//============================================================================= // // File : kvi_ircuser.cpp // Creation date : Fri Jan 8 1999 20:56:07 by Szymon Stefanek // // This file is part of the KVirc irc client distribution // Copyright (C) 1999-2004 Szymon Stefanek (pragma at kvirc dot net) // // This program 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; either version 2 // of the License, or (at your opinion) any later version. // // 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, write to the Free Software Foundation, // Inc. ,51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. // //============================================================================= #define __KVILIB__ #include "kvi_debug.h" #include "kvi_ircmask.h" /* @doc: irc_masks @title: Irc masks @type: generic @short: Decription of the standard IRC masks @keyterms: irc masks , nickname , username , hostname , wildcard @body: [big]Simple masks[/big][br] An irc mask is a string in a special format that identifies an user on irc.[br] The standard basic format is:[br] [b]!@[/b][br] The part contains the nickname with that the user is widely known across the network.[br] The nickname format is generally restricted by the irc network rules: usually it has a maximum length (9 on actual IrcNet servers for example), and can contain only a defined set of characters. Just as example, the character '!' obviously can't be included in a nickname.[br] The part is the machine username of the remote user: this is usually retrieved by the irc server at connect time by contacting the ident service on the user's machine. Some IRC servers allow specifying this username inside the login messages and do not connect to the ident service at all.[br] The often has a special prefix character added by the irc server:[br] this is rather server specific protocol , but the prefixes are somewhat standardized and the common meanings of them are:[br] noprefix: I line with ident[br] ^: I line with OTHER type ident[br] ~: I line, no ident[br] +: i line with ident[br] =: i line with OTHER type ident[br] -: i line, no ident[br] So finally you can find strings like "~pragma" or "^pragma", where "pragma" is the system username of the irc-user and ~ and ^ are prefixes.[br] The part is the hostname of the remote user.[br] In most cases it is the human-readable format of the host name, but sometimes it happens to be an IP-address (when the host has no reverse dns entry).[br] The IP address can be either in IPV4 format or in IPV6 format.[br] Some (weird from my point of view) servers hide certain parts of the IP address to prevent attacks to the user's machine.[br] Here are some examples of full irc-masks:[br] Pragma!^pragma@staff.kvirc.net[br] [jazz]!~jazz@jazz.myhome.com[br] luke!=skywalker@212.213.41.12[br] HAN!^solo@ff0f:a0a0:1011::ea80:1[br] Darth!vader@210.11.12.XXX[br] The irc-masks are [b]case insensitive[/b].[br] [br] [big]Wildcard masks[/big][br] In some contexts the irc-masks can contain '*' and '?' wildcards.[br] The wild masks are used to "match" an user within a set of them.[br] '*' matches any sequence (eventually empty) of characters and '?' matches a single character.[br] Wildcards are allowed only in the , and part: so the "wildest" mask possible is:[br] [b]*!*@*[/b][br] that designates "any nickname, any username on any host".[br] Here are some examples of wild masks:[br] Pragma!*pragma@212.101.102.*: matches any user with nickname "Pragma" , username that ends with "pragma" and coming from any machine on the 212.101.102 network.[br] *!solo@*.starwars.org: matches any nick with username solo (no prefix!) coming from any machine in the starwars.org domain.[br] Pragma!*@*: matches any user with nickname "Pragma".[br] */ /* const char * KviIrcMask::setMask(const char *szMask,char c) { __range_valid(szMask); //nick!username@host.top //0123456789 const char *p=szMask; //Run over nick.... while(*p && (*p != '!'))p++; int len = p - szMask; if(len > 0){ m_nick_ptr = (char *)kvi_realloc(m_nick_ptr,len+1); kvi_memmove((void *)m_nick_ptr,(void *)szMask,len); } else { //Empty nick...set it to "*" len = 1; m_nick_ptr = (char *)kvi_realloc(m_nick_ptr,len+1); kvi_memmove((void *)m_nick_ptr,(void *)"*",len); } *(m_nick_ptr+len) = '\0'; //With zero length nick it will be just an empty-string if(!