/* */ #include #include #include "globals.h" #include "modules.h" #include "ctables.h" #include "inspircd_io.h" #include "wildcard.h" #include "mode.h" #include "message.h" // class type for holding an extended mode character - internal to core class ExtMode : public classbase { public: char modechar; int type; int params_when_on; int params_when_off; bool needsoper; ExtMode(char mc, int ty, bool oper, int p_on, int p_off) : modechar(mc), type(ty), needsoper(oper), params_when_on(p_on), params_when_off(p_off) { }; }; typedef std::vector ExtModeList; typedef ExtModeList::iterator ExtModeListIter; ExtModeList EMode; // returns true if an extended mode character is in use bool ModeDefined(char modechar, int type) { log(DEBUG,"Size of extmodes vector is %d",EMode.size()); for (ExtModeListIter i = EMode.begin(); i < EMode.end(); i++) { log(DEBUG,"i->modechar==%c, modechar=%c, i->type=%d, type=%d",i->modechar,modechar,i->type,type); if ((i->modechar == modechar) && (i->type == type)) { return true; } } return false; } bool ModeDefinedOper(char modechar, int type) { log(DEBUG,"Size of extmodes vector is %d",EMode.size()); for (ExtModeListIter i = EMode.begin(); i < EMode.end(); i++) { log(DEBUG,"i->modechar==%c, modechar=%c, i->type=%d, type=%d",i->modechar,modechar,i->type,type); if ((i->modechar == modechar) && (i->type == type) && (i->needsoper == true)) { return true; } } return false; } // returns number of parameters for a custom mode when it is switched on int ModeDefinedOn(char modechar, int type) { for (ExtModeListIter i = EMode.begin(); i < EMode.end(); i++) { if ((i->modechar == modechar) && (i->type == type)) { return i->params_when_on; } } return 0; } // returns number of parameters for a custom mode when it is switched on int ModeDefinedOff(char modechar, int type) { for (ExtModeListIter i = EMode.begin(); i < EMode.end(); i++) { if ((i->modechar == modechar) && (i->type == type)) { return i->params_when_off; } } return 0; } // returns true if an extended mode character is in use bool DoAddExtendedMode(char modechar, int type, bool requires_oper, int params_on, int params_off) { if (ModeDefined(modechar,type)) { return false; } EMode.push_back(ExtMode(modechar,type,requires_oper,params_on,params_off)); return true; } // version is a simple class for holding a modules version number Version::Version(int major, int minor, int revision, int build) : Major(major), Minor(minor), Revision(revision), Build(build) { }; // admin is a simple class for holding a server's administrative info Admin::Admin(std::string name, std::string email, std::string nick) : Name(name), Email(email), Nick(nick) { }; Module::Module() { } Module::~Module() { } void Module::OnUserConnect(userrec* user) { } void Module::OnUserQuit(userrec* user) { } void Module::OnUserJoin(userrec* user, chanrec* channel) { } void Module::OnUserPart(userrec* user, chanrec* channel) { } void Module::OnPacketTransmit(char *p) { } void Module::OnPacketReceive(char *p) { } void Module::OnRehash() { } void Module::OnServerRaw(std::string &raw, bool inbound) { } int Module::OnUserPreJoin(userrec* user, chanrec* chan, const char* cname) { return 0; } bool Module::OnExtendedMode(userrec* user, void* target, char modechar, int type, bool mode_on, string_list ¶ms) { return false; } Version Module::GetVersion() { return Version(1,0,0,0); } void Module::OnOper(userrec* user) { }; void Module::OnInfo(userrec* user) { }; void Module::OnWhois(userrec* source, userrec* dest) { }; int Module::OnUserPreMessage(userrec* user,void* dest,int target_type, std::string text) { return 0; }; int Module::OnUserPreNotice(userrec* user,void* dest,int target_type, std::string text) { return 0; }; // server is a wrapper class that provides methods to all of the C-style // exports in the core // Server::Server() { } Server::~Server() { } void Server::SendOpers(std::string s) { WriteOpers("%s",s.c_str()); } bool Server::MatchText(std::string sliteral, std::string spattern) { char literal[MAXBUF],pattern[MAXBUF]; strncpy(literal,sliteral.c_str(),MAXBUF); strncpy(pattern,spattern.c_str(),MAXBUF); return match(literal,pattern); } void Server::SendToModeMask(std::string modes, int flags, std::string text) { WriteMode(modes.c_str(),flags,"%s",text.c_str()); } chanrec* Server::JoinUserToChannel(userrec* user, std::string cname, std::string key) { return add_channel(user,cname.c_str(),key.c_str(),true); } chanrec* Server::PartUserFromChannel(userrec* user, std::string cname, std::string reason) { return del_channel(user,cname.c_str(),reason.c_str(),false); } void Server::ChangeUserNick(userrec* user, std::string nickname) { force_nickchange(user,nickname.c_str()); } void Server::QuitUser(userrec* user, std::string