xref: /titanic_50/usr/src/lib/libnisdb/db_mindex_c.x (revision 694c35faa87b858ecdadfe4fc592615f4eefbb07)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 /*
22  *	db_mindex_c.x
23  *
24  * Copyright 2009 Sun Microsystems, Inc.  All rights reserved.
25  * Use is subject to license terms.
26  */
27 
28 #if RPC_HDR
29 %#ifndef _DB_MINDEX_H
30 %#define _DB_MINDEX_H
31 
32 #ifdef USINGC
33 %#include "db_vers_c.h"
34 %#include "db_table_c.h"
35 %#include "db_index_entry_c.h"
36 %#include "db_index_c.h"
37 %#include "db_scheme_c.h"
38 %#include "db_query_c.h"
39 #else
40 %#include "db_vers.h"
41 %#include "db_table.h"
42 %#include "db_index_entry.h"
43 %#include "db_index.h"
44 %#include "db_scheme.h"
45 %#include "db_query.h"
46 #endif /* USINGC */
47 %#include "ldap_parse.h"
48 %#include "nisdb_rw.h"
49 %#include "ldap_xdr.h"
50 #endif /* RPC_HDR */
51 
52 #if RPC_HDR
53 %struct db_next_index_desc {
54 %  entryp location;
55 %  struct db_next_index_desc *next;
56 
57 #ifndef USINGC
58 %  db_next_index_desc( entryp loc, struct db_next_index_desc *n )
59 %    { location = loc; next = n; }
60 #endif /* USINGC */
61 
62 %};
63 #endif /* RPC_HDR */
64 
65 
66 #if RPC_HDR || RPC_XDR
67 #ifdef USINGC
68 
69 struct db_mindex {
70   vers rversion;
71   db_index indices<>;                /* indices[num_indices] */
72   db_table *table;
73   db_scheme *scheme;
74   __nisdb_ptr_t objPath;
75   __nisdb_flag_t noWriteThrough;
76   __nisdb_flag_t noLDAPquery;
77   __nisdb_flag_t initialLoad;
78   __nisdb_ptr_t dbptr;
79   __nisdb_rwlock_t mindex_rwlock;
80 };
81 typedef struct db_mindex  * db_mindex_p;
82 
83 typedef	string	strP<>;
84 
85 struct xdr_nis_object_s {
86 	int		xversion;
87 	nis_object	*obj;
88 	strP		dirEntry<>;
89 };
90 typedef struct xdr_nis_object_s	xdr_nis_object_t;
91 
92 %extern bool_t	xdr_nis_object();
93 #endif /* USINGC */
94 #endif /* RPC_HDR */
95 
96 #ifndef USINGC
97 #ifdef RPC_HDR
98 %
99 %struct xdr_nis_object_s {
100 %	int				version;
101 %	nis_object			*obj;
102 %	struct {
103 %		uint_t	dirEntry_len;
104 %		char	**dirEntry_val;
105 %	}				dirEntry;
106 %};
107 %typedef struct xdr_nis_object_s	xdr_nis_object_t;
108 %
109 %extern bool_t	xdr_nis_object();
110 %
111 %class db_mindex {
112 %  vers rversion;
113 %//  int num_indices;
114 %//  db_index * indices;                /* indices[num_indices] */
115 %  struct {
116 %   int indices_len;
117 %   db_index *indices_val;
118 %  } indices;
119 %  db_table *table;
120 %  db_scheme *scheme;
121 %  __nisdb_ptr_t objPath;
122 %  __nisdb_flag_t noWriteThrough;
123 %  __nisdb_flag_t noLDAPquery;
124 %  __nisdb_flag_t initialLoad;
125 %  __nisdb_ptr_t dbptr;
126 %  STRUCTRWLOCK(mindex);
127 %
128 %/* Return a list of index_entries that satsify the given query 'q'.
129 %   Return the size of the list in 'count'. Return NULL if list is empty.
130 %   Return in 'valid' FALSE if query is not well formed. */
131 %  db_index_entry_p satisfy_query(db_query *, long *, bool_t *valid,
132 %					bool_t fromLDAP = FALSE);
133 %  db_index_entry_p satisfy_query(db_query *, long *, bool_t *valid = NULL);
134 %
135 %/* Returns a newly db_query containing the index values as
136 %   obtained from the given object.  The object itself,
137 %   along with information on the scheme given, will determine
138 %   which values are extracted from the object and placed into the query.
139 %   Returns an empty query if 'obj' is not a valid entry.
140 %   Note that space is allocated for the query and the index values
141 %   (i.e. do not share pointers with strings in 'obj'.) */
142 %  db_query * extract_index_values_from_object( entry_object * );
143 %
144 %/* Returns a newly created db_query structure containing the index values
145 %   as obtained from the record named by 'recnum'.  The record itself, along
146 %   with information on the schema definition of this table, will determine
147 %   which values are extracted from the record and placed into the result.
148 %   Returns NULL if recnum is not a valid entry.
