/* idl.c - ldap id list handling routines */ /* $OpenLDAP$ */ /* * Copyright 1998-2000 The OpenLDAP Foundation, All Rights Reserved. * COPYING RESTRICTIONS APPLY, see COPYRIGHT file */ #include "portable.h" #include #include #include "back-bdb.h" #include "idl.h" #define IDL_MAX(x,y) ( x > y ? x : y ) #define IDL_MIN(x,y) ( x < y ? x : y ) #define IDL_CMP(x,y) ( x < y ? -1 : ( x > y ? 1 : 0 ) ) #ifndef IDL_DEBUG /* enable basic checks for now */ #define IDL_DEBUG 1 #endif #if IDL_DEBUG > 0 static void idl_check( ID *ids ) { if( BDB_IDL_IS_RANGE( ids ) ) { assert( BDB_IDL_RANGE_FIRST(ids) <= BDB_IDL_RANGE_LAST(ids) ); } else { ID i; for( i=1; i < ids[0]; i++ ) { assert( ids[i+1] > ids[i] ); } } } #if IDL_DEBUG > 1 static void idl_dump( ID *ids ) { if( BDB_IDL_IS_RANGE( ids ) ) { Debug( LDAP_DEBUG_ANY, "IDL: range ( %ld - %ld )\n", (long) BDB_IDL_RANGE_FIRST( ids ), (long) BDB_IDL_RANGE_LAST( ids ) ); } else { ID i; Debug( LDAP_DEBUG_ANY, "IDL: size %ld", (long) ids[0], 0, 0 ); for( i=1; i<=ids[0]; i++ ) { if( i % 16 == 1 ) { Debug( LDAP_DEBUG_ANY, "\n", 0, 0, 0 ); } Debug( LDAP_DEBUG_ANY, " %02lx", (long) ids[i], 0, 0 ); } Debug( LDAP_DEBUG_ANY, "\n", 0, 0, 0 ); } idl_check( ids ); } #endif /* IDL_DEBUG > 1 */ #endif /* IDL_DEBUG > 0 */ unsigned bdb_idl_search( ID *ids, ID id ) { #define IDL_BINARY_SEARCH 1 #ifdef IDL_BINARY_SEARCH /* * binary search of id in ids * if found, returns position of id * if not found, returns first postion greater than id */ unsigned base = 0; unsigned cursor = 0; int val = 0; unsigned n = ids[0]; #if IDL_DEBUG > 0 idl_check( ids ); #endif while( 0 < n ) { int pivot = n >> 1; cursor = base + pivot; val = IDL_CMP( id, ids[cursor + 1] ); if( val < 0 ) { n = pivot; } else if ( val > 0 ) { base = cursor + 1; n -= pivot + 1; } else { return cursor + 1; } } if( val > 0 ) { return cursor + 2; } else { return cursor + 1; } #else /* (reverse) linear search */ int i; #if IDL_DEBUG > 0 idl_check( ids ); #endif for( i=ids[0]; i; i-- ) { if( id > ids[i] ) { break; } } return i+1; #endif } int bdb_idl_insert( ID *ids, ID id ) { unsigned x = bdb_idl_search( ids, id ); #if IDL_DEBUG > 1 Debug( LDAP_DEBUG_ANY, "insert: %04lx at %d\n", (long) id, x, 0 ); idl_dump( ids ); #elif IDL_DEBUG > 0 idl_check( ids ); #endif assert( x > 0 ); if( x < 1 ) { /* internal error */ return -2; } if ( x <= ids[0] && ids[x] == id ) { /* duplicate */ return -1; } if ( ++ids[0] >= BDB_IDL_DB_MAX ) { if( id < ids[1] ) { ids[1] = id; ids[2] = ids[ids[0]-1]; } else if ( ids[ids[0]-1] < id ) { ids[2] = id; } else { ids[2] = ids[ids[0]-1]; } ids[0] = NOID; } else { /* insert id */ AC_MEMCPY( &ids[x+1], &ids[x], (ids[0]-x) * sizeof(ID) ); ids[x] = id; } #if IDL_DEBUG > 1 idl_dump( ids ); #elif IDL_DEBUG > 0 idl_check( ids ); #endif return 0; } static int idl_delete( ID *ids, ID id ) { unsigned x = bdb_idl_search( ids, id ); #if IDL_DEBUG > 1 Debug( LDAP_DEBUG_ANY, "delete: %04lx at %d\n", (long) id, x, 0 ); idl_dump( ids ); #elif IDL_DEBUG > 0 idl_check( ids ); #endif assert( x > 0 ); if( x <= 0 ) { /* internal error */ return -2; } if( x > ids[0] || ids[x] != id ) { /* not found */ return -1; } else if ( --ids[0] == 0 ) { if( x != 1 ) { return -3; } } else { AC_MEMCPY( &ids[x], &ids[x+1], (1+ids[0]-x) * sizeof(ID) ); } #if IDL_DEBUG > 1 idl_dump( ids ); #elif IDL_DEBUG > 0 idl_check( ids ); #endif return 0; } int bdb_idl_fetch_key( BackendDB *be, DB *db, DB_TXN *tid, DBT *key, ID *ids ) { struct bdb_info *bdb = (struct bdb_info *) be->be_private; int rc; DBT data; assert( ids != NULL ); DBTzero( &data ); #ifdef BDB_IDL_MULTI { ID buf[BDB_IDL_UM_SIZE]; ID *i, *j; void *ptr; size_t len; data.data = buf; data.ulen = BDB_IDL_UM_SIZEOF; data.flags = DB_DBT_USERMEM; rc = db->get( db, tid, key, &data, bdb->bi_db_opflags | DB_MULTIPLE ); if (rc == 0) { DB_MULTIPLE_INIT( ptr, &data ); i = ids; while (ptr) { DB_MULTIPLE_NEXT(ptr, &data, j, len); if (j) { ++i; AC_MEMCPY( i, j, sizeof(ID) ); } } if (ids[1] == 0) { BDB_IDL_RANGE( ids, ids[2], ids[3] ); } else { ids[0] = (i - ids); } data.size = BDB_IDL_SIZEOF(ids); } } #else data.data = ids; data.ulen = BDB_IDL_UM_SIZEOF; data.flags = DB_DBT_USERMEM; /* fetch it */ rc = db->get( db, tid, key, &data, bdb->bi_db_opflags ); #endif if( rc == DB_NOTFOUND ) { return rc; } else if( rc != 0 ) { Debug( LDAP_DEBUG_ANY, "=> bdb_idl_fetch_key: " "get failed: %s (%d)\n", db_strerror(rc), rc, 0 ); return rc; } else if ( data.size == 0 || data.size % sizeof( ID ) ) { /* size not multiple of ID size */ Debug( LDAP_DEBUG_ANY, "=> bdb_idl_fetch_key: " "odd size: expected %ld multiple, got %ld\n", (long) sizeof( ID ), (long) data.size, 0 ); return -1; } else if ( data.size != BDB_IDL_SIZEOF(ids) ) { /* size mismatch */ Debug( LDAP_DEBUG_ANY, "=> bdb_idl_fetch_key: " "get size mismatch: expected %ld, got %ld\n", (long) ((1 + ids[0]) * sizeof( ID )), (long) data.size, 0 ); return -1; } return rc; } int bdb_idl_insert_key( BackendDB *be, DB *db, DB_TXN *tid, DBT *key, ID id ) { struct bdb_info *bdb = (struct bdb_info *) be->be_private; int rc; DBT data; #ifndef BDB_IDL_MULTI ID ids[BDB_IDL_DB_SIZE]; #endif /* for printable keys only */ Debug( LDAP_DEBUG_ARGS, "=> bdb_idl_insert_key: %s %ld\n", (char *)key->data, (long) id, 0 ); assert( id != NOID ); DBTzero( &data ); #ifdef BDB_IDL_MULTI /* FIXME: We really ought to count how many data items currently exist * for this key, and cap off with a range when we hit the max. We need * to use