internal int get_key(DatabaseEntry key) { try { int ret; ret = libdb_csharpPINVOKE.DB_SEQUENCE_get_key(swigCPtr, DBT.getCPtr(DatabaseEntry.getDBT(key))); DatabaseException.ThrowException(ret); return(ret); } finally { GC.KeepAlive(key); } }
internal int write(DatabaseEntry data, Int64 offset, uint flags) { try { int ret; ret = libdb_csharpPINVOKE.DB_STREAM_write(swigCPtr, DBT.getCPtr(DatabaseEntry.getDBT(data)), offset, flags); DatabaseException.ThrowException(ret); return(ret); } finally { GC.KeepAlive(data); } }
internal int rep_start(DatabaseEntry cdata, uint flags) { try { int ret; ret = libdb_csharpPINVOKE.DB_ENV_rep_start(swigCPtr, DBT.getCPtr(DatabaseEntry.getDBT(cdata)), flags); DatabaseException.ThrowException(ret); return(ret); } finally { GC.KeepAlive(cdata); } }
internal int put(DatabaseEntry key, DatabaseEntry data, uint flags) { try { int ret; ret = libdb_csharpPINVOKE.DBC_put(swigCPtr, DBT.getCPtr(DatabaseEntry.getDBT(key)), DBT.getCPtr(DatabaseEntry.getDBT(data)), flags); DatabaseException.ThrowException(ret); return(ret); } finally { GC.KeepAlive(key); GC.KeepAlive(data); } }
internal int open(DB_TXN txn, DatabaseEntry key, uint flags) { try { int ret; ret = libdb_csharpPINVOKE.DB_SEQUENCE_open(swigCPtr, DB_TXN.getCPtr(txn), DBT.getCPtr(DatabaseEntry.getDBT(key)), flags); if (ret != 0) { close(0); } DatabaseException.ThrowException(ret); return(ret); } finally { GC.KeepAlive(key); } }
internal int send_request(IntPtr[] request, uint nrequest, DatabaseEntry response, uint timeout, uint flags) { try { int ret; ret = libdb_csharpPINVOKE.DB_CHANNEL_send_request(swigCPtr, request, nrequest, DBT.getCPtr(DatabaseEntry.getDBT(response)).Handle, timeout, flags); DatabaseException.ThrowException(ret); return(ret); } finally { GC.KeepAlive(response); } }
internal int key_range(DB_TXN txn, DatabaseEntry key, DB_KEY_RANGE range, uint flags) { try { int ret; ret = libdb_csharpPINVOKE.DB_key_range(swigCPtr, DB_TXN.getCPtr(txn), DBT.getCPtr(DatabaseEntry.getDBT(key)), DB_KEY_RANGE.getCPtr(range), flags); DatabaseException.ThrowException(ret); return(ret); } finally { GC.KeepAlive(key); } }
internal int exists(DB_TXN txn, DatabaseEntry key, uint flags) { try { int ret; ret = libdb_csharpPINVOKE.DB_exists(swigCPtr, DB_TXN.getCPtr(txn), DBT.getCPtr(DatabaseEntry.getDBT(key)), flags); DatabaseException.ThrowException(ret); return(ret); } finally { GC.KeepAlive(key); } }
internal int compact(DB_TXN txn, DatabaseEntry start, DatabaseEntry stop, DB_COMPACT cdata, uint flags, DatabaseEntry end) { try { int ret; ret = libdb_csharpPINVOKE.DB_compact(swigCPtr, DB_TXN.getCPtr(txn), DBT.getCPtr(DatabaseEntry.getDBT(start)), DBT.getCPtr(DatabaseEntry.getDBT(stop)), DB_COMPACT.getCPtr(cdata), flags, DBT.getCPtr(DatabaseEntry.getDBT(end))); DatabaseException.ThrowException(ret); return(ret); } finally { GC.KeepAlive(start); GC.KeepAlive(stop); GC.KeepAlive(end); } }
internal int rep_process_message(DatabaseEntry control, DatabaseEntry rec, int envid, DB_LSN ret_lsnp) { try { int ret; ret = libdb_csharpPINVOKE.DB_ENV_rep_process_message(swigCPtr, DBT.getCPtr(DatabaseEntry.getDBT(control)), DBT.getCPtr(DatabaseEntry.getDBT(rec)), envid, DB_LSN.getCPtr(ret_lsnp)); DatabaseException.ThrowException(ret); return(ret); } finally { GC.KeepAlive(control); GC.KeepAlive(rec); } }
internal int log_put(DB_LSN lsn, DatabaseEntry data, uint flags) { try { int ret; ret = libdb_csharpPINVOKE.DB_ENV_log_put(swigCPtr, DB_LSN.getCPtr(lsn), DBT.getCPtr(DatabaseEntry.getDBT(data)), flags); DatabaseException.ThrowException(ret); return(ret); } finally { GC.KeepAlive(data); } }
private DB_LOCK lock_get(uint locker, uint flags, DatabaseEntry arg2, db_lockmode_t mode, ref int err) { try { DB_LOCK ret = new DB_LOCK(libdb_csharpPINVOKE.DB_ENV_lock_get(swigCPtr, locker, flags, DBT.getCPtr(DatabaseEntry.getDBT(arg2)), (int)mode, ref err), true); return(ret); } finally { GC.KeepAlive(arg2); } }