/*- * See the file LICENSE for redistribution information. * * Copyright (c) 1997-2003 * Sleepycat Software. All rights reserved. */ #include "db_config.h" #ifndef lint static const char revid[] = "$Id: cxx_env.cpp,v 1.2 2004/03/30 01:21:24 jtownsen Exp $"; #endif /* not lint */ #include #include // needed for set_error_stream #include #include "db_cxx.h" #include "dbinc/cxx_int.h" #include "db_int.h" #include "dbinc_auto/common_ext.h" #ifdef HAVE_CXX_STDHEADERS using std::cerr; #endif // Helper macros for simple methods that pass through to the // underlying C method. They may return an error or raise an exception. // These macros expect that input _argspec is an argument // list element (e.g., "char *arg") and that _arglist is the arguments // that should be passed through to the C method (e.g., "(dbenv, arg)") // #define DBENV_METHOD_ERR(_name, _argspec, _arglist, _on_err) \ int DbEnv::_name _argspec \ { \ DB_ENV *dbenv = unwrap(this); \ int ret; \ \ if ((ret = dbenv->_name _arglist) != 0) { \ _on_err; \ } \ return (ret); \ } #define DBENV_METHOD(_name, _argspec, _arglist) \ DBENV_METHOD_ERR(_name, _argspec, _arglist, \ DB_ERROR(this, "DbEnv::" # _name, ret, error_policy())) #define DBENV_METHOD_QUIET(_name, _argspec, _arglist) \ int DbEnv::_name _argspec \ { \ DB_ENV *dbenv = unwrap(this); \ \ return (dbenv->_name _arglist); \ } #define DBENV_METHOD_VOID(_name, _argspec, _arglist) \ void DbEnv::_name _argspec \ { \ DB_ENV *dbenv = unwrap(this); \ \ dbenv->_name _arglist; \ } // This datatype is needed for picky compilers. // extern "C" { typedef void (*db_errcall_fcn_type) (const char *, char *); }; // The reason for a static variable is that some structures // (like Dbts) have no connection to any Db or DbEnv, so when // errors occur in their methods, we must have some reasonable // way to determine whether to throw or return errors. // // This variable is taken from flags whenever a DbEnv is constructed. // Normally there is only one DbEnv per program, and even if not, // there is typically a single policy of throwing or returning. // static int last_known_error_policy = ON_ERROR_UNKNOWN; __DB_OSTREAMCLASS *DbEnv::error_stream_ = 0; // These 'glue' function are declared as extern "C" so they will // be compatible with picky compilers that do not allow mixing // of function pointers to 'C' functions with function pointers // to C++ functions. // extern "C" void _feedback_intercept_c(DB_ENV *env, int opcode, int pct) { DbEnv::_feedback_intercept(env, opcode, pct); } extern "C" void _paniccall_intercept_c(DB_ENV *env, int errval) { DbEnv::_paniccall_intercept(env, errval); } extern "C" void _stream_error_function_c(const char *prefix, char *message) { DbEnv::_stream_error_function(prefix, message); } extern "C" int _app_dispatch_intercept_c(DB_ENV *env, DBT *dbt, DB_LSN *lsn, db_recops op) { return (DbEnv::_app_dispatch_intercept(env, dbt, lsn, op)); } extern "C" int _rep_send_intercept_c(DB_ENV *env, const DBT *cntrl, const DBT *data, const DB_LSN *lsn, int id, u_int32_t flags) { return (DbEnv::_rep_send_intercept(env, cntrl, data, lsn, id, flags)); } void DbEnv::_feedback_intercept(DB_ENV *env, int opcode, int pct) { if (env == 0) { DB_ERROR(DbEnv::get_DbEnv(env), "DbEnv::feedback_callback", EINVAL, ON_ERROR_UNKNOWN); return; } DbEnv *cxxenv = (DbEnv *)env->api1_internal; if (cxxenv == 0) { DB_ERROR(DbEnv::get_DbEnv(env), "DbEnv::feedback_callback", EINVAL, ON_ERROR_UNKNOWN); return; } if (cxxenv->feedback_callback_ == 0) { DB_ERROR(DbEnv::get_DbEnv(env), "DbEnv::feedback_callback", EINVAL, cxxenv->error_policy()); return; } (*cxxenv->feedback_callback_)(cxxenv, opcode, pct); } void DbEnv::_paniccall_intercept(DB_ENV *env, int errval) { if (env == 0) { DB_ERROR(DbEnv::get_DbEnv(env), "DbEnv::paniccall_callback", EINVAL, ON_ERROR_UNKNOWN); } DbEnv *cxxenv = (DbEnv *)env->api1_internal; if (cxxenv == 0) { DB_ERROR(DbEnv::get_DbEnv(env), "DbEnv::paniccall_callback", EINVAL, ON_ERROR_UNKNOWN); } if (cxxenv->paniccall_callback_ == 0) { DB_ERROR(DbEnv::get_DbEnv(env), "DbEnv::paniccall_callback", EINVAL, cxxenv->error_policy()); } (*cxxenv->paniccall_callback_)(cxxenv, errval); } int DbEnv::_app_dispatch_intercept(DB_ENV *env, DBT *dbt, DB_LSN *lsn, db_recops op) { if (env == 0) { DB_ERROR(DbEnv::get_DbEnv(env), "DbEnv::app_dispatch_callback", EINVAL, ON_ERROR_UNKNOWN); return (EINVAL); } DbEnv *cxxenv = (DbEnv *)env->api1_internal; if (cxxenv == 0) { DB_ERROR(DbEnv::get_DbEnv(env), "DbEnv::app_dispatch_callback", EINVAL, ON_ERROR_UNKNOWN); return (EINVAL); } if (cxxenv->app_dispatch_callback_ == 0) { DB_ERROR(DbEnv::get_DbEnv(env), "DbEnv::app_dispatch_callback", EINVAL, cxxenv->error_policy()); return (EINVAL); } Dbt *cxxdbt = (Dbt *)dbt; DbLsn *cxxlsn = (DbLsn *)lsn; return ((*cxxenv->app_dispatch_callback_)(cxxenv, cxxdbt, cxxlsn, op)); } int DbEnv::_rep_send_intercept(DB_ENV *env, const DBT *cntrl, const DBT *data, const DB_LSN *lsn, int id, u_int32_t flags) { if (env == 0) { DB_ERROR(DbEnv::get_DbEnv(env), "DbEnv::rep_send_callback", EINVAL, ON_ERROR_UNKNOWN); return (EINVAL); } DbEnv *cxxenv = (DbEnv *)env->api1_internal; if (cxxenv == 0) { DB_ERROR(DbEnv::get_DbEnv(env), "DbEnv::rep_send_callback", EINVAL, ON_ERROR_UNKNOWN); return (EINVAL); } const Dbt *cxxcntrl = (const Dbt *)cntrl; const DbLsn *cxxlsn = (const DbLsn *)lsn; Dbt *cxxdata = (Dbt *)data; return ((*cxxenv->rep_send_callback_)(cxxenv, cxxcntrl, cxxdata, cxxlsn, id, flags)); } // A truism for the DbEnv object is that there is a valid // DB_ENV handle from the constructor until close(). // After the close, the DB_ENV handle is invalid and // no operations are permitted on the DbEnv (other than // destructor). Leaving the DbEnv handle open and not // doing a close is generally considered an error. // // We used to allow DbEnv objects to be closed and reopened. // This implied always keeping a valid DB_ENV object, and // coordinating the open objects between Db/DbEnv turned // out to be overly complicated. Now we do not allow this. DbEnv::DbEnv(u_int32_t flags) : imp_(0) , construct_error_(0) , construct_flags_(flags) , app_dispatch_callback_(0) , feedback_callback_(0) , paniccall_callback_(0) , pgin_callback_(0) , pgout_callback_(0) , rep_send_callback_(0) { if ((construct_error_ = initialize(0)) != 0) DB_ERROR(this, "DbEnv::DbEnv", construct_error_, error_policy()); } DbEnv::DbEnv(DB_ENV *env, u_int32_t flags) : imp_(0) , construct_error_(0) , construct_flags_(flags) , app_dispatch_callback_(0) , feedback_callback_(0) , paniccall_callback_(0) , pgin_callback_(0) , pgout_callback_(0) , rep_send_callback_(0) { if ((construct_error_ = initialize(env)) != 0) DB_ERROR(this, "DbEnv::DbEnv", construct_error_, error_policy()); } // If the DB_ENV handle is still open, we close it. This is to make stack // allocation of DbEnv objects easier so