a 0 in the first slot to denote a range - since the data are * sorted in ascending order, the only way to get a flag into the * first slot is to use the smallest possible ID value. The fetch * function above can turn it into a "memory-format" range. We also * have to delete all of the existing data items when converting from * a list to a range. And of course, if it's already a range, we need * to read it in and process it instead of just doing the blind put * that we do right now... */ data.data = &id; data.size = sizeof(id); data.flags = DB_DBT_USERMEM; rc = db->put( db, tid, key, &data, DB_NODUPDATA ); #else data.data = ids; data.ulen = sizeof ids; data.flags = DB_DBT_USERMEM; /* fetch the key for read/modify/write */ rc = db->get( db, tid, key, &data, DB_RMW | bdb->bi_db_opflags ); if( rc == DB_NOTFOUND ) { ids[0] = 1; ids[1] = id; data.size = 2 * sizeof( ID ); } else if ( rc != 0 ) { Debug( LDAP_DEBUG_ANY, "=> bdb_idl_insert_key: " "get failed: %s (%d)\n", db_strerror(rc), rc, 0 ); return rc; } else if ( data.size == 0 || data.size % sizeof( ID ) ) { /* size not multiple of ID size */ Debug( LDAP_DEBUG_ANY, "=> bdb_idl_insert_key: " "odd size: expected %ld multiple, got %ld\n", (long) sizeof( ID ), (long) data.size, 0 ); return -1; } else if ( data.size != BDB_IDL_SIZEOF(ids) ) { /* size mismatch */ Debug( LDAP_DEBUG_ANY, "=> bdb_idl_insert_key: " "get size mismatch: expected %ld, got %ld\n", (long) ((1 + ids[0]) * sizeof( ID )), (long) data.size, 0 ); return -1; } else if ( BDB_IDL_IS_RANGE(ids) ) { if( id < ids[1] ) { ids[1] = id; } else if ( ids[2] > id ) { ids[2] = id; } else { return 0; } } else { rc = bdb_idl_insert( ids, id ); if( rc == -1 ) { Debug( LDAP_DEBUG_TRACE, "=> bdb_idl_insert_key: dup\n", 0, 0, 0 ); return 0; } if( rc != 0 ) { Debug( LDAP_DEBUG_ANY, "=> bdb_idl_insert_key: " "bdb_idl_insert failed (%d)\n", rc, 0, 0 ); return rc; } data.size = BDB_IDL_SIZEOF( ids ); } /* store the key */ rc = db->put( db, tid, key, &data, 0 ); #endif if( rc == DB_KEYEXIST ) rc = 0; if( rc != 0 ) { Debug( LDAP_DEBUG_ANY, "=> bdb_idl_insert_key: " "put failed: %s (%d)\n", db_strerror(rc), rc, 0 ); } return rc; } int bdb_idl_delete_key( BackendDB *be, DB *db, DB_TXN *tid, DBT *key, ID id ) { struct bdb_info *bdb = (struct bdb_info *) be->be_private; int rc; DBT data; #ifndef BDB_IDL_MULTI ID ids[BDB_IDL_DB_SIZE]; #endif /* for printable keys only */ Debug( LDAP_DEBUG_ARGS, "=> bdb_idl_delete_key: %s %ld\n", (char *)key->data, (long) id, 0 ); assert( id != NOID ); DBTzero( &data ); #ifdef BDB_IDL_MULTI { DBC *cursor; data.data = &id; data.size = sizeof( id ); data.ulen = data.size; data.flags = DB_DBT_USERMEM; rc = db->cursor( db, tid, &cursor, bdb->bi_db_opflags ); rc = cursor->c_get( cursor, key, &data, bdb->bi_db_opflags | DB_GET_BOTH | DB_RMW ); if (rc == 0) rc = cursor->c_del( cursor, 0 ); rc = cursor->c_close( cursor ); } #else data.data = ids; data.ulen = sizeof( ids ); data.flags = DB_DBT_USERMEM; /* fetch the key for read/modify/write */ rc = db->get( db, tid, key, &data, DB_RMW | bdb->bi_db_opflags ); if ( rc != 0 ) { Debug( LDAP_DEBUG_ANY, "=> bdb_idl_delete_key: " "get failed: %s (%d)\n", db_strerror(rc), rc, 0 ); return rc; } else if ( data.size == 0 || data.size % sizeof( ID ) ) { /* size not multiple of ID size */ Debug( LDAP_DEBUG_ANY, "=> bdb_idl_delete_key: " "odd size: expected %ld multiple, got %ld\n", (long) sizeof( ID ), (long) data.size, 0 ); return -1; } else if ( BDB_IDL_IS_RANGE(ids) ) { return 0; } else if ( data.size != (1 + ids[0]) * sizeof( ID ) ) { /* size mismatch */ Debug( LDAP_DEBUG_ANY, "=> bdb_idl_delete_key: " "get size mismatch: expected %ld, got %ld\n", (long) ((1 + ids[0]) * sizeof( ID )), (long) data.size, 0 ); return -1; } else { rc = idl_delete( ids, id ); if( rc != 0 ) { Debug( LDAP_DEBUG_ANY, "=> bdb_idl_delete_key: " "idl_delete failed (%d)\n", rc, 0, 0 ); return rc; } if( ids[0] == 0 ) { /* delete the key */ rc = db->del( db, tid, key, 0 ); if( rc != 0 ) { Debug( LDAP_DEBUG_ANY, "=> bdb_idl_delete_key: " "delete failed: %s (%d)\n", db_strerror(rc), rc, 0 ); } return rc; } data.size = (ids[0]+1) * sizeof( ID ); } /* store the key */ rc = db->put( db, tid, key, &data, 0 ); #endif /* BDB_IDL_MULTI */ if( rc != 0 ) { Debug( LDAP_DEBUG_ANY, "=> bdb_idl_delete_key: put failed: %s (%d)\n", db_strerror(rc), rc, 0 ); } return rc; } /* * idl_intersection - return a = a intersection b */ int bdb_idl_intersection( ID *a, ID *b ) { ID ida, idb; ID idmax, idmin; ID cursora = 0, cursorb = 0, cursorc; int swap = 0; if ( BDB_IDL_IS_ZERO( a ) || BDB_IDL_IS_ZERO( b ) ) { a[0] = 0; return 0; } idmin = IDL_MAX( BDB_IDL_FIRST(a), BDB_IDL_FIRST(b) ); idmax = IDL_MIN( BDB_IDL_LAST(a), BDB_IDL_LAST(b) ); if ( idmin > idmax ) { a[0] = 0; return 0; } else if ( idmin == idmax ) { a[0] = 1; a[1] = idmin; return 0; } if ( BDB_IDL_IS_RANGE( a ) && BDB_IDL_IS_RANGE(b) ) { a[1] = idmin; a[2] = idmax; return 0; } if ( BDB_IDL_IS_RANGE( a ) ) { ID *tmp = a; a = b; b = tmp; swap = 1; } if ( BDB_IDL_IS_RANGE( b ) && BDB_IDL_FIRST( b ) <= idmin && BDB_IDL_LAST( b ) >= idmax) { if (idmax - idmin + 1 == a[0]) { a[0] = NOID; a[1] = idmin; a[2] = idmax; } goto done; } ida = bdb_idl_first( a, &cursora ); idb = bdb_idl_first( b, &cursorb ); cursorc = 0; while( ida < idmin ) ida = bdb_idl_next( a, &cursora ); while( idb < idmin ) idb = bdb_idl_next( b, &cursorb ); while( ida <= idmax || idb <= idmax ) { if( ida == idb ) { a[++cursorc] = ida; ida = bdb_idl_next( a, &cursora ); idb = bdb_idl_next( b, &cursorb ); } else if ( ida < idb ) { ida = bdb_idl_next( a, &cursora ); } else { idb = bdb_idl_next( b, &cursorb ); } } a[0] = cursorc; done: if (swap) BDB_IDL_CPY( b, a ); return 0; } /* * idl_union - return a = a union b */ int bdb_idl_union( ID *a, ID *b ) { ID ida, idb; ID cursora = 0, cursorb = 0, cursorc; if ( BDB_IDL_IS_ZERO( b ) ) { return 0; } if ( BDB_IDL_IS_ZERO( a ) ) { BDB_IDL_CPY( a, b ); return 0; } if ( BDB_IDL_IS_RANGE( a ) || BDB_IDL_IS_RANGE(b) ) { over: a[1] = IDL_MIN( BDB_IDL_FIRST(a), BDB_IDL_FIRST(b) ); a[2] = IDL_MAX( BDB_IDL_LAST(a), BDB_IDL_LAST(b) ); return 0; } ida = bdb_idl_first( a, &cursora ); idb = bdb_idl_first( b, &cursorb ); cursorc = b[0]; /* The distinct elements of a are cat'd to b */ while( ida != NOID || idb != NOID ) { if ( ida < idb ) { if( ++cursorc > BDB_IDL_UM_MAX ) { a[0] = NOID; goto over; } b[cursorc] = ida; ida = bdb_idl_next( a, &cursora ); } else { if ( ida == idb ) ida = bdb_idl_next( a, &cursora ); idb = bdb_idl_next( b, &cursorb ); } } /* b is copied back to a in sorted order */ a[0] = cursorc; cursora = 1; cursorb = 1; cursorc = b[0]+1; while (cursorb <= b[0] || cursorc <= a[0]) { if (cursorc > a[0]) idb = NOID; else idb = b[cursorc]; if (b[cursorb] < idb) a[cursora++] = b[cursorb++]; else { a[cursora++] = idb; cursorc++; } } return 0; } #if 0 /* * bdb_idl_notin - return a intersection ~b (or a minus b) */ int bdb_idl_notin( ID *a, ID *b, ID *ids ) { ID ida, idb; ID cursora = 0, cursorb = 0; if( BDB_IDL_IS_ZERO( a ) || BDB_IDL_IS_ZERO( b ) || BDB_IDL_IS_RANGE( b ) ) { BDB_IDL_CPY( ids, a ); return 0; } if( BDB_IDL_IS_RANGE( a ) ) { BDB_IDL_CPY( ids, a ); return 0; } ida = bdb_idl_first( a, &cursora ), idb = bdb_idl_first( b, &cursorb ); ids[0] = 0; while( ida != NOID ) { if ( idb == NOID ) { /* we could shortcut this */ ids[++ids[0]] = ida; ida = bdb_idl_next( a, &cursora ); } else if ( ida < idb ) { ids[++ids[0]] = ida; ida = bdb_idl_next( a, &cursora ); } else if ( ida > idb ) { idb = bdb_idl_next( b, &cursorb ); } else { ida = bdb_idl_next( a, &cursora ); idb = bdb_idl_next( b, &cursorb ); } } return 0; } #endif ID bdb_idl_first( ID *ids, ID *cursor ) { ID pos; if ( ids[0] == 0 ) { *cursor = NOID; return NOID; } if ( BDB_IDL_IS_RANGE( ids ) ) { if( *cursor < ids[1] ) { *cursor = ids[1]; } return *cursor; } if ( *cursor == 0 ) pos = 1; else pos = bdb_idl_search( ids, *cursor ); if( pos > ids[0] ) { return NOID; } *cursor = pos; return ids[pos]; } ID bdb_idl_next( ID *ids, ID *cursor ) { if ( BDB_IDL_IS_RANGE( ids ) ) { if( ids[2] < ++(*cursor) ) { return NOID; } return *cursor; } if ( ++(*cursor) <= ids[0] ) { return ids[*cursor]; } return NOID; }