/* centipede.c - generate and install indexing information (view w/tabstop=4) */ #include "portable.h" #include #include #include #include #include #include /* get link(), unlink() */ #include #include #include #define DEFAULT_LDAPFILTER "(objectclass=*)" #define CENTROID_VALUE 1 #define CENTROID_WORD 2 #define CENTROID_RELATIVE 1 #define CENTROID_FULL 2 #define WORD_BREAKS " -',.()!;:&$%*\"/\\+_<>=?[]|^~" char *centdir; int ldbmcachesize; int centroidvalues; int centroidtype; int doweights; char *ldaphost; char *srcldapbinddn; char *srcldappasswd; char *destldapbinddn; char *destldappasswd; char *ldapbase; int srcldapauthmethod; int destldapauthmethod; int verbose; int not; static LDAP *start_ldap_search(char *ldapsrcurl, char *ldapfilter, char **attrs); static LDAP *bind_to_destination_ldap(char *ldapsrcurl, char *ldapdesturl); static int create_tmp_files(char **attrs, char ***tmpfile, LDBM **ldbm); static int generate_new_centroids(LDAP *ld, char **attrs, LDBM *ldbm); static LDAPMod **diff_centroids(char *attr, LDBM oldbm, LDBM nldbm, int nentries); static LDAPMod **full_centroid(char *attr, LDBM ldbm, int nentries); static char **charray_add_dup(char ***a, int *cur, int *max, char *s); static void usage( char *name ) { fprintf( stderr, "usage: %s [options] -s url -d url attributes\n", name ); fprintf( stderr, "where:\n" ); fprintf( stderr, "\t-s url\t\t[[ldap://][host[:port]]/]searchbasedn\n"); fprintf( stderr, "\t-d url\t\t[[ldap://][host[:port]]/]centroidentrydn\n"); fprintf( stderr, "options:\n" ); fprintf( stderr, "\t-v \t\tturn on verbose mode\n" ); fprintf( stderr, "\t-n \t\tgenerate, but do not install index info\n" ); fprintf( stderr, "\t-f filter\tentry selection filter\n" ); fprintf( stderr, "\t-F \t\tgenerate a full centroid\n" ); fprintf( stderr, "\t-R \t\tgenerate a relative centroid\n" ); fprintf( stderr, "\t-w \t\tgenerate a word-based centroid\n" ); fprintf( stderr, "\t-t directory\tcentroid directory\n" ); fprintf( stderr, "\t-b binddn\tsource bind dn\n" ); fprintf( stderr, "\t-p passwd\tsource bind passwd (for simple auth)\n" ); fprintf( stderr, "\t-m authmethod\tsource authmethod \"simple\" or \"kerberos\"\n" ); fprintf( stderr, "\t-B binddn\tdestination bind dn\n" ); fprintf( stderr, "\t-P passwd\tdestination bind passwd (for simple auth)\n" ); fprintf( stderr, "\t-M authmethod\tdestination authmethod \"simple\" or \"kerberos\"\n" ); fprintf( stderr, "\t-c size\t\tldbm cache size\n" ); } int main( int argc, char **argv ) { char *ldapfilter; char *ldapsrcurl, *ldapdesturl; LDAP *ld; LDAPMod **mods; char **attrs; char **tmpfile; LDBM *ldbm; LDBM oldbm; char buf[BUFSIZ]; int i, j, k, count; char *s; ldapsrcurl = NULL; ldapdesturl = NULL; ldaphost = NULL; ldapbase = NULL; srcldapauthmethod = LDAP_AUTH_SIMPLE; destldapauthmethod = LDAP_AUTH_SIMPLE; srcldapbinddn = NULL; srcldappasswd = NULL; destldapbinddn = NULL; destldappasswd = NULL; ldapfilter = DEFAULT_LDAPFILTER; centroidvalues = CENTROID_VALUE; centroidtype = CENTROID_RELATIVE; centdir = NULL; tmpfile = NULL; ldbmcachesize = 0; while ( (i = getopt( argc, argv, "s:d:c:b:B:f:FRWp:P:m:M:t:vwn" )) != EOF ) { switch ( i ) { case 's': /* source url [[ldap://][host[:port]]/]basedn */ ldapsrcurl = strdup( optarg ); break; case 'd': /* destination