149 %   Note that space is allocated for the query and the index values
150 %   (i.e. do not share pointers with strings in 'obj'.) */
151 %  db_query * extract_index_values_from_record( entryp );
152 %
153 %/* Returns an array of size 'count' of 'entry_object_p's, pointing to
154 %   copies of entry_objects named by the result list of db_index_entries 'res'.
155 %*/
156 %  entry_object_p * prepare_results( int, db_index_entry_p, db_status* );
157 %
158 %/* Remove the entry identified by 'recloc' from:
159 %   1.  all indices, as obtained by extracting the index values from the entry
160 %   2.  table where entry is stored. */
161 %  db_status remove_aux( entryp );
162 %
163 %/*  entry_object * get_record( entryp );*/
164 % public:
165 %
166 %/* Constructor:  Create empty table (no scheme, no table or indices). */
167 %  db_mindex();
168 %
169 %/* Constructor:  Create new table using scheme defintion supplied.
170 %   (Make copy of scheme and keep it with table.) */
171 %  db_mindex(db_scheme *, char *tablePath);
172 %
173 %/* destructor */
174 %  ~db_mindex();
175 %
176 %  db_index_entry_p satisfy_query_dbonly(db_query *, long *,
177 %					bool_t checkExpire,
178 %					bool_t *valid = NULL);
179 %
180 %/* Returns whether there table is valid (i.e. has scheme). */
181 %  bool_t good() { return scheme != NULL && table != NULL; }
182 %
183 %/* Change the version of the table to the one given. */
184 %  void change_version( vers *v ) {  rversion.assign( v );}
185 %
186 %/* Return the current version of the table. */
187 %  vers *get_version()  { return( &rversion ); }
188 %
189 %/* Reset contents of tables by: deleting indice entries, table entries */
190 %  void reset_tables();
191 %
192 %/* Reset the table by: deleting all the indices, table of entries, and its
193 %   scheme. Reset version to 0 */
194 %  void reset();
195 %
196 %/* Initialize table using information from specified file.
197 %   The table is first 'reset', then the attempt to load from the file
198 %   is made.  If the load failed, the table is again reset.
199 %   Therefore, the table will be modified regardless of the success of the
200 %   load.  Returns TRUE if successful, FALSE otherwise. */
201 %  int load( char * );
202 %
203 %/* Initialize table using information given in scheme 'how'.
204 %   Record the scheme for later use (make copy of it);
205 %   create the required number of indices; and create table for storing
206 %   entries.
207 %   The 'tablePath' is passed on to db_table in order to obtain the
208 %   NIS+/LDAP mapping information (if any). */
209 %  void init( db_scheme *);
210 %
211 %/* Write this structure (table, indices, scheme) into the specified file. */
212 %  int dump( char *);
213 %
214 %/* Removes the entry in the table named by given query 'q'.
215 %   If a NULL query is supplied, all entries in table are removed.
216 %   Returns DB_NOTFOUND if no entry is found.
217 %   Returns DB_SUCCESS if one entry is found; this entry is removed from
218 %   its record storage, and it is also removed from all the indices of the
219 %   table. If more than one entry satisfying 'q' is found, all are removed. */
220 %  db_status remove( db_query *);
221 %
222 %/* Add copy of given entry to table.  Entry is identified by query 'q'.
223 %   The entry (if any) satisfying the query is first deleted, then
224 %   added to the indices (using index values extracted form the given entry)
225 %   and the table.
226 %   Returns DB_NOTUNIQUE if more than one entry satisfies the query.
227 %   Returns DB_NOTFOUND if query is not well-formed.
228 %   Returns DB_SUCCESS if entry can be added.  */
229 %  db_status add( db_query *, entry_object* );
230 %
231 %
232 %/* Finds entry that satisfy the query 'q'.  Returns the answer by
233 %   setting the pointer 'rp' to point to the list of answers.
234 %   Note that the answers are pointers to copies of the entries.
235 %   Returns the number of answers find in 'count'.
236 %   Returns DB_SUCCESS if search found at least one answer;
237 %   returns DB_NOTFOUND if none is found. */
238 %  db_status lookup( db_query *, long *, entry_object_p ** );
239 %
240 %/* Returns the next entry in the table after 'previous' by setting 'answer' to
241 %   point to a copy of the entry_object.  Returns DB_SUCCESS if 'previous'
242 %   is valid and next entry is found; DB_NOTFOUND otherwise.  Sets 'where'
243 %   to location of where entry is found for input as subsequent 'next'
244 %   operation. */
245 %  db_status next( entryp, entryp *, entry_object ** );
246 %
247 %/* Returns the next entry in the table after 'previous' by setting 'answer' to
248 %   point to a copy of the entry_object.  Returns DB_SUCCESS if 'previous'
249 %   is valid and next entry is found; DB_NOTFOUND otherwise.  Sets 'where'
250 %   to location of where entry is found for input as subsequent 'next'
251 %   operation. */
252 %  db_status next( db_next_index_desc*, db_next_index_desc **, entry_object ** );
253 %
254 %/* Returns the first entry found in the table by setting 'answer' to
255 %   a copy of the entry_object.  Returns DB_SUCCESS if found;
256 %   DB_NOTFOUND otherwise.  */
257 %  db_status first( entryp*, entry_object ** );
258 %
259 %/* Returns the first entry that satisfies query by setting 'answer' to
260 %   a copy of the entry_object.  Returns DB_SUCCESS if found;
261 %   DB_NOTFOUND otherwise.  */
262 %  db_status first( db_query *, db_next_index_desc **, entry_object ** );
263 %
264 % /* Delete the given list of results; used when no longer interested in
265 %    the results of the first/next query that returned this list.     */
266 %  db_status reset_next( db_next_index_desc *orig );
267 %
268 %/* Return all entries within table.  Returns the answer by
269 %   setting the pointer 'rp' to point to the list of answers.