(*p)){ setHost("*"); setUsername("*"); return p; } szMask = ++p; //The username while(*p && (*p != '@'))p++; len = p - szMask; if(len > 0){ m_user_ptr = (char *)kvi_realloc(m_user_ptr,len+1); kvi_memmove((void *)m_user_ptr,(void *)szMask,len); } else { len = 1; m_user_ptr = (char *)kvi_realloc(m_user_ptr,len+1); kvi_memmove((void *)m_user_ptr,(void *)"*",len); } *(m_user_ptr+len) = '\0'; if(!(*p)){ setHost("*"); return p; } szMask = ++p; //And finally the host while(*p && (*p != c))p++; len = p - szMask; if(len > 0){ m_host_ptr = (char *)kvi_realloc(m_host_ptr,len+1); kvi_memmove((void *)m_host_ptr,(void *)szMask,len); } else { len = 1; m_host_ptr = (char *)kvi_realloc(m_host_ptr,len+1); kvi_memmove((void *)m_host_ptr,(void *)"*",len); } *(m_host_ptr+len) = '\0'; return p; } const char * KviIrcMask::setUserhostMask(const char *szMask) { __range_valid(szMask); //nick[*]=<+!->username@host.top //0123456789 const char *p=szMask; // Run over nick.... while(*p && (*p != '*') && (*p != '=') && (!isspace(*p)))p++; // extract it int len = p - szMask; if(len > 0){ m_nick_ptr = (char *)kvi_realloc(m_nick_ptr,len+1); kvi_memmove((void *)m_nick_ptr,(void *)szMask,len); } else { //Empty nick...set it to "*" len = 1; m_nick_ptr = (char *)kvi_realloc(m_nick_ptr,len+1); kvi_memmove((void *)m_nick_ptr,(void *)"*",len); } *(m_nick_ptr+len) = '\0'; //With zero length nick it will be just an empty-string // now skip all the flags while(*p && ((*p=='*')||(*p=='=')||(*p=='+')||(*p=='-')) && (!isspace(*p)))p++; // check... if((!(*p)) || isspace(*p)){ // ooops , finished or isspace setHost("*"); setUsername("*"); while(*p && isspace(*p))p++; return p; } szMask = p; //The username while(*p && (*p != '@') && (!isspace(*p)))p++; len = p - szMask; if(len > 0){ m_user_ptr = (char *)kvi_realloc(m_user_ptr,len+1); kvi_memmove((void *)m_user_ptr,(void *)szMask,len); } else { len = 1; m_user_ptr = (char *)kvi_realloc(m_user_ptr,len+1); kvi_memmove((void *)m_user_ptr,(void *)"*",len); } *(m_user_ptr+len) = '\0'; if((!(*p))||isspace(*p)){ // oops finished or isspace setHost("*"); while(*p && isspace(*p))p++; return p; } szMask = ++p; //And finally the host while(*p && (!isspace(*p)))p++; len = p - szMask; if(len > 0){ m_host_ptr = (char *)kvi_realloc(m_host_ptr,len+1); kvi_memmove((void *)m_host_ptr,(void *)szMask,len); } else { len = 1; m_host_ptr = (char *)kvi_realloc(m_host_ptr,len+1); kvi_memmove((void *)m_host_ptr,(void *)"*",len); } *(m_host_ptr+len) = '\0'; while(*p && isspace(*p))p++; return p; } */ KviIrcMask::KviIrcMask() { m_szHost = m_szWild; m_szUser = m_szWild; m_szNick = m_szWild; } KviIrcMask::KviIrcMask(const TQString &szMask) { static TQString szWild("*"); const TQChar * b = KviTQString::nullTerminatedArray(szMask); if(b) { const TQChar * p = b; while(p->unicode() && (p->unicode() != '!'))p++; if(p->unicode()) { if(p != b) { m_szNick.setUnicode(b,p-b); } else { m_szNick = szWild; // ??? } } else { if(p != b)m_szNick.setUnicode(b,p-b); else m_szNick = szWild; // ??? m_szUser = szWild; m_szHost = szWild; return; } p++; b = p; while(p->unicode() && (p->unicode() != '@'))p++; if(p->unicode()) { if(p != b) { m_szUser.setUnicode(b,p-b); } else { m_szUser = szWild; // ??? } } else { if(p != b)m_szUser.setUnicode(b,p-b); else m_szUser = szWild; // ??? m_szHost = szWild; return; } p++; b=p; while(p->unicode())p++; if(p != b) { m_szHost.setUnicode(b,p-b); } else { m_szHost = szWild; // ??? } } else { m_szUser = szWild; m_szHost = szWild; m_szNick = szWild; } } TQString KviIrcMask::m_szWild("*"); bool KviIrcMask::hasNumericHost() const { const TQChar * p = KviTQString::nullTerminatedArray(m_szHost); if(!p)return false; int nPoints = 0; int nDoublePoints = 0; unsigned short uc; while((uc = p->unicode())) { if(uc == '.')nPoints++; // ipv6 masks can contain dots too! else { if(uc == ':')nDoublePoints++; else { if((uc < '0') || (uc > '9')) { uc = p->upper().unicode(); if((uc < 'A') || (uc > 'F'))return false; } } } p++; } return ((nPoints == 3) || (nDoublePoints > 1)); } /** * Retuns in szMask the specified (if possible) mask of this user.
