/*- * See the file LICENSE for redistribution information. * * Copyright (c) 1996, 2010 Oracle and/or its affiliates. All rights reserved. * * $Id$ */ #include "db_config.h" #include "db_int.h" #include "dbinc/db_page.h" #include "dbinc/db_swap.h" #include "dbinc/btree.h" #include "dbinc/hash.h" #include "dbinc/qam.h" /* * __db_upgrade_pp -- * DB->upgrade pre/post processing. * * PUBLIC: int __db_upgrade_pp __P((DB *, const char *, u_int32_t)); */ int __db_upgrade_pp(dbp, fname, flags) DB *dbp; const char *fname; u_int32_t flags; { #ifdef HAVE_UPGRADE_SUPPORT DB_THREAD_INFO *ip; ENV *env; int ret; env = dbp->env; /* * !!! * The actual argument checking is simple, do it inline. */ if ((ret = __db_fchk(env, "DB->upgrade", flags, DB_DUPSORT)) != 0) return (ret); ENV_ENTER(env, ip); ret = __db_upgrade(dbp, fname, flags); ENV_LEAVE(env, ip); return (ret); #else COMPQUIET(dbp, NULL); COMPQUIET(fname, NULL); COMPQUIET(flags, 0); __db_errx(dbp->env, "upgrade not supported"); return (EINVAL); #endif } #ifdef HAVE_UPGRADE_SUPPORT static int (* const func_31_list[P_PAGETYPE_MAX]) __P((DB *, char *, u_int32_t, DB_FH *, PAGE *, int *)) = { NULL, /* P_INVALID */ NULL, /* __P_DUPLICATE */ __ham_31_hash, /* P_HASH_UNSORTED */ NULL, /* P_IBTREE */ NULL, /* P_IRECNO */ __bam_31_lbtree, /* P_LBTREE */ NULL, /* P_LRECNO */ NULL, /* P_OVERFLOW */ __ham_31_hashmeta, /* P_HASHMETA */ __bam_31_btreemeta, /* P_BTREEMETA */ NULL, /* P_QAMMETA */ NULL, /* P_QAMDATA */ NULL, /* P_LDUP */ NULL, /* P_HASH */ }; static int (* const func_46_list[P_PAGETYPE_MAX]) __P((DB *, char *, u_int32_t, DB_FH *, PAGE *, int *)) = { NULL, /* P_INVALID */ NULL, /* __P_DUPLICATE */ __ham_46_hash, /* P_HASH_UNSORTED */ NULL, /* P_IBTREE */ NULL, /* P_IRECNO */ NULL, /* P_LBTREE */ NULL, /* P_LRECNO */ NULL, /* P_OVERFLOW */ __ham_46_hashmeta, /* P_HASHMETA */ NULL, /* P_BTREEMETA */ NULL, /* P_QAMMETA */ NULL, /* P_QAMDATA */ NULL, /* P_LDUP */ NULL, /* P_HASH */ }; static int __db_page_pass __P((DB *, char *, u_int32_t, int (* const []) (DB *, char *, u_int32_t, DB_FH *, PAGE *, int *), DB_FH *)); static int __db_set_lastpgno __P((DB *, char *, DB_FH *)); /* * __db_upgrade -- * Upgrade an existing database. * * PUBLIC: int __db_upgrade __P((DB *, const char *, u_int32_t)); */ int __db_upgrade(dbp, fname, flags) DB *dbp; const char *fname; u_int32_t flags; { DBMETA *meta; DB_FH *fhp; ENV *env; size_t n; int ret, t_ret, use_mp_open; u_int8_t mbuf[256], tmpflags; char *real_name; use_mp_open = 0; env = dbp->env; fhp = NULL; /* Get the real backing file name. */ if ((ret = __db_appname(env, DB_APP_DATA, fname, NULL, &real_name)) != 0) return (ret); /* Open the file. */ if ((ret = __os_open(env, real_name, 0, 0, 0, &fhp)) != 0) { __db_err(env, ret, "%s", real_name); return (ret); } /* Initialize the feedback. */ if (dbp->db_feedback != NULL) dbp->db_feedback(dbp, DB_UPGRADE, 0); /* * Read the metadata page. We read 256 bytes, which is larger than * any access method's metadata page and smaller than any disk sector. */ if ((ret = __os_read(env, fhp, mbuf, sizeof(mbuf), &n)) != 0) goto err; switch (((DBMETA *)mbuf)->magic) { case DB_BTREEMAGIC: switch (((DBMETA *)mbuf)->version) { case 6: /* * Before V7 not all pages had page types, so we do the * single meta-data page by hand. */ if ((ret = __bam_30_btreemeta(dbp, real_name, mbuf)) != 0) goto err; if ((ret = __os_seek(env, fhp, 0, 0, 0)) != 0) goto err; if ((ret = __os_write(env, fhp, mbuf, 256, &n)) != 0) goto err; /* FALLTHROUGH */ case 7: /* * We need the page size to do more. Rip it out of * the meta-data page. */ memcpy(&dbp->pgsize, mbuf + 20, sizeof(u_int32_t)); if ((ret = __db_page_pass( dbp, real_name, flags, func_31_list, fhp)) != 0) goto err; /* FALLTHROUGH */ case 8: if ((ret = __db_set_lastpgno(dbp, real_name, fhp)) != 0) goto err; /* FALLTHROUGH */ case 9: break; default: __db_errx(env, "%s: unsupported btree version: %lu", real_name, (u_long)((DBMETA *)mbuf)->version); ret = DB_OLD_VERSION; goto err; } break; case DB_HASHMAGIC: switch (((DBMETA *)mbuf)->version) { case 4: case 5: /* * Before V6 not all pages had page types, so we do the * single meta-data page by hand. */ if ((ret = __ham_30_hashmeta(dbp, real_name, mbuf)) != 0) goto err; if ((ret = __os_seek(env, fhp, 0, 0, 0)) != 0) goto err; if ((ret = __os_write(env, fhp, mbuf, 256, &n)) != 0) goto err; /* * Before V6, we created hash pages one by one as they * were needed, using hashhdr.ovfl_point to reserve * a block of page numbers for them. A consequence * of this was that, if no overflow pages had been * created, the current doubling might extend past * the end of the database file. * * In DB 3.X, we now create all the hash pages * belonging to a doubling atomically; it's not * safe to just save them for later, because when * we create an overflow page we'll just create * a new last page (whatever that may be). Grow * the database to the end of the current doubling. */ if ((ret = __ham_30_sizefix(dbp, fhp, real_name, mbuf)) != 0) goto err; /* FALLTHROUGH */ case 6: /* * We need the page size to do more. Rip it out of * the meta-data page. */ memcpy(&dbp->pgsize, mbuf + 20, sizeof(u_int32_t)); if ((ret = __db_page_pass( dbp, real_name, flags, func_31_list, fhp)) != 0) goto err; /* FALLTHROUGH */ case 7: if ((ret = __db_set_lastpgno(dbp, real_name, fhp)) != 0) goto err; /* FALLTHROUGH */ case 8: /* * Any upgrade that has proceeded this far has metadata * pages compatible with hash version 8 metadata pages, * so casting mbuf to a dbmeta is safe. * If a newer revision moves the pagesize, checksum or * encrypt_alg flags in the metadata, then the * extraction of the fields will need to use hard coded * offsets. */ meta = (DBMETA*)mbuf; /* * We need the page size to do more. Extract it from * the meta-data page. */ memcpy(&dbp->pgsize, &meta->pagesize, sizeof(u_int32_t)); /* * Rip out metadata and encrypt_alg fields from the * metadata page. So the upgrade can know how big * the page metadata pre-amble is. Any upgrade that has * proceeded this far has metadata pages compatible * with hash version 8 metadata pages, so extracting * the fields is safe. */ memcpy(&tmpflags, &meta->metaflags, sizeof(u_int8_t)); if (FLD_ISSET(tmpflags, DBMETA_CHKSUM)) F_SET(dbp, DB_AM_CHKSUM); memcpy(&tmpflags, &meta->encrypt_alg, sizeof(u_int8_t)); if (tmpflags != 0) { if (!CRYPTO_ON(dbp->env)) { __db_errx(env, "Attempt to upgrade an encrypted database without providing a password."); ret = EINVAL; goto err; } F_SET(dbp, DB_AM_ENCRYPT); } /* * This is ugly. It is necessary to have a usable * mpool in the dbp to upgrade from an unsorted * to a sorted hash database. The mpool file is used * to resolve offpage key items, which are needed to * determine sort order. Having mpool open and access * the file does not affect the page pass, since the * page pass only updates DB_HASH_UNSORTED pages * in-place, and the mpool file is only used to read * OFFPAGE items. */ use_mp_open = 1; if ((ret = __os_closehandle(env, fhp)) != 0) return (ret); dbp->type = DB_HASH; if ((ret = __env_mpool(dbp, fname, DB_AM_NOT_DURABLE | DB_AM_VERIFYING)) != 0) return (ret); fhp = dbp->mpf->fhp; /* Do the actual conversion pass. */ if ((ret = __db_page_pass( dbp, real_name, flags, func_46_list, fhp)) != 0) goto err; /* FALLTHROUGH */ case 9: break; default: __db_errx(env, "%s: unsupported hash version: %lu", real_name, (u_long)((DBMETA *)mbuf)->version); ret = DB_OLD_VERSION; goto err; } break; case DB_QAMMAGIC: switch (((DBMETA *)mbuf)->version) { case 1: /* * If we're in a Queue database, the only page that * needs upgrading is the meta-database page, don't * bother with a full pass. */ if ((ret = __qam_31_qammeta(dbp, real_name, mbuf)) != 0) return (ret); /* FALLTHROUGH */ case 2: if ((ret = __qam_32_qammeta(dbp, real_name, mbuf)) != 0) return (ret); if ((ret = __os_seek(env, fhp, 0, 0, 0)) != 0) goto err; if ((ret = __os_write(env, fhp, mbuf, 256, &n)) != 0) goto err; /* FALLTHROUGH */ case 3: case 4: break; default: __db_errx(env, "%s: unsupported queue version: %lu", real_name, (u_long)((DBMETA *)mbuf)->version); ret = DB_OLD_VERSION; goto err; } break; default: M_32_SWAP(((DBMETA *)mbuf)->magic); switch (((DBMETA *)mbuf)->magic) { case DB_BTREEMAGIC: case DB_HASHMAGIC: case DB_QAMMAGIC: __db_errx(env, "%s: DB->upgrade only supported on native byte-order systems", real_name); break; default: __db_errx(env, "%s: unrecognized file type", real_name); break; } ret = EINVAL; goto err; } ret = __os_fsync(env, fhp); /* * If mp_open was used, then rely on the database close to clean up * any file handles. */ err: if (use_mp_open == 0 && fhp != NULL && (t_ret = __os_closehandle(env, fhp)) != 0 && ret == 0) ret = t_ret; __os_free(env, real_name); /* We're done. */ if (dbp->db_feedback != NULL) dbp->db_feedback(dbp, DB_UPGRADE, 100); return (ret); } /* * __db_page_pass -- * Walk the pages of the database, upgrading whatever needs it. */ static int __db_page_pass(dbp, real_name, flags, fl, fhp) DB *dbp; char *real_name; u_int32_t flags; int (* const fl[P_PAGETYPE_MAX]) __P((DB *, char *, u_int32_t, DB_FH *, PAGE *, int *)); DB_FH *fhp; { ENV *env; PAGE *page; db_pgno_t i, pgno_last; size_t n; int dirty, ret; env = dbp->env; /* Determine the last page of the file. */ if ((ret = __db_lastpgno(dbp, real_name, fhp, &pgno_last)) != 0) return (ret); /* Allocate memory for a single page. */ if ((ret = __os_malloc(env, dbp->pgsize, &page)) != 0) return (ret); /* Walk the file, calling the underlying conversion functions. */ for (i = 0; i < pgno_last; ++i) { if (dbp->db_feedback != NULL) dbp->db_feedback( dbp, DB_UPGRADE, (int)((i * 100)/pgno_last)); if ((ret = __os_seek(env, fhp, i, dbp->pgsize, 0)) != 0) break; if ((ret = __os_read(env, fhp, page, dbp->pgsize, &n)) != 0) break; dirty = 0; /* Always decrypt the page. */ if ((ret = __db_decrypt_pg(env, dbp, page)) != 0) break; if (fl[TYPE(page)] != NULL && (ret = fl[TYPE(page)] (dbp, real_name, flags, fhp, page, &dirty)) != 0) break; if (dirty) { if ((ret = __db_encrypt_and_checksum_pg( env, dbp, page)) != 0) break; if ((ret = __os_seek(env, fhp, i, dbp->pgsize, 0)) != 0) break; if ((ret = __os_write(env, fhp, page, dbp->pgsize, &n)) != 0) break; } } __os_free(dbp->env, page); return (ret); } /* * __db_lastpgno -- * Return the current last page number of the file. * * PUBLIC: int __db_lastpgno __P((DB *, char *, DB_FH *, db_pgno_t *)); */ int __db_lastpgno(dbp, real_name, fhp, pgno_lastp) DB *dbp; char *real_name; DB_FH *fhp; db_pgno_t *pgno_lastp; { ENV *env; db_pgno_t pgno_last; u_int32_t mbytes, bytes; int ret; env = dbp->env; if ((ret = __os_ioinfo(env, real_name, fhp, &mbytes, &bytes, NULL)) != 0) { __db_err(env, ret, "%s", real_name); return (ret); } /* Page sizes have to be a power-of-two. */ if (bytes % dbp->pgsize != 0) { __db_errx(env, "%s: file size not a multiple of the pagesize", real_name); return (EINVAL); } pgno_last = mbytes * (MEGABYTE / dbp->pgsize); pgno_last += bytes / dbp->pgsize; *pgno_lastp = pgno_last; return (0); } /* * __db_set_lastpgno -- * Update the meta->last_pgno field. * * Code assumes that we do not have checksums/crypto on the page. */ static int __db_set_lastpgno(dbp, real_name, fhp) DB *dbp; char *real_name; DB_FH *fhp; { DBMETA meta; ENV *env; int ret; size_t n; env = dbp->env; if ((ret = __os_seek(env, fhp, 0, 0, 0)) != 0) return (ret); if ((ret = __os_read(env, fhp, &meta, sizeof(meta), &n)) != 0) return (ret); dbp->pgsize = meta.pagesize; if ((ret = __db_lastpgno(dbp, real_name, fhp, &meta.last_pgno)) != 0) return (ret); if ((ret = __os_seek(env, fhp, 0, 0, 0)) != 0) return (ret); if ((ret = __os_write(env, fhp, &meta, sizeof(meta), &n)) != 0) return (ret); return (0); } #endif /* HAVE_UPGRADE_SUPPORT */