public override void AddChain(string table, string chainName) { if (!_inTransaction) { //Revert to using IPTables Binary if non transactional IPTablesBinaryAdapterClient binaryClient = new IPTablesBinaryAdapterClient(_ipVersion, _system, _iptablesBinary); binaryClient.AddChain(table, chainName); } _builder.AddChain(table, chainName); }
public override void AddChain(string table, string chainName) { if (!_inTransaction) { //Revert to using IPTables Binary if non transactional IPTablesBinaryAdapterClient binaryClient = new IPTablesBinaryAdapterClient(_ipVersion, _system, _iptablesBinary); binaryClient.AddChain(table, chainName); return; } if (!GetInterface(table).AddChain(chainName)) { throw new IpTablesNetException(String.Format("Failed to add chain \"{0}\" to table \"{1}\" due to error: \"{2}\"", chainName, table, GetInterface(table).GetErrorString())); } }
public override void AddChain(string table, string chainName) { Debug.Assert(chainName != null); if (!IpTablesChain.ValidateChainName(chainName)) { throw new IpTablesNetException(String.Format("Failed to add chain \"{0}\" to table \"{1}\" due to validation error", chainName, table)); } if (!_inTransaction) { //Revert to using IPTables Binary if non transactional IPTablesBinaryAdapterClient binaryClient = new IPTablesBinaryAdapterClient(_ipVersion, _system, _iptablesBinary); binaryClient.AddChain(table, chainName); return; } if (!GetInterface(table).AddChain(chainName)) { throw new IpTablesNetException(String.Format("Failed to add chain \"{0}\" to table \"{1}\" due to error: \"{2}\"", chainName, table, GetInterface(table).GetErrorString())); } }