// This may look like C code, but it is really -*- C++ -*- // ------------------------------------------------------------------ // The Goldware Library // Copyright (C) 1990-1999 Odinn Sorensen // Copyright (C) 1999-2000 Alexander S. Aganichev // ------------------------------------------------------------------ // This library is free software; you can redistribute it and/or // modify it under the terms of the GNU Library General Public // License as published by the Free Software Foundation; either // version 2 of the License, or (at your option) any later version. // // This library 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 // Library General Public License for more details. // // You should have received a copy of the GNU Library General Public // License along with this program; if not, write to the Free // Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, // MA 02111-1307, USA // ------------------------------------------------------------------ // $Id$ // ------------------------------------------------------------------ // GoldED nodelist indexing. // ------------------------------------------------------------------ #include #include #include #include #include #include // ------------------------------------------------------------------ static char* make_goldnode_name(char* inp) { if(*inp == NUL) return inp; char buf[100]; char* p; char* q; // Convert underlines to spaces p = inp; while(*p) if(*(p++) == '_') *(p-1) = ' '; // Strip leading spaces p = inp; while(isspace(*p)) p++; q = &inp[strlen(p)-1]; // Strip trailing spaces while(isspace(*q)) *q-- = NUL; // Search for last space or point while(*q != ' ' and *q != '.' and q > p) q--; // If last char is a point, find last space instead if(*(q+1) == 0) while(*q != ' ' and q > p) q--; // Exchange last name and first name(s) if(p != q) { strcpy(stpcpy(buf, q+1), ", "); *(q+(*q == '.' ? 1 : 0)) = NUL; strcat(buf, p); strcpy(inp, buf); } struplow(inp); return inp; } // ------------------------------------------------------------------ void ftn_golded_nodelist_index::fetchdata() { int currfileno = (int)((current.pos >> 24) & 0xFF); // currfileno == 0xFF: Entry is taken from a userlist, no nodelist available if(currfileno != lastfileno) { if(fhx != -1) ::close(fhx); if(currfileno != 0xff) { fhx = ::sopen(nodelist[currfileno].filename, O_RDONLY|O_BINARY, SH_DENYNO, S_STDRD); lastfileno = currfileno; } else { fhx = -1; lastfileno = -1; } } strunrevname(data.name, current.name); *data.status = NUL; *data.system = NUL; *data.location = NUL; *data.phone = NUL; *data.flags = NUL; *data.baud = NUL; if(fhx != -1) { char buf[256]; buf[255] = NUL; lseekset(fhx, current.pos & 0x00FFFFFFL); read(fhx, buf, 255); if(*buf != ';') { /* char* end = strchr(buf, '\r'); if(end) *end = NUL; */ strtok(buf,"\r\n"); data.unpack(buf); } } data.addr = current.addr; data.addr.make_string(data.address); } // ------------------------------------------------------------------ void ftn_golded_nodelist_index::getnode() { #ifdef DEBUG printf("<%05ld> ", node); #endif long seekto = node - 1L; if(not namebrowse) { if(index32) { lseekset(fha, seekto*(long)sizeof(dword)); dword nseekto; read(fha, &nseekto, sizeof(dword)); seekto = nseekto; } else { lseekset(fha, seekto*(long)sizeof(word)); word nseekto; read(fha, &nseekto, sizeof(word)); seekto = nseekto; } } lseekset(fhn, seekto*(long)sizeof(_GEIdx)); read(fhn, ¤t, sizeof(_GEIdx)); } // ------------------------------------------------------------------ int ftn_golded_nodelist_index::namecmp() const { #ifdef DEBUG printf("[%s] [%s] ", searchname, current.name); #endif const char* a = searchname; const char* b = current.name; int n = 1; int d; while(1) { d = g_tolower(*a) - g_tolower(*b); if((d != 0) or (*a == NUL) or (*b == NUL)) break; a++; b++; n++; } return d != 0 ? (d > 0 ? n : -n) : 0; } // ------------------------------------------------------------------ int ftn_golded_nodelist_index::addrcmp() const { #ifdef DEBUG printf("[%d:%d/%d.%d] [%d:%d/%d.