url [[ldap://][host[:port]]/]entrydn */ ldapdesturl = strdup( optarg ); break; case 'f': /* specify a filter */ ldapfilter = strdup( optarg ); break; case 'F': /* generate full centroid */ centroidtype = CENTROID_FULL; break; case 'R': /* generate relative centroid */ centroidtype = CENTROID_RELATIVE; break; case 'w': /* generate word centroid */ centroidvalues = CENTROID_WORD; break; case 'W': /* generate weights */ doweights = 1; break; case 't': /* temp file directory */ centdir = strdup( optarg ); break; case 'b': /* src bind dn */ srcldapbinddn = strdup( optarg ); break; case 'p': /* src bind password */ srcldappasswd = strdup( optarg ); while ( *optarg ) *optarg++ = 'x'; break; case 'B': /* dest bind dn */ destldapbinddn = strdup( optarg ); break; case 'P': /* dest bind password */ destldappasswd = strdup( optarg ); while ( *optarg ) *optarg++ = 'x'; break; case 'm': /* src bind method */ if ( strcasecmp( optarg, "simple" ) == 0 ) { srcldapauthmethod = LDAP_AUTH_SIMPLE; } else if ( strcasecmp( optarg, "kerberos" ) == 0 ) { srcldapauthmethod = LDAP_AUTH_KRBV4; } else { fprintf( stderr, "%s: unknown auth method\n", optarg ); fputs( "expecting \"simple\" or \"kerberos\"\n", stderr ); exit( 1 ); } break; case 'M': /* dest bind method */ if ( strcasecmp( optarg, "simple" ) == 0 ) { destldapauthmethod = LDAP_AUTH_SIMPLE; } else if ( strcasecmp( optarg, "kerberos" ) == 0 ) { destldapauthmethod = LDAP_AUTH_KRBV4; } else { fprintf( stderr, "%s: unknown auth method\n", optarg ); fputs( "expecting \"simple\" or \"kerberos\"\n", stderr ); exit( 1 ); } break; case 'c': /* ldbm cache size */ ldbmcachesize = atoi( optarg ); break; case 'v': /* turn on verbose mode */ verbose++; break; case 'n': /* don't actually install index info */ not++; break; default: usage( argv[0] ); exit( 1 ); } } if ( optind == argc || ldapsrcurl == NULL || ldapdesturl == NULL ) { usage( argv[0] ); exit( 1 ); } attrs = &argv[optind]; /* * open the ldap connection and start searching for the entries * we will use to generate the centroids. */ if ( (ld = start_ldap_search( ldapsrcurl, ldapfilter, attrs )) == NULL ) { fprintf( stderr, "could not initiate ldap search\n" ); exit( 1 ); } if ( create_tmp_files( attrs, &tmpfile, &ldbm ) != 0 ) { fprintf( stderr, "could not create temp files\n" ); exit( 1 ); } /* * go through the entries returned, building a centroid for each * attribute as we go. */ if ( (count = generate_new_centroids( ld, attrs, ldbm )) < 1 ) { if ( count == 0 ) { fprintf( stderr, "no entries matched\n" ); exit( 0 ); } else { fprintf( stderr, "could not generate new centroid\n" ); exit( 1 ); } } /* * for each centroid we generated above, compare to the existing * centroid, if any, and produce adds and deletes, or produce * an entirely new centroid. in either case, update the "current" * centroid version with the new one we just generated. */ if ( (ld = bind_to_destination_ldap( ldapsrcurl, ldapdesturl )) == NULL ) { fprintf( stderr, "could not bind to index server, or could not create index entry\n" ); exit( 1 ); } for ( i = 0; ldbm[i] != NULL; i++ ) { /* generate the name of the existing centroid, if any */ s = strrchr( tmpfile[i], '/' ); *s = '\0'; sprintf( buf, "%s/cent.