* If the host or username are not known , the mask may contain less information * than requested.
* Mask types:
* 0 : nick!user@machine.host.top (nick!user@XXX.XXX.XXX.XXX) (default)
* 1 : nick!user@*.host.top (nick!user@XXX.XXX.XXX.*)
* 2 : nick!user@*
* 3 : nick!*@machine.host.top (nick!user@XXX.XXX.XXX.XXX)
* 4 : nick!*@*.host.top (nick!user@XXX.XXX.XXX.*)
* 5 : nick!*@*
* 6 : *!user@machine.host.top (*!user@XXX.XXX.XXX.XX)
* 7 : *!user@*.host.top (*!user@XXX.XXX.XXX.*)
* 8 : *!user@*
* 9 : *!*@machine.host.top (*!*@XXX.XXX.XXX.XXX)
* 10: *!*@*.host.top (*!*@XXX.XXX.XXX.*)
* 11: nick!*user@machine.host.top (nick!*user@machine.host.top)
* 12: nick!*user@*.host.top (nick!*user@*.host.top)
* 13: nick!*user@*
* 14: *!*user@machine.host.top (*!*user@machine.host.top)
* 15: *!*user@*.host.top (*!*user@*.host.top)
* 16: *!*user@*
* 17: nick!~user@*.host.top (nick!~user@XXX.XXX.*) * 18: nick!*@*.host.top (nick!*@XXX.XXX.*) * 19: *!~user@*.host.top (*!~user@XXX.XXX.*) * 20: nick!*user@*.host.top (nick!*user@XXX.XXX.*) * 21: *!*user@*.host.top (*!user@*XXX.XXX.*) * smart versions of the masks 17-21 that try take care of masked ip addresses * in the form xxx.xxx.INVALID-TOP-MASK * 22: nick!~user@*.host.top (nick!~user@XXX.XXX.*) * 23: nick!*@*.host.top (nick!*@XXX.XXX.*) * 24: *!~user@*.host.top (*!~user@XXX.XXX.*) * 25: nick!*user@*.host.top (nick!*user@XXX.XXX.*) * 26: *!*user@*.host.top (*!user@*XXX.XXX.*) * If some data is missing , these types may change:
* For example , if hostname is missing , the mask type 3 or 4 may be reduced to type 5 */ /* ** ident is fun.. ahem ** prefixes used: ** none I line with ident ** ^ I line with OTHER type ident ** ~ I line, no ident ** + i line with ident ** = i line with OTHER type ident ** - i line, no ident */ static unsigned char maskTable[27][3] = { { 0 , 0 , 0 }, //0 means normal block { 0 , 0 , 2 }, //2 in the third field means type *.abc.host.top (or XXX.XXX.XXX.*) host mask { 0 , 0 , 1 }, //2 in the second field means *user (strip prefixes) { 0 , 1 , 0 }, //1 means * { 0 , 1 , 2 }, //3 in the third field means type *.host.top (or XXX.XXX.*) host mask { 0 , 1 , 1 }, //4 in the third field is like 3 but tries to detect masked ip addresses too { 1 , 0 , 0 }, { 1 , 0 , 2 }, { 1 , 0 , 1 }, { 1 , 1 , 0 }, { 1 , 1 , 2 }, { 0 , 2 , 0 }, { 0 , 2 , 2 }, { 0 , 2 , 1 }, { 1 , 2 , 0 }, { 1 , 2 , 2 }, { 1 , 2 , 1 }, { 0 , 0 , 3 }, { 0 , 1 , 3 }, { 1 , 0 , 3 }, { 0 , 2 , 3 }, { 1 , 2 , 3 }, { 0 , 0 , 4 }, { 0 , 1 , 4 }, { 1 , 0 , 4 }, { 0 , 2 , 4 }, { 1 , 2 , 4 } }; void KviIrcMask::mask(TQString &szMask,MaskType eMaskType) const { if((((int)eMaskType) > 26)||(((int)eMaskType) < 0))eMaskType = NickUserHost; szMask = maskTable[((int)eMaskType)][0] ? m_szWild : m_szNick; szMask.append("!"); switch(maskTable[((int)eMaskType)][1]) { case 0: szMask.append(m_szUser); break; case 1: szMask.append(m_szWild); break; default: if (m_szUser.length() > 0) { if(m_szUser[0].unicode() != '*') szMask.append(m_szWild); if ((m_szUser[0].unicode() == '~') || (m_szUser[0].unicode() == '^') || (m_szUser[0].unicode() == '+') || (m_szUser[0].unicode() == '-') || (m_szUser[0].unicode() == '='))szMask.append(m_szUser.right(m_szUser.length() - 1)); else szMask.append(m_szUser); } break; } szMask.append('@'); switch(maskTable[((int)eMaskType)][2]) { case 0: szMask.append(m_szHost); break; case 1: szMask.append(m_szWild); break; case 2: if(m_szHost != m_szWild) { if(hasNumericHost()) { TQString szHost(m_szHost.left(getIpDomainMaskLen())); szMask.append(szHost); szMask.append(m_szWild); } else { szMask.append(m_szWild); szMask.append(getHostDomainMask()); } } else { szMask.append(m_szWild); } break; case 3: if(m_szHost != m_szWild) { if(hasNumericHost()) { TQString szHost(m_szHost.left(getLargeIpDomainMaskLen())); szMask.append(szHost); szMask.append(m_szWild); } else { szMask.append(m_szWild); szMask.append(getLargeHostDomainMask()); } } else { szMask.append(m_szWild); } break; default: // case 4 and others if(m_szHost != m_szWild) { if(hasNumericHost() || hasMaskedIp()) { TQString szHost(m_szHost.left(getLargeIpDomainMaskLen())); szMask.append(szHost); szMask.append(m_szWild); } else { szMask.append(m_szWild); szMask.append(getLargeHostDomainMask()); } } else { szMask.append(m_szWild); } break; } } /* bool KviIrcMask::matches(const char *szMask) { const char * ret1; const char * ret2; if(kvi_matchWildExprWithTerminator(szMask,m_nick_ptr,'!',&ret1,&ret2)) { if(*ret1 == '!') { ret1++; if(kvi_matchWildExprWithTerminator(ret1,m_user_ptr,'@',&ret1,&ret2)) { if(*ret1 == '@') { ret1++; return kvi_matchWildExpr(ret1,m_host_ptr); } } } } return false; } */ /* bool KviIrcMask::matchesFixed(const char *szMask) const { const char * ret1; const char * ret2; if(kvi_matchStringWithTerminator(m_nick_ptr,szMask,'!',&ret1,&ret2)) { if(*ret2 == '!') { ret2++; if(kvi_matchStringWithTerminator(m_user_ptr,ret2,'@',&ret1,&ret2)) { if(*ret2 == '@') { ret2++; return kvi_matchString(m_host_ptr,ret2); } } } } return false; } */ /* bool KviIrcMask::matchedBy(const TQString &szMask) const { const char * ret1; const char * ret2; if(kvi_matchStringWithTerminator(szMask,m_nick_ptr,'!',&ret1,&ret2)) { if(*ret1 == '!') { ret1++; if(kvi_matchStringWithTerminator(ret1,m_user_ptr,'@',&ret1,&ret2)) { if(*ret1 == '@') { ret1++; return kvi_matchString(ret1,m_host_ptr); } } } } return false; } */ bool KviIrcMask::matches(const KviIrcMask &mask) const { if(KviTQString::matchWildExpressionsCI(m_szNick,mask.m_szNick)) { if(KviTQString::matchWildExpressionsCI(m_szUser,mask.m_szUser)) { if(KviTQString::matchWildExpressionsCI(m_szHost,mask.m_szHost))return true; } } return false; } bool KviIrcMask::matchesFixed(const KviIrcMask &mask) const { if(KviTQString::matchStringCI(m_szNick,mask.m_szNick,0,1)) { if(KviTQString::matchStringCI(m_szUser,mask.m_szUser,0,1)) { if(KviTQString::matchStringCI(m_szHost,mask.m_szHost,0,1))return true; } } return false; } /* bool KviIrcMask::matches(const char * nick,const char * user,const char * host) { if(nick) { if(!kvi_matchWildExpr(m_nick_ptr,nick))return false; } if(user) { if(!kvi_matchWildExpr(m_user_ptr,user))return false; } if(host) { if(!kvi_matchWildExpr(m_host_ptr,host))return