%d] ", searchaddr.zone, searchaddr.net, searchaddr.node, searchaddr.point, current.addr.zone, current.addr.net, current.addr.node, current.addr.point ); #endif return searchaddr.compare(current.addr); } // ------------------------------------------------------------------ bool ftn_golded_nodelist_index::searchfirst() { if(maxnode) { long mid; long left = 0; long right = maxnode; int diff = 0; int prevdiff; do { mid = (left+right)/2; node = mid + 1; getnode(); prevdiff = diff; diff = namebrowse ? namecmp() : addrcmp(); #ifdef DEBUG printf("(%d)\n", diff); #endif if(diff < 0) right = mid - 1; else if(diff > 0) left = mid + 1; else { exactmatch = true; fetchdata(); return true; } } while(left < right); if(left < maxnode) { node = left + 1; getnode(); prevdiff = diff; diff = namebrowse ? namecmp() : addrcmp(); #ifdef DEBUG printf("(%d)\n", diff); #endif if(diff == 0) { exactmatch = true; fetchdata(); return true; } } if(absolute(prevdiff) > absolute(diff)) previous(); else { prevdiff = diff; if(next()) { diff = namebrowse ? namecmp() : addrcmp(); #ifdef DEBUG printf("(%d)\n", diff); #endif if(absolute(prevdiff) >= absolute(diff)) previous(); } else fetchdata(); } } exactmatch = false; return false; } // ------------------------------------------------------------------ bool ftn_golded_nodelist_index::search() { if(searchfirst()) { // Search backwards until first exact match is found while(previous()) { if(not exactmatch) { next(); break; } } return true; } return false; } // ------------------------------------------------------------------ ftn_golded_nodelist_index::ftn_golded_nodelist_index() { fha = fhn = fhx = -1; nodelist = NULL; nodelists = 0; lastfileno = -1; isopen = false; } // ------------------------------------------------------------------ ftn_golded_nodelist_index::~ftn_golded_nodelist_index() { if(isopen) close(); } // ------------------------------------------------------------------ bool ftn_golded_nodelist_index::open() { if(isopen) close(); fha = ::sopen(AddPath(nlpath, "goldnode.gxa"), O_RDONLY|O_BINARY, SH_DENYNO, S_STDRD); if(fha == -1) { close(); return false; } fhn = ::sopen(AddPath(nlpath, "goldnode.gxn"), O_RDONLY|O_BINARY, SH_DENYNO, S_STDRD); if(fhn == -1) { close(); return false; } FILE* fp = fopen(AddPath(nlpath, "goldnode.gxl"), "rt"); if(fp == NULL) { close(); return false; } // Read the list index char buf[256]; nodelists = 0; while(fgets(buf, sizeof(buf), fp)) { nodelist = (fstamp*)throw_realloc(nodelist, (nodelists+1)*sizeof(fstamp)); char* key; char* val=buf; getkeyval(&key, &val); strcpy(nodelist[nodelists].filename, key); MapPath(nodelist[nodelists].filename); nodelist[nodelists].stamp = atol(val); nodelists++; } fclose(fp); maxnode = filelength(fha) / sizeof(word); if(filelength(fhn) / sizeof(_GEIdx) < (size_t)maxnode) { maxnode = filelength(fha) / sizeof(dword); index32 = true; } else index32 = false; isopen = true; return true; } // ------------------------------------------------------------------ void ftn_golded_nodelist_index::close() { throw_release(nodelist); nodelists = 0; lastfileno = -1; if(fha != -1) ::close(fha); fha = -1; if(fhn != -1) ::close(fhn); fhn = -1; if(fhx != -1) ::close(fhx); fhx = -1; isopen = false; } // ------------------------------------------------------------------ bool ftn_golded_nodelist_index::find(const char* lookup_name) { namebrowse = true; make_goldnode_name(strcpy(searchname, lookup_name)); return search(); } // ------------------------------------------------------------------ bool ftn_golded_nodelist_index::find(const ftn_addr& addr) { namebrowse = false; searchaddr = addr; return search(); } // ------------------------------------------------------------------ bool ftn_golded_nodelist_index::previous() { if(node > 1) { node--; getnode(); fetchdata(); compare(); return true; } return false; } // ------------------------------------------------------------------ bool ftn_golded_nodelist_index::next() { if(node < maxnode) { node++; getnode(); fetchdata(); compare(); return true; } return false; } // ------------------------------------------------------------------ void ftn_golded_nodelist_index::first() { node = 1; getnode(); fetchdata(); compare(); } // ------------------------------------------------------------------ void ftn_golded_nodelist_index::last() { node = maxnode; getnode(); fetchdata(); compare(); } // ------------------------------------------------------------------ void ftn_golded_nodelist_index::push_state() { statenode = node; } // ------------------------------------------------------------------ void ftn_golded_nodelist_index::pop_state() { node = statenode; getnode(); fetchdata(); compare(); } // ------------------------------------------------------------------ const char* ftn_golded_nodelist_index::index_name() const { #if defined(__UNIX__) return namebrowse ? "goldnode.gxn" : "goldnode.gxa"; #else return namebrowse ? "GOLDNODE.GXN" : "GOLDNODE.GXA"; #endif } // ------------------------------------------------------------------ const char* ftn_golded_nodelist_index::nodelist_name() const { if(lastfileno == -1) return index_name(); const char* ptr = strrchr(nodelist[lastfileno].filename, '\\'); return ptr ? ptr+1 : nodelist[lastfileno].filename; } // ------------------------------------------------------------------