# # Autogenerated by Thrift # # DO NOT EDIT UNLESS YOU ARE SURE THAT YOU KNOW WHAT YOU ARE DOING # from thrift.Thrift import * from ttypes import * from thrift.Thrift import TProcessor from thrift.transport import TTransport from thrift.protocol import TBinaryProtocol try: from thrift.protocol import fastbinary except: fastbinary = None class Iface: """ Standard base service """ def getName(self, ): """ Returns a descriptive name of the service """ pass def getVersion(self, ): """ Returns the version of the service """ pass def getStatus(self, ): """ Gets the status of this service """ pass def getStatusDetails(self, ): """ User friendly description of status, such as why the service is in the dead or warning state, or what is being started or stopped. """ pass def getCounters(self, ): """ Gets the counters for this service """ pass def getCounter(self, key): """ Gets the value of a single counter Parameters: - key """ pass def setOption(self, key, value): """ Sets an option Parameters: - key - value """ pass def getOption(self, key): """ Gets an option Parameters: - key """ pass def getOptions(self, ): """ Gets all options """ pass def getCpuProfile(self, profileDurationInSec): """ Returns a CPU profile over the given time interval (client and server must agree on the profile format). Parameters: - profileDurationInSec """ pass def aliveSince(self, ): """ Returns the unix time that the server has been running since """ pass def reinitialize(self, ): """ Tell the server to reload its configuration, reopen log files, etc """ pass def shutdown(self, ): """ Suggest a shutdown to the server """ pass class Client(Iface): """ Standard base service """ def __init__(self, iprot, oprot=None): self._iprot = self._oprot = iprot if oprot != None: self._oprot = oprot self._seqid = 0 def getName(self, ): """ Returns a descriptive name of the service """ self.send_getName() return self.recv_getName() def send_getName(self, ): self._oprot.writeMessageBegin('getName', TMessageType.CALL, self._seqid) args = getName_args() args.write(self._oprot) self._oprot.writeMessageEnd() self._oprot.trans.flush() def recv_getName(self, ): (fname, mtype, rseqid) = self._iprot.readMessageBegin() if mtype == TMessageType.EXCEPTION: x = TApplicationException() x.read(self._iprot) self._iprot.readMessageEnd() raise x result = getName_result() result.read(self._iprot) self._iprot.readMessageEnd() if result.success != None: return result.success raise TApplicationException(TApplicationException.MISSING_RESULT, "getName failed: unknown result"); def getVersion(self, ): """ Returns the version of the service """ self.send_getVersion() return self.recv_getVersion() def send_getVersion(self, ): self._oprot.writeMessageBegin('getVersion', TMessageType.CALL, self._seqid) args = getVersion_args() args.write(self._oprot) self._oprot.writeMessageEnd() self._oprot.trans.flush() def recv_getVersion(self, ): (fname, mtype, rseqid) = self._iprot.readMessageBegin() if mtype == TMessageType.EXCEPTION: x = TApplicationException() x.read(self._iprot) self._iprot.readMessageEnd() raise x result = getVersion_result() result.read(self._iprot) self._iprot.readMessageEnd() if result.success != None: return result.success raise TApplicationException(TApplicationException.MISSING_RESULT, "getVersion failed: unknown result"); def getStatus(self, ): """ Gets the status of this service """ self.send_getStatus() return self.recv_getStatus() def send_getStatus(self, ): self._oprot.writeMessageBegin('getStatus', TMessageType.CALL, self._seqid) args = getStatus_args() args.write(self._oprot) self._oprot.writeMessageEnd() self._oprot.trans.flush() def recv_getStatus(self, ): (fname, mtype, rseqid) = self._iprot.readMessageBegin() if mtype == TMessageType.EXCEPTION: x = TApplicationException() x.read(self._iprot) self._iprot.readMessageEnd() raise x result = getStatus_result() result.read(self._iprot) self._iprot.readMessageEnd() if result.success != None: return result.success raise TApplicationException(TApplicationException.MISSING_RESULT, "getStatus failed: unknown result"); def getStatusDetails(self, ): """ User friendly description of status, such as why the service is in the dead or warning state, or what is being started or stopped. """ self.send_getStatusDetails() return self.recv_getStatusDetails() def send_getStatusDetails(self, ): self._oprot.writeMessageBegin('getStatusDetails', TMessageType.CALL, self._seqid) args = getStatusDetails_args() args.write(self._oprot) self._oprot.writeMessageEnd() self._oprot.trans.flush() def recv_getStatusDetails(self, ): (fname, mtype, rseqid) = self._iprot.readMessageBegin() if mtype == TMessageType.EXCEPTION: x = TApplicationException() x.read(self._iprot) self._iprot.readMessageEnd() raise x result = getStatusDetails_result() result.read(self._iprot) self._iprot.readMessageEnd() if result.success != None: return result.success raise TApplicationException(TApplicationException.MISSING_RESULT, "getStatusDetails failed: unknown result"); def getCounters(self, ): """ Gets the counters for this service """ self.send_getCounters() return self.recv_getCounters() def send_getCounters(self, ): self._oprot.writeMessageBegin('getCounters', TMessageType.CALL, self._seqid) args = getCounters_args() args.write(self._oprot) self._oprot.writeMessageEnd() self._oprot.trans.flush() def recv_getCounters(self, ): (fname, mtype, rseqid) = self._iprot.readMessageBegin() if mtype == TMessageType.EXCEPTION: x = TApplicationException() x.read(self._iprot) self._iprot.readMessageEnd() raise x result = getCounters_result() result.read(self._iprot) self._iprot.readMessageEnd() if result.success != None: return result.success raise TApplicationException(TApplicationException.MISSING_RESULT, "getCounters failed: unknown result"); def getCounter(self, key): """ Gets the value of a single counter Parameters: - key """ self.send_getCounter(key) return self.recv_getCounter() def send_getCounter(self, key): self._oprot.writeMessageBegin('getCounter', TMessageType.CALL, self._seqid) args = getCounter_args() args.key = key args.write(self._oprot) self._oprot.writeMessageEnd() self._oprot.trans.flush() def recv_getCounter(self, ): (fname, mtype, rseqid) = self._iprot.readMessageBegin() if mtype == TMessageType.EXCEPTION: x = TApplicationException() x.read(self._iprot) self._iprot.readMessageEnd() raise x result = getCounter_result() result.read(self._iprot) self._iprot.readMessageEnd() if result.success != None: return result.success raise TApplicationException(TApplicationException.MISSING_RESULT, "getCounter failed: unknown result"); def setOption(self, key, value): """ Sets an option Parameters: - key - value """ self.send_setOption(key, value) self.recv_setOption() def send_setOption(self, key, value): self._oprot.writeMessageBegin('setOption', TMessageType.CALL, self._seqid) args = setOption_args() args.key = key args.value = value args.write(self._oprot) self._oprot.writeMessageEnd() self._oprot.trans.flush() def recv_setOption(self, ): (fname, mtype, rseqid) = self._iprot.readMessageBegin() if mtype == TMessageType.EXCEPTION: x = TApplicationException() x.read(self._iprot) self._iprot.readMessageEnd() raise x result = setOption_result() result.read(self._iprot) self._iprot.readMessageEnd() return def getOption(self, key): """ Gets an option Parameters: - key """ self.send_getOption(key) return self.recv_getOption() def send_getOption(self, key): self._oprot.writeMessageBegin('getOption', TMessageType.CALL, self._seqid) args = getOption_args() args.key = key args.write(self._oprot) self._oprot.writeMessageEnd() self._oprot.trans.flush() def recv_getOption(self, ): (fname, mtype, rseqid) = self._iprot.readMessageBegin() if mtype == TMessageType.EXCEPTION: x = TApplicationException() x.read(self._iprot) self._iprot.readMessageEnd() raise x result = getOption_result() result.read(self._iprot) self._iprot.readMessageEnd() if result.success != None: return result.success raise TApplicationException(TApplicationException.MISSING_RESULT, "getOption failed: unknown result"); def getOptions(self, ): """ Gets all options """ self.send_getOptions() return self.recv_getOptions() def send_getOptions(self, ): self._oprot.writeMessageBegin('getOptions', TMessageType.CALL, self._seqid) args = getOptions_args() args.write(self._oprot) self._oprot.writeMessageEnd() self._oprot.trans.flush() def recv_getOptions(self, ): (fname, mtype, rseqid) = self._iprot.readMessageBegin() if mtype == TMessageType.EXCEPTION: x = TApplicationException() x.read(self._iprot) self._iprot.readMessageEnd() raise x result = getOptions_result() result.read(self._iprot) self._iprot.readMessageEnd() if result.success != None: return result.success raise TApplicationException(TApplicationException.MISSING_RESULT, "getOptions failed: unknown result"); def getCpuProfile(self, profileDurationInSec): """ Returns a CPU profile over the given time interval (client and server must agree on the profile format). Parameters: - profileDurationInSec """ self.send_getCpuProfile(profileDurationInSec) return self.recv_getCpuProfile() def send_getCpuProfile(self, profileDurationInSec): self._oprot.writeMessageBegin('getCpuProfile', TMessageType.CALL, self._seqid) args = getCpuProfile_args() args.profileDurationInSec = profileDurationInSec args.write(self._oprot) self._oprot.writeMessageEnd() self._oprot.trans.flush() def recv_getCpuProfile(self, ): (fname, mtype, rseqid) = self._iprot.readMessageBegin() if mtype == TMessageType.EXCEPTION: x = TApplicationException() x.read(self._iprot) self._iprot.readMessageEnd() raise x result = getCpuProfile_result() result.read(self._iprot) self._iprot.readMessageEnd() if result.success != None: return result.success raise TApplicationException(TApplicationException.MISSING_RESULT, "getCpuProfile failed: unknown result"); def aliveSince(self, ): """ Returns the unix time that the server has been running since """ self.send_aliveSince() return self.recv_aliveSince() def send_aliveSince(self, ): self._oprot.writeMessageBegin('aliveSince', TMessageType.CALL, self._seqid) args = aliveSince_args() args.write(self._oprot) self._oprot.writeMessageEnd() self._oprot.trans.flush() def recv_aliveSince(self, ): (fname, mtype, rseqid) = self._iprot.readMessageBegin() if mtype == TMessageType.EXCEPTION: x = TApplicationException() x.read(self._iprot) self._iprot.readMessageEnd() raise x result = aliveSince_result() result.read(self._iprot) self._iprot.readMessageEnd() if result.success != None: return result.success raise TApplicationException(TApplicationException.MISSING_RESULT, "aliveSince failed: unknown result"); def reinitialize(self, ): """ Tell the server to reload its configuration, reopen log files, etc """ self.send_reinitialize() def send_reinitialize(self, ): self._oprot.writeMessageBegin('reinitialize', TMessageType.CALL, self._seqid) args = reinitialize_args() args.write(self._oprot) self._oprot.writeMessageEnd() self._oprot.trans.flush() def shutdown(self, ): """ Suggest a shutdown to the server """ self.send_shutdown() def send_shutdown(self, ): self._oprot.writeMessageBegin('shutdown', TMessageType.CALL, self._seqid) args = shutdown_args() args.write(self._oprot) self._oprot.writeMessageEnd() self._oprot.trans.flush() class Processor(Iface, TProcessor): def __init__(self, handler): self._handler = handler self._processMap = {} self._processMap["getName"] = Processor.process_getName self._processMap["getVersion"] = Processor.process_getVersion self._processMap["getStatus"] = Processor.process_getStatus self._processMap["getStatusDetails"] = Processor.process_getStatusDetails self._processMap["getCounters"] = Processor.process_getCounters self._processMap["getCounter"] = Processor.process_getCounter self._processMap["setOption"] = Processor.process_setOption self._processMap["getOption"] = Processor.process_getOption self._processMap["getOptions"] = Processor.process_getOptions self._processMap["getCpuProfile"] = Processor.process_getCpuProfile self._processMap["aliveSince"] = Processor.process_aliveSince self._processMap["reinitialize"] = Processor.process_reinitialize self._processMap["shutdown"] = Processor.process_shutdown def process(self, iprot, oprot): (name, type, seqid) = iprot.readMessageBegin() if name not in self._processMap: iprot.skip(TType.STRUCT) iprot.readMessageEnd() x = TApplicationException(TApplicationException.UNKNOWN_METHOD, 'Unknown function %s' % (name)) oprot.writeMessageBegin(name, TMessageType.EXCEPTION, seqid) x.write(oprot) oprot.writeMessageEnd() oprot.trans.flush() return else: self._processMap[name](self, seqid, iprot, oprot) return True def process_getName(self, seqid, iprot, oprot): args = getName_args() args.read(iprot) iprot.readMessageEnd() result = getName_result() result.success = self._handler.getName() oprot.writeMessageBegin("getName", TMessageType.REPLY, seqid) result.