that they are cleaned up in the error // path. Note that the C layer catches cases where handles are open in the // environment at close time and reports an error. Applications should call // close explicitly in normal (non-exceptional) cases to check the return // value. // DbEnv::~DbEnv() { DB_ENV *env = unwrap(this); if (env != NULL) { cleanup(); (void)env->close(env, 0); } } // called by destructors before the DB_ENV is destroyed. void DbEnv::cleanup() { DB_ENV *env = unwrap(this); if (env != NULL) { env->api1_internal = 0; imp_ = 0; } } int DbEnv::close(u_int32_t flags) { int ret; DB_ENV *env = unwrap(this); // after a close (no matter if success or failure), // the underlying DB_ENV object must not be accessed, // so we clean up in advance. // cleanup(); // It's safe to throw an error after the close, // since our error mechanism does not peer into // the DB* structures. // if ((ret = env->close(env, flags)) != 0) DB_ERROR(this, "DbEnv::close", ret, error_policy()); return (ret); } DBENV_METHOD(dbremove, (DbTxn *txn, const char *name, const char *subdb, u_int32_t flags), (dbenv, unwrap(txn), name, subdb, flags)) DBENV_METHOD(dbrename, (DbTxn *txn, const char *name, const char *subdb, const char *newname, u_int32_t flags), (dbenv, unwrap(txn), name, subdb, newname, flags)) void DbEnv::err(int error, const char *format, ...) { DB_ENV *env = unwrap(this); DB_REAL_ERR(env, error, 1, 1, format); } // Return a tristate value corresponding to whether we should // throw exceptions on errors: // ON_ERROR_RETURN // ON_ERROR_THROW // ON_ERROR_UNKNOWN // int DbEnv::error_policy() { if ((construct_flags_ & DB_CXX_NO_EXCEPTIONS) != 0) { return (ON_ERROR_RETURN); } else { return (ON_ERROR_THROW); } } void DbEnv::errx(const char *format, ...) { DB_ENV *env = unwrap(this); DB_REAL_ERR(env, 0, 0, 1, format); } void *DbEnv::get_app_private() const { return unwrapConst(this)->app_private; } DBENV_METHOD(get_home, (const char **homep), (dbenv, homep)) DBENV_METHOD(get_open_flags, (u_int32_t *flagsp), (dbenv, flagsp)) DBENV_METHOD(get_data_dirs, (const char ***dirspp), (dbenv, dirspp)) // used internally during constructor // to associate an existing DB_ENV with this DbEnv, // or create a new one. // int DbEnv::initialize(DB_ENV *env) { int ret; last_known_error_policy = error_policy(); if (env == 0) { // Create a new DB_ENV environment. if ((ret = ::db_env_create(&env, construct_flags_ & ~DB_CXX_NO_EXCEPTIONS)) != 0) return (ret); } imp_ = wrap(env); env->api1_internal = this; // for DB_ENV* to DbEnv* conversion return (0); } // lock methods DBENV_METHOD(lock_detect, (u_int32_t flags, u_int32_t atype, int *aborted), (dbenv, flags, atype, aborted)) DBENV_METHOD_ERR(lock_get, (u_int32_t locker, u_int32_t flags, const Dbt *obj, db_lockmode_t lock_mode, DbLock *lock), (dbenv, locker, flags, obj, lock_mode, &lock->lock_), DbEnv::runtime_error_lock_get(this, "DbEnv::lock_get", ret, DB_LOCK_GET, lock_mode, obj, *lock, -1, error_policy())) DBENV_METHOD(lock_id, (u_int32_t *idp), (dbenv, idp)) DBENV_METHOD(lock_id_free, (u_int32_t id), (dbenv, id)) DBENV_METHOD(lock_put, (DbLock *lock), (dbenv, &lock->lock_)) DBENV_METHOD(lock_stat, (DB_LOCK_STAT **statp, u_int32_t flags), (dbenv, statp, flags)) DBENV_METHOD_ERR(lock_vec, (u_int32_t locker, u_int32_t flags, DB_LOCKREQ list[], int nlist, DB_LOCKREQ **elist_returned), (dbenv, locker, flags, list, nlist, elist_returned), DbEnv::runtime_error_lock_get(this, "DbEnv::lock_vec", ret, (*elist_returned)->op, (*elist_returned)->mode, Dbt::get_Dbt((*elist_returned)->obj), DbLock((*elist_returned)->lock), (*elist_returned) - list, error_policy())) // log methods DBENV_METHOD(log_archive, (char **list[], u_int32_t flags), (dbenv, list, flags)) int DbEnv::log_compare(const DbLsn *lsn0, const DbLsn *lsn1) { return (::log_compare(lsn0, lsn1)); } // The following cast implies that DbLogc can be no larger than DB_LOGC DBENV_METHOD(log_cursor, (DbLogc **cursorp, u_int32_t flags), (dbenv, (DB_LOGC **)cursorp, flags)) DBENV_METHOD(log_file, (DbLsn *lsn, char *namep, size_t len), (dbenv, lsn, namep, len)) DBENV_METHOD(log_flush, (const DbLsn *lsn), (dbenv, lsn)) DBENV_METHOD(log_put, (DbLsn *lsn, const Dbt *data, u_int32_t flags), (dbenv, lsn, data, flags)) DBENV_METHOD(log_stat, (DB_LOG_STAT **spp, u_int32_t flags), (dbenv, spp, flags)) int DbEnv::memp_fcreate(DbMpoolFile **dbmfp, u_int32_t flags) { DB_ENV *env = unwrap(this); int ret; DB_MPOOLFILE *mpf; if (env == NULL) ret = EINVAL; else ret = env->memp_fcreate(env, &mpf, flags); if (DB_RETOK_STD(ret)) { *dbmfp = new DbMpoolFile(); (*dbmfp)->imp_ = wrap(mpf); } else DB_ERROR(this, "DbMpoolFile::f_create", ret, ON_ERROR_UNKNOWN); return (ret); } DBENV_METHOD(memp_register, (int ftype, pgin_fcn_type pgin_fcn, pgout_fcn_type pgout_fcn), (dbenv, ftype, pgin_fcn, pgout_fcn)) // memory pool methods DBENV_METHOD(memp_stat, (DB_MPOOL_STAT **gsp, DB_MPOOL_FSTAT ***fsp, u_int32_t flags), (dbenv, gsp, fsp, flags)) DBENV_METHOD(memp_sync, (DbLsn *sn), (dbenv, sn)) DBENV_METHOD(memp_trickle, (int pct, int *nwrotep), (dbenv, pct, nwrotep)) // If an error occurred during the constructor, report it now. // Otherwise, call the underlying DB->open method. // int DbEnv::open(const char *db_home, u_int32_t flags, int mode) { int ret; DB_ENV *env = unwrap(this); if (construct_error_ != 0) ret = construct_error_; else ret = env->open(env, db_home, flags, mode); if (!DB_RETOK_STD(ret)) DB_ERROR(this, "DbEnv::open", ret, error_policy()); return (ret); } int DbEnv::remove(const char *db_home, u_int32_t flags) { int ret; DB_ENV *env = unwrap(this); // after a remove (no matter if success or failure), // the underlying DB_ENV object must not be accessed, // so we clean up in advance. // cleanup(); if ((ret = env->remove(env, db_home, flags)) != 0) DB_ERROR(this, "DbEnv::remove", ret, error_policy()); return (ret); } // Report an error associated with the DbEnv. // error_policy is one of: // ON_ERROR_THROW throw an error // ON_ERROR_RETURN do nothing here, the caller will return an error // ON_ERROR_UNKNOWN defer the policy to policy saved in DbEnv::DbEnv // void DbEnv::runtime_error(DbEnv *env, const char *caller, int error, int error_policy) { if (error_policy == ON_ERROR_UNKNOWN) error_policy = last_known_error_policy; if (error_policy == ON_ERROR_THROW) { // Creating and throwing the object in two separate // statements seems to be necessary for HP compilers. switch (error) { case DB_LOCK_DEADLOCK: { DbDeadlockException dl_except(caller); dl_except.set_env(env); throw dl_except; } break; case DB_RUNRECOVERY: { DbRunRecoveryException rr_except(caller); rr_except.set_env(env); throw rr_except; } break; case DB_LOCK_NOTGRANTED: { DbLockNotGrantedException lng_except(caller); lng_except.set_env(env); throw lng_except; } break; default: { DbException