reason) { send_network_quit(user->nick,reason.c_str()); kill_link(user,reason.c_str()); } void Server::CallCommandHandler(std::string commandname, char** parameters, int pcnt, userrec* user) { call_handler(commandname.c_str(),parameters,pcnt,user); } void Server::Log(int level, std::string s) { log(level,"%s",s.c_str()); } void Server::AddCommand(char* cmd, handlerfunc f, char flags, int minparams) { createcommand(cmd,f,flags,minparams); } void Server::SendMode(char **parameters, int pcnt, userrec *user) { server_mode(parameters,pcnt,user); } void Server::Send(int Socket, std::string s) { Write(Socket,"%s",s.c_str()); } void Server::SendServ(int Socket, std::string s) { WriteServ(Socket,"%s",s.c_str()); } void Server::SendFrom(int Socket, userrec* User, std::string s) { WriteFrom(Socket,User,"%s",s.c_str()); } void Server::SendTo(userrec* Source, userrec* Dest, std::string s) { if (!Source) { // if source is NULL, then the message originates from the local server Write(Dest->fd,":%s %s",this->GetServerName().c_str(),s.c_str()); } else { // otherwise it comes from the user specified WriteTo(Source,Dest,"%s",s.c_str()); } } void Server::SendChannel(userrec* User, chanrec* Channel, std::string s,bool IncludeSender) { if (IncludeSender) { WriteChannel(Channel,User,"%s",s.c_str()); } else { ChanExceptSender(Channel,User,"%s",s.c_str()); } } bool Server::CommonChannels(userrec* u1, userrec* u2) { return (common_channels(u1,u2) != 0); } void Server::SendCommon(userrec* User, std::string text,bool IncludeSender) { if (IncludeSender) { WriteCommon(User,"%s",text.c_str()); } else { WriteCommonExcept(User,"%s",text.c_str()); } } void Server::SendWallops(userrec* User, std::string text) { WriteWallOps(User,false,"%s",text.c_str()); } void Server::ChangeHost(userrec* user, std::string host) { ChangeDisplayedHost(user,host.c_str()); } void Server::ChangeGECOS(userrec* user, std::string gecos) { ChangeName(user,gecos.c_str()); } bool Server::IsNick(std::string nick) { return (isnick(nick.c_str()) != 0); } userrec* Server::FindNick(std::string nick) { return Find(nick); } chanrec* Server::FindChannel(std::string channel) { return FindChan(channel.c_str()); } std::string Server::ChanMode(userrec* User, chanrec* Chan) { return cmode(User,Chan); } std::string Server::GetServerName() { return getservername(); } std::string Server::GetNetworkName() { return getnetworkname(); } Admin Server::GetAdmin() { return Admin(getadminname(),getadminemail(),getadminnick()); } bool Server::AddExtendedMode(char modechar, int type, bool requires_oper, int params_when_on, int params_when_off) { if (type == MT_SERVER) { log(DEBUG,"*** API ERROR *** Modes of type MT_SERVER are reserved for future expansion"); return false; } if (((params_when_on>0) || (params_when_off>0)) && (type == MT_CLIENT)) { log(DEBUG,"*** API ERROR *** Parameters on MT_CLIENT modes are not supported"); return false; } if ((params_when_on>1) || (params_when_off>1)) { log(DEBUG,"*** API ERROR *** More than one parameter for an MT_CHANNEL mode is not yet supported"); return false; } return DoAddExtendedMode(modechar,type,requires_oper,params_when_on,params_when_off); } int Server::CountUsers(chanrec* c) { return usercount(c); } ConfigReader::ConfigReader() { this->cache = new std::stringstream(std::stringstream::in | std::stringstream::out); this->error = LoadConf(CONFIG_FILE,this->cache); } ConfigReader::~ConfigReader() { if (this->cache) delete this->cache; } ConfigReader::ConfigReader(std::string filename) { this->cache = new std::stringstream(std::stringstream::in | std::stringstream::out); this->error = LoadConf(filename.c_str(),this->cache); }; std::string ConfigReader::ReadValue(std::string tag, std::string name, int index) { char val[MAXBUF]; char t[MAXBUF]; char n[MAXBUF]; strncpy(t,tag.c_str(),MAXBUF); strncpy(n,name.c_str(),MAXBUF); ReadConf(cache,t,n,index,val); return std::string(val); } int ConfigReader::Enumerate(std::string tag) { return EnumConf(cache,tag.c_str()); } int ConfigReader::EnumerateValues(std::string tag, int index) { return EnumValues(cache, tag.c_str(), index); } bool ConfigReader::Verify() { return this->error; } FileReader::FileReader(std::string filename) { file_cache c; readfile(c,filename.c_str()); this->fc = c; } FileReader::FileReader() { } void FileReader::LoadFile(std::string filename) { file_cache c; readfile(c,filename.c_str()); this->fc = c; } FileReader::~FileReader() { } bool FileReader::Exists() { if (fc.size() == 0) { return(false); } else { return(true); } } std::string FileReader::GetLine(int x) { if ((x<0) || (x>fc.size())) return ""; return fc[x]; } int FileReader::FileSize() { return fc.size(); } std::vector modules(255); std::vector factory(255); int MODCOUNT = -1;