false; } return true; } */ bool KviIrcMask::matchesFixed(const TQString &nick,const TQString &user,const TQString &host) const { if(!KviTQString::matchStringCI(m_szNick,nick,0,1))return false; if(!KviTQString::matchStringCI(m_szUser,user,0,1))return false; if(!KviTQString::matchStringCI(m_szHost,host,0,1))return false; return true; } //Internals for mask() int KviIrcMask::getIpDomainMaskLen() const { int len = m_szHost.length(); const TQChar *p = m_szHost.unicode(); const TQChar *b = p; p += len; if(b < p) { p--; while((b < p) && (p->unicode() != '.') && (p->unicode() != ':'))p--; } // 000.000.000.000 // p // return (p == b) ? 0 : ((p-b) + 1); } int KviIrcMask::getLargeIpDomainMaskLen() const { int len = m_szHost.length(); const TQChar *p = m_szHost.unicode(); const TQChar *b = p; p += len; if(b < p) { p--; while((b < p) && (p->unicode() != '.') && (p->unicode() != ':'))p--; if(b < p) { p--; while((b < p) && (p->unicode() != '.') && (p->unicode() != ':'))p--; } } // 000.000.000.000 // p // return (p == b) ? 0 : ((p-b) + 1); } TQString KviIrcMask::getHostDomainMask() const { int len = m_szHost.length(); const TQChar *p=KviTQString::nullTerminatedArray(m_szHost); if(!p)return TQString(); const TQChar *b = p; while(p->unicode() && p->unicode() != '.')p++; TQString ret(p,len - (p - b)); return ret; } TQString KviIrcMask::getLargeHostDomainMask() const { int len = m_szHost.length(); const TQChar *p = m_szHost.unicode(); const TQChar *b = p; p += len; if(b < p) { p--; while((b < p) && (p->unicode() != '.'))p--; if(b < p) { p--; while((b < p) && (p->unicode() != '.'))p--; } } // xyz.klm.abc.host.top // p TQString ret(p,len - (p - b)); return ret; } // this is just a GUESS and must be called AFTER making sure that it is NOT a plain numeric IP bool KviIrcMask::hasMaskedIp() const { int len = m_szHost.length(); const TQChar *p = m_szHost.unicode(); const TQChar *b = p; if(len == 0)return false; //run to the end p += len; const TQChar *e = p; p--; while((b < p) && (p->unicode() != '.'))p--; return ((e - p) > 4); // at the moment 4 should be enough : the largest top part is "name" } bool KviIrcMask::operator==(const KviIrcMask &user) { if(KviTQString::equalCI(m_szNick,user.m_szNick)) { if(KviTQString::equalCI(m_szUser,user.m_szUser)) { if(KviTQString::equalCI(m_szHost,user.m_szHost))return true; } } return false; } bool KviIrcMask::hasWildNick() { const TQChar * aux = KviTQString::nullTerminatedArray(m_szNick); if(!aux)return false; unsigned short uc; while((uc = aux->unicode())) { if((uc == '*') || (uc == '?'))return true; aux++; } return false; } int KviIrcMask::nonWildChars() { int iCnt = 0; const TQChar * aux = KviTQString::nullTerminatedArray(m_szNick); if(!aux)return 0; unsigned short uc; while((uc = aux->unicode())) { if((uc != '*') && (uc != '?'))iCnt++; aux++; } aux = KviTQString::nullTerminatedArray(m_szUser); while((uc = aux->unicode())) { if((uc != '*') && (uc != '?'))iCnt++; aux++; } aux = KviTQString::nullTerminatedArray(m_szHost); while((uc = aux->unicode())) { if((uc != '*') && (uc != '?'))iCnt++; aux++; } return iCnt; }