%s", tmpfile[i], attrs[i] ); *s = '/'; /* generate the full centroid changes */ if ( centroidtype == CENTROID_FULL || (oldbm = ldbm_open( buf, LDBM_WRITER, 0, ldbmcachesize )) == NULL ) { if ( (mods = full_centroid( attrs[i], ldbm[i], count )) == NULL ) { fprintf( stderr, "could not produce full centroid for %s\n", attrs[i] ); continue; } /* generate the differential centroid changes */ } else { if ( (mods = diff_centroids( attrs[i], oldbm, ldbm[i], count )) == NULL ) { fprintf( stderr, "could not diff centroids\n" ); ldbm_close( oldbm ); continue; } ldbm_close( oldbm ); } if ( verbose > 1 ) { printf("changes:\n"); for ( j = 0; mods[j] != NULL; j++ ) { switch( mods[j]->mod_op ) { case LDAP_MOD_ADD: printf( "\tadd: %s\n",mods[j]->mod_type ); break; case LDAP_MOD_DELETE: printf( "\tdelete: %s\n",mods[j]->mod_type ); break; case LDAP_MOD_REPLACE: printf( "\treplace: %s\n",mods[j]->mod_type ); break; } if ( mods[j]->mod_values != NULL ) { for ( k = 0; mods[j]->mod_values[k] != NULL; k++ ) { printf( "\t\t%s\n", mods[j]->mod_values[k] ); } } } printf("end changes:\n"); } if ( verbose ) { printf( "%sModifying centroid...", not ? "Not " : "" ); fflush( stdout ); } /* attempt to make the changes to the index server entry */ if ( !not && ldap_modify_s( ld, ldapbase, mods ) != LDAP_SUCCESS ) { fprintf( stderr, "could not apply centroid modification for %s\n", attrs[i] ); ldap_perror( ld, ldapbase ); } ldap_mods_free( mods, 1 ); if ( verbose ) { printf( "\n" ); fflush( stdout ); } /* move the new centroid into the old one's place */ if ( ! not ) { (void) unlink( buf ); if ( link( tmpfile[i], buf ) != 0 ) { perror( "link" ); fprintf( stderr, "could not rename %s to %s\n", buf, tmpfile[i] ); continue; } } (void) unlink( tmpfile[i] ); } /* clean up */ for ( i = 0; attrs[i] != NULL; i++ ) { ldbm_close( ldbm[i] ); free( tmpfile[i] ); } free( ldbm ); free( tmpfile ); exit( 0 ); } /* * open an ldap connection, bind, and initiate the search */ static LDAP * start_ldap_search( char *ldapsrcurl, char *ldapfilter, char **attrs ) { LDAP *ld; char *s, *s2; int i; if ( strncmp( ldapsrcurl, "ldap://", 7 ) != 0 ) { fputs( "Not an LDAP URL", stderr ); /* Should be smarter? */ return( NULL ); } s = ldapsrcurl + 7; if ( (s2 = strchr( s, '/' )) == NULL ) { ldapbase = strdup( s ); } else { if ( *s != '/' ) { *s2 = '\0'; ldaphost = strdup( s ); *s2 = '/'; } ldapbase = strdup( s2 + 1 ); } if ( verbose ) { printf( "Base: %s\n", ldapbase ); printf( "Attributes:" ); for ( i = 0; attrs[i] != NULL; i++ ) { printf( " %s", attrs[i] ); } printf( "\n" ); printf( "Binding to source LDAP server..." ); fflush( stdout ); } if ( (ld = ldap_open( ldaphost, 0 )) == NULL ) { perror( "ldap_open" ); return( NULL ); } if ( ldap_bind_s( ld, srcldapbinddn, srcldappasswd, srcldapauthmethod ) != LDAP_SUCCESS) { ldap_perror( ld, "ldap_bind_s" ); ldap_unbind( ld ); return( NULL ); } printf( "\nInitiating search..." ); if ( ldap_search( ld, ldapbase, LDAP_SCOPE_SUBTREE, ldapfilter, attrs, 0 ) == -1 ) { ldap_perror( ld, "ldap_search" ); ldap_unbind( ld ); return( NULL ); } if ( verbose ) { printf( "\n" ); } return( ld ); } /* * create the temporary ldbm files we will use to hold the new centroids */ static int create_tmp_files( char **attrs, char ***tmpfile, LDBM **ldbm ) { int i; for ( i = 0; attrs[i] != NULL; i++ ) ; /* NULL */ i++; if ( (*tmpfile = (char **) malloc( i * sizeof(char *) )) == NULL ) { perror( "malloc" ); return( -1 ); } if ( (*ldbm = (LDBM *) malloc( i * sizeof(LDBM) )) == NULL ) { perror( "malloc" ); return( -1 ); } for ( i = 0; attrs[i] != NULL; i++ ) { if ( ((*tmpfile)[i] = tempnam( centdir, NULL )) == NULL ) { perror( "tmpnam" ); return( -1 ); } if ( ((*ldbm)[i] = ldbm_open( (*tmpfile)[i], LDBM_WRCREAT, 0600, ldbmcachesize )) == NULL ) { fprintf( stderr, "ldbm_open of \"%s\" failed\n", (*tmpfile)[i] ); perror( "ldbm_open" ); return( -1 ); } } (*tmpfile)[i] = NULL; (*ldbm)[i] = NULL; return( 0 ); } /* * step through each entry returned from the search and generate * the appropriate centroid values. */ static int generate_new_centroids( LDAP *ld, char **attrs, LDBM *ldbm ) { Datum key, data; int rc, i, j, count; LDAPMessage *res, *e; char *dn, *s, *w; char **val; char last; if ( verbose ) { printf( "Generating new centroids for..." ); fflush( stdout ); } data.dptr = ""; data.dsize = 1; count = 0; while ( (rc = ldap_result( ld, LDAP_RES_ANY, 0, NULL, &res )) == LDAP_RES_SEARCH_ENTRY ) { count++; e = ldap_first_entry( ld, res ); dn = ldap_get_dn( ld, e ); /* for each attr we want to generate a centroid for */ for ( i = 0; attrs[i] != NULL; i++ ) { if ( (val = ldap_get_values( ld, e, attrs[i] )) == NULL ) { continue; } /* for each value */ for ( j = 0; val[j] != NULL; j++ ) { /* normalize the value */ for ( s = val[j]; *s; s++ ) { if ( isascii( *s ) ) { *s = TOLOWER( *s ); } last = *s; } if ( isascii( last ) && isdigit( last ) ) { continue; } /* generate a value-based centroid */ if ( centroidvalues == CENTROID_VALUE ) { key.dptr = val[j]; key.dsize = strlen( key.dptr ) + 1; (void) ldbm_store( ldbm[i], key, data, LDBM_INSERT ); /* generate a word-based centroid */ } else { for ( w = strtok( val[j], WORD_BREAKS ); w != NULL; w = strtok( NULL, WORD_BREAKS ) ) { key.dptr = w; key.dsize = strlen( key.dptr ) + 1; (void) ldbm_store( ldbm[i], key, data, LDBM_INSERT ); } } } ldap_value_free( val ); } free( dn ); ldap_msgfree( res ); } ldap_msgfree( res ); ldap_unbind( ld ); if ( verbose ) { printf( "%d entries\n", count ); } return( count ); } /* * compare the old and new centroids, generating the appropriate add * and delete operations. if the underlying database is ordered, we * can do this more efficiently. */ static LDAPMod ** diff_centroids( char *attr, LDBM oldbm, LDBM nldbm, int nentries ) { Datum okey, nkey; Datum olast, nlast; Datum lastkey, key; Datum data; LDAPMod **mods; char **avals, **dvals; int amax, acur, dmax, dcur; char **vals; #ifdef HAVE_BERKELEY_DB2 DBC *ocursorp; DBC *ncursorp; #endif /* HAVE_BERKELEY_DB2 */ if ( verbose ) { printf( "Generating mods for differential %s centroid...", attr ); fflush( stdout ); } if ( (mods = (LDAPMod **) malloc( sizeof(LDAPMod *) * 4 )) == NULL || (mods[0] = (LDAPMod *) malloc( sizeof(LDAPMod) )) == NULL || (mods[1] = (LDAPMod *) malloc( sizeof(LDAPMod) )) == NULL || (mods[2] = (LDAPMod *) malloc( sizeof(LDAPMod) )) == NULL || (vals = (char **) malloc( 2 * sizeof(char *) )) == NULL || (vals[0] = (char *) malloc( 20 )) == NULL ) { perror( "malloc" ); exit( -1 ); } /* add values in mods[0] */ mods[0]->mod_op = LDAP_MOD_ADD; mods[0]->mod_type = attr; mods[0]->mod_values = NULL; avals = NULL; acur = amax = 0; /* delete values in mods[1] */ mods[1]->mod_op = LDAP_MOD_DELETE; mods[1]->mod_type = attr; mods[1]->mod_values = NULL; dvals = NULL; dcur = dmax = 0; /* number of entries in mods[2] */ sprintf( vals[0], "%d", nentries ); vals[1] = NULL; mods[2]->mod_op = LDAP_MOD_REPLACE; mods[2]->mod_type = "nentries"; mods[2]->mod_values = vals; /* null terminate list of mods */ mods[3] = NULL; #ifdef LDBM_ORDERED /* * if the underlying database is ordered, we can do a more efficient * dual traversal, yielding O(N) performance. */ olast.dptr = NULL; nlast.dptr = NULL; #ifdef HAVE_BERKELEY_DB2 for ( okey = ldbm_firstkey( oldbm, &ocursorp ), nkey = ldbm_firstkey( nldbm, &ncursorp ); okey.dptr != NULL && nkey.dptr != NULL; ) #else for ( okey = ldbm_firstkey( oldbm ), nkey = ldbm_firstkey( nldbm ); okey.dptr != NULL && nkey.dptr != NULL; ) #endif { int rc = strcmp( okey.dptr, nkey.dptr ); if ( rc == 0 ) { /* value is in both places - leave it */ if ( olast.dptr != NULL ) { ldbm_datum_free( oldbm, olast ); } olast = okey; if ( nlast.dptr != NULL ) { ldbm_datum_free( nldbm, nlast ); } nlast = nkey; #ifdef HAVE_BERKELEY_DB2 okey = ldbm_nextkey( oldbm, olast, ocursorp ); nkey = ldbm_nextkey( nldbm, nlast, ncursorp ); #else okey = ldbm_nextkey( oldbm, olast ); nkey = ldbm_nextkey( nldbm, nlast ); #endif } else if ( rc > 0 ) { /* new value is not in old centroid - add it */ if ( charray_add_dup( &avals, &acur, &amax, nkey.dptr ) == NULL ) { ldap_mods_free( mods, 1 ); return( NULL ); } if ( nlast.dptr != NULL ) { ldbm_datum_free( nldbm, nlast ); } nlast = nkey; #ifdef HAVE_BERKELEY_DB2 nkey = ldbm_nextkey( nldbm, nlast, ncursorp ); #else nkey = ldbm_nextkey( nldbm, nlast ); #endif } else { /* old value is not in new centroid - delete it */ if ( charray_add_dup( &dvals, &dcur, &dmax, okey.dptr ) == NULL ) { ldap_mods_free( mods, 1 ); return( NULL ); } if ( olast.dptr != NULL ) { ldbm_datum_free( oldbm, olast ); } olast = okey; #ifdef HAVE_BERKELEY_DB2 okey = ldbm_nextkey( oldbm, olast, ocursorp ); #else okey = ldbm_nextkey( oldbm, olast ); #endif } } while ( okey.dptr != NULL ) { if ( charray_add_dup( &dvals, &dcur, &dmax, okey.dptr ) == NULL ) { ldap_mods_free( mods, 1 ); return( NULL ); } #ifdef HAVE_BERKELEY_DB2 okey = ldbm_nextkey( oldbm, olast, ocursorp ); #else okey = ldbm_nextkey( oldbm, olast ); #endif if ( olast.dptr != NULL ) { ldbm_datum_free( oldbm, olast ); } olast = okey; } if ( olast.dptr != NULL ) { ldbm_datum_free( oldbm, olast ); } while ( nkey.dptr != NULL ) { if ( charray_add_dup( &avals, &acur, &amax, nkey.dptr ) == NULL ) { ldap_mods_free( mods, 1 ); return( NULL ); } #ifdef HAVE_BERKELEY_DB2 nkey = ldbm_nextkey( nldbm, nlast, ncursorp ); #else nkey = ldbm_nextkey( nldbm, nlast ); #endif if ( nlast.dptr != NULL ) { ldbm_datum_free( nldbm, nlast ); } nlast = nkey; } if ( nlast.dptr != NULL ) { ldbm_datum_free( nldbm, nlast ); } #else /* * if the underlying database is not ordered, we have to * generate list of values to add by stepping through all new * values and looking them up in the old centroid (not there => add), * then stepping through all old values and looking them up in the * new centroid (not there => delete). this yields O(Nf(N)) performance, * where f(N) is the order to retrieve a single