public UdpEndpointI(ProtocolInstance instance, BasicStream s) : base(instance, s) { if(s.getReadEncoding().Equals(Ice.Util.Encoding_1_0)) { s.readByte(); s.readByte(); s.readByte(); s.readByte(); } // Not transmitted. //_connect = s.readBool(); _connect = false; _compress = s.readBool(); }
public TcpEndpointI(BasicStream s) { _instance = s.instance(); s.startReadEncaps(); _host = s.readString(); _port = s.readInt(); _timeout = s.readInt(); _compress = s.readBool(); s.endReadEncaps(); calcHashValue(); }
public Reference create(Ice.Identity ident, BasicStream s) { // // Don't read the identity here. Operations calling this // constructor read the identity, and pass it as a parameter. // if(ident.name.Length == 0 && ident.category.Length == 0) { return null; } // // For compatibility with the old FacetPath. // string[] facetPath = s.readStringSeq(); string facet; if(facetPath.Length > 0) { if(facetPath.Length > 1) { throw new Ice.ProxyUnmarshalException(); } facet = facetPath[0]; } else { facet = ""; } int mode = (int)s.readByte(); if(mode < 0 || mode > (int)Reference.Mode.ModeLast) { throw new Ice.ProxyUnmarshalException(); } bool secure = s.readBool(); EndpointI[] endpoints = null; string adapterId = ""; int sz = s.readSize(); if(sz > 0) { endpoints = new EndpointI[sz]; for(int i = 0; i < sz; i++) { endpoints[i] = instance_.endpointFactoryManager().read(s); } } else { adapterId = s.readString(); } return create(ident, facet, (Reference.Mode)mode, secure, endpoints, adapterId, null); }
public TcpEndpointI(ProtocolInstance instance, BasicStream s) : base(instance, s) { _timeout = s.readInt(); _compress = s.readBool(); }
public UdpEndpointI(BasicStream s) { instance_ = s.instance(); s.startReadEncaps(); _host = s.readString(); _port = s.readInt(); if(s.getReadEncoding().Equals(Ice.Util.Encoding_1_0)) { s.readByte(); s.readByte(); s.readByte(); s.readByte(); } // Not transmitted. //_connect = s.readBool(); _connect = false; _compress = s.readBool(); s.endReadEncaps(); calcHashValue(); }
public UdpEndpointI(BasicStream s) { instance_ = s.instance(); s.startReadEncaps(); _host = s.readString(); _port = s.readInt(); _protocolMajor = s.readByte(); _protocolMinor = s.readByte(); _encodingMajor = s.readByte(); _encodingMinor = s.readByte(); if(_protocolMajor != Protocol.protocolMajor) { Ice.UnsupportedProtocolException e = new Ice.UnsupportedProtocolException(); e.badMajor = _protocolMajor < 0?_protocolMajor + 255:_protocolMajor; e.badMinor = _protocolMinor < 0?_protocolMinor + 255:_protocolMinor; e.major = Protocol.protocolMajor; e.minor = Protocol.protocolMinor; throw e; } if(_encodingMajor != Protocol.encodingMajor) { Ice.UnsupportedEncodingException e = new Ice.UnsupportedEncodingException(); e.badMajor = _encodingMajor < 0?_encodingMajor + 255:_encodingMajor; e.badMinor = _encodingMinor < 0?_encodingMinor + 255:_encodingMinor; e.major = Protocol.encodingMajor; e.minor = Protocol.encodingMinor; throw e; } // Not transmitted. //_connect = s.readBool(); _connect = false; _compress = s.readBool(); s.endReadEncaps(); calcHashValue(); }