except(caller, error); except.set_env(env); throw except; } break; } } } // Like DbEnv::runtime_error, but issue a DbMemoryException // based on the fact that this Dbt is not large enough. void DbEnv::runtime_error_dbt(DbEnv *env, const char *caller, Dbt *dbt, int error_policy) { if (error_policy == ON_ERROR_UNKNOWN) error_policy = last_known_error_policy; if (error_policy == ON_ERROR_THROW) { // Creating and throwing the object in two separate // statements seems to be necessary for HP compilers. DbMemoryException except(caller, dbt); except.set_env(env); throw except; } } // Like DbEnv::runtime_error, but issue a DbLockNotGrantedException, // or a regular runtime error. // call regular runtime_error if it void DbEnv::runtime_error_lock_get(DbEnv *env, const char *caller, int error, db_lockop_t op, db_lockmode_t mode, const Dbt *obj, DbLock lock, int index, int error_policy) { if (error != DB_LOCK_NOTGRANTED) { runtime_error(env, caller, error, error_policy); return; } if (error_policy == ON_ERROR_UNKNOWN) error_policy = last_known_error_policy; if (error_policy == ON_ERROR_THROW) { // Creating and throwing the object in two separate // statements seems to be necessary for HP compilers. DbLockNotGrantedException except(caller, op, mode, obj, lock, index); except.set_env(env); throw except; } } // static method char *DbEnv::strerror(int error) { return (db_strerror(error)); } void DbEnv::_stream_error_function(const char *prefix, char *message) { // HP compilers need the extra casts, we don't know why. if (error_stream_) { if (prefix) { (*error_stream_) << prefix << (const char *)": "; } if (message) { (*error_stream_) << (const char *)message; } (*error_stream_) << (const char *)"\n"; } } // set methods DBENV_METHOD_VOID(get_errfile, (FILE **errfilep), (dbenv, errfilep)) DBENV_METHOD_VOID(set_errfile, (FILE *errfile), (dbenv, errfile)) DBENV_METHOD_VOID(get_errpfx, (const char **errpfxp), (dbenv, errpfxp)) DBENV_METHOD_VOID(set_errpfx, (const char *errpfx), (dbenv, errpfx)) // We keep these alphabetical by field name, // for comparison with Java's list. // DBENV_METHOD(set_data_dir, (const char *dir), (dbenv, dir)) DBENV_METHOD(get_encrypt_flags, (u_int32_t *flagsp), (dbenv, flagsp)) DBENV_METHOD(set_encrypt, (const char *passwd, u_int32_t flags), (dbenv, passwd, flags)) DBENV_METHOD(get_lg_bsize, (u_int32_t *bsizep), (dbenv, bsizep)) DBENV_METHOD(set_lg_bsize, (u_int32_t bsize), (dbenv, bsize)) DBENV_METHOD(get_lg_dir, (const char **dirp), (dbenv, dirp)) DBENV_METHOD(set_lg_dir, (const char *dir), (dbenv, dir)) DBENV_METHOD(get_lg_max, (u_int32_t *maxp), (dbenv, maxp)) DBENV_METHOD(set_lg_max, (u_int32_t max), (dbenv, max)) DBENV_METHOD(get_lg_regionmax, (u_int32_t *regionmaxp), (dbenv, regionmaxp)) DBENV_METHOD(set_lg_regionmax, (u_int32_t regionmax), (dbenv, regionmax)) DBENV_METHOD(get_lk_conflicts, (const u_int8_t **lk_conflictsp, int *lk_maxp), (dbenv, lk_conflictsp, lk_maxp)) DBENV_METHOD(set_lk_conflicts, (u_int8_t *lk_conflicts, int lk_max), (dbenv, lk_conflicts, lk_max)) DBENV_METHOD(get_lk_detect, (u_int32_t *detectp), (dbenv, detectp)) DBENV_METHOD(set_lk_detect, (u_int32_t detect), (dbenv, detect)) DBENV_METHOD(set_lk_max, (u_int32_t max), (dbenv, max)) DBENV_METHOD(get_lk_max_lockers, (u_int32_t *max_lockersp), (dbenv, max_lockersp)) DBENV_METHOD(set_lk_max_lockers, (u_int32_t max_lockers), (dbenv, max_lockers)) DBENV_METHOD(get_lk_max_locks, (u_int32_t *max_locksp), (dbenv, max_locksp)) DBENV_METHOD(set_lk_max_locks, (u_int32_t max_locks), (dbenv, max_locks)) DBENV_METHOD(get_lk_max_objects, (u_int32_t *max_objectsp), (dbenv, max_objectsp)) DBENV_METHOD(set_lk_max_objects, (u_int32_t max_objects), (dbenv, max_objects)) DBENV_METHOD(get_mp_mmapsize, (size_t *mmapsizep), (dbenv, mmapsizep)) DBENV_METHOD(set_mp_mmapsize, (size_t mmapsize), (dbenv, mmapsize)) DBENV_METHOD(get_tmp_dir, (const char **tmp_dirp), (dbenv, tmp_dirp)) DBENV_METHOD(set_tmp_dir, (const char *tmp_dir), (dbenv, tmp_dir)) DBENV_METHOD(get_tx_max, (u_int32_t *tx_maxp), (dbenv, tx_maxp)) DBENV_METHOD(set_tx_max, (u_int32_t tx_max), (dbenv, tx_max)) DBENV_METHOD_QUIET(set_alloc, (db_malloc_fcn_type malloc_fcn, db_realloc_fcn_type realloc_fcn, db_free_fcn_type free_fcn), (dbenv, malloc_fcn, realloc_fcn, free_fcn)) void DbEnv::set_app_private(void *value) { unwrap(this)->app_private = value; } DBENV_METHOD(get_cachesize, (u_int32_t *gbytesp, u_int32_t *bytesp, int *ncachep), (dbenv, gbytesp, bytesp, ncachep)) DBENV_METHOD(set_cachesize, (u_int32_t gbytes, u_int32_t bytes, int ncache), (dbenv, gbytes, bytes, ncache)) void DbEnv::set_errcall(void (*arg)(const char *, char *)) { DB_ENV *dbenv = unwrap(this); // XXX // We are casting from a function ptr declared with C++ // linkage to one (same arg types) declared with C // linkage. It's hard to imagine a pair of C/C++ // compilers from the same vendor for which this // won't work. Unfortunately, we can't use a // intercept function like the others since the // function does not have a (DbEnv*) as one of // the args. If this causes trouble, we can pull // the same trick we use in Java, namely stuffing // a (DbEnv*) pointer into the prefix. We're // avoiding this for the moment because it obfuscates. // (*(dbenv->set_errcall))(dbenv, (db_errcall_fcn_type)arg); } // Note: This actually behaves a bit like a static function, // since DB_ENV.db_errcall has no information about which // db_env triggered the call. A user that has multiple DB_ENVs // will simply not be able to have different streams for each one. // void DbEnv::set_error_stream(__DB_OSTREAMCLASS *stream) { DB_ENV *dbenv = unwrap(this); error_stream_ = stream; dbenv->set_errcall(dbenv, (stream == 0) ? 0 : _stream_error_function_c); } int DbEnv::set_feedback(void (*arg)(DbEnv *, int, int)) { DB_ENV *dbenv = unwrap(this); feedback_callback_ = arg; return ((*(dbenv->set_feedback))(dbenv, _feedback_intercept_c)); } DBENV_METHOD(get_flags, (u_int32_t *flagsp), (dbenv, flagsp)) DBENV_METHOD(set_flags, (u_int32_t flags, int onoff), (dbenv, flags, onoff)) int DbEnv::set_paniccall(void (*arg)(DbEnv *, int)) { DB_ENV *dbenv = unwrap(this); paniccall_callback_ = arg; return ((*(dbenv->set_paniccall))(dbenv, _paniccall_intercept_c)); } DBENV_METHOD(set_rpc_server, (void *cl, char *host, long tsec, long ssec, u_int32_t flags), (dbenv, cl, host, tsec, ssec, flags)) DBENV_METHOD(get_shm_key, (long *shm_keyp), (dbenv, shm_keyp)) DBENV_METHOD(set_shm_key, (long shm_key), (dbenv, shm_key)) // Note: this changes from last_known_error_policy to error_policy() DBENV_METHOD(get_tas_spins, (u_int32_t *argp), (dbenv, argp)) DBENV_METHOD(set_tas_spins, (u_int32_t arg), (dbenv, arg)) int DbEnv::set_app_dispatch (int (*arg)(DbEnv *, Dbt *, DbLsn *, db_recops)) { DB_ENV *dbenv = unwrap(this); int ret; app_dispatch_callback_ = arg; if ((ret = (*(dbenv->set_app_dispatch))(dbenv, _app_dispatch_intercept_c)) != 0) DB_ERROR(this, "DbEnv::set_app_dispatch", ret, error_policy()); return (ret); } DBENV_METHOD(get_tx_timestamp, (time_t *timestamp), (dbenv, timestamp)) DBENV_METHOD(set_tx_timestamp, (time_t *timestamp), (dbenv, timestamp)) DBENV_METHOD(get_verbose, (u_int32_t which, int *onoffp), (dbenv, which, onoffp)) DBENV_METHOD(set_verbose, (u_int32_t which, int onoff), (dbenv, which, onoff)) int DbEnv::txn_begin(DbTxn *pid, DbTxn **tid, u_int32_t flags) { DB_ENV *env = unwrap(this); DB_TXN *txn; int ret; ret = env->txn_begin(env, unwrap(pid), &txn, flags); if (DB_RETOK_STD(ret)) *tid = new DbTxn(txn); else DB_ERROR(this, "DbEnv::txn_begin", ret, error_policy()); return (ret); } DBENV_METHOD(txn_checkpoint, (u_int32_t kbyte, u_int32_t min, u_int32_t flags), (dbenv, kbyte, min, flags)) int DbEnv::txn_recover(DbPreplist *preplist, long count, long *retp, u_int32_t flags) { DB_ENV *dbenv = unwrap(this); DB_PREPLIST *c_preplist; long i; int ret; /* * We need to allocate some local storage for the * returned preplist, and that requires us to do * our own argument validation. */ if (count <= 0) ret = EINVAL; else ret = __os_malloc(dbenv, sizeof(DB_PREPLIST) * count, &c_preplist); if (ret != 0) { DB_ERROR(this, "DbEnv::txn_recover", ret, error_policy()); return (ret); } if ((ret = dbenv->txn_recover(dbenv, c_preplist, count, retp, flags)) != 0) { __os_free(dbenv, c_preplist); DB_ERROR(this, "DbEnv::txn_recover", ret, error_policy()); return (ret); } for (i = 0; i < *retp; i++) { preplist[i].txn = new DbTxn(); preplist[i].txn->imp_ = wrap(c_preplist[i].txn); memcpy(preplist[i].gid, c_preplist[i].gid, sizeof(preplist[i].gid)); } __os_free(dbenv, c_preplist); return (0); } DBENV_METHOD(txn_stat, (DB_TXN_STAT **statp, u_int32_t flags), (dbenv, statp, flags)) int DbEnv::set_rep_transport(int myid, int (*f_send)(DbEnv *, const Dbt *, const Dbt *, const DbLsn *, int, u_int32_t)) { DB_ENV *dbenv = unwrap(this); int ret; rep_send_callback_ = f_send; if ((ret = dbenv->set_rep_transport(dbenv, myid, _rep_send_intercept_c)) != 0) DB_ERROR(this, "DbEnv::set_rep_transport", ret, error_policy()); return (ret); } DBENV_METHOD(rep_elect, (int nsites, int pri, u_int32_t timeout, int *idp), (dbenv, nsites, pri, timeout, idp)) int DbEnv::rep_process_message(Dbt *control, Dbt *rec, int *idp, DbLsn *ret_lsnp) { DB_ENV *dbenv = unwrap(this); int ret; ret = dbenv->rep_process_message(dbenv, control, rec, idp, ret_lsnp); if (!DB_RETOK_REPPMSG(ret)) DB_ERROR(this, "DbEnv::rep_process_message", ret, error_policy()); return (ret); } DBENV_METHOD(rep_start, (Dbt *cookie, u_int32_t flags), (dbenv, (DBT *)cookie, flags)) DBENV_METHOD(rep_stat, (DB_REP_STAT **statp, u_int32_t flags), (dbenv, statp, flags)) DBENV_METHOD(get_rep_limit, (u_int32_t *gbytesp, u_int32_t *bytesp), (dbenv, gbytesp, bytesp)) DBENV_METHOD(set_rep_limit, (u_int32_t gbytes, u_int32_t bytes), (dbenv, gbytes, bytes)) DBENV_METHOD(get_timeout, (db_timeout_t *timeoutp, u_int32_t flags), (dbenv, timeoutp, flags)) DBENV_METHOD(set_timeout, (db_timeout_t timeout, u_int32_t flags), (dbenv, timeout, flags)) // static method char *DbEnv::version(int *major, int *minor, int *patch) { return (db_version(major, minor, patch)); } // static method DbEnv *DbEnv::wrap_DB_ENV(DB_ENV *dbenv) { DbEnv *wrapped_env = get_DbEnv(dbenv); if (wrapped_env == NULL) wrapped_env = new DbEnv(dbenv, 0); return wrapped_env; }