item. */ /* generate list of values to add */ lastkey.dptr = NULL; #ifdef HAVE_BERKELEY_DB2 for ( key = ldbm_firstkey( nldbm, &ncursorp ); key.dptr != NULL; key = ldbm_nextkey( nldbm, lastkey, ncursorp ) ) #else for ( key = ldbm_firstkey( nldbm ); key.dptr != NULL; key = ldbm_nextkey( nldbm, lastkey ) ) #endif { /* see if it's in the old one */ data = ldbm_fetch( oldbm, key ); /* not there - add it */ if ( data.dptr == NULL ) { if ( charray_add_dup( &avals, &acur, &amax, key.dptr ) == NULL ) { ldap_mods_free( mods, 1 ); return( NULL ); } } else { ldbm_datum_free( oldbm, data ); } if ( lastkey.dptr != NULL ) { ldbm_datum_free( nldbm, lastkey ); } lastkey = key; } if ( lastkey.dptr != NULL ) { ldbm_datum_free( nldbm, lastkey ); } /* generate list of values to delete */ lastkey.dptr = NULL; #ifdef HAVE_BERKELEY_DB2 for ( key = ldbm_firstkey( oldbm, &ocursorp ); key.dptr != NULL; key = ldbm_nextkey( oldbm, lastkey, ocursorp ) ) #else for ( key = ldbm_firstkey( oldbm ); key.dptr != NULL; key = ldbm_nextkey( oldbm, lastkey ) ) #endif { /* see if it's in the new one */ data = ldbm_fetch( nldbm, key ); /* not there - delete it */ if ( data.dptr == NULL ) { if ( charray_add_dup( &dvals, &dcur, &dmax, key.dptr ) == NULL ) { ldap_mods_free( mods, 1 ); return( NULL ); } } else { ldbm_datum_free( nldbm, data ); } if ( lastkey.dptr != NULL ) { ldbm_datum_free( oldbm, lastkey ); } lastkey = key; } if ( lastkey.dptr != NULL ) { ldbm_datum_free( oldbm, lastkey ); } #endif mods[0]->mod_values = avals; mods[1]->mod_values = dvals; if ( verbose ) { printf( "\n" ); fflush( stdout ); } if ( mods[1]->mod_values == NULL ) { free( (char *) mods[1] ); mods[1] = NULL; } if ( mods[0]->mod_values == NULL ) { free( (char *) mods[0] ); mods[0] = mods[1]; mods[1] = NULL; } if ( mods[0] == NULL ) { free( (char *) mods ); return( NULL ); } else { return( mods ); } } static LDAPMod ** full_centroid( char *attr, LDBM ldbm, int nentries ) { Datum key, lastkey; LDAPMod **mods; char **vals; int vcur, vmax; #ifdef HAVE_BERKELEY_DB2 DBC *cursorp; #endif if ( verbose ) { printf( "Generating mods for full %s centroid...", attr ); fflush( stdout ); } if ( (mods = (LDAPMod **) malloc( sizeof(LDAPMod *) * 3 )) == NULL || (mods[0] = (LDAPMod *) malloc( sizeof(LDAPMod) )) == NULL || (mods[1] = (LDAPMod *) malloc( sizeof(LDAPMod) )) == NULL || (vals = (char **) malloc( 2 * sizeof(char *) )) == NULL || (vals[0] = (char *) malloc( 20 )) == NULL ) { perror( "malloc" ); exit( -1 ); } mods[0]->mod_op = LDAP_MOD_REPLACE; mods[0]->mod_type = attr; mods[0]->mod_values = NULL; sprintf( vals[0], "%d", nentries ); vals[1] = NULL; mods[1]->mod_op = LDAP_MOD_REPLACE; mods[1]->mod_type = "nentries"; mods[1]->mod_values = vals; mods[2] = NULL; lastkey.dptr = NULL; vals = NULL; vcur = vmax = 0; #ifdef HAVE_BERKELEY_DB2 for ( key = ldbm_firstkey( ldbm, &cursorp ); key.dptr != NULL; key = ldbm_nextkey( ldbm, lastkey, cursorp ) ) #else for ( key = ldbm_firstkey( ldbm ); key.dptr != NULL; key = ldbm_nextkey( ldbm, lastkey ) ) #endif { if ( charray_add_dup( &vals, &vcur, &vmax, key.dptr ) == NULL ) { ldap_mods_free( mods, 1 ); return( NULL ); } if ( lastkey.dptr != NULL ) { ldbm_datum_free( ldbm, lastkey ); } lastkey = key; } if ( lastkey.dptr != NULL ) { ldbm_datum_free( ldbm, lastkey ); } mods[0]->mod_values = vals; if ( verbose ) { printf( "\n" ); fflush( stdout ); } if ( mods[0]->mod_values == NULL ) { free( (char *) mods[0] ); free( (char *) mods ); return( NULL ); } else { return( mods ); } } /* * extract the destination ldap host, port, and base object for the * server to receive the index information. then, open a connection, * bind, and see if the entry exists. if not, create it and set things * up so the centroid full and diff routines can modify it to contain * the new centroid information. */ static LDAP * bind_to_destination_ldap( char *ldapsrcurl, char *ldapdesturl ) { LDAP *ld; LDAPMessage *res; int rc; char *s, *s2, *d; char *attrs[2], *refvalues[2], *ocvalues[2]; LDAPMod *mp[3]; LDAPMod m[2]; char buf[BUFSIZ]; if ( verbose ) { printf( "Binding to destination LDAP server..." ); fflush( stdout ); } /* first, pick out the destination ldap server info */ if ( ldapbase != NULL ) { free( ldapbase ); ldapbase = NULL; } if ( strncmp( ldapdesturl, "ldap://", 7 ) != 0 ) { fputs( "Not an LDAP URL", stderr ); /* Should be smarter? */ return( NULL ); } s = ldapdesturl + 7; if ( (s2 = strchr( s, '/' )) == NULL ) { ldapbase = strdup( s ); } else { if ( *s != '/' ) { *s2 = '\0'; if ( ldaphost != NULL ) free( ldaphost ); ldaphost = strdup( s ); *s2 = '/'; } ldapbase = strdup( s2 + 1 ); } strcpy( buf, "ref=" ); if ( strpbrk( ldapsrcurl, " ,;" ) != NULL ) { strcat( buf, "\"" ); } for ( s = d = ldapsrcurl; *s; s++ ) { if ( *s != '"' ) { *d++ = *s; } } *d = '\0'; strcat( buf, ldapsrcurl ); if ( strpbrk( ldapsrcurl, " ,;" ) != NULL ) { strcat( buf, "\"" ); } strcat( buf, ", " ); strcat( buf, ldapbase ); free( ldapbase ); ldapbase = strdup( buf ); if ( (ld = ldap_open( ldaphost, 0 )) == NULL ) { perror( "ldap_open" ); return( NULL ); } if ( ldap_bind_s( ld, destldapbinddn, destldappasswd, destldapauthmethod ) != LDAP_SUCCESS) { ldap_perror( ld, "ldap_bind_s" ); ldap_unbind( ld ); return( NULL ); } if ( verbose ) { printf( "\n" ); } attrs[0] = "c"; attrs[1] = NULL; rc = ldap_search_s( ld, ldapbase, LDAP_SCOPE_BASE, "(objectclass=*)", attrs, 0, &res ); ldap_msgfree( res ); if ( rc == LDAP_NO_SUCH_OBJECT ) { if ( verbose ) { printf( "%sCreating centroid entry...", not ? "Not " : "" ); fflush( stdout ); } /* create the centroid index entry */ m[0].mod_op = 0; m[0].mod_type = "ref"; refvalues[0] = ldapsrcurl; refvalues[1] = NULL; m[0].mod_values = refvalues; m[1].mod_op = 0; m[1].mod_type = "objectclass"; ocvalues[0] = "indexentry"; ocvalues[1] = NULL; m[1].mod_values = ocvalues; mp[0] = &m[0]; mp[1] = &m[1]; mp[2] = NULL; if ( !not && ldap_add_s( ld, ldapbase, mp ) != LDAP_SUCCESS ) { ldap_perror( ld, ldapbase ); ldap_unbind( ld ); return( NULL ); } if ( verbose ) { printf( "\n" ); fflush( stdout ); } } else if ( rc != LDAP_SUCCESS ) { ldap_perror( ld, "ldap_search_s" ); ldap_unbind( ld ); return( NULL ); } return( ld ); } static char ** charray_add_dup( char ***a, int *cur, int *max, char *s ) { int n; if ( *a == NULL ) { *a = (char **) malloc( (BUFSIZ + 1) * sizeof(char *) ); *cur = 0; *max = BUFSIZ; } else if ( *cur >= *max ) { *max += BUFSIZ; *a = (char **) realloc( *a, (*max + 1) * sizeof(char *) ); } if ( *a == NULL ) { return( NULL ); } (*a)[(*cur)++] = strdup( s ); (*a)[*cur] = NULL; return( *a ); }