private static Endpoint CreateEndpoint(
Communicator communicator,
bool oaEndpoint,
Dictionary <string, string> options,
Protocol protocol,
Uri uri,
string uriString)
{
Debug.Assert(uri.Scheme.StartsWith("ice+"));
string transportName = uri.Scheme.Substring(4); // i.e. chop-off "ice+"
ushort port = 0;
checked
{
port = (ushort)uri.Port;
}
IEndpointFactory?factory = null;
Transport transport = default;
if (transportName == "universal")
{
if (protocol == Protocol.Ice1)
{
throw new FormatException("ice+universal is not compatible with the ice1 protocol");
}
if (oaEndpoint)
{
throw new FormatException("ice+universal cannot specify an object adapter endpoint");
}
// Enumerator names can only be used for "well-known" transports.
transport = Enum.Parse <Transport>(options["transport"], ignoreCase: true);
options.Remove("transport");
// It's possible we have a factory for this transport:
factory = communicator.IceFindEndpointFactory(transport);
}
else if (communicator.FindEndpointFactory(transportName) is (EndpointFactory f, Transport t))
{
factory = f;
transport = t;
}
else
{
throw new FormatException($"unknown transport `{transportName}'");
}
Endpoint endpoint = factory?.Create(transport,
protocol,
uri.DnsSafeHost,
port,
options,
oaEndpoint,
uriString) ??
new OpaqueEndpoint(communicator, transport, protocol, uri.DnsSafeHost, port, options);
if (options.Count > 0)
{
throw new FormatException($"unknown option `{options.First().Key}' for transport `{transportName}'");
}
return(endpoint);
}
// Creates an endpoint from a string.
internal static Endpoint Parse(string endpointString, Communicator communicator, bool oaEndpoint)
{
string[]? args = IceUtilInternal.StringUtil.SplitString(endpointString, " \t\r\n");
if (args == null)
{
throw new FormatException($"mismatched quote in endpoint `{endpointString}'");
}
if (args.Length == 0)
{
throw new FormatException("no non-whitespace character in endpoint string");
}
string transport = args[0];
if (transport == "default")
{
transport = communicator.DefaultTransport;
}
var options = new Dictionary <string, string?>();
// Parse args into options (and skip transport at args[0])
for (int n = 1; n < args.Length; ++n)
{
// Any option with < 2 characters or that does not start with - is illegal
string option = args[n];
if (option.Length < 2 || option[0] != '-')
{
throw new FormatException($"invalid option `{option}' in endpoint `{endpointString}'");
}
// Extract the argument given to the current option, if any
string?argument = null;
if (n + 1 < args.Length && args[n + 1][0] != '-')
{
argument = args[++n];
}
try
{
options.Add(option, argument);
}
catch (ArgumentException)
{
throw new FormatException($"duplicate option `{option}' in endpoint `{endpointString}'");
}
}
if (communicator.FindEndpointFactory(transport) is IEndpointFactory factory)
{
Endpoint endpoint = factory.Create(endpointString, options, oaEndpoint);
if (options.Count > 0)
{
throw new FormatException(
$"unrecognized option(s) `{ToString(options)}' in endpoint `{endpointString}'");
}
return(endpoint);
}
// If the stringified endpoint is opaque, create an unknown endpoint, then see whether the type matches one
// of the known endpoints.
if (!oaEndpoint && transport == "opaque")
{
var opaqueEndpoint = new OpaqueEndpoint(endpointString, options);
if (options.Count > 0)
{
throw new FormatException(
$"unrecognized option(s) `{ToString(options)}' in endpoint `{endpointString}'");
}
if (opaqueEndpoint.Encoding.IsSupported &&
communicator.FindEndpointFactory(opaqueEndpoint.Type) != null)
{
// We may be able to unmarshal this endpoint, so we first marshal it into a byte buffer and then
// unmarshal it from this buffer.
var bufferList = new List <ArraySegment <byte> >
{
// 8 = size of short + size of encapsulation header with 1.1 encoding
new byte[8 + opaqueEndpoint.Bytes.Length]
};
var ostr = new OutputStream(Ice1Definitions.Encoding, bufferList);
ostr.WriteEndpoint(opaqueEndpoint);
OutputStream.Position tail = ostr.Save();
Debug.Assert(bufferList.Count == 1);
Debug.Assert(tail.Segment == 0 && tail.Offset == 8 + opaqueEndpoint.Bytes.Length);
return(new InputStream(communicator, Ice1Definitions.Encoding, bufferList[0]).ReadEndpoint());
}
else
{
return(opaqueEndpoint);
}
}
throw new FormatException($"unknown transport `{transport}' in endpoint `{endpointString}'");
}