/* Do not edit: automatically built by gen_rec.awk. */ #include "db_config.h" #ifndef NO_SYSTEM_INCLUDES #include #if TIME_WITH_SYS_TIME #include #include #else #if HAVE_SYS_TIME_H #include #else #include #endif /* HAVE_SYS_TIME_H */ #endif /* TIME_WITH SYS_TIME */ #include #include #endif #include "db_int.h" #include "dbinc/crypto.h" #include "dbinc/db_page.h" #include "dbinc/db_dispatch.h" #include "dbinc/db_am.h" #include "dbinc/log.h" #include "dbinc/txn.h" /* * PUBLIC: int __txn_regop_log __P((DB_ENV *, DB_TXN *, DB_LSN *, * PUBLIC: u_int32_t, u_int32_t, int32_t, const DBT *)); */ int __txn_regop_log(dbenv, txnid, ret_lsnp, flags, opcode, timestamp, locks) DB_ENV *dbenv; DB_TXN *txnid; DB_LSN *ret_lsnp; u_int32_t flags; u_int32_t opcode; int32_t timestamp; const DBT *locks; { DBT logrec; DB_TXNLOGREC *lr; DB_LSN *lsnp, null_lsn; u_int32_t zero, uinttmp, rectype, txn_num; u_int npad; u_int8_t *bp; int is_durable, ret; rectype = DB___txn_regop; npad = 0; is_durable = 1; if (LF_ISSET(DB_LOG_NOT_DURABLE) || F_ISSET(dbenv, DB_ENV_TXN_NOT_DURABLE)) { if (txnid == NULL) return (0); is_durable = 0; } if (txnid == NULL) { txn_num = 0; null_lsn.file = 0; null_lsn.offset = 0; lsnp = &null_lsn; } else { if (TAILQ_FIRST(&txnid->kids) != NULL && (ret = __txn_activekids(dbenv, rectype, txnid)) != 0) return (ret); txn_num = txnid->txnid; lsnp = &txnid->last_lsn; } logrec.size = sizeof(rectype) + sizeof(txn_num) + sizeof(DB_LSN) + sizeof(u_int32_t) + sizeof(u_int32_t) + sizeof(u_int32_t) + (locks == NULL ? 0 : locks->size); if (CRYPTO_ON(dbenv)) { npad = ((DB_CIPHER *)dbenv->crypto_handle)->adj_size(logrec.size); logrec.size += npad; } if (!is_durable && txnid != NULL) { if ((ret = __os_malloc(dbenv, logrec.size + sizeof(DB_TXNLOGREC), &lr)) != 0) return (ret); #ifdef DIAGNOSTIC goto do_malloc; #else logrec.data = &lr->data; #endif } else { #ifdef DIAGNOSTIC do_malloc: #endif if ((ret = __os_malloc(dbenv, logrec.size, &logrec.data)) != 0) { #ifdef DIAGNOSTIC if (!is_durable && txnid != NULL) (void)__os_free(dbenv, lr); #endif return (ret); } } if (npad > 0) memset((u_int8_t *)logrec.data + logrec.size - npad, 0, npad); bp = logrec.data; memcpy(bp, &rectype, sizeof(rectype)); bp += sizeof(rectype); memcpy(bp, &txn_num, sizeof(txn_num)); bp += sizeof(txn_num); memcpy(bp, lsnp, sizeof(DB_LSN)); bp += sizeof(DB_LSN); uinttmp = (u_int32_t)opcode; memcpy(bp, &uinttmp, sizeof(uinttmp)); bp += sizeof(uinttmp); uinttmp = (u_int32_t)timestamp; memcpy(bp, &uinttmp, sizeof(uinttmp)); bp += sizeof(uinttmp); if (locks == NULL) { zero = 0; memcpy(bp, &zero, sizeof(u_int32_t)); bp += sizeof(u_int32_t); } else { memcpy(bp, &locks->size, sizeof(locks->size)); bp += sizeof(locks->size); memcpy(bp, locks->data, locks->size); bp += locks->size; } DB_ASSERT((u_int32_t)(bp - (u_int8_t *)logrec.data) <= logrec.size); #ifdef DIAGNOSTIC if (!is_durable && txnid != NULL) { /* * We set the debug bit if we are going * to log non-durable transactions so * they will be ignored by recovery. */ memcpy(lr->data, logrec.data, logrec.size); rectype |= DB_debug_FLAG; memcpy(logrec.data, &rectype, sizeof(rectype)); } #endif if (!is_durable && txnid != NULL) { ret = 0; STAILQ_INSERT_HEAD(&txnid->logs, lr, links); #ifdef DIAGNOSTIC goto do_put; #endif } else{ #ifdef DIAGNOSTIC do_put: #endif ret = __log_put(dbenv, ret_lsnp, (DBT *)&logrec, flags | DB_LOG_NOCOPY); if (ret == 0 && txnid != NULL) txnid->last_lsn = *ret_lsnp; } if (!is_durable) LSN_NOT_LOGGED(*ret_lsnp); #ifdef LOG_DIAGNOSTIC if (ret != 0) (void)__txn_regop_print(dbenv, (DBT *)&logrec, ret_lsnp, NULL, NULL); #endif #ifndef DIAGNOSTIC if (is_durable || txnid == NULL) #endif __os_free(dbenv, logrec.data); return (ret); } #ifdef HAVE_REPLICATION /* * PUBLIC: int __txn_regop_getpgnos __P((DB_ENV *, DBT *, DB_LSN *, * PUBLIC: db_recops, void *)); */ int __txn_regop_getpgnos(dbenv, rec, lsnp, notused1, summary) DB_ENV *dbenv; DBT *rec; DB_LSN *lsnp; db_recops notused1; void *summary; { TXN_RECS *t; int ret; COMPQUIET(rec, NULL); COMPQUIET(notused1, DB_TXN_ABORT); t = (TXN_RECS *)summary; if ((ret = __rep_check_alloc(dbenv, t, 1)) != 0) return (ret); t->array[t->npages].flags = LSN_PAGE_NOLOCK; t->array[t->npages].lsn = *lsnp; t->array[t->npages].fid = DB_LOGFILEID_INVALID; memset(&t->array[t->npages].pgdesc, 0, sizeof(t->array[t->npages].pgdesc)); t->npages++; return (0); } #endif /* HAVE_REPLICATION */ /* * PUBLIC: int __txn_regop_print __P((DB_ENV *, DBT *, DB_LSN *, * PUBLIC: db_recops, void *)); */ int __txn_regop_print(dbenv, dbtp, lsnp, notused2, notused3) DB_ENV *dbenv; DBT *dbtp; DB_LSN *lsnp; db_recops notused2; void *notused3; { __txn_regop_args *argp; struct tm *lt; u_int32_t i; int ch; int ret; notused2 = DB_TXN_ABORT; notused3 = NULL; if ((ret = __txn_regop_read(dbenv, dbtp->data, &argp)) != 0) return (ret); (void)printf( "[%lu][%lu]__txn_regop%s: rec: %lu txnid %lx prevlsn [%lu][%lu]\n", (u_long)lsnp->file, (u_long)lsnp->offset, (argp->type & DB_debug_FLAG) ? "_debug" : "", (u_long)argp->type, (u_long)argp->txnid->txnid, (u_long)argp->prev_lsn.file, (u_long)argp->prev_lsn.offset); (void)printf("\topcode: %lu\n", (u_long)argp->opcode); lt = localtime((time_t *)&argp->timestamp); (void)printf( "\ttimestamp: %ld (%.24s, 20%02lu%02lu%02lu%02lu%02lu.%02lu)\n", (long)argp->timestamp, ctime((time_t *)&argp->timestamp), (u_long)lt->tm_year - 100, (u_long)lt->tm_mon+1, (u_long)lt->tm_mday, (u_long)lt->tm_hour, (u_long)lt->tm_min, (u_long)lt->tm_sec); (void)printf("\tlocks: "); for (i = 0; i < argp->locks.size; i++) { ch = ((u_int8_t *)argp->locks.data)[i]; printf(isprint(ch) || ch == 0x0a ? "%c" : "%#x ", ch); } (void)printf("\n"); (void)printf("\n"); __os_free(dbenv, argp); return (0); } /* * PUBLIC: int __txn_regop_read __P((DB_ENV *, void *, __txn_regop_args **)); */ int __txn_regop_read(dbenv, recbuf, argpp) DB_ENV *dbenv; void *recbuf; __txn_regop_args **argpp; { __txn_regop_args *argp; u_int32_t uinttmp; u_int8_t *bp; int ret; if ((ret = __os_malloc(dbenv, sizeof(__txn_regop_args) + sizeof(DB_TXN), &argp)) != 0) return (ret); argp->txnid = (DB_TXN *)&argp[1]; bp = recbuf; memcpy(&argp->type, bp, sizeof(argp->type)); bp += sizeof(argp->type); memcpy(&argp->txnid->txnid, bp, sizeof(argp->txnid->txnid)); bp += sizeof(argp->txnid->txnid); memcpy(&argp->prev_lsn, bp, sizeof(DB_LSN)); bp += sizeof(DB_LSN); memcpy(&uinttmp, bp, sizeof(uinttmp)); argp->opcode = (u_int32_t)uinttmp; bp += sizeof(uinttmp); memcpy(&uinttmp, bp, sizeof(uinttmp)); argp->timestamp = (int32_t)uinttmp; bp += sizeof(uinttmp); memset(&argp->locks, 0, sizeof(argp->locks)); memcpy(&argp->locks.size, bp, sizeof(u_int32_t)); bp += sizeof(u_int32_t); argp->locks.data = bp; bp += argp->locks.size; *argpp = argp; return (0); } /* * PUBLIC: int __txn_ckp_log __P((DB_ENV *, DB_TXN *, DB_LSN *, * PUBLIC: u_int32_t, DB_LSN *, DB_LSN *, int32_t, u_int32_t)); */ int __txn_ckp_log(dbenv, txnid, ret_lsnp, flags, ckp_lsn, last_ckp, timestamp, rep_gen) DB_ENV *dbenv; DB_TXN *txnid; DB_LSN *ret_lsnp; u_int32_t flags; DB_LSN * ckp_lsn; DB_LSN * last_ckp; int32_t timestamp; u_int32_t rep_gen; { DBT logrec; DB_TXNLOGREC *lr; DB_LSN *lsnp, null_lsn; u_int32_t uinttmp, rectype, txn_num; u_int npad; u_int8_t *bp; int is_durable, ret; rectype = DB___txn_ckp; npad = 0; is_durable = 1; if (LF_ISSET(DB_LOG_NOT_DURABLE) || F_ISSET(dbenv, DB_ENV_TXN_NOT_DURABLE)) { if (txnid == NULL) return (0); is_durable = 0; } if (txnid == NULL) { txn_num = 0; null_lsn.file = 0; null_lsn.offset = 0; lsnp = &null_lsn; } else { if (TAILQ_FIRST(&txnid->kids) != NULL && (ret = __txn_activekids(dbenv, rectype, txnid)) != 0) return (ret); txn_num = txnid->txnid; lsnp = &txnid->last_lsn; } logrec.size = sizeof(rectype) + sizeof(txn_num) + sizeof(DB_LSN) + sizeof(*ckp_lsn) + sizeof(*last_ckp) + sizeof(u_int32_t) + sizeof(u_int32_t); if (CRYPTO_ON(dbenv)) { npad = ((DB_CIPHER *)dbenv->crypto_handle)->adj_size(logrec.size); logrec.size += npad; } if (!is_durable && txnid != NULL) { if ((ret = __os_malloc(dbenv, logrec.size + sizeof(DB_TXNLOGREC), &lr)) != 0) return (ret); #ifdef DIAGNOSTIC goto do_malloc; #else logrec.data = &lr->data; #endif } else { #ifdef DIAGNOSTIC do_malloc: #endif if ((ret = __os_malloc(dbenv, logrec.size, &logrec.data)) != 0) { #ifdef DIAGNOSTIC if (!is_durable && txnid != NULL) (void)__os_free(dbenv, lr); #endif return (ret); } } if (npad > 0) memset((u_int8_t *)logrec.data + logrec.size - npad, 0, npad); bp = logrec.data; memcpy(bp, &rectype, sizeof(rectype)); bp += sizeof(rectype); memcpy(bp, &txn_num, sizeof(txn_num)); bp += sizeof(txn_num); memcpy(bp, lsnp, sizeof(DB_LSN)); bp += sizeof(DB_LSN); if (ckp_lsn != NULL) memcpy(bp, ckp_lsn, sizeof(*ckp_lsn)); else memset(bp, 0, sizeof(*ckp_lsn)); bp += sizeof(*ckp_lsn); if (last_ckp != NULL) memcpy(bp, last_ckp, sizeof(*last_ckp)); else memset(bp, 0, sizeof(*last_ckp)); bp += sizeof(*last_ckp); uinttmp = (u_int32_t)timestamp; memcpy(bp, &uinttmp, sizeof(uinttmp)); bp += sizeof(uinttmp); uinttmp = (u_int32_t)rep_gen; memcpy(bp, &uinttmp, sizeof(uinttmp)); bp += sizeof(uinttmp); DB_ASSERT((u_int32_t)(bp - (u_int8_t *)logrec.data) <= logrec.size); #ifdef DIAGNOSTIC if (!is_durable && txnid != NULL) { /* * We set the debug bit if we are going * to log non-durable transactions so * they will be ignored by recovery. */ memcpy(lr->data, logrec.data, logrec.size); rectype |= DB_debug_FLAG; memcpy(logrec.data, &rectype, sizeof(rectype)); } #endif if (!is_durable && txnid != NULL) { ret = 0; STAILQ_INSERT_HEAD(&txnid->logs, lr, links); #ifdef DIAGNOSTIC goto do_put; #endif } else{ #ifdef DIAGNOSTIC do_put: #endif ret = __log_put(dbenv, ret_lsnp, (DBT *)&logrec, flags | DB_LOG_NOCOPY); if (ret == 0 && txnid != NULL) txnid->last_lsn = *ret_lsnp; } if (!is_durable) LSN_NOT_LOGGED(*ret_lsnp); #ifdef LOG_DIAGNOSTIC if (ret != 0) (void)__txn_ckp_print(dbenv, (DBT *)&logrec, ret_lsnp, NULL, NULL); #endif #ifndef DIAGNOSTIC if (is_durable || txnid == NULL) #endif __os_free(dbenv, logrec.data); return (ret); } #ifdef HAVE_REPLICATION /* * PUBLIC: int __txn_ckp_getpgnos __P((DB_ENV *, DBT *, DB_LSN *, * PUBLIC: db_recops, void *)); */ int __txn_ckp_getpgnos(dbenv, rec, lsnp, notused1, summary) DB_ENV *dbenv; DBT *rec; DB_LSN *lsnp; db_recops notused1; void *summary; { TXN_RECS *t; int ret; COMPQUIET(rec, NULL); COMPQUIET(notused1, DB_TXN_ABORT); t = (TXN_RECS *)summary; if ((ret = __rep_check_alloc(dbenv, t, 1)) != 0) return (ret); t->array[t->npages].flags = LSN_PAGE_NOLOCK; t->array[t->npages].lsn = *lsnp; t->array[t->npages].fid = DB_LOGFILEID_INVALID; memset(&t->array[t->npages].pgdesc, 0, sizeof(t->array[t->npages].pgdesc)); t->npages++; return (0); } #endif /* HAVE_REPLICATION */ /* * PUBLIC: int __txn_ckp_print __P((DB_ENV *, DBT *, DB_LSN *, * PUBLIC: db_recops, void *)); */ int __txn_ckp_print(dbenv, dbtp, lsnp, notused2, notused3) DB_ENV *dbenv; DBT *dbtp; DB_LSN *lsnp; db_recops notused2; void *notused3; { __txn_ckp_args *argp; struct tm *lt; int ret; notused2 = DB_TXN_ABORT; notused3 = NULL; if ((ret = __txn_ckp_read(dbenv, dbtp->data, &argp)) != 0) return (ret); (void)printf( "[%lu][%lu]__txn_ckp%s: rec: %lu txnid %lx prevlsn [%lu][%lu]\n", (u_long)lsnp->file, (u_long)lsnp->offset, (argp->type & DB_debug_FLAG) ? "_debug" : "", (u_long)argp->type, (u_long)argp->txnid->txnid, (u_long)argp->prev_lsn.file, (u_long)argp->prev_lsn.offset); (void)printf("\tckp_lsn: [%lu][%lu]\n", (u_long)argp->ckp_lsn.file, (u_long)argp->ckp_lsn.offset); (void)printf("\tlast_ckp: [%lu][%lu]\n", (u_long)argp->last_ckp.file, (u_long)argp->last_ckp.offset); lt = localtime((time_t *)&argp->timestamp); (void)printf( "\ttimestamp: %ld (%.24s, 20%02lu%02lu%02lu%02lu%02lu.%02lu)\n", (long)argp->timestamp, ctime((time_t *)&argp->timestamp), (u_long)lt->tm_year - 100, (u_long)lt->tm_mon+1, (u_long)lt->tm_mday, (u_long)lt->tm_hour, (u_long)lt->tm_min, (u_long)lt->tm_sec); (void)printf("\trep_gen: %ld\n", (long)argp->rep_gen); (void)printf("\n"); __os_free(dbenv, argp); return (0); } /* * PUBLIC: int __txn_ckp_read __P((DB_ENV *, void *, __txn_ckp_args **)); */ int __txn_ckp_read(dbenv, recbuf, argpp) DB_ENV *dbenv; void *recbuf; __txn_ckp_args **argpp; { __txn_ckp_args *argp; u_int32_t uinttmp; u_int8_t *bp; int ret; if ((ret = __os_malloc(dbenv, sizeof(__txn_ckp_args) + sizeof(DB_TXN), &argp)) != 0) return (ret); argp->txnid = (DB_TXN *)&argp[1]; bp = recbuf; memcpy(&argp->type, bp, sizeof(argp->type)); bp += sizeof(argp->type); memcpy(&argp->txnid->txnid, bp, sizeof(argp->txnid->txnid)); bp += sizeof(argp->txnid->txnid); memcpy(&argp->prev_lsn, bp, sizeof(DB_LSN)); bp += sizeof(DB_LSN); memcpy(&argp->ckp_lsn, bp, sizeof(argp->ckp_lsn)); bp += sizeof(argp->ckp_lsn); memcpy(&argp->last_ckp, bp, sizeof(argp->last_ckp)); bp += sizeof(argp->last_ckp); memcpy(&uinttmp, bp, sizeof(uinttmp)); argp->timestamp = (int32_t)uinttmp; bp += sizeof(uinttmp); memcpy(&uinttmp, bp, sizeof(uinttmp)); argp->rep_gen = (u_int32_t)uinttmp; bp += sizeof(uinttmp); *argpp = argp; return (0); } /* * PUBLIC: int __txn_child_log __P((DB_ENV *, DB_TXN *, DB_LSN *, * PUBLIC: u_int32_t, u_int32_t, DB_LSN *)); */ int __txn_child_log(dbenv, txnid, ret_lsnp, flags, child, c_lsn) DB_ENV *dbenv; DB_TXN *txnid; DB_LSN *ret_lsnp; u_int32_t flags; u_int32_t child; DB_LSN * c_lsn; { DBT logrec; DB_TXNLOGREC *lr; DB_LSN *lsnp, null_lsn; u_int32_t uinttmp, rectype, txn_num; u_int npad; u_int8_t *bp; int is_durable, ret; rectype = DB___txn_child; npad = 0; is_durable = 1; if (LF_ISSET(DB_LOG_NOT_DURABLE) || F_ISSET(dbenv, DB_ENV_TXN_NOT_DURABLE)) { if (txnid == NULL) return (0); is_durable = 0; } if (txnid == NULL) { txn_num = 0; null_lsn.file = 0; null_lsn.offset = 0; lsnp = &null_lsn; } else { if (TAILQ_FIRST(&txnid->kids) != NULL && (ret = __txn_activekids(dbenv, rectype, txnid)) != 0) return (ret); txn_num = txnid->txnid; lsnp = &txnid->last_lsn; } logrec.size = sizeof(rectype) + sizeof(txn_num) + sizeof(DB_LSN) + sizeof(u_int32_t) + sizeof(*c_lsn); if (CRYPTO_ON(dbenv)) { npad = ((DB_CIPHER *)dbenv->crypto_handle)->adj_size(logrec.size); logrec.size += npad; } if (!is_durable && txnid != NULL) { if ((ret = __os_malloc(dbenv, logrec.size + sizeof(DB_TXNLOGREC), &lr)) != 0) return (ret); #ifdef DIAGNOSTIC goto do_malloc; #else logrec.data = &lr->data; #endif } else { #ifdef DIAGNOSTIC do_malloc: #endif if ((ret = __os_malloc(dbenv, logrec.size, &logrec.data)) != 0) { #ifdef DIAGNOSTIC if (!is_durable && txnid != NULL) (void)__os_free(dbenv, lr); #endif return (ret); } } if (npad > 0) memset((u_int8_t *)logrec.data + logrec.size - npad, 0, npad); bp = logrec.data; memcpy(bp, &rectype, sizeof(rectype)); bp += sizeof(rectype); memcpy(bp, &txn_num, sizeof(txn_num)); bp += sizeof(txn_num); memcpy(bp, lsnp, sizeof(DB_LSN)); bp += sizeof(DB_LSN); uinttmp = (u_int32_t)child; memcpy(bp, &uinttmp, sizeof(uinttmp)); bp += sizeof(uinttmp); if (c_lsn != NULL) memcpy(bp, c_lsn, sizeof(*c_lsn)); else memset(bp, 0, sizeof(*c_lsn)); bp += sizeof(*c_lsn); DB_ASSERT((u_int32_t)(bp - (u_int8_t *)logrec.data) <= logrec.size); #ifdef DIAGNOSTIC if (!is_durable && txnid != NULL) { /* * We set the debug bit if we are going * to log non-durable transactions so * they will be ignored by recovery. */ memcpy(lr->data, logrec.data, logrec.size); rectype |= DB_debug_FLAG; memcpy(logrec.data, &rectype, sizeof(rectype)); } #endif if (!is_durable && txnid != NULL) { ret = 0; STAILQ_INSERT_HEAD(&txnid->logs, lr, links); #ifdef DIAGNOSTIC goto do_put; #endif } else{ #ifdef DIAGNOSTIC do_put: #endif ret = __log_put(dbenv, ret_lsnp, (DBT *)&logrec, flags | DB_LOG_NOCOPY); if (ret == 0 && txnid != NULL) txnid->last_lsn = *ret_lsnp; } if (!is_durable) LSN_NOT_LOGGED(*ret_lsnp); #ifdef LOG_DIAGNOSTIC if (ret != 0) (void)__txn_child_print(dbenv, (DBT *)&logrec, ret_lsnp, NULL, NULL); #endif #ifndef DIAGNOSTIC if (is_durable || txnid == NULL) #endif __os_free(dbenv, logrec.data); return (ret); } #ifdef HAVE_REPLICATION /* * PUBLIC: int __txn_child_getpgnos __P((DB_ENV *, DBT *, DB_LSN *, * PUBLIC: db_recops, void *)); */ int __txn_child_getpgnos(dbenv, rec, lsnp, notused1, summary) DB_ENV *dbenv; DBT *rec; DB_LSN *lsnp; db_recops notused1; void *summary; { TXN_RECS *t; int ret; COMPQUIET(rec, NULL); COMPQUIET(notused1, DB_TXN_ABORT); t = (TXN_RECS *)summary; if ((ret = __rep_check_alloc(dbenv, t, 1)) != 0) return (ret); t->array[t->npages].flags = LSN_PAGE_NOLOCK; t->array[t->npages].lsn = *lsnp; t->array[t->npages].fid = DB_LOGFILEID_INVALID; memset(&t->array[t->npages].pgdesc, 0, sizeof(t->array[t->npages].pgdesc)); t->npages++; return (0); } #endif /* HAVE_REPLICATION */ /* * PUBLIC: int __txn_child_print __P((DB_ENV *, DBT *, DB_LSN *, * PUBLIC: db_recops, void *)); */ int __txn_child_print(dbenv, dbtp, lsnp, notused2, notused3) DB_ENV *dbenv; DBT *dbtp; DB_LSN *lsnp; db_recops notused2; void *notused3; { __txn_child_args *argp; int ret; notused2 = DB_TXN_ABORT; notused3 = NULL; if ((ret = __txn_child_read(dbenv, dbtp->data, &argp)) != 0) return (ret); (void)printf( "[%lu][%lu]__txn_child%s: rec: %lu txnid %lx prevlsn [%lu][%lu]\n", (u_long)lsnp->file, (u_long)lsnp->offset, (argp->type & DB_debug_FLAG) ? "_debug" : "", (u_long)argp->type, (u_long)argp->txnid->txnid, (u_long)argp->prev_lsn.file, (u_long)argp->prev_lsn.offset); (void)printf("\tchild: 0x%lx\n", (u_long)argp->child); (void)printf("\tc_lsn: [%lu][%lu]\n", (u_long)argp->c_lsn.file, (u_long)argp->c_lsn.offset); (void)printf("\n"); __os_free(dbenv, argp); return (0); } /* * PUBLIC: int __txn_child_read __P((DB_ENV *, void *, __txn_child_args **)); */ int __txn_child_read(dbenv, recbuf, argpp) DB_ENV *dbenv; void *recbuf; __txn_child_args **argpp; { __txn_child_args *argp; u_int32_t uinttmp; u_int8_t *bp; int ret; if ((ret = __os_malloc(dbenv, sizeof(__txn_child_args) + sizeof(DB_TXN), &argp)) != 0) return (ret); argp->txnid = (DB_TXN *)&argp[1]; bp = recbuf; memcpy(&argp->type, bp, sizeof(argp->type)); bp += sizeof(argp->type); memcpy(&argp->txnid->txnid, bp, sizeof(argp->txnid->txnid)); bp += sizeof(argp->txnid->txnid); memcpy(&argp->prev_lsn, bp, sizeof(DB_LSN)); bp += sizeof(DB_LSN); memcpy(&uinttmp, bp, sizeof(uinttmp)); argp->child = (u_int32_t)uinttmp; bp += sizeof(uinttmp); memcpy(&argp->c_lsn, bp, sizeof(argp->c_lsn)); bp += sizeof(argp->c_lsn); *argpp = argp; return (0); } /* * PUBLIC: int __txn_xa_regop_log __P((DB_ENV *, DB_TXN *, DB_LSN *, * PUBLIC: u_int32_t, u_int32_t, const DBT *, int32_t, u_int32_t, u_int32_t, * PUBLIC: DB_LSN *, const DBT *)); */ int __txn_xa_regop_log(dbenv, txnid, ret_lsnp, flags, opcode, xid, formatID, gtrid, bqual, begin_lsn, locks) DB_ENV *dbenv; DB_TXN *txnid; DB_LSN *ret_lsnp; u_int32_t flags; u_int32_t opcode; const DBT *xid; int32_t formatID; u_int32_t gtrid; u_int32_t bqual; DB_LSN * begin_lsn; const DBT *locks; { DBT logrec; DB_TXNLOGREC *lr; DB_LSN *lsnp, null_lsn; u_int32_t zero, uinttmp, rectype, txn_num; u_int npad; u_int8_t *bp; int is_durable, ret; rectype = DB___txn_xa_regop; npad = 0; is_durable = 1; if (LF_ISSET(DB_LOG_NOT_DURABLE) || F_ISSET(dbenv, DB_ENV_TXN_NOT_DURABLE)) { if (txnid == NULL) return (0); is_durable = 0; } if (txnid == NULL) { txn_num = 0; null_lsn.file = 0; null_lsn.offset = 0; lsnp = &null_lsn; } else { if (TAILQ_FIRST(&txnid->kids) != NULL && (ret = __txn_activekids(dbenv, rectype, txnid)) != 0) return (ret); txn_num = txnid->txnid; lsnp = &txnid->last_lsn; } logrec.size = sizeof(rectype) + sizeof(txn_num) + sizeof(DB_LSN) + sizeof(u_int32_t) + sizeof(u_int32_t) + (xid == NULL ? 0 : xid->size) + sizeof(u_int32_t) + sizeof(u_int32_t) + sizeof(u_int32_t) + sizeof(*begin_lsn) + sizeof(u_int32_t) + (locks == NULL ? 0 : locks->size); if (CRYPTO_ON(dbenv)) { npad = ((DB_CIPHER *)dbenv->crypto_handle)->adj_size(logrec.size); logrec.size += npad; } if (!is_durable && txnid != NULL) { if ((ret = __os_malloc(dbenv, logrec.size + sizeof(DB_TXNLOGREC), &lr)) != 0) return (ret); #ifdef DIAGNOSTIC goto do_malloc; #else logrec.data = &lr->data; #endif } else { #ifdef DIAGNOSTIC do_malloc: #endif if ((ret = __os_malloc(dbenv, logrec.size, &logrec.data)) != 0) { #ifdef DIAGNOSTIC if (!is_durable && txnid != NULL) (void)__os_free(dbenv, lr); #endif return (ret); } } if (npad > 0) memset((u_int8_t *)logrec.data + logrec.size - npad, 0, npad); bp = logrec.data; memcpy(bp, &rectype, sizeof(rectype)); bp += sizeof(rectype); memcpy(bp, &txn_num, sizeof(txn_num)); bp += sizeof(txn_num); memcpy(bp, lsnp, sizeof(DB_LSN)); bp += sizeof(DB_LSN); uinttmp = (u_int32_t)opcode; memcpy(bp, &uinttmp, sizeof(uinttmp)); bp += sizeof(uinttmp); if (xid == NULL) { zero = 0; memcpy(bp, &zero, sizeof(u_int32_t)); bp += sizeof(u_int32_t); } else { memcpy(bp, &xid->size, sizeof(xid->size)); bp += sizeof(xid->size); memcpy(bp, xid->data, xid->size); bp += xid->size; } uinttmp = (u_int32_t)formatID; memcpy(bp, &uinttmp, sizeof(uinttmp)); bp += sizeof(uinttmp); uinttmp = (u_int32_t)gtrid; memcpy(bp, &uinttmp, sizeof(uinttmp)); bp += sizeof(uinttmp); uinttmp = (u_int32_t)bqual; memcpy(bp, &uinttmp, sizeof(uinttmp)); bp += sizeof(uinttmp); if (begin_lsn != NULL) memcpy(bp, begin_lsn, sizeof(*begin_lsn)); else memset(bp, 0, sizeof(*begin_lsn)); bp += sizeof(*begin_lsn); if (locks == NULL) { zero = 0; memcpy(bp, &zero, sizeof(u_int32_t)); bp += sizeof(u_int32_t); } else { memcpy(bp, &locks->size, sizeof(locks->size)); bp += sizeof(locks->size); memcpy(bp, locks->data, locks->size); bp += locks->size; } DB_ASSERT((u_int32_t)(bp - (u_int8_t *)logrec.data) <= logrec.size); #ifdef DIAGNOSTIC if (!is_durable && txnid != NULL) { /* * We set the debug bit if we are going * to log non-durable transactions so * they will be ignored by recovery. */ memcpy(lr->data, logrec.data, logrec.size); rectype |= DB_debug_FLAG; memcpy(logrec.data, &rectype, sizeof(rectype)); } #endif if (!is_durable && txnid != NULL) { ret = 0; STAILQ_INSERT_HEAD(&txnid->logs, lr, links); #ifdef DIAGNOSTIC goto do_put; #endif } else{ #ifdef DIAGNOSTIC do_put: #endif ret = __log_put(dbenv, ret_lsnp, (DBT *)&logrec, flags | DB_LOG_NOCOPY); if (ret == 0 && txnid != NULL) txnid->last_lsn = *ret_lsnp; } if (!is_durable) LSN_NOT_LOGGED(*ret_lsnp); #ifdef LOG_DIAGNOSTIC if (ret != 0) (void)__txn_xa_regop_print(dbenv, (DBT *)&logrec, ret_lsnp, NULL, NULL); #endif #ifndef DIAGNOSTIC if (is_durable || txnid == NULL) #endif __os_free(dbenv, logrec.data); return (ret); } #ifdef HAVE_REPLICATION /* * PUBLIC: int __txn_xa_regop_getpgnos __P((DB_ENV *, DBT *, * PUBLIC: DB_LSN *, db_recops, void *)); */ int __txn_xa_regop_getpgnos(dbenv, rec, lsnp, notused1, summary) DB_ENV *dbenv; DBT *rec; DB_LSN *lsnp; db_recops notused1; void *summary; { TXN_RECS *t; int ret; COMPQUIET(rec, NULL); COMPQUIET(notused1, DB_TXN_ABORT); t = (TXN_RECS *)summary; if ((ret = __rep_check_alloc(dbenv, t, 1)) != 0) return (ret); t->array[t->npages].flags = LSN_PAGE_NOLOCK; t->array[t->npages].lsn = *lsnp; t->array[t->npages].fid = DB_LOGFILEID_INVALID; memset(&t->array[t->npages].pgdesc, 0, sizeof(t->array[t->npages].pgdesc)); t->npages++; return (0); } #endif /* HAVE_REPLICATION */ /* * PUBLIC: int __txn_xa_regop_print __P((DB_ENV *, DBT *, DB_LSN *, * PUBLIC: db_recops, void *)); */ int __txn_xa_regop_print(dbenv, dbtp, lsnp, notused2, notused3) DB_ENV *dbenv; DBT *dbtp; DB_LSN *lsnp; db_recops notused2; void *notused3; { __txn_xa_regop_args *argp; u_int32_t i; int ch; int ret; notused2 = DB_TXN_ABORT; notused3 = NULL; if ((ret = __txn_xa_regop_read(dbenv, dbtp->data, &argp)) != 0) return (ret); (void)printf( "[%lu][%lu]__txn_xa_regop%s: rec: %lu txnid %lx prevlsn [%lu][%lu]\n", (u_long)lsnp->file, (u_long)lsnp->offset, (argp->type & DB_debug_FLAG) ? "_debug" : "", (u_long)argp->type, (u_long)argp->txnid->txnid, (u_long)argp->prev_lsn.file, (u_long)argp->prev_lsn.offset); (void)printf("\topcode: %lu\n", (u_long)argp->opcode); (void)printf("\txid: "); for (i = 0; i < argp->xid.size; i++) { ch = ((u_int8_t *)argp->xid.data)[i]; printf(isprint(ch) || ch == 0x0a ? "%c" : "%#x ", ch); } (void)printf("\n"); (void)printf("\tformatID: %ld\n", (long)argp->formatID); (void)printf("\tgtrid: %u\n", argp->gtrid); (void)printf("\tbqual: %u\n", argp->bqual); (void)printf("\tbegin_lsn: [%lu][%lu]\n", (u_long)argp->begin_lsn.file, (u_long)argp->begin_lsn.offset); (void)printf("\tlocks: "); for (i = 0; i < argp->locks.size; i++) { ch = ((u_int8_t *)argp->locks.data)[i]; printf(isprint(ch) || ch == 0x0a ? "%c" : "%#x ", ch); } (void)printf("\n"); (void)printf("\n"); __os_free(dbenv, argp); return (0); } /* * PUBLIC: int __txn_xa_regop_read __P((DB_ENV *, void *, * PUBLIC: __txn_xa_regop_args **)); */ int __txn_xa_regop_read(dbenv, recbuf, argpp) DB_ENV *dbenv; void *recbuf; __txn_xa_regop_args **argpp; { __txn_xa_regop_args *argp; u_int32_t uinttmp; u_int8_t *bp; int ret; if ((ret = __os_malloc(dbenv, sizeof(__txn_xa_regop_args) + sizeof(DB_TXN), &argp)) != 0) return (ret); argp->txnid = (DB_TXN *)&argp[1]; bp = recbuf; memcpy(&argp->type, bp, sizeof(argp->type)); bp += sizeof(argp->type); memcpy(&argp->txnid->txnid, bp, sizeof(argp->txnid->txnid)); bp += sizeof(argp->txnid->txnid); memcpy(&argp->prev_lsn, bp, sizeof(DB_LSN)); bp += sizeof(DB_LSN); memcpy(&uinttmp, bp, sizeof(uinttmp)); argp->opcode = (u_int32_t)uinttmp; bp += sizeof(uinttmp); memset(&argp->xid, 0, sizeof(argp->xid)); memcpy(&argp->xid.size, bp, sizeof(u_int32_t)); bp += sizeof(u_int32_t); argp->xid.data = bp; bp += argp->xid.size; memcpy(&uinttmp, bp, sizeof(uinttmp)); argp->formatID = (int32_t)uinttmp; bp += sizeof(uinttmp); memcpy(&uinttmp, bp, sizeof(uinttmp)); argp->gtrid = (u_int32_t)uinttmp; bp += sizeof(uinttmp); memcpy(&uinttmp, bp, sizeof(uinttmp)); argp->bqual = (u_int32_t)uinttmp; bp += sizeof(uinttmp); memcpy(&argp->begin_lsn, bp, sizeof(argp->begin_lsn)); bp += sizeof(argp->begin_lsn); memset(&argp->locks, 0, sizeof(argp->locks)); memcpy(&argp->locks.size, bp, sizeof(u_int32_t)); bp += sizeof(u_int32_t); argp->locks.data = bp; bp += argp->locks.size; *argpp = argp; return (0); } /* * PUBLIC: int __txn_recycle_log __P((DB_ENV *, DB_TXN *, DB_LSN *, * PUBLIC: u_int32_t, u_int32_t, u_int32_t)); */ int __txn_recycle_log(dbenv, txnid, ret_lsnp, flags, min, max) DB_ENV *dbenv; DB_TXN *txnid; DB_LSN *ret_lsnp; u_int32_t flags; u_int32_t min; u_int32_t max; { DBT logrec; DB_TXNLOGREC *lr; DB_LSN *lsnp, null_lsn; u_int32_t uinttmp, rectype, txn_num; u_int npad; u_int8_t *bp; int is_durable, ret; rectype = DB___txn_recycle; npad = 0; is_durable = 1; if (LF_ISSET(DB_LOG_NOT_DURABLE) || F_ISSET(dbenv, DB_ENV_TXN_NOT_DURABLE)) { if (txnid == NULL) return (0); is_durable = 0; } if (txnid == NULL) { txn_num = 0; null_lsn.file = 0; null_lsn.offset = 0; lsnp = &null_lsn; } else { if (TAILQ_FIRST(&txnid->kids) != NULL && (ret = __txn_activekids(dbenv, rectype, txnid)) != 0) return (ret); txn_num = txnid->txnid; lsnp = &txnid->last_lsn; } logrec.size = sizeof(rectype) + sizeof(txn_num) + sizeof(DB_LSN) + sizeof(u_int32_t) + sizeof(u_int32_t); if (CRYPTO_ON(dbenv)) { npad = ((DB_CIPHER *)dbenv->crypto_handle)->adj_size(logrec.size); logrec.size += npad; } if (!is_durable && txnid != NULL) { if ((ret = __os_malloc(dbenv, logrec.size + sizeof(DB_TXNLOGREC), &lr)) != 0) return (ret); #ifdef DIAGNOSTIC goto do_malloc; #else logrec.data = &lr->data; #endif } else { #ifdef DIAGNOSTIC do_malloc: #endif if ((ret = __os_malloc(dbenv, logrec.size, &logrec.data)) != 0) { #ifdef DIAGNOSTIC if (!is_durable && txnid != NULL) (void)__os_free(dbenv, lr); #endif return (ret); } } if (npad > 0) memset((u_int8_t *)logrec.data + logrec.size - npad, 0, npad); bp = logrec.data; memcpy(bp, &rectype, sizeof(rectype)); bp += sizeof(rectype); memcpy(bp, &txn_num, sizeof(txn_num)); bp += sizeof(txn_num); memcpy(bp, lsnp, sizeof(DB_LSN)); bp += sizeof(DB_LSN); uinttmp = (u_int32_t)min; memcpy(bp, &uinttmp, sizeof(uinttmp)); bp += sizeof(uinttmp); uinttmp = (u_int32_t)max; memcpy(bp, &uinttmp, sizeof(uinttmp)); bp += sizeof(uinttmp); DB_ASSERT((u_int32_t)(bp - (u_int8_t *)logrec.data) <= logrec.size); #ifdef DIAGNOSTIC if (!is_durable && txnid != NULL) { /* * We set the debug bit if we are going * to log non-durable transactions so * they will be ignored by recovery. */ memcpy(lr->data, logrec.data, logrec.size); rectype |= DB_debug_FLAG; memcpy(logrec.data, &rectype, sizeof(rectype)); } #endif if (!is_durable && txnid != NULL) { ret = 0; STAILQ_INSERT_HEAD(&txnid->logs, lr, links); #ifdef DIAGNOSTIC goto do_put; #endif } else{ #ifdef DIAGNOSTIC do_put: #endif ret = __log_put(dbenv, ret_lsnp, (DBT *)&logrec, flags | DB_LOG_NOCOPY); if (ret == 0 && txnid != NULL) txnid->last_lsn = *ret_lsnp; } if (!is_durable) LSN_NOT_LOGGED(*ret_lsnp); #ifdef LOG_DIAGNOSTIC if (ret != 0) (void)__txn_recycle_print(dbenv, (DBT *)&logrec, ret_lsnp, NULL, NULL); #endif #ifndef DIAGNOSTIC if (is_durable || txnid == NULL) #endif __os_free(dbenv, logrec.data); return (ret); } #ifdef HAVE_REPLICATION /* * PUBLIC: int __txn_recycle_getpgnos __P((DB_ENV *, DBT *, DB_LSN *, * PUBLIC: db_recops, void *)); */ int __txn_recycle_getpgnos(dbenv, rec, lsnp, notused1, summary) DB_ENV *dbenv; DBT *rec; DB_LSN *lsnp; db_recops notused1; void *summary; { TXN_RECS *t; int ret; COMPQUIET(rec, NULL); COMPQUIET(notused1, DB_TXN_ABORT); t = (TXN_RECS *)summary; if ((ret = __rep_check_alloc(dbenv, t, 1)) != 0) return (ret); t->array[t->npages].flags = LSN_PAGE_NOLOCK; t->array[t->npages].lsn = *lsnp; t->array[t->npages].fid = DB_LOGFILEID_INVALID; memset(&t->array[t->npages].pgdesc, 0, sizeof(t->array[t->npages].pgdesc)); t->npages++; return (0); } #endif /* HAVE_REPLICATION */ /* * PUBLIC: int __txn_recycle_print __P((DB_ENV *, DBT *, DB_LSN *, * PUBLIC: db_recops, void *)); */ int __txn_recycle_print(dbenv, dbtp, lsnp, notused2, notused3) DB_ENV *dbenv; DBT *dbtp; DB_LSN *lsnp; db_recops notused2; void *notused3; { __txn_recycle_args *argp; int ret; notused2 = DB_TXN_ABORT; notused3 = NULL; if ((ret = __txn_recycle_read(dbenv, dbtp->data, &argp)) != 0) return (ret); (void)printf( "[%lu][%lu]__txn_recycle%s: rec: %lu txnid %lx prevlsn [%lu][%lu]\n", (u_long)lsnp->file, (u_long)lsnp->offset, (argp->type & DB_debug_FLAG) ? "_debug" : "", (u_long)argp->type, (u_long)argp->txnid->txnid, (u_long)argp->prev_lsn.file, (u_long)argp->prev_lsn.offset); (void)printf("\tmin: %u\n", argp->min); (void)printf("\tmax: %u\n", argp->max); (void)printf("\n"); __os_free(dbenv, argp); return (0); } /* * PUBLIC: int __txn_recycle_read __P((DB_ENV *, void *, * PUBLIC: __txn_recycle_args **)); */ int __txn_recycle_read(dbenv, recbuf, argpp) DB_ENV *dbenv; void *recbuf; __txn_recycle_args **argpp; { __txn_recycle_args *argp; u_int32_t uinttmp; u_int8_t *bp; int ret; if ((ret = __os_malloc(dbenv, sizeof(__txn_recycle_args) + sizeof(DB_TXN), &argp)) != 0) return (ret); argp->txnid = (DB_TXN *)&argp[1]; bp = recbuf; memcpy(&argp->type, bp, sizeof(argp->type)); bp += sizeof(argp->type); memcpy(&argp->txnid->txnid, bp, sizeof(argp->txnid->txnid)); bp += sizeof(argp->txnid->txnid); memcpy(&argp->prev_lsn, bp, sizeof(DB_LSN)); bp += sizeof(DB_LSN); memcpy(&uinttmp, bp, sizeof(uinttmp)); argp->min = (u_int32_t)uinttmp; bp += sizeof(uinttmp); memcpy(&uinttmp, bp, sizeof(uinttmp)); argp->max = (u_int32_t)uinttmp; bp += sizeof(uinttmp); *argpp = argp; return (0); } /* * PUBLIC: int __txn_init_print __P((DB_ENV *, int (***)(DB_ENV *, * PUBLIC: DBT *, DB_LSN *, db_recops, void *), size_t *)); */ int __txn_init_print(dbenv, dtabp, dtabsizep) DB_ENV *dbenv; int (***dtabp)__P((DB_ENV *, DBT *, DB_LSN *, db_recops, void *)); size_t *dtabsizep; { int ret; if ((ret = __db_add_recovery(dbenv, dtabp, dtabsizep, __txn_regop_print, DB___txn_regop)) != 0) return (ret); if ((ret = __db_add_recovery(dbenv, dtabp, dtabsizep, __txn_ckp_print, DB___txn_ckp)) != 0) return (ret); if ((ret = __db_add_recovery(dbenv, dtabp, dtabsizep, __txn_child_print, DB___txn_child)) != 0) return (ret); if ((ret = __db_add_recovery(dbenv, dtabp, dtabsizep, __txn_xa_regop_print, DB___txn_xa_regop)) != 0) return (ret); if ((ret = __db_add_recovery(dbenv, dtabp, dtabsizep, __txn_recycle_print, DB___txn_recycle)) != 0) return (ret); return (0); } #ifdef HAVE_REPLICATION /* * PUBLIC: int __txn_init_getpgnos __P((DB_ENV *, int (***)(DB_ENV *, * PUBLIC: DBT *, DB_LSN *, db_recops, void *), size_t *)); */ int __txn_init_getpgnos(dbenv, dtabp, dtabsizep) DB_ENV *dbenv; int (***dtabp)__P((DB_ENV *, DBT *, DB_LSN *, db_recops, void *)); size_t *dtabsizep; { int ret; if ((ret = __db_add_recovery(dbenv, dtabp, dtabsizep, __txn_regop_getpgnos, DB___txn_regop)) != 0) return (ret); if ((ret = __db_add_recovery(dbenv, dtabp, dtabsizep, __txn_ckp_getpgnos, DB___txn_ckp)) != 0) return (ret); if ((ret = __db_add_recovery(dbenv, dtabp, dtabsizep, __txn_child_getpgnos, DB___txn_child)) != 0) return (ret); if ((ret = __db_add_recovery(dbenv, dtabp, dtabsizep, __txn_xa_regop_getpgnos, DB___txn_xa_regop)) != 0) return (ret); if ((ret = __db_add_recovery(dbenv, dtabp, dtabsizep, __txn_recycle_getpgnos, DB___txn_recycle)) != 0) return (ret); return (0); } #endif /* HAVE_REPLICATION */ /* * PUBLIC: int __txn_init_recover __P((DB_ENV *, int (***)(DB_ENV *, * PUBLIC: DBT *, DB_LSN *, db_recops, void *), size_t *)); */ int __txn_init_recover(dbenv, dtabp, dtabsizep) DB_ENV *dbenv; int (***dtabp)__P((DB_ENV *, DBT *, DB_LSN *, db_recops, void *)); size_t *dtabsizep; { int ret; if ((ret = __db_add_recovery(dbenv, dtabp, dtabsizep, __txn_regop_recover, DB___txn_regop)) != 0) return (ret); if ((ret = __db_add_recovery(dbenv, dtabp, dtabsizep, __txn_ckp_recover, DB___txn_ckp)) != 0) return (ret); if ((ret = __db_add_recovery(dbenv, dtabp, dtabsizep, __txn_child_recover, DB___txn_child)) != 0) return (ret); if ((ret = __db_add_recovery(dbenv, dtabp, dtabsizep, __txn_xa_regop_recover, DB___txn_xa_regop)) != 0) return (ret); if ((ret = __db_add_recovery(dbenv, dtabp, dtabsizep, __txn_recycle_recover, DB___txn_recycle)) != 0) return (ret); return (0); }