270 %   Note that the answers are pointers to copies of the entries.
271 %   Returns the number of answers find in 'count'.
272 %   Returns DB_SUCCESS if search found at least one answer;
273 %   returns DB_NOTFOUND if none is found. */
274 %  db_status all( long *, entry_object_p ** );
275 %
276 %  /* for debugging */
277 %/* Prints statistics of the table.  This includes the size of the table,
278 %   the number of entries, and the index sizes. */
279 %  void print_stats();
280 %
281 %/* Prints statistics about all indices of table. */
282 %  void print_all_indices();
283 %
284 %
285 %/* Prints statistics about indices identified by 'n'. */
286 %  void print_index( int n );
287 %
288 %/* Configure LDAP mapping */
289 %  bool_t configure (char *objName);
290 %
291 %/* Mark this instance deferred */
292 %  void markDeferred(void) {
293 %	if (table != NULL) table->markDeferred();
294 %  }
295 %/* Remove deferred mark */
296 %  void unmarkDeferred(void) {
297 %	if (table != NULL) table->unmarkDeferred();
298 %  }
299 %
300 %/* Retrieve, remove, or store data from/in/to LDAP */
301 %  int queryLDAP(db_query *, char *, int);
302 %  int entriesFromLDAP(__nis_table_mapping_t *, db_query *, db_query *,
303 %			char *, nis_object *, int);
304 %
305 %  int removeLDAP(db_query *, nis_object *o);
306 %
307 %  int storeObjLDAP(__nis_table_mapping_t *t, nis_object *o);
308 %  int storeLDAP(db_query *, entry_obj *, nis_object *, entry_obj *,
309 %		char *dbId);
310 %
311 %/* Set/clear no-write-through flag */
312 %  void setNoWriteThrough(void);
313 %  void clearNoWriteThrough(void);
314 %
315 %/* Set/clear no-LDAP-query flag */
316 %  void setNoLDAPquery(void);
317 %  void clearNoLDAPquery(void);
318 %
319 %/* Set/clear initialLoad flag */
320 %  void setInitialLoad(void);
321 %  void clearInitialLoad(void);
322 %
323 %/* Store/retrieve pointer to parent 'db' class instance */
324 %  void setDbPtr(void *ptr);
325 %  void *getDbPtr(void);
326 %
327 %/* Get pointer to private 'table' field */
328 %  db_table *getTable(void);
329 %
330 %/*
331 % * Update table entry per the (entry_object *). If 'replace' is set,
332 % * the entry is replaced or added; otherwise, it is removed.
333 % */
334 %  int updateTableEntry(entry_object *e, int replace, char *tableName,
335 %			nis_object *obj, nis_object *tobj, uint32_t ttime,
336 %			int *xid);
337 %
338 %/* Touch the indicated entry */
339 %  bool_t touchEntry(entry_object *e);
340 %  bool_t touchEntry(db_query *q);
341 %
342 %/* Return the 'scheme' pointer */
343 %  db_scheme *getScheme(void) {return (scheme);}
344 %
345 %/* RW lock functions */
346 %
347 %  int tryacqexcl(void) {
348 %	return (TRYWLOCK(mindex));
349 %  }
350 %
351 %  int acqexcl(void) {
352 %	return (WLOCK(mindex));
353 %  }
354 %
355 %  int relexcl(void) {
356 %	return (WULOCK(mindex));
357 %  }
358 %
359 %  int acqnonexcl(void) {
360 %	return (RLOCK(mindex));
361 %  }
362 %
363 %  int relnonexcl(void) {
364 %	return (RULOCK(mindex));
365 %  }
366 %};
367 %#ifdef __cplusplus
368 %extern "C" bool_t xdr_db_mindex(XDR*, db_mindex*);
369 %#elif __STDC__
370 %extern bool_t xdr_db_mindex(XDR*, db_mindex*);
371 %#endif
372 %typedef class db_mindex * db_mindex_p;
373 #endif /* RPC_HDR */
374 #endif /* USINGC */
375 
376 #if RPC_HDR
377 %#endif /* _DB_MINDEX_H */
378 #endif /* RPC_HDR */
379