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Encoding for General Proxy Parameters
The first component of an encoded proxy is a value of type Ice::Identity. If the proxy is a nil value, the category and name members are empty strings, and no additional data is encoded. The encoding for a non-null proxy consists of general parameters followed by endpoint parameters.
The general proxy parameters are encoded as if they were members of the following structure:
struct ProxyData {
Ice::Identity id;
Ice::StringSeq facet;
byte mode;
bool secure;
};
The general proxy parameters are described in the following table.
Parameter | Description |
|---|---|
| The object identity |
| The facet name (zero- or one-element sequence) |
| The proxy mode ( |
|
|
The facet field has either zero elements or one element. An empty sequence denotes the default facet, and a one-element sequence provides the facet name in its first member. If a receiver receives a proxy with a facet field with more than one element, it must throw a ProxyUnmarshalException.
Encoding for Endpoint Parameters
A proxy optionally contains an endpoint list or an adapter identifier, but not both.
- If a proxy contains endpoints, they are encoded immediately following the general parameters. A size specifying the number of endpoints is encoded first, followed by the endpoints. Each endpoint is encoded as a
shortspecifying the endpoint type (1=TCP,2=SSL,3=UDP), followed by an encapsulation of type-specific parameters. The type-specific parameters for TCP, UDP, and SSL are presented in the sections that follow. - If a proxy does not have endpoints, a single byte with value
0immediately follows the general parameters and a string representing the object adapter identifier is encoded immediately following the zero byte.
Type-specific endpoint parameters are encapsulated because a receiver may not be capable of decoding them. For example, a receiver can only decode SSL endpoint parameters if it is configured with the IceSSL plug-in. However, the receiver must be able to re-encode the proxy with all of its original endpoints, in the order they were received, even if the receiver does not understand the type-specific parameters for an endpoint. Encapsulation of the parameters into an opaque endpoint allows the receiver to do this.
Encoding for TCP Endpoint Parameters
A TCP endpoint is encoded as an encapsulation containing the following structure:
struct TCPEndpointData {
string host;
int port;
int timeout;
bool compress;
};
The endpoint parameters are described in the following table.
Parameter | Description |
|---|---|
| The server host (a host name or IP address) |
| The server port ( |
| The timeout in milliseconds for socket operations |
|
|
Encoding for UDP Endpoint Parameters
A UDP endpoint is encoded as an encapsulation containing the following structure:
struct UDPEndpointData {
string host;
int port;
byte protocolMajor;
byte protocolMinor;
byte encodingMajor;
byte encodingMinor;
bool compress;
};
The endpoint parameters are described in the following table.
Parameter | Description |
|---|---|
| The server host (a host name or IP address) |
| The server port ( |
| Always set to |
| Always set to |
| Always set to |
| Always set to |
|
|
Encoding for SSL Endpoint Parameters
An SSL endpoint is encoded as an encapsulation containing the following structure:
struct SSLEndpointData {
string host;
int port;
int timeout;
bool compress;
};
The endpoint parameters are described in the following table.
Parameter | Description |
|---|---|
| The server host (a host name or IP address) |
| The server port ( |
| The timeout in milliseconds for socket operations |
|
|
See Also