private static void printRequestHeader(System.IO.StringWriter s, Ice.InputStream str) { printIdentityFacetOperation(s, str); try { byte mode = str.readByte(); s.Write("\nmode = " + (int)mode + ' '); switch ((Ice.OperationMode)mode) { case Ice.OperationMode.Normal: { s.Write("(normal)"); break; } case Ice.OperationMode.Nonmutating: { s.Write("(nonmutating)"); break; } case Ice.OperationMode.Idempotent: { s.Write("(idempotent)"); break; } default: { s.Write("(unknown)"); break; } } int sz = str.readSize(); s.Write("\ncontext = "); while (sz-- > 0) { string key = str.readString(); string val = str.readString(); s.Write(key + '/' + val); if (sz > 0) { s.Write(", "); } } Ice.EncodingVersion v = str.skipEncapsulation(); if (!v.Equals(Ice.Util.Encoding_1_0)) { s.Write("\nencoding = "); s.Write(Ice.Util.encodingVersionToString(v)); } } catch (System.IO.IOException) { Debug.Assert(false); } }
internal void setEncoding(Ice.EncodingVersion encoding) { this.encoding = encoding; encoding_1_0 = encoding.Equals(Ice.Util.Encoding_1_0); }
private static void printReply(System.IO.StringWriter s, Ice.InputStream str) { int requestId = str.readInt(); s.Write("\nrequest id = " + requestId); byte replyStatus = str.readByte(); s.Write("\nreply status = " + (int)replyStatus + ' '); switch (replyStatus) { case ReplyStatus.replyOK: { s.Write("(ok)"); break; } case ReplyStatus.replyUserException: { s.Write("(user exception)"); break; } case ReplyStatus.replyObjectNotExist: case ReplyStatus.replyFacetNotExist: case ReplyStatus.replyOperationNotExist: { switch (replyStatus) { case ReplyStatus.replyObjectNotExist: { s.Write("(object not exist)"); break; } case ReplyStatus.replyFacetNotExist: { s.Write("(facet not exist)"); break; } case ReplyStatus.replyOperationNotExist: { s.Write("(operation not exist)"); break; } default: { Debug.Assert(false); break; } } printIdentityFacetOperation(s, str); break; } case ReplyStatus.replyUnknownException: case ReplyStatus.replyUnknownLocalException: case ReplyStatus.replyUnknownUserException: { switch (replyStatus) { case ReplyStatus.replyUnknownException: { s.Write("(unknown exception)"); break; } case ReplyStatus.replyUnknownLocalException: { s.Write("(unknown local exception)"); break; } case ReplyStatus.replyUnknownUserException: { s.Write("(unknown user exception)"); break; } default: { Debug.Assert(false); break; } } string unknown = str.readString(); s.Write("\nunknown = " + unknown); break; } default: { s.Write("(unknown)"); break; } } if (replyStatus == ReplyStatus.replyOK || replyStatus == ReplyStatus.replyUserException) { Ice.EncodingVersion v = str.skipEncapsulation(); if (!v.Equals(Ice.Util.Encoding_1_0)) { s.Write("\nencoding = "); s.Write(Ice.Util.encodingVersionToString(v)); } } }
/// <summary> /// Skips an empty encapsulation. /// </summary> /// <returns>The encapsulation's encoding version.</returns> public EncodingVersion skipEmptyEncapsulation() { int sz = readInt(); if(sz < 6) { throw new Ice.EncapsulationException(); } if(sz - 4 > _buf.b.remaining()) { throw new Ice.UnmarshalOutOfBoundsException(); } Ice.EncodingVersion encoding = new Ice.EncodingVersion(); encoding.read__(this); if(encoding.Equals(Ice.Util.Encoding_1_0)) { if(sz != 6) { throw new Ice.EncapsulationException(); } } else { // Skip the optional content of the encapsulation if we are expecting an // empty encapsulation. _buf.b.position(_buf.b.position() + sz - 6); } return encoding; }