/*- * See the file LICENSE for redistribution information. * * Copyright (c) 1996-2004 * Sleepycat Software. All rights reserved. */ /* * Copyright (c) 1990, 1993, 1994, 1995, 1996 * Keith Bostic. All rights reserved. */ /* * Copyright (c) 1990, 1993, 1994, 1995 * The Regents of the University of California. All rights reserved. * * This code is derived from software contributed to Berkeley by * Mike Olson. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * $Id: btree.h,v 11.50 2004/07/22 21:52:57 bostic Exp $ */ #ifndef _DB_BTREE_H_ #define _DB_BTREE_H_ /* Forward structure declarations. */ struct __btree; typedef struct __btree BTREE; struct __cursor; typedef struct __cursor BTREE_CURSOR; struct __epg; typedef struct __epg EPG; struct __recno; typedef struct __recno RECNO; #define DEFMINKEYPAGE (2) /* * A recno order of 0 indicates that we don't have an order, not that we've * an order less than 1. */ #define INVALID_ORDER 0 #define ISINTERNAL(p) (TYPE(p) == P_IBTREE || TYPE(p) == P_IRECNO) #define ISLEAF(p) (TYPE(p) == P_LBTREE || \ TYPE(p) == P_LRECNO || TYPE(p) == P_LDUP) /* Flags for __bam_cadjust_log(). */ #define CAD_UPDATEROOT 0x01 /* Root page count was updated. */ /* Flags for __bam_split_log(). */ #define SPL_NRECS 0x01 /* Split tree has record count. */ /* Flags for __bam_iitem(). */ #define BI_DELETED 0x01 /* Key/data pair only placeholder. */ /* Flags for __bam_stkrel(). */ #define STK_CLRDBC 0x01 /* Clear dbc->page reference. */ #define STK_NOLOCK 0x02 /* Don't retain locks. */ /* Flags for __ram_ca(). These get logged, so make the values explicit. */ typedef enum { CA_DELETE = 0, /* Delete the current record. */ CA_IAFTER = 1, /* Insert before the current record. */ CA_IBEFORE = 2, /* Insert after the current record. */ CA_ICURRENT = 3 /* Overwrite the current record. */ } ca_recno_arg; /* * Flags for __bam_search() and __bam_rsearch(). * * Note, internal page searches must find the largest record less than key in * the tree so that descents work. Leaf page searches must find the smallest * record greater than key so that the returned index is the record's correct * position for insertion. * * The flags parameter to the search routines describes three aspects of the * search: the type of locking required (including if we're locking a pair of * pages), the item to return in the presence of duplicates and whether or not * to return deleted entries. To simplify both the mnemonic representation * and the code that checks for various cases, we construct a set of bitmasks. */ #define S_READ 0x00001 /* Read locks. */ #define S_WRITE 0x00002 /* Write locks. */ #define S_APPEND 0x00040 /* Append to the tree. */ #define S_DELNO 0x00080 /* Don't return deleted items. */ #define S_DUPFIRST 0x00100 /* Return first duplicate. */ #define S_DUPLAST 0x00200 /* Return last duplicate. */ #define S_EXACT 0x00400 /* Exact items only. */ #define S_PARENT 0x00800 /* Lock page pair. */ #define S_STACK 0x01000 /* Need a complete stack. */ #define S_PAST_EOF 0x02000 /* If doing insert search (or keyfirst * or keylast operations), or a split * on behalf of an insert, it's okay to * return an entry one past end-of-page. */ #define S_STK_ONLY 0x04000 /* Just return info in the stack */ #define S_DELETE (S_WRITE | S_DUPFIRST | S_DELNO | S_EXACT | S_STACK) #define S_FIND (S_READ | S_DUPFIRST | S_DELNO) #define S_FIND_WR (S_WRITE | S_DUPFIRST | S_DELNO) #define S_INSERT (S_WRITE | S_DUPLAST | S_PAST_EOF | S_STACK) #define S_KEYFIRST (S_WRITE | S_DUPFIRST | S_PAST_EOF | S_STACK) #define S_KEYLAST (S_WRITE | S_DUPLAST | S_PAST_EOF | S_STACK) #define S_WRPAIR (S_WRITE | S_DUPLAST | S_PAST_EOF | S_PARENT) /* * Various routines pass around page references. A page reference is * a pointer to the page, and the indx indicates an item on the page. * Each page reference may include a lock. */ struct __epg { PAGE *page; /* The page. */ db_indx_t indx; /* The index on the page. */ db_indx_t entries; /* The number of entries on page */ DB_LOCK lock; /* The page's lock. */ db_lockmode_t lock_mode; /* The lock mode. */ }; /* * We maintain a stack of the pages that we're locking in the tree. Grow * the stack as necessary. * * XXX * Temporary fix for #3243 -- clear the page and lock from the stack entry. * The correct fix is to never release a stack that doesn't hold items. */ #define BT_STK_CLR(c) do { \ (c)->csp = (c)->sp; \ (c)->csp->page = NULL; \ LOCK_INIT((c)->csp->lock); \ } while (0) #define BT_STK_ENTER(dbenv, c, pagep, page_indx, l, mode, ret) do { \ if ((ret = ((c)->csp == (c)->esp ? \ __bam_stkgrow(dbenv, c) : 0)) == 0) { \ (c)->csp->page = pagep; \ (c)->csp->indx = page_indx; \ (c)->csp->entries = NUM_ENT(pagep); \ (c)->csp->lock = l; \ (c)->csp->lock_mode = mode; \ } \ } while (0) #define BT_STK_PUSH(dbenv, c, pagep, page_indx, lock, mode, ret) do { \ BT_STK_ENTER(dbenv, c, pagep, page_indx, lock, mode, ret); \ ++(c)->csp; \ } while (0) #define BT_STK_NUM(dbenv, c, pagep, page_indx, ret) do { \ if ((ret = \ (c)->csp == (c)->esp ? __bam_stkgrow(dbenv, c) : 0) == 0) { \ (c)->csp->page = NULL; \ (c)->csp->indx = page_indx; \ (c)->csp->entries = NUM_ENT(pagep); \ LOCK_INIT((c)->csp->lock); \ (c)->csp->lock_mode = DB_LOCK_NG; \ } \ } while (0) #define BT_STK_NUMPUSH(dbenv, c, pagep, page_indx, ret) do { \ BT_STK_NUM(dbenv, cp, pagep, page_indx, ret); \ ++(c)->csp; \ } while (0) #define BT_STK_POP(c) \ ((c)->csp == (c)->sp ? NULL : --(c)->csp) /* Btree/Recno cursor. */ struct __cursor { /* struct __dbc_internal */ __DBC_INTERNAL /* btree private part */ EPG *sp; /* Stack pointer. */ EPG *csp; /* Current stack entry. */ EPG *esp; /* End stack pointer. */ EPG stack[5]; db_indx_t ovflsize; /* Maximum key/data on-page size. */ db_recno_t recno; /* Current record number. */ u_int32_t order; /* Relative order among deleted curs. */ /* * Btree: * We set a flag in the cursor structure if the underlying object has * been deleted. It's not strictly necessary, we could get the same * information by looking at the page itself, but this method doesn't * require us to retrieve the page on cursor delete. * * Recno: * When renumbering recno databases during deletes, cursors referencing * "deleted" records end up positioned between two records, and so must * be specially adjusted on the next operation. */ #define C_DELETED 0x0001 /* Record was deleted. */ /* * There are three tree types that require maintaining record numbers. * Recno AM trees, Btree AM trees for which the DB_RECNUM flag was set, * and Btree off-page duplicate trees. */ #define C_RECNUM 0x0002 /* Tree requires record counts. */ /* * Recno trees have immutable record numbers by default, but optionally * support mutable record numbers. Off-page duplicate Recno trees have * mutable record numbers. All Btrees with record numbers (including * off-page duplicate trees) are mutable by design, no flag is needed. */ #define C_RENUMBER 0x0004 /* Tree records are mutable. */ u_int32_t flags; }; /* * Threshhold value, as a function of bt_minkey, of the number of * bytes a key/data pair can use before being placed on an overflow * page. Assume every item requires the maximum alignment for * padding, out of sheer paranoia. */ #define B_MINKEY_TO_OVFLSIZE(dbp, minkey, pgsize) \ ((u_int16_t)(((pgsize) - P_OVERHEAD(dbp)) / ((minkey) * P_INDX) -\ (BKEYDATA_PSIZE(0) + DB_ALIGN(1, sizeof(int32_t))))) /* * The maximum space that a single item can ever take up on one page. * Used by __bam_split to determine whether a split is still necessary. */ #define B_MAX(a,b) (((a) > (b)) ? (a) : (b)) #define B_MAXSIZEONPAGE(ovflsize) \ (B_MAX(BOVERFLOW_PSIZE, BKEYDATA_PSIZE(ovflsize))) /* * The in-memory, per-tree btree/recno data structure. */ struct __btree { /* Btree access method. */ /* * !!! * These fields are write-once (when the structure is created) and * so are ignored as far as multi-threading is concerned. */ db_pgno_t bt_meta; /* Database meta-data page. */ db_pgno_t bt_root; /* Database root page. */ u_int32_t bt_maxkey; /* Maximum keys per page. */ u_int32_t bt_minkey; /* Minimum keys per page. */ /* Btree comparison function. */ int (*bt_compare) __P((DB *, const DBT *, const DBT *)); /* Btree prefix function. */ size_t (*bt_prefix) __P((DB *, const DBT *, const DBT *)); /* Recno access method. */ int re_pad; /* Fixed-length padding byte. */ int re_delim; /* Variable-length delimiting byte. */ u_int32_t re_len; /* Length for fixed-length records. */ char *re_source; /* Source file name. */ /* * !!! * The bt_lpgno field is NOT protected by any mutex, and for this * reason must be advisory only, so, while it is read/written by * multiple threads, DB is completely indifferent to the quality * of its information. */ db_pgno_t bt_lpgno; /* Last insert location. */ DB_LSN bt_llsn; /* Last insert LSN. */ /* * !!! * The re_modified field is NOT protected by any mutex, and for this * reason cannot be anything more complicated than a zero/non-zero * value. The actual writing of the backing source file cannot be * threaded, so clearing the flag isn't a problem. */ int re_modified; /* If the tree was modified. */ /* * !!! * These fields are ignored as far as multi-threading is concerned. * There are no transaction semantics associated with backing files, * nor is there any thread protection. */ FILE *re_fp; /* Source file handle. */ int re_eof; /* Backing source file EOF reached. */ db_recno_t re_last; /* Last record number read. */ }; /* * Modes for the __bam_curadj recovery records (btree_curadj). * These appear in log records, so we wire the values and * do not leave it up to the compiler. */ typedef enum { DB_CA_DI = 1, DB_CA_DUP = 2, DB_CA_RSPLIT = 3, DB_CA_SPLIT = 4 } db_ca_mode; #include "dbinc_auto/btree_auto.h" #include "dbinc_auto/btree_ext.h" #include "dbinc/db_am.h" #endif /* !_DB_BTREE_H_ */