/* ether.c - ethernet address entry lookup routines Parts of this file were part of the nss_ldap library (as ldap-ethers.c) which has been forked into the nss-ldapd library. Copyright (C) 1997-2005 Luke Howard Copyright (C) 2006 West Consulting Copyright (C) 2006, 2007 Arthur de Jong This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 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 Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #include "config.h" #include #include #include #ifdef HAVE_NETINET_ETHER_H #include #endif #include "common.h" #include "log.h" #include "myldap.h" #include "cfg.h" #include "attmap.h" #ifndef HAVE_STRUCT_ETHER_ADDR struct ether_addr { u_int8_t ether_addr_octet[6]; }; #endif /* ( nisSchema.2.11 NAME 'ieee802Device' SUP top AUXILIARY * DESC 'A device with a MAC address; device SHOULD be * used as a structural class' * MAY macAddress ) */ /* the search base for searches */ const char *ether_base = NULL; /* the search scope for searches */ int ether_scope = LDAP_SCOPE_DEFAULT; /* the basic search filter for searches */ const char *ether_filter = "(objectClass=ieee802Device)"; /* the attributes to request with searches */ const char *attmap_ether_cn = "cn"; const char *attmap_ether_macAddress = "macAddress"; /* the attribute list to request with searches */ static const char *ether_attrs[3]; /* create a search filter for searching an ethernet address by name, return -1 on errors */ static int mkfilter_ether_byname(const char *name, char *buffer,size_t buflen) { char buf2[1024]; /* escape attribute */ if(myldap_escape(name,buf2,sizeof(buf2))) return -1; /* build filter */ return mysnprintf(buffer,buflen, "(&%s(%s=%s))", ether_filter, attmap_ether_cn,buf2); } static int mkfilter_ether_byether(const struct ether_addr *addr, char *buffer,size_t buflen) { char buf2[20]; /* transform into string */ if (ether_ntoa_r(addr,buf2)==NULL) return -1; /* FIXME: this has a bug when the directory has 01:00:0e:... and we're looking for 1:0:e:... (leading zeros) */ /* there should be no characters that need escaping */ /* build filter */ return mysnprintf(buffer,buflen, "(&%s(%s=%s))", ether_filter, attmap_ether_macAddress,buf2); } static void ether_init(void) { /* set up base */ if (ether_base==NULL) ether_base=nslcd_cfg->ldc_base; /* set up scope */ if (ether_scope==LDAP_SCOPE_DEFAULT) ether_scope=nslcd_cfg->ldc_scope; /* set up attribute list */ ether_attrs[0]=attmap_ether_cn; ether_attrs[1]=attmap_ether_macAddress; ether_attrs[2]=NULL; } /* TODO: check for errors in aton() */ #define WRITE_ETHER(fp,addr) \ ether_aton_r(addr,&tmpaddr); \ WRITE_TYPE(fp,tmpaddr,u_int8_t[6]); static int write_ether(TFILE *fp,MYLDAP_ENTRY *entry, const char *reqname,const char *reqether) { int32_t tmpint32; struct ether_addr tmpaddr; const char *tmparr[2]; const char **names,**ethers; int i,j; /* get the name of the ether entry */ if (reqname!=NULL) { names=tmparr; names[0]=reqname; names[1]=NULL; } else { names=myldap_get_values(entry,attmap_ether_cn); if ((names==NULL)||(names[0]==NULL)) { log_log(LOG_WARNING,"ether entry %s does not contain %s value", myldap_get_dn(entry),attmap_ether_cn); return 0; } } /* get the addresses */ if (reqether!=NULL) { ethers=tmparr; ethers[0]=reqether; ethers[1]=NULL; } else { ethers=myldap_get_values(entry,attmap_ether_macAddress); if ((ethers==NULL)||(ethers[0]==NULL)) { log_log(LOG_WARNING,"ether entry %s does not contain %s value", myldap_get_dn(entry),attmap_ether_macAddress); return 0; } /* TODO: move parsing of addresses up here */ } /* write entries for all names and addresses */ for (i=0;names[i]!=NULL;i++) for (j=0;ethers[j]!=NULL;j++) { WRITE_INT32(fp,NSLCD_RESULT_SUCCESS); WRITE_STRING(fp,names[i]); WRITE_ETHER(fp,ethers[j]); } return 0; } NSLCD_HANDLE( ether,byname, char name[256]; char filter[1024]; READ_STRING_BUF2(fp,name,sizeof(name));, log_log(LOG_DEBUG,"nslcd_ether_byname(%s)",name);, NSLCD_ACTION_ETHER_BYNAME, mkfilter_ether_byname(name,filter,sizeof(filter)), write_ether(fp,entry,name,NULL) ) NSLCD_HANDLE( ether,byether, struct ether_addr addr; char ether[20]; char filter[1024]; READ_TYPE(fp,addr,u_int8_t[6]); if (ether_ntoa_r(&addr,ether)==NULL) return -1;, log_log(LOG_DEBUG,"nslcd_ether_byether(%s)",ether);, NSLCD_ACTION_ETHER_BYETHER, mkfilter_ether_byether(&addr,filter,sizeof(filter)), write_ether(fp,entry,NULL,ether) ) NSLCD_HANDLE( ether,all, const char *filter; /* no parameters to read */, log_log(LOG_DEBUG,"nslcd_ether_all()");, NSLCD_ACTION_ETHER_ALL, (filter=ether_filter,0), write_ether(fp,entry,NULL,NULL) )