/*- * See the file LICENSE for redistribution information. * * Copyright (c) 1996-2003 * Sleepycat Software. All rights reserved. */ #include "db_config.h" #ifndef lint static const char revid[] = "$Id: bt_rec.c,v 1.2 2004/03/30 01:21:12 jtownsen Exp $"; #endif /* not lint */ #ifndef NO_SYSTEM_INCLUDES #include #include #endif #include "db_int.h" #include "dbinc/db_page.h" #include "dbinc/db_shash.h" #include "dbinc/btree.h" #include "dbinc/lock.h" #include "dbinc/log.h" #include "dbinc/mp.h" #define IS_BTREE_PAGE(pagep) \ (TYPE(pagep) == P_IBTREE || \ TYPE(pagep) == P_LBTREE || TYPE(pagep) == P_LDUP) /* * __bam_split_recover -- * Recovery function for split. * * PUBLIC: int __bam_split_recover * PUBLIC: __P((DB_ENV *, DBT *, DB_LSN *, db_recops, void *)); */ int __bam_split_recover(dbenv, dbtp, lsnp, op, info) DB_ENV *dbenv; DBT *dbtp; DB_LSN *lsnp; db_recops op; void *info; { __bam_split_args *argp; DB *file_dbp; DBC *dbc; DB_MPOOLFILE *mpf; PAGE *_lp, *lp, *np, *pp, *_rp, *rp, *sp; db_pgno_t pgno, root_pgno; u_int32_t ptype; int cmp, l_update, p_update, r_update, rc, ret, ret_l, rootsplit, t_ret; COMPQUIET(info, NULL); REC_PRINT(__bam_split_print); mpf = NULL; _lp = lp = np = pp = _rp = rp = NULL; sp = NULL; REC_INTRO(__bam_split_read, 1); /* * There are two kinds of splits that we have to recover from. The * first is a root-page split, where the root page is split from a * leaf page into an internal page and two new leaf pages are created. * The second is where a page is split into two pages, and a new key * is inserted into the parent page. * * DBTs are not aligned in log records, so we need to copy the page * so that we can access fields within it throughout this routine. * Although we could hardcode the unaligned copies in this routine, * we will be calling into regular btree functions with this page, * so it's got to be aligned. Copying it into allocated memory is * the only way to guarantee this. */ if ((ret = __os_malloc(dbenv, argp->pg.size, &sp)) != 0) goto out; memcpy(sp, argp->pg.data, argp->pg.size); pgno = PGNO(sp); root_pgno = argp->root_pgno; rootsplit = root_pgno != PGNO_INVALID; if ((ret_l = __memp_fget(mpf, &argp->left, 0, &lp)) != 0) lp = NULL; if (__memp_fget(mpf, &argp->right, 0, &rp) != 0) rp = NULL; if (DB_REDO(op)) { l_update = r_update = p_update = 0; /* * Decide if we need to resplit the page. * * If this is a root split, then the root has to exist, it's * the page we're splitting and it gets modified. If this is * not a root split, then the left page has to exist, for the * same reason. */ if (rootsplit) { if ((ret = __memp_fget(mpf, &pgno, 0, &pp)) != 0) { ret = __db_pgerr(file_dbp, pgno, ret); pp = NULL; goto out; } cmp = log_compare(&LSN(pp), &LSN(argp->pg.data)); CHECK_LSN(op, cmp, &LSN(pp), &LSN(argp->pg.data)); p_update = cmp == 0; } else if (lp == NULL) { ret = __db_pgerr(file_dbp, argp->left, ret_l); goto out; } if (lp != NULL) { cmp = log_compare(&LSN(lp), &argp->llsn); CHECK_LSN(op, cmp, &LSN(lp), &argp->llsn); if (cmp == 0) l_update = 1; } else l_update = 1; if (rp != NULL) { cmp = log_compare(&LSN(rp), &argp->rlsn); CHECK_LSN(op, cmp, &LSN(rp), &argp->rlsn); if (cmp == 0) r_update = 1; } else r_update = 1; if (!p_update && !l_update && !r_update) goto check_next; /* Allocate and initialize new left/right child pages. */ if ((ret = __os_malloc(dbenv, file_dbp->pgsize, &_lp)) != 0 || (ret = __os_malloc(dbenv, file_dbp->pgsize, &_rp)) != 0) goto out; if (rootsplit) { P_INIT(_lp, file_dbp->pgsize, argp->left, PGNO_INVALID, ISINTERNAL(sp) ? PGNO_INVALID : argp->right, LEVEL(sp), TYPE(sp)); P_INIT(_rp, file_dbp->pgsize, argp->right, ISINTERNAL(sp) ? PGNO_INVALID : argp->left, PGNO_INVALID, LEVEL(sp), TYPE(sp)); } else { P_INIT(_lp, file_dbp->pgsize, PGNO(sp), ISINTERNAL(sp) ? PGNO_INVALID : PREV_PGNO(sp), ISINTERNAL(sp) ? PGNO_INVALID : argp->right, LEVEL(sp), TYPE(sp)); P_INIT(_rp, file_dbp->pgsize, argp->right, ISINTERNAL(sp) ? PGNO_INVALID : sp->pgno, ISINTERNAL(sp) ? PGNO_INVALID : NEXT_PGNO(sp), LEVEL(sp), TYPE(sp)); } /* Split the page. */ if ((ret = __bam_copy(file_dbp, sp, _lp, 0, argp->indx)) != 0 || (ret = __bam_copy(file_dbp, sp, _rp, argp->indx, NUM_ENT(sp))) != 0) goto out; /* If the left child is wrong, update it. */ if (lp == NULL && (ret = __memp_fget( mpf, &argp->left, DB_MPOOL_CREATE, &lp)) != 0) { ret = __db_pgerr(file_dbp, argp->left, ret); lp = NULL; goto out; } if (l_update) { memcpy(lp, _lp, file_dbp->pgsize); lp->lsn = *lsnp; if ((ret = __memp_fput(mpf, lp, DB_MPOOL_DIRTY)) != 0) goto out; lp = NULL; } /* If the right child is wrong, update it. */ if (rp == NULL && (ret = __memp_fget( mpf, &argp->right, DB_MPOOL_CREATE, &rp)) != 0) { ret = __db_pgerr(file_dbp, argp->right, ret); rp = NULL; goto out; } if (r_update) { memcpy(rp, _rp, file_dbp->pgsize); rp->lsn = *lsnp; if ((ret = __memp_fput(mpf, rp, DB_MPOOL_DIRTY)) != 0) goto out; rp = NULL; } /* * If the parent page is wrong, update it. This is of interest * only if it was a root split, since root splits create parent * pages. All other splits modify a parent page, but those are * separately logged and recovered. */ if (rootsplit && p_update) { if (IS_BTREE_PAGE(sp)) { ptype = P_IBTREE; rc = argp->opflags & SPL_NRECS ? 1 : 0; } else { ptype = P_IRECNO; rc = 1; } P_INIT(pp, file_dbp->pgsize, root_pgno, PGNO_INVALID, PGNO_INVALID, _lp->level + 1, ptype); RE_NREC_SET(pp, rc ? __bam_total(file_dbp, _lp) + __bam_total(file_dbp, _rp) : 0); pp->lsn = *lsnp; if ((ret = __memp_fput(mpf, pp, DB_MPOOL_DIRTY)) != 0) goto out; pp = NULL; } check_next: /* * Finally, redo the next-page link if necessary. This is of * interest only if it wasn't a root split -- inserting a new * page in the tree requires that any following page have its * previous-page pointer updated to our new page. The next * page must exist because we're redoing the operation. */ if (!rootsplit && !IS_ZERO_LSN(argp->nlsn)) { if ((ret = __memp_fget(mpf, &argp->npgno, 0, &np)) != 0) { ret = __db_pgerr(file_dbp, argp->npgno, ret); np = NULL; goto out; } cmp = log_compare(&LSN(np), &argp->nlsn); CHECK_LSN(op, cmp, &LSN(np), &argp->nlsn); if (cmp == 0) { PREV_PGNO(np) = argp->right; np->lsn = *lsnp; if ((ret = __memp_fput(mpf, np, DB_MPOOL_DIRTY)) != 0) goto out; np = NULL; } } } else { /* * If the split page is wrong, replace its contents with the * logged page contents. If the page doesn't exist, it means * that the create of the page never happened, nor did any of * the adds onto the page that caused the split, and there's * really no undo-ing to be done. */ if ((ret = __memp_fget(mpf, &pgno, 0, &pp)) != 0) { pp = NULL; goto lrundo; } if (log_compare(lsnp, &LSN(pp)) == 0) { memcpy(pp, argp->pg.data, argp->pg.size); if ((ret = __memp_fput(mpf, pp, DB_MPOOL_DIRTY)) != 0) goto out; pp = NULL; } /* * If it's a root split and the left child ever existed, update * its LSN. (If it's not a root split, we've updated the left * page already -- it's the same as the split page.) If the * right child ever existed, root split or not, update its LSN. * The undo of the page allocation(s) will restore them to the * free list. */ lrundo: if ((rootsplit && lp != NULL) || rp != NULL) { if (rootsplit && lp != NULL && log_compare(lsnp, &LSN(lp)) == 0) { lp->lsn = argp->llsn; if ((ret = __memp_fput(mpf, lp, DB_MPOOL_DIRTY)) != 0) goto out; lp = NULL; } if (rp != NULL && log_compare(lsnp, &LSN(rp)) == 0) { rp->lsn = argp->rlsn; if ((ret = __memp_fput(mpf, rp, DB_MPOOL_DIRTY)) != 0) goto out; rp = NULL; } } /* * Finally, undo the next-page link if necessary. This is of * interest only if it wasn't a root split -- inserting a new * page in the tree requires that any following page have its * previous-page pointer updated to our new page. Since it's * possible that the next-page never existed, we ignore it as * if there's nothing to undo. */ if (!rootsplit && !IS_ZERO_LSN(argp->nlsn)) { if ((ret = __memp_fget(mpf, &argp->npgno, 0, &np)) != 0) { np = NULL; goto done; } if (log_compare(lsnp, &LSN(np)) == 0) { PREV_PGNO(np) = argp->left; np->lsn = argp->nlsn; if (__memp_fput(mpf, np, DB_MPOOL_DIRTY)) goto out; np = NULL; } } } done: *lsnp = argp->prev_lsn; ret = 0; out: /* Free any pages that weren't dirtied. */ if (pp != NULL && (t_ret = __memp_fput(mpf, pp, 0)) != 0 && ret == 0) ret = t_ret; if (lp != NULL && (t_ret = __memp_fput(mpf, lp, 0)) != 0 && ret == 0) ret = t_ret; if (np != NULL && (t_ret = __memp_fput(mpf, np, 0)) != 0 && ret == 0) ret = t_ret; if (rp != NULL && (t_ret = __memp_fput(mpf, rp, 0)) != 0 && ret == 0) ret = t_ret; /* Free any allocated space. */ if (_lp != NULL) __os_free(dbenv, _lp); if (_rp != NULL) __os_free(dbenv, _rp); if (sp != NULL) __os_free(dbenv, sp); REC_CLOSE; } /* * __bam_rsplit_recover -- * Recovery function for a reverse split. * * PUBLIC: int __bam_rsplit_recover * PUBLIC: __P((DB_ENV *, DBT *, DB_LSN *, db_recops, void *)); */ int __bam_rsplit_recover(dbenv, dbtp, lsnp, op, info) DB_ENV *dbenv; DBT *dbtp; DB_LSN *lsnp; db_recops op; void *info; { __bam_rsplit_args *argp; DB *file_dbp; DBC *dbc; DB_LSN copy_lsn; DB_MPOOLFILE *mpf; PAGE *pagep; db_pgno_t pgno, root_pgno; int cmp_n, cmp_p, modified, ret; pagep = NULL; COMPQUIET(info, NULL); REC_PRINT(__bam_rsplit_print); REC_INTRO(__bam_rsplit_read, 1); /* Fix the root page. */ pgno = root_pgno = argp->root_pgno; if ((ret = __memp_fget(mpf, &pgno, 0, &pagep)) != 0) { /* The root page must always exist if we are going forward. */ if (DB_REDO(op)) { ret = __db_pgerr(file_dbp, pgno, ret); goto out; } /* This must be the root of an OPD tree. */ DB_ASSERT(root_pgno != ((BTREE *)file_dbp->bt_internal)->bt_root); ret = 0; goto do_page; } modified = 0; cmp_n = log_compare(lsnp, &LSN(pagep)); cmp_p = log_compare(&LSN(pagep), &argp->rootlsn); CHECK_LSN(op, cmp_p, &LSN(pagep), &argp->rootlsn); if (cmp_p == 0 && DB_REDO(op)) { /* Need to redo update described. */ memcpy(pagep, argp->pgdbt.data, argp->pgdbt.size); pagep->pgno = root_pgno; pagep->lsn = *lsnp; modified = 1; } else if (cmp_n == 0 && DB_UNDO(op)) { /* Need to undo update described. */ P_INIT(pagep, file_dbp->pgsize, root_pgno, argp->nrec, PGNO_INVALID, pagep->level + 1, IS_BTREE_PAGE(pagep) ? P_IBTREE : P_IRECNO); if ((ret = __db_pitem(dbc, pagep, 0, argp->rootent.size, &argp->rootent, NULL)) != 0) goto out; pagep->lsn = argp->rootlsn; modified = 1; } if ((ret = __memp_fput(mpf, pagep, modified ? DB_MPOOL_DIRTY : 0)) != 0) goto out; do_page: /* * Fix the page copied over the root page. It's possible that the * page never made it to disk, so if we're undo-ing and the page * doesn't exist, it's okay and there's nothing further to do. */ if ((ret = __memp_fget(mpf, &argp->pgno, 0, &pagep)) != 0) { if (DB_UNDO(op)) goto done; ret = __db_pgerr(file_dbp, argp->pgno, ret); goto out; } modified = 0; (void)__ua_memcpy(©_lsn, &LSN(argp->pgdbt.data), sizeof(DB_LSN)); cmp_n = log_compare(lsnp, &LSN(pagep)); cmp_p = log_compare(&LSN(pagep), ©_lsn); CHECK_LSN(op, cmp_p, &LSN(pagep), ©_lsn); if (cmp_p == 0 && DB_REDO(op)) { /* Need to redo update described. */ pagep->lsn = *lsnp; modified = 1; } else if (cmp_n == 0 && DB_UNDO(op)) { /* Need to undo update described. */ memcpy(pagep, argp->pgdbt.data, argp->pgdbt.size); modified = 1; } if ((ret = __memp_fput(mpf, pagep, modified ? DB_MPOOL_DIRTY : 0)) != 0) goto out; pagep = NULL; done: *lsnp = argp->prev_lsn; ret = 0; out: if (pagep != NULL) (void)__memp_fput(mpf, pagep, 0); REC_CLOSE; } /* * __bam_adj_recover -- * Recovery function for adj. * * PUBLIC: int __bam_adj_recover * PUBLIC: __P((DB_ENV *, DBT *, DB_LSN *, db_recops, void *)); */ int __bam_adj_recover(dbenv, dbtp, lsnp, op, info) DB_ENV *dbenv; DBT *dbtp; DB_LSN *lsnp; db_recops op; void *info; { __bam_adj_args *argp; DB *file_dbp; DBC *dbc; DB_MPOOLFILE *mpf; PAGE *pagep; int cmp_n, cmp_p, modified, ret; pagep = NULL; COMPQUIET(info, NULL); REC_PRINT(__bam_adj_print); REC_INTRO(__bam_adj_read, 1); /* Get the page; if it never existed and we're undoing, we're done. */ if ((ret = __memp_fget(mpf, &argp->pgno, 0, &pagep)) != 0) { if (DB_UNDO(op)) goto done; ret = __db_pgerr(file_dbp, argp->pgno, ret); goto out; } modified = 0; cmp_n = log_compare(lsnp, &LSN(pagep)); cmp_p = log_compare(&LSN(pagep), &argp->lsn); CHECK_LSN(op, cmp_p, &LSN(pagep), &argp->lsn); if (cmp_p == 0 && DB_REDO(op)) { /* Need to redo update described. */ if ((ret = __bam_adjindx(dbc, pagep, argp->indx, argp->indx_copy, argp->is_insert)) != 0) goto out; LSN(pagep) = *lsnp; modified = 1; } else if (cmp_n == 0 && DB_UNDO(op)) { /* Need to undo update described. */ if ((ret = __bam_adjindx(dbc, pagep, argp->indx, argp->indx_copy, !argp->is_insert)) != 0) goto out; LSN(pagep) = argp->lsn; modified = 1; } if ((ret = __memp_fput(mpf, pagep, modified ? DB_MPOOL_DIRTY : 0)) != 0) goto out; pagep = NULL; done: *lsnp = argp->prev_lsn; ret = 0; out: if (pagep != NULL) (void)__memp_fput(mpf, pagep, 0); REC_CLOSE; } /* * __bam_cadjust_recover -- * Recovery function for the adjust of a count change in an internal * page. * * PUBLIC: int __bam_cadjust_recover * PUBLIC: __P((DB_ENV *, DBT *, DB_LSN *, db_recops, void *)); */ int __bam_cadjust_recover(dbenv, dbtp, lsnp, op, info) DB_ENV *dbenv; DBT *dbtp; DB_LSN *lsnp; db_recops op; void *info; { __bam_cadjust_args *argp; DB *file_dbp; DBC *dbc; DB_MPOOLFILE *mpf; PAGE *pagep; int cmp_n, cmp_p, modified, ret; pagep = NULL; COMPQUIET(info, NULL); REC_PRINT(__bam_cadjust_print); REC_INTRO(__bam_cadjust_read, 1); /* Get the page; if it never existed and we're undoing, we're done. */ if ((ret = __memp_fget(mpf, &argp->pgno, 0, &pagep)) != 0) { if (DB_UNDO(op)) goto done; ret = __db_pgerr(file_dbp, argp->pgno, ret); goto out; } modified = 0; cmp_n = log_compare(lsnp, &LSN(pagep)); cmp_p = log_compare(&LSN(pagep), &argp->lsn); CHECK_LSN(op, cmp_p, &LSN(pagep), &argp->lsn); if (cmp_p == 0 && DB_REDO(op)) { /* Need to redo update described. */ if (IS_BTREE_PAGE(pagep)) { GET_BINTERNAL(file_dbp, pagep, argp->indx)->nrecs += argp->adjust; if (argp->opflags & CAD_UPDATEROOT) RE_NREC_ADJ(pagep, argp->adjust); } else { GET_RINTERNAL(file_dbp, pagep, argp->indx)->nrecs += argp->adjust; if (argp->opflags & CAD_UPDATEROOT) RE_NREC_ADJ(pagep, argp->adjust); } LSN(pagep) = *lsnp; modified = 1; } else if (cmp_n == 0 && DB_UNDO(op)) { /* Need to undo update described. */ if (IS_BTREE_PAGE(pagep)) { GET_BINTERNAL(file_dbp, pagep, argp->indx)->nrecs -= argp->adjust; if (argp->opflags & CAD_UPDATEROOT) RE_NREC_ADJ(pagep, -(argp->adjust)); } else { GET_RINTERNAL(file_dbp, pagep, argp->indx)->nrecs -= argp->adjust; if (argp->opflags & CAD_UPDATEROOT) RE_NREC_ADJ(pagep, -(argp->adjust)); } LSN(pagep) = argp->lsn; modified = 1; } if ((ret = __memp_fput(mpf, pagep, modified ? DB_MPOOL_DIRTY : 0)) != 0) goto out; pagep = NULL; done: *lsnp = argp->prev_lsn; ret = 0; out: if (pagep != NULL) (void)__memp_fput(mpf, pagep, 0); REC_CLOSE; } /* * __bam_cdel_recover -- * Recovery function for the intent-to-delete of a cursor record. * * PUBLIC: int __bam_cdel_recover * PUBLIC: __P((DB_ENV *, DBT *, DB_LSN *, db_recops, void *)); */ int __bam_cdel_recover(dbenv, dbtp, lsnp, op, info) DB_ENV *dbenv; DBT *dbtp; DB_LSN *lsnp; db_recops op; void *info; { __bam_cdel_args *argp; DB *file_dbp; DBC *dbc; DB_MPOOLFILE *mpf; PAGE *pagep; u_int32_t indx; int cmp_n, cmp_p, modified, ret; pagep = NULL; COMPQUIET(info, NULL); REC_PRINT(__bam_cdel_print); REC_INTRO(__bam_cdel_read, 1); /* Get the page; if it never existed and we're undoing, we're done. */ if ((ret = __memp_fget(mpf, &argp->pgno, 0, &pagep)) != 0) { if (DB_UNDO(op)) goto done; ret = __db_pgerr(file_dbp, argp->pgno, ret); goto out; } modified = 0; cmp_n = log_compare(lsnp, &LSN(pagep)); cmp_p = log_compare(&LSN(pagep), &argp->lsn); CHECK_LSN(op, cmp_p, &LSN(pagep), &argp->lsn); if (cmp_p == 0 && DB_REDO(op)) { /* Need to redo update described. */ indx = argp->indx + (TYPE(pagep) == P_LBTREE ? O_INDX : 0); B_DSET(GET_BKEYDATA(file_dbp, pagep, indx)->type); LSN(pagep) = *lsnp; modified = 1; } else if (cmp_n == 0 && DB_UNDO(op)) { /* Need to undo update described. */ indx = argp->indx + (TYPE(pagep) == P_LBTREE ? O_INDX : 0); B_DCLR(GET_BKEYDATA(file_dbp, pagep, indx)->type); (void)__bam_ca_delete(file_dbp, argp->pgno, argp->indx, 0); LSN(pagep) = argp->lsn; modified = 1; } if ((ret = __memp_fput(mpf, pagep, modified ? DB_MPOOL_DIRTY : 0)) != 0) goto out; pagep = NULL; done: *lsnp = argp->prev_lsn; ret = 0; out: if (pagep != NULL) (void)__memp_fput(mpf, pagep, 0); REC_CLOSE; } /* * __bam_repl_recover -- * Recovery function for page item replacement. * * PUBLIC: int __bam_repl_recover * PUBLIC: __P((DB_ENV *, DBT *, DB_LSN *, db_recops, void *)); */ int __bam_repl_recover(dbenv, dbtp, lsnp, op, info) DB_ENV *dbenv; DBT *dbtp; DB_LSN *lsnp; db_recops op; void *info; { __bam_repl_args *argp; BKEYDATA *bk; DB *file_dbp; DBC *dbc; DBT dbt; DB_MPOOLFILE *mpf; PAGE *pagep; int cmp_n, cmp_p, modified, ret; u_int8_t *p; pagep = NULL; COMPQUIET(info, NULL); REC_PRINT(__bam_repl_print); REC_INTRO(__bam_repl_read, 1); /* Get the page; if it never existed and we're undoing, we're done. */ if ((ret = __memp_fget(mpf, &argp->pgno, 0, &pagep)) != 0) { if (DB_UNDO(op)) goto done; ret = __db_pgerr(file_dbp, argp->pgno, ret); goto out; } bk = GET_BKEYDATA(file_dbp, pagep, argp->indx); modified = 0; cmp_n = log_compare(lsnp, &LSN(pagep)); cmp_p = log_compare(&LSN(pagep), &argp->lsn); CHECK_LSN(op, cmp_p, &LSN(pagep), &argp->lsn); if (cmp_p == 0 && DB_REDO(op)) { /* * Need to redo update described. * * Re-build the replacement item. */ memset(&dbt, 0, sizeof(dbt)); dbt.size = argp->prefix + argp->suffix + argp->repl.size; if ((ret = __os_malloc(dbenv, dbt.size, &dbt.data)) != 0) goto out; p = dbt.data; memcpy(p, bk->data, argp->prefix); p += argp->prefix; memcpy(p, argp->repl.data, argp->repl.size); p += argp->repl.size; memcpy(p, bk->data + (bk->len - argp->suffix), argp->suffix); ret = __bam_ritem(dbc, pagep, argp->indx, &dbt); __os_free(dbenv, dbt.data); if (ret != 0) goto out; LSN(pagep) = *lsnp; modified = 1; } else if (cmp_n == 0 && DB_UNDO(op)) { /* * Need to undo update described. * * Re-build the original item. */ memset(&dbt, 0, sizeof(dbt)); dbt.size = argp->prefix + argp->suffix + argp->orig.size; if ((ret = __os_malloc(dbenv, dbt.size, &dbt.data)) != 0) goto out; p = dbt.data; memcpy(p, bk->data, argp->prefix); p += argp->prefix; memcpy(p, argp->orig.data, argp->orig.size); p += argp->orig.size; memcpy(p, bk->data + (bk->len - argp->suffix), argp->suffix); ret = __bam_ritem(dbc, pagep, argp->indx, &dbt); __os_free(dbenv, dbt.data); if (ret != 0) goto out; /* Reset the deleted flag, if necessary. */ if (argp->isdeleted) B_DSET(GET_BKEYDATA(file_dbp, pagep, argp->indx)->type); LSN(pagep) = argp->lsn; modified = 1; } if ((ret = __memp_fput(mpf, pagep, modified ? DB_MPOOL_DIRTY : 0)) != 0) goto out; pagep = NULL; done: *lsnp = argp->prev_lsn; ret = 0; out: if (pagep != NULL) (void)__memp_fput(mpf, pagep, 0); REC_CLOSE; } /* * __bam_root_recover -- * Recovery function for setting the root page on the meta-data page. * * PUBLIC: int __bam_root_recover * PUBLIC: __P((DB_ENV *, DBT *, DB_LSN *, db_recops, void *)); */ int __bam_root_recover(dbenv, dbtp, lsnp, op, info) DB_ENV *dbenv; DBT *dbtp; DB_LSN *lsnp; db_recops op; void *info; { __bam_root_args *argp; BTMETA *meta; DB *file_dbp; DBC *dbc; DB_MPOOLFILE *mpf; int cmp_n, cmp_p, modified, ret; meta = NULL; COMPQUIET(info, NULL); REC_PRINT(__bam_root_print); REC_INTRO(__bam_root_read, 0); if ((ret = __memp_fget(mpf, &argp->meta_pgno, 0, &meta)) != 0) { /* The metadata page must always exist on redo. */ if (DB_REDO(op)) { ret = __db_pgerr(file_dbp, argp->meta_pgno, ret); goto out; } else goto done; } modified = 0; cmp_n = log_compare(lsnp, &LSN(meta)); cmp_p = log_compare(&LSN(meta), &argp->meta_lsn); CHECK_LSN(op, cmp_p, &LSN(meta), &argp->meta_lsn); if (cmp_p == 0 && DB_REDO(op)) { /* Need to redo update described. */ meta->root = argp->root_pgno; meta->dbmeta.lsn = *lsnp; ((BTREE *)file_dbp->bt_internal)->bt_root = meta->root; modified = 1; } else if (cmp_n == 0 && DB_UNDO(op)) { /* Nothing to undo except lsn. */ meta->dbmeta.lsn = argp->meta_lsn; modified = 1; } if ((ret = __memp_fput(mpf, meta, modified ? DB_MPOOL_DIRTY : 0)) != 0) goto out; meta = NULL; done: *lsnp = argp->prev_lsn; ret = 0; out: if (meta != NULL) (void)__memp_fput(mpf, meta, 0); REC_CLOSE; } /* * __bam_curadj_recover -- * Transaction abort function to undo cursor adjustments. * This should only be triggered by subtransaction aborts. * * PUBLIC: int __bam_curadj_recover * PUBLIC: __P((DB_ENV *, DBT *, DB_LSN *, db_recops, void *)); */ int __bam_curadj_recover(dbenv, dbtp, lsnp, op, info) DB_ENV *dbenv; DBT *dbtp; DB_LSN *lsnp; db_recops op; void *info; { __bam_curadj_args *argp; DB *file_dbp; DBC *dbc; DB_MPOOLFILE *mpf; int ret; COMPQUIET(info, NULL); COMPQUIET(mpf, NULL); REC_PRINT(__bam_curadj_print); REC_INTRO(__bam_curadj_read, 0); ret = 0; if (op != DB_TXN_ABORT) goto done; switch (argp->mode) { case DB_CA_DI: if ((ret = __bam_ca_di(dbc, argp->from_pgno, argp->from_indx, -(int)argp->first_indx)) != 0) goto out; break; case DB_CA_DUP: if ((ret = __bam_ca_undodup(file_dbp, argp->first_indx, argp->from_pgno, argp->from_indx, argp->to_indx)) != 0) goto out; break; case DB_CA_RSPLIT: if ((ret = __bam_ca_rsplit(dbc, argp->to_pgno, argp->from_pgno)) != 0) goto out; break; case DB_CA_SPLIT: __bam_ca_undosplit(file_dbp, argp->from_pgno, argp->to_pgno, argp->left_pgno, argp->from_indx); break; } done: *lsnp = argp->prev_lsn; out: REC_CLOSE; } /* * __bam_rcuradj_recover -- * Transaction abort function to undo cursor adjustments in rrecno. * This should only be triggered by subtransaction aborts. * * PUBLIC: int __bam_rcuradj_recover * PUBLIC: __P((DB_ENV *, DBT *, DB_LSN *, db_recops, void *)); */ int __bam_rcuradj_recover(dbenv, dbtp, lsnp, op, info) DB_ENV *dbenv; DBT *dbtp; DB_LSN *lsnp; db_recops op; void *info; { __bam_rcuradj_args *argp; BTREE_CURSOR *cp; DB *file_dbp; DBC *dbc, *rdbc; DB_MPOOLFILE *mpf; int ret, t_ret; COMPQUIET(info, NULL); COMPQUIET(mpf, NULL); rdbc = NULL; REC_PRINT(__bam_rcuradj_print); REC_INTRO(__bam_rcuradj_read, 0); ret = t_ret = 0; if (op != DB_TXN_ABORT) goto done; /* * We don't know whether we're in an offpage dup set, and * thus don't know whether the dbc REC_INTRO has handed us is * of a reasonable type. It's certainly unset, so if this is * an offpage dup set, we don't have an OPD cursor. The * simplest solution is just to allocate a whole new cursor * for our use; we're only really using it to hold pass some * state into __ram_ca, and this way we don't need to make * this function know anything about how offpage dups work. */ if ((ret = __db_cursor_int(file_dbp, NULL, DB_RECNO, argp->root, 0, DB_LOCK_INVALIDID, &rdbc)) != 0) goto out; cp = (BTREE_CURSOR *)rdbc->internal; F_SET(cp, C_RENUMBER); cp->recno = argp->recno; switch (argp->mode) { case CA_DELETE: /* * The way to undo a delete is with an insert. Since * we're undoing it, the delete flag must be set. */ F_SET(cp, C_DELETED); F_SET(cp, C_RENUMBER); /* Just in case. */ cp->order = argp->order; (void)__ram_ca(rdbc, CA_ICURRENT); break; case CA_IAFTER: case CA_IBEFORE: case CA_ICURRENT: /* * The way to undo an insert is with a delete. The delete * flag is unset to start with. */ F_CLR(cp, C_DELETED); cp->order = INVALID_ORDER; (void)__ram_ca(rdbc, CA_DELETE); break; } done: *lsnp = argp->prev_lsn; out: if (rdbc != NULL && (t_ret = __db_c_close(rdbc)) != 0 && ret == 0) ret = t_ret; REC_CLOSE; }