/* Do not edit: automatically built by gen_rec.awk. */ #include "db_config.h" #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 __crdel_metasub_read __P((ENV *, DB **, void *, * PUBLIC: void *, __crdel_metasub_args **)); */ int __crdel_metasub_read(env, dbpp, td, recbuf, argpp) ENV *env; DB **dbpp; void *td; void *recbuf; __crdel_metasub_args **argpp; { __crdel_metasub_args *argp; u_int32_t uinttmp; u_int8_t *bp; int ret; if ((ret = __os_malloc(env, sizeof(__crdel_metasub_args) + sizeof(DB_TXN), &argp)) != 0) return (ret); bp = recbuf; argp->txnp = (DB_TXN *)&argp[1]; memset(argp->txnp, 0, sizeof(DB_TXN)); argp->txnp->td = td; LOGCOPY_32(env, &argp->type, bp); bp += sizeof(argp->type); LOGCOPY_32(env, &argp->txnp->txnid, bp); bp += sizeof(argp->txnp->txnid); LOGCOPY_TOLSN(env, &argp->prev_lsn, bp); bp += sizeof(DB_LSN); LOGCOPY_32(env, &uinttmp, bp); argp->fileid = (int32_t)uinttmp; bp += sizeof(uinttmp); if (dbpp != NULL) { *dbpp = NULL; ret = __dbreg_id_to_db( env, argp->txnp, dbpp, argp->fileid, 1); } LOGCOPY_32(env, &uinttmp, bp); argp->pgno = (db_pgno_t)uinttmp; bp += sizeof(uinttmp); memset(&argp->page, 0, sizeof(argp->page)); LOGCOPY_32(env,&argp->page.size, bp); bp += sizeof(u_int32_t); argp->page.data = bp; bp += argp->page.size; if (LOG_SWAPPED(env) && dbpp != NULL && *dbpp != NULL) { int t_ret; if ((t_ret = __db_pageswap(*dbpp, (PAGE *)argp->page.data, (size_t)argp->page.size, NULL, 1)) != 0) return (t_ret); } LOGCOPY_TOLSN(env, &argp->lsn, bp); bp += sizeof(DB_LSN); *argpp = argp; return (ret); } /* * PUBLIC: int __crdel_metasub_log __P((DB *, DB_TXN *, DB_LSN *, * PUBLIC: u_int32_t, db_pgno_t, const DBT *, DB_LSN *)); */ int __crdel_metasub_log(dbp, txnp, ret_lsnp, flags, pgno, page, lsn) DB *dbp; DB_TXN *txnp; DB_LSN *ret_lsnp; u_int32_t flags; db_pgno_t pgno; const DBT *page; DB_LSN * lsn; { DBT logrec; DB_LSN *lsnp, null_lsn, *rlsnp; DB_TXNLOGREC *lr; ENV *env; u_int32_t zero, uinttmp, rectype, txn_num; u_int npad; u_int8_t *bp; int is_durable, ret; COMPQUIET(lr, NULL); env = dbp->env; rlsnp = ret_lsnp; rectype = DB___crdel_metasub; npad = 0; ret = 0; if (LF_ISSET(DB_LOG_NOT_DURABLE) || F_ISSET(dbp, DB_AM_NOT_DURABLE)) { if (txnp == NULL) return (0); is_durable = 0; } else is_durable = 1; if (txnp == NULL) { txn_num = 0; lsnp = &null_lsn; null_lsn.file = null_lsn.offset = 0; } else { if (TAILQ_FIRST(&txnp->kids) != NULL && (ret = __txn_activekids(env, rectype, txnp)) != 0) return (ret); /* * We need to assign begin_lsn while holding region mutex. * That assignment is done inside the DbEnv->log_put call, * so pass in the appropriate memory location to be filled * in by the log_put code. */ DB_SET_TXN_LSNP(txnp, &rlsnp, &lsnp); txn_num = txnp->txnid; } DB_ASSERT(env, dbp->log_filename != NULL); if (dbp->log_filename->id == DB_LOGFILEID_INVALID && (ret = __dbreg_lazy_id(dbp)) != 0) return (ret); logrec.size = sizeof(rectype) + sizeof(txn_num) + sizeof(DB_LSN) + sizeof(u_int32_t) + sizeof(u_int32_t) + sizeof(u_int32_t) + (page == NULL ? 0 : page->size) + sizeof(*lsn); if (CRYPTO_ON(env)) { npad = env->crypto_handle->adj_size(logrec.size); logrec.size += npad; } if (is_durable || txnp == NULL) { if ((ret = __os_malloc(env, logrec.size, &logrec.data)) != 0) return (ret); } else { if ((ret = __os_malloc(env, logrec.size + sizeof(DB_TXNLOGREC), &lr)) != 0) return (ret); #ifdef DIAGNOSTIC if ((ret = __os_malloc(env, logrec.size, &logrec.data)) != 0) { __os_free(env, lr); return (ret); } #else logrec.data = lr->data; #endif } if (npad > 0) memset((u_int8_t *)logrec.data + logrec.size - npad, 0, npad); bp = logrec.data; LOGCOPY_32(env, bp, &rectype); bp += sizeof(rectype); LOGCOPY_32(env, bp, &txn_num); bp += sizeof(txn_num); LOGCOPY_FROMLSN(env, bp, lsnp); bp += sizeof(DB_LSN); uinttmp = (u_int32_t)dbp->log_filename->id; LOGCOPY_32(env, bp, &uinttmp); bp += sizeof(uinttmp); uinttmp = (u_int32_t)pgno; LOGCOPY_32(env,bp, &uinttmp); bp += sizeof(uinttmp); if (page == NULL) { zero = 0; LOGCOPY_32(env, bp, &zero); bp += sizeof(u_int32_t); } else { LOGCOPY_32(env, bp, &page->size); bp += sizeof(page->size); memcpy(bp, page->data, page->size); if (LOG_SWAPPED(env)) if ((ret = __db_pageswap(dbp, (PAGE *)bp, (size_t)page->size, (DBT *)NULL, 0)) != 0) return (ret); bp += page->size; } if (lsn != NULL) { if (txnp != NULL) { LOG *lp = env->lg_handle->reginfo.primary; if (LOG_COMPARE(lsn, &lp->lsn) >= 0 && (ret = __log_check_page_lsn(env, dbp, lsn)) != 0) return (ret); } LOGCOPY_FROMLSN(env, bp, lsn); } else memset(bp, 0, sizeof(*lsn)); bp += sizeof(*lsn); DB_ASSERT(env, (u_int32_t)(bp - (u_int8_t *)logrec.data) <= logrec.size); if (is_durable || txnp == NULL) { if ((ret = __log_put(env, rlsnp,(DBT *)&logrec, flags | DB_LOG_NOCOPY)) == 0 && txnp != NULL) { *lsnp = *rlsnp; if (rlsnp != ret_lsnp) *ret_lsnp = *rlsnp; } } else { ret = 0; #ifdef DIAGNOSTIC /* * 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; LOGCOPY_32(env, logrec.data, &rectype); if (!IS_REP_CLIENT(env)) ret = __log_put(env, rlsnp, (DBT *)&logrec, flags | DB_LOG_NOCOPY); #endif STAILQ_INSERT_HEAD(&txnp->logs, lr, links); F_SET((TXN_DETAIL *)txnp->td, TXN_DTL_INMEMORY); LSN_NOT_LOGGED(*ret_lsnp); } #ifdef LOG_DIAGNOSTIC if (ret != 0) (void)__crdel_metasub_print(env, (DBT *)&logrec, ret_lsnp, DB_TXN_PRINT, NULL); #endif #ifdef DIAGNOSTIC __os_free(env, logrec.data); #else if (is_durable || txnp == NULL) __os_free(env, logrec.data); #endif return (ret); } /* * PUBLIC: int __crdel_inmem_create_read __P((ENV *, void *, * PUBLIC: __crdel_inmem_create_args **)); */ int __crdel_inmem_create_read(env, recbuf, argpp) ENV *env; void *recbuf; __crdel_inmem_create_args **argpp; { __crdel_inmem_create_args *argp; u_int32_t uinttmp; u_int8_t *bp; int ret; if ((ret = __os_malloc(env, sizeof(__crdel_inmem_create_args) + sizeof(DB_TXN), &argp)) != 0) return (ret); bp = recbuf; argp->txnp = (DB_TXN *)&argp[1]; memset(argp->txnp, 0, sizeof(DB_TXN)); LOGCOPY_32(env, &argp->type, bp); bp += sizeof(argp->type); LOGCOPY_32(env, &argp->txnp->txnid, bp); bp += sizeof(argp->txnp->txnid); LOGCOPY_TOLSN(env, &argp->prev_lsn, bp); bp += sizeof(DB_LSN); LOGCOPY_32(env, &uinttmp, bp); argp->fileid = (int32_t)uinttmp; bp += sizeof(uinttmp); memset(&argp->name, 0, sizeof(argp->name)); LOGCOPY_32(env,&argp->name.size, bp); bp += sizeof(u_int32_t); argp->name.data = bp; bp += argp->name.size; memset(&argp->fid, 0, sizeof(argp->fid)); LOGCOPY_32(env,&argp->fid.size, bp); bp += sizeof(u_int32_t); argp->fid.data = bp; bp += argp->fid.size; LOGCOPY_32(env, &argp->pgsize, bp); bp += sizeof(argp->pgsize); *argpp = argp; return (ret); } /* * PUBLIC: int __crdel_inmem_create_log __P((ENV *, DB_TXN *, * PUBLIC: DB_LSN *, u_int32_t, int32_t, const DBT *, const DBT *, * PUBLIC: u_int32_t)); */ int __crdel_inmem_create_log(env, txnp, ret_lsnp, flags, fileid, name, fid, pgsize) ENV *env; DB_TXN *txnp; DB_LSN *ret_lsnp; u_int32_t flags; int32_t fileid; const DBT *name; const DBT *fid; u_int32_t pgsize; { DBT logrec; DB_LSN *lsnp, null_lsn, *rlsnp; DB_TXNLOGREC *lr; u_int32_t zero, uinttmp, rectype, txn_num; u_int npad; u_int8_t *bp; int is_durable, ret; COMPQUIET(lr, NULL); rlsnp = ret_lsnp; rectype = DB___crdel_inmem_create; npad = 0; ret = 0; if (LF_ISSET(DB_LOG_NOT_DURABLE)) { if (txnp == NULL) return (0); is_durable = 0; } else is_durable = 1; if (txnp == NULL) { txn_num = 0; lsnp = &null_lsn; null_lsn.file = null_lsn.offset = 0; } else { if (TAILQ_FIRST(&txnp->kids) != NULL && (ret = __txn_activekids(env, rectype, txnp)) != 0) return (ret); /* * We need to assign begin_lsn while holding region mutex. * That assignment is done inside the DbEnv->log_put call, * so pass in the appropriate memory location to be filled * in by the log_put code. */ DB_SET_TXN_LSNP(txnp, &rlsnp, &lsnp); txn_num = txnp->txnid; } logrec.size = sizeof(rectype) + sizeof(txn_num) + sizeof(DB_LSN) + sizeof(u_int32_t) + sizeof(u_int32_t) + (name == NULL ? 0 : name->size) + sizeof(u_int32_t) + (fid == NULL ? 0 : fid->size) + sizeof(u_int32_t); if (CRYPTO_ON(env)) { npad = env->crypto_handle->adj_size(logrec.size); logrec.size += npad; } if (is_durable || txnp == NULL) { if ((ret = __os_malloc(env, logrec.size, &logrec.data)) != 0) return (ret); } else { if ((ret = __os_malloc(env, logrec.size + sizeof(DB_TXNLOGREC), &lr)) != 0) return (ret); #ifdef DIAGNOSTIC if ((ret = __os_malloc(env, logrec.size, &logrec.data)) != 0) { __os_free(env, lr); return (ret); } #else logrec.data = lr->data; #endif } if (npad > 0) memset((u_int8_t *)logrec.data + logrec.size - npad, 0, npad); bp = logrec.data; LOGCOPY_32(env, bp, &rectype); bp += sizeof(rectype); LOGCOPY_32(env, bp, &txn_num); bp += sizeof(txn_num); LOGCOPY_FROMLSN(env, bp, lsnp); bp += sizeof(DB_LSN); uinttmp = (u_int32_t)fileid; LOGCOPY_32(env,bp, &uinttmp); bp += sizeof(uinttmp); if (name == NULL) { zero = 0; LOGCOPY_32(env, bp, &zero); bp += sizeof(u_int32_t); } else { LOGCOPY_32(env, bp, &name->size); bp += sizeof(name->size); memcpy(bp, name->data, name->size); bp += name->size; } if (fid == NULL) { zero = 0; LOGCOPY_32(env, bp, &zero); bp += sizeof(u_int32_t); } else { LOGCOPY_32(env, bp, &fid->size); bp += sizeof(fid->size); memcpy(bp, fid->data, fid->size); bp += fid->size; } LOGCOPY_32(env, bp, &pgsize); bp += sizeof(pgsize); DB_ASSERT(env, (u_int32_t)(bp - (u_int8_t *)logrec.data) <= logrec.size); if (is_durable || txnp == NULL) { if ((ret = __log_put(env, rlsnp,(DBT *)&logrec, flags | DB_LOG_NOCOPY)) == 0 && txnp != NULL) { *lsnp = *rlsnp; if (rlsnp != ret_lsnp) *ret_lsnp = *rlsnp; } } else { ret = 0; #ifdef DIAGNOSTIC /* * 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; LOGCOPY_32(env, logrec.data, &rectype); if (!IS_REP_CLIENT(env)) ret = __log_put(env, rlsnp, (DBT *)&logrec, flags | DB_LOG_NOCOPY); #endif STAILQ_INSERT_HEAD(&txnp->logs, lr, links); F_SET((TXN_DETAIL *)txnp->td, TXN_DTL_INMEMORY); LSN_NOT_LOGGED(*ret_lsnp); } #ifdef LOG_DIAGNOSTIC if (ret != 0) (void)__crdel_inmem_create_print(env, (DBT *)&logrec, ret_lsnp, DB_TXN_PRINT, NULL); #endif #ifdef DIAGNOSTIC __os_free(env, logrec.data); #else if (is_durable || txnp == NULL) __os_free(env, logrec.data); #endif return (ret); } /* * PUBLIC: int __crdel_inmem_rename_read __P((ENV *, void *, * PUBLIC: __crdel_inmem_rename_args **)); */ int __crdel_inmem_rename_read(env, recbuf, argpp) ENV *env; void *recbuf; __crdel_inmem_rename_args **argpp; { __crdel_inmem_rename_args *argp; u_int8_t *bp; int ret; if ((ret = __os_malloc(env, sizeof(__crdel_inmem_rename_args) + sizeof(DB_TXN), &argp)) != 0) return (ret); bp = recbuf; argp->txnp = (DB_TXN *)&argp[1]; memset(argp->txnp, 0, sizeof(DB_TXN)); LOGCOPY_32(env, &argp->type, bp); bp += sizeof(argp->type); LOGCOPY_32(env, &argp->txnp->txnid, bp); bp += sizeof(argp->txnp->txnid); LOGCOPY_TOLSN(env, &argp->prev_lsn, bp); bp += sizeof(DB_LSN); memset(&argp->oldname, 0, sizeof(argp->oldname)); LOGCOPY_32(env,&argp->oldname.size, bp); bp += sizeof(u_int32_t); argp->oldname.data = bp; bp += argp->oldname.size; memset(&argp->newname, 0, sizeof(argp->newname)); LOGCOPY_32(env,&argp->newname.size, bp); bp += sizeof(u_int32_t); argp->newname.data = bp; bp += argp->newname.size; memset(&argp->fid, 0, sizeof(argp->fid)); LOGCOPY_32(env,&argp->fid.size, bp); bp += sizeof(u_int32_t); argp->fid.data = bp; bp += argp->fid.size; *argpp = argp; return (ret); } /* * PUBLIC: int __crdel_inmem_rename_log __P((ENV *, DB_TXN *, * PUBLIC: DB_LSN *, u_int32_t, const DBT *, const DBT *, const DBT *)); */ int __crdel_inmem_rename_log(env, txnp, ret_lsnp, flags, oldname, newname, fid) ENV *env; DB_TXN *txnp; DB_LSN *ret_lsnp; u_int32_t flags; const DBT *oldname; const DBT *newname; const DBT *fid; { DBT logrec; DB_LSN *lsnp, null_lsn, *rlsnp; DB_TXNLOGREC *lr; u_int32_t zero, rectype, txn_num; u_int npad; u_int8_t *bp; int is_durable, ret; COMPQUIET(lr, NULL); rlsnp = ret_lsnp; rectype = DB___crdel_inmem_rename; npad = 0; ret = 0; if (LF_ISSET(DB_LOG_NOT_DURABLE)) { if (txnp == NULL) return (0); is_durable = 0; } else is_durable = 1; if (txnp == NULL) { txn_num = 0; lsnp = &null_lsn; null_lsn.file = null_lsn.offset = 0; } else { if (TAILQ_FIRST(&txnp->kids) != NULL && (ret = __txn_activekids(env, rectype, txnp)) != 0) return (ret); /* * We need to assign begin_lsn while holding region mutex. * That assignment is done inside the DbEnv->log_put call, * so pass in the appropriate memory location to be filled * in by the log_put code. */ DB_SET_TXN_LSNP(txnp, &rlsnp, &lsnp); txn_num = txnp->txnid; } logrec.size = sizeof(rectype) + sizeof(txn_num) + sizeof(DB_LSN) + sizeof(u_int32_t) + (oldname == NULL ? 0 : oldname->size) + sizeof(u_int32_t) + (newname == NULL ? 0 : newname->size) + sizeof(u_int32_t) + (fid == NULL ? 0 : fid->size); if (CRYPTO_ON(env)) { npad = env->crypto_handle->adj_size(logrec.size); logrec.size += npad; } if (is_durable || txnp == NULL) { if ((ret = __os_malloc(env, logrec.size, &logrec.data)) != 0) return (ret); } else { if ((ret = __os_malloc(env, logrec.size + sizeof(DB_TXNLOGREC), &lr)) != 0) return (ret); #ifdef DIAGNOSTIC if ((ret = __os_malloc(env, logrec.size, &logrec.data)) != 0) { __os_free(env, lr); return (ret); } #else logrec.data = lr->data; #endif } if (npad > 0) memset((u_int8_t *)logrec.data + logrec.size - npad, 0, npad); bp = logrec.data; LOGCOPY_32(env, bp, &rectype); bp += sizeof(rectype); LOGCOPY_32(env, bp, &txn_num); bp += sizeof(txn_num); LOGCOPY_FROMLSN(env, bp, lsnp); bp += sizeof(DB_LSN); if (oldname == NULL) { zero = 0; LOGCOPY_32(env, bp, &zero); bp += sizeof(u_int32_t); } else { LOGCOPY_32(env, bp, &oldname->size); bp += sizeof(oldname->size); memcpy(bp, oldname->data, oldname->size); bp += oldname->size; } if (newname == NULL) { zero = 0; LOGCOPY_32(env, bp, &zero); bp += sizeof(u_int32_t); } else { LOGCOPY_32(env, bp, &newname->size); bp += sizeof(newname->size); memcpy(bp, newname->data, newname->size); bp += newname->size; } if (fid == NULL) { zero = 0; LOGCOPY_32(env, bp, &zero); bp += sizeof(u_int32_t); } else { LOGCOPY_32(env, bp, &fid->size); bp += sizeof(fid->size); memcpy(bp, fid->data, fid->size); bp += fid->size; } DB_ASSERT(env, (u_int32_t)(bp - (u_int8_t *)logrec.data) <= logrec.size); if (is_durable || txnp == NULL) { if ((ret = __log_put(env, rlsnp,(DBT *)&logrec, flags | DB_LOG_NOCOPY)) == 0 && txnp != NULL) { *lsnp = *rlsnp; if (rlsnp != ret_lsnp) *ret_lsnp = *rlsnp; } } else { ret = 0; #ifdef DIAGNOSTIC /* * 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; LOGCOPY_32(env, logrec.data, &rectype); if (!IS_REP_CLIENT(env)) ret = __log_put(env, rlsnp, (DBT *)&logrec, flags | DB_LOG_NOCOPY); #endif STAILQ_INSERT_HEAD(&txnp->logs, lr, links); F_SET((TXN_DETAIL *)txnp->td, TXN_DTL_INMEMORY); LSN_NOT_LOGGED(*ret_lsnp); } #ifdef LOG_DIAGNOSTIC if (ret != 0) (void)__crdel_inmem_rename_print(env, (DBT *)&logrec, ret_lsnp, DB_TXN_PRINT, NULL); #endif #ifdef DIAGNOSTIC __os_free(env, logrec.data); #else if (is_durable || txnp == NULL) __os_free(env, logrec.data); #endif return (ret); } /* * PUBLIC: int __crdel_inmem_remove_read __P((ENV *, void *, * PUBLIC: __crdel_inmem_remove_args **)); */ int __crdel_inmem_remove_read(env, recbuf, argpp) ENV *env; void *recbuf; __crdel_inmem_remove_args **argpp; { __crdel_inmem_remove_args *argp; u_int8_t *bp; int ret; if ((ret = __os_malloc(env, sizeof(__crdel_inmem_remove_args) + sizeof(DB_TXN), &argp)) != 0) return (ret); bp = recbuf; argp->txnp = (DB_TXN *)&argp[1]; memset(argp->txnp, 0, sizeof(DB_TXN)); LOGCOPY_32(env, &argp->type, bp); bp += sizeof(argp->type); LOGCOPY_32(env, &argp->txnp->txnid, bp); bp += sizeof(argp->txnp->txnid); LOGCOPY_TOLSN(env, &argp->prev_lsn, bp); bp += sizeof(DB_LSN); memset(&argp->name, 0, sizeof(argp->name)); LOGCOPY_32(env,&argp->name.size, bp); bp += sizeof(u_int32_t); argp->name.data = bp; bp += argp->name.size; memset(&argp->fid, 0, sizeof(argp->fid)); LOGCOPY_32(env,&argp->fid.size, bp); bp += sizeof(u_int32_t); argp->fid.data = bp; bp += argp->fid.size; *argpp = argp; return (ret); } /* * PUBLIC: int __crdel_inmem_remove_log __P((ENV *, DB_TXN *, * PUBLIC: DB_LSN *, u_int32_t, const DBT *, const DBT *)); */ int __crdel_inmem_remove_log(env, txnp, ret_lsnp, flags, name, fid) ENV *env; DB_TXN *txnp; DB_LSN *ret_lsnp; u_int32_t flags; const DBT *name; const DBT *fid; { DBT logrec; DB_LSN *lsnp, null_lsn, *rlsnp; DB_TXNLOGREC *lr; u_int32_t zero, rectype, txn_num; u_int npad; u_int8_t *bp; int is_durable, ret; COMPQUIET(lr, NULL); rlsnp = ret_lsnp; rectype = DB___crdel_inmem_remove; npad = 0; ret = 0; if (LF_ISSET(DB_LOG_NOT_DURABLE)) { if (txnp == NULL) return (0); is_durable = 0; } else is_durable = 1; if (txnp == NULL) { txn_num = 0; lsnp = &null_lsn; null_lsn.file = null_lsn.offset = 0; } else { if (TAILQ_FIRST(&txnp->kids) != NULL && (ret = __txn_activekids(env, rectype, txnp)) != 0) return (ret); /* * We need to assign begin_lsn while holding region mutex. * That assignment is done inside the DbEnv->log_put call, * so pass in the appropriate memory location to be filled * in by the log_put code. */ DB_SET_TXN_LSNP(txnp, &rlsnp, &lsnp); txn_num = txnp->txnid; } logrec.size = sizeof(rectype) + sizeof(txn_num) + sizeof(DB_LSN) + sizeof(u_int32_t) + (name == NULL ? 0 : name->size) + sizeof(u_int32_t) + (fid == NULL ? 0 : fid->size); if (CRYPTO_ON(env)) { npad = env->crypto_handle->adj_size(logrec.size); logrec.size += npad; } if (is_durable || txnp == NULL) { if ((ret = __os_malloc(env, logrec.size, &logrec.data)) != 0) return (ret); } else { if ((ret = __os_malloc(env, logrec.size + sizeof(DB_TXNLOGREC), &lr)) != 0) return (ret); #ifdef DIAGNOSTIC if ((ret = __os_malloc(env, logrec.size, &logrec.data)) != 0) { __os_free(env, lr); return (ret); } #else logrec.data = lr->data; #endif } if (npad > 0) memset((u_int8_t *)logrec.data + logrec.size - npad, 0, npad); bp = logrec.data; LOGCOPY_32(env, bp, &rectype); bp += sizeof(rectype); LOGCOPY_32(env, bp, &txn_num); bp += sizeof(txn_num); LOGCOPY_FROMLSN(env, bp, lsnp); bp += sizeof(DB_LSN); if (name == NULL) { zero = 0; LOGCOPY_32(env, bp, &zero); bp += sizeof(u_int32_t); } else { LOGCOPY_32(env, bp, &name->size); bp += sizeof(name->size); memcpy(bp, name->data, name->size); bp += name->size; } if (fid == NULL) { zero = 0; LOGCOPY_32(env, bp, &zero); bp += sizeof(u_int32_t); } else { LOGCOPY_32(env, bp, &fid->size); bp += sizeof(fid->size); memcpy(bp, fid->data, fid->size); bp += fid->size; } DB_ASSERT(env, (u_int32_t)(bp - (u_int8_t *)logrec.data) <= logrec.size); if (is_durable || txnp == NULL) { if ((ret = __log_put(env, rlsnp,(DBT *)&logrec, flags | DB_LOG_NOCOPY)) == 0 && txnp != NULL) { *lsnp = *rlsnp; if (rlsnp != ret_lsnp) *ret_lsnp = *rlsnp; } } else { ret = 0; #ifdef DIAGNOSTIC /* * 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; LOGCOPY_32(env, logrec.data, &rectype); if (!IS_REP_CLIENT(env)) ret = __log_put(env, rlsnp, (DBT *)&logrec, flags | DB_LOG_NOCOPY); #endif STAILQ_INSERT_HEAD(&txnp->logs, lr, links); F_SET((TXN_DETAIL *)txnp->td, TXN_DTL_INMEMORY); LSN_NOT_LOGGED(*ret_lsnp); } #ifdef LOG_DIAGNOSTIC if (ret != 0) (void)__crdel_inmem_remove_print(env, (DBT *)&logrec, ret_lsnp, DB_TXN_PRINT, NULL); #endif #ifdef DIAGNOSTIC __os_free(env, logrec.data); #else if (is_durable || txnp == NULL) __os_free(env, logrec.data); #endif return (ret); } /* * PUBLIC: int __crdel_init_recover __P((ENV *, DB_DISTAB *)); */ int __crdel_init_recover(env, dtabp) ENV *env; DB_DISTAB *dtabp; { int ret; if ((ret = __db_add_recovery_int(env, dtabp, __crdel_metasub_recover, DB___crdel_metasub)) != 0) return (ret); if ((ret = __db_add_recovery_int(env, dtabp, __crdel_inmem_create_recover, DB___crdel_inmem_create)) != 0) return (ret); if ((ret = __db_add_recovery_int(env, dtabp, __crdel_inmem_rename_recover, DB___crdel_inmem_rename)) != 0) return (ret); if ((ret = __db_add_recovery_int(env, dtabp, __crdel_inmem_remove_recover, DB___crdel_inmem_remove)) != 0) return (ret); return (0); }