } int Module::OnUserPreKick(User*, User*, Channel*, const std::string&) { return 0; } void Module::OnUserKick(User*, User*, Channel*, const std::string&, bool&) { } int Module::OnRawMode(User*, Channel*, const char, const std::string &, bool, int, bool) { return 0; } int Module::OnCheckInvite(User*, Channel*) { return 0; } int Module::OnCheckKey(User*, Channel*, const std::string&) { return 0; } int Module::OnCheckLimit(User*, Channel*) { return 0; } int Module::OnCheckBan(User*, Channel*) { return 0; } int Module::OnCheckExtBan(User *, Channel *, char) { return 0; } int Module::OnCheckStringExtBan(const std::string &s, Channel *c, char type) { return 0; } int Module::OnStats(char, User*, string_list&) { return 0; } int Module::OnChangeLocalUserHost(User*, const std::string&) { return 0; } int Module::OnChangeLocalUserGECOS(User*, const std::string&) { return 0; } int Module::OnLocalTopicChange(User*, Channel*, const std::string&) { return 0; } void Module::OnEvent(Event*) { return; } const char* Module::OnRequest(Request*) { return NULL; } int Module::OnPassCompare(Extensible* ex, const std::string &password, const std::string &input, const std::string& hashtype) { return 0; } void Module::OnGlobalOper(User*) { } void Module::OnPostConnect(User*) { } int Module::OnAddBan(User*, Channel*, const std::string &) { return 0; } int Module::OnDelBan(User*, Channel*, const std::string &) { return 0; } void Module::OnRawSocketAccept(int, irc::sockets::sockaddrs*, irc::sockets::sockaddrs*) { } int Module::OnRawSocketWrite(int, const char*, int) { return 0; } void Module::OnRawSocketClose(int) { } void Module::OnRawSocketConnect(int) { } int Module::OnRawSocketRead(int, char*, unsigned int, int&) { return 0; } 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::OnPostLocalTopicChange(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::ProtoSendMode(void*, TargetTypeFlags, void*, const std::deque&, const std::deque&) { } void Module::OnSyncChannelMetaData(Channel*, Module*, void*, const std::string&, bool) { } void Module::OnSyncUserMetaData(User*, Module*, void*, const std::string&, bool) { } void Module::OnSyncOtherMetaData(Module*, void*, bool) { } void Module::OnDecodeMetaData(int, void*, const std::string&, const std::string&) { } void Module::ProtoSendMetaData(void*, TargetTypeFlags, void*, 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::OnAddLine(User*, XLine*) { } void Module::OnDelLine(User*, XLine*) { } void Module::OnExpireLine(XLine*) { } void Module::OnCleanup(int, void*) { } int Module::OnChannelPreDelete(Channel*) { return 0; } void Module::OnChannelDelete(Channel*) { } int Module::OnSetAway(User*, const std::string &) { return 0; } int Module::OnUserList(User*, Channel*, CUList*&) { return 0; } int Module::OnWhoisLine(User*, User*, int&, std::string&) { return 0; } void Module::OnBuildExemptList(MessageType, Channel*, User*, char, CUList&, const std::string&) { } void Module::OnGarbageCollect() { } void Module::OnBufferFlushed(User*) { } void Module::OnText(User*, void*, int, const std::string&, char, CUList&) { } void Module::OnRunTestSuite() { } void Module::OnNamesListItem(User*, User*, Channel*, std::string&, std::string&) { } int Module::OnNumeric(User*, unsigned int, const std::string&) { return 0; } void Module::OnHookUserIO(User*) { } bool Module::OnHostCycle(User* user) { return false; } ModuleManager::ModuleManager(InspIRCd* Ins) : ModCount(0), Instance(Ins) { } 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::Load(const char* filename) { /* Do we have a glob pattern in the filename? * The user wants to load multiple modules which * match the pattern. */ if (strchr(filename,'*') || (strchr(filename,'?'))) { int n_match = 0; DIR* library = opendir(Instance->Config->ModPath.c_str()); if (library) { /* Try and locate and load all modules matching the pattern */ dirent* entry = NULL; while (0 != (entry = readdir(library))) { if (InspIRCd::Match(entry->d_name, filename, ascii_case_insensitive_map)) { if (!this->Load(entry->d_name)) n_match++; } } closedir(library); } /* Loadmodule will now return false if any one of the modules failed * to load (but wont abort when it encounters a bad one) and when 1 or * more modules were actually loaded. */ return (n_match > 0 ? false : true); } char modfile[MAXBUF]; snprintf(modfile,MAXBUF,"%s/%s",Instance->Config->ModPath.c_str(),filename); std::string filename_str = filename; if (!ServerConfig::FileExists(modfile)) { LastModuleError = "Module file could not be found: " + filename_str; Instance->Logs->Log("MODULE", DEFAULT, LastModuleError); return false; } if (Modules.find(filename_str) != Modules.end()) { LastModuleError = "Module " + filename_str + " is already loaded, cannot load a module twice!"; Instance->Logs->Log("MODULE", DEFAULT, LastModuleError); return false; } Module* newmod = NULL; ircd_module* newhandle = NULL; try { /* This will throw a CoreException if there's a problem loading * the module file or getting a pointer to the init_module symbol. */ newhandle = new ircd_module(Instance, modfile, "init_module"); newmod = newhandle->CallInit(); if (newmod) { Version v = newmod->GetVersion(); if (v.API != API_VERSION) { DetachAll(newmod); delete newmod; delete newhandle; LastModuleError = "Unable to load " + filename_str + ": Incorrect module API version: " + ConvToStr(v.API) + " (our version: " + ConvToStr(API_VERSION) + ")"; Instance->Logs->Log("MODULE", DEFAULT, LastModuleError); return false; } else { Instance->Logs->Log("MODULE", DEFAULT,"New module introduced: %s (API version %d, Module version %s)%s", filename, v.API, v.version.c_str(), (!(v.Flags & VF_VENDOR) ? " [3rd Party]" : " [Vendor]")); } Modules[filename_str] = std::make_pair(newhandle, newmod); } else { delete newhandle; LastModuleError = "Unable to load " + filename_str + ": Probably missing init_module() entrypoint, but dlsym() didn't notice a problem"; Instance->Logs->Log("MODULE", DEFAULT, LastModuleError); return false; } } /** XXX: Is there anything we can do about this mess? -- Brain */ catch (LoadModuleException& modexcept) { DetachAll(newmod); if (newmod) delete newmod; if (newhandle) delete newhandle; LastModuleError = "Unable to load " + filename_str + ": Error when loading: " + modexcept.GetReason(); Instance->Logs->Log("MODULE", DEFAULT, LastModuleError); return false; } catch (FindSymbolException& modexcept) { DetachAll(newmod); if (newmod) delete newmod; if (newhandle) delete newhandle; LastModuleError = "Unable to load " + filename_str + ": Error finding symbol: " + modexcept.GetReason(); Instance->Logs->Log("MODULE", DEFAULT, LastModuleError); return false; } catch (CoreException& modexcept) { DetachAll(newmod); if (newmod) delete newmod; if (newhandle) delete newhandle; LastModuleError = "Unable to load " + filename_str + ": " + modexcept.GetReason(); Instance->Logs->Log("MODULE", DEFAULT, LastModuleError); return false; } this->ModCount++; FOREACH_MOD_I(Instance,I_OnLoadModule,OnLoadModule(newmod, filename_str)); /* We give every module a chance to re-prioritize when we introduce a new one, * not just the one thats loading, as the new module could affect the preference * of others */ for(int tries = 0; tries < 20; tries++) { prioritizationState = tries > 0 ? PRIO_STATE_LAST : PRIO_STATE_FIRST; for (std::map >::iterator n = Modules.begin(); n != Modules.end(); ++n) n->second.second->Prioritize(); if (prioritizationState == PRIO_STATE_LAST) break; if (tries == 19) Instance->Logs->Log("MODULE", DEFAULT, "Hook priority dependency loop detected while loading " + filename_str); } Instance->BuildISupport(); return true; } bool ModuleManager::Unload(const char* filename) { std::string filename_str(filename); std::map >::iterator modfind = Modules.find(filename); if (modfind != Modules.end()) { if (modfind->second.second->GetVersion().Flags & VF_STATIC) { LastModuleError = "Module " + filename_str + " not unloadable (marked static)"; Instance->Logs->Log("MODULE", DEFAULT, LastModuleError); return false; } std::pair intercount = GetInterfaceInstanceCount(modfind->second.second); if (intercount.first > 0) { LastModuleError = "Failed to unload module " + filename_str + ", being used by " + ConvToStr(intercount.first) + " other(s) via interface '" + intercount.second + "'"; Instance->Logs->Log("MODULE", DEFAULT, LastModuleError); return false; } /* Give the module a chance to tidy out all its metadata */ for (chan_hash::iterator c = Instance->chanlist->begin(); c != Instance->chanlist->end(); c++) { modfind->second.second->OnCleanup(TYPE_CHANNEL,c->second); } for (user_hash::iterator u = Instance->Users->clientlist->begin(); u != Instance->Users->clientlist->end(); u++) { modfind->second.second->OnCleanup(TYPE_USER,u->second); } /* Tidy up any dangling resolvers */ Instance->Res->CleanResolvers(modfind->second.second); FOREACH_MOD_I(Instance,I_OnUnloadModule,OnUnloadModule(modfind->second.second, modfind->first)); this->DetachAll(modfind->second.second); Instance->Parser->RemoveCommands(filename); delete modfind->second.second; delete modfind->second.first; Modules.erase(modfind); Instance->Logs->Log("MODULE", DEFAULT,"Module %s unloaded",filename); this->ModCount--; Instance->BuildISupport(); return true; } LastModuleError = "Module " + filename_str + " is not loaded, cannot unload it!"; Instance->Logs->Log("MODULE", DEFAULT, LastModuleError); return false; } /* We must load the modules AFTER initializing the socket engine, now */ void ModuleManager::LoadAll() { char configToken[MAXBUF]; ModCount = -1; for(int count = 0; count < Instance->Config->ConfValueEnum("module"); count++) { Instance->Config->ConfValue("module", "name", count, configToken, MAXBUF); printf_c("[\033[1;32m*\033[0m] Loading module:\t\033[1;32m%s\033[0m\n",configToken); if (!this->Load(configToken)) { Instance->Logs->Log("MODULE", DEFAULT, this->LastError()); printf_c("\n[\033[1;31m*\033[0m] %s\n\n", this->LastError().c_str()); Instance->Exit(EXIT_STATUS_MODULE); } } } 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 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 >::iterator n = Modules.begin(); n != Modules.end(); ++n) { if (n->second.second == m) return n->first; } return nothing; } /* This is ugly, yes, but hash_map's arent designed to be * addressed in this manner, and this is a bit of a kludge. * Luckily its a specialist function and rarely used by * many modules (in fact, it was specially created to make * m_safelist possible, initially). */ Channel* InspIRCd::GetChannelIndex(long index) { int target = 0; for (chan_hash::iterator n = this->chanlist->begin(); n != this->chanlist->end(); n++, target++) { if (index == target) return n->second; } return NULL; } CmdResult InspIRCd::CallCommandHandler(const std::string &commandname, const std::vector& 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->CreateCommand(f)) { ModuleException err("Command "+std::string(f->command)+" already exists."); throw (err); } } void InspIRCd::SendMode(const std::vector& parameters, User *user) { this->Modes->Process(parameters, user, true); } void InspIRCd::DumpText(User* User, const std::string &LinePrefix, std::stringstream &TextStream) { std::string CompleteLine = LinePrefix; std::string Word; while (TextStream >> Word) { if (CompleteLine.length() + Word.length() + 3 > 500) { User->WriteServ(CompleteLine); CompleteLine = LinePrefix; } CompleteLine = CompleteLine + Word + " "; } User->WriteServ(CompleteLine); } 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 >::iterator modfind = Modules.find(name); if (modfind == Modules.end()) return NULL; else return modfind->second.second; } const std::vector ModuleManager::GetAllModuleNames(int filter) { std::vector retval; for (std::map >::iterator x = Modules.begin(); x != Modules.end(); ++x) if (!filter || (x->second.second->GetVersion().Flags & filter)) retval.push_back(x->first); return retval; } ConfigReader::ConfigReader(InspIRCd* Instance) : ServerInstance(Instance) { this->error = 0; } ConfigReader::~ConfigReader() { } std::string ConfigReader::ReadValue(const std::string &tag, const std::string &name, const std::string &default_value, int index, bool allow_linefeeds) { /* Don't need to strlcpy() tag and name anymore, ReadConf() takes const char* */ std::string result; if (!ServerInstance->Config->ConfValue(tag, name, default_value, index, 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) { return ServerInstance->Config->ConfValueBool(tag, name, default_value, index); } 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 result; if(!ServerInstance->Config->ConfValueInteger(tag, name, default_value, index, result)) { this->error = CONF_VALUE_NOT_FOUND; return 0; } 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) { return ServerInstance->Config->ConfValueEnum(tag); } int ConfigReader::EnumerateValues(const std::string &tag, int index) { return ServerInstance->Config->ConfVarEnum(tag, index); } FileReader::FileReader(InspIRCd* Instance, const std::string &filename) : ServerInstance(Instance) { LoadFile(filename); } FileReader::FileReader(InspIRCd* Instance) : ServerInstance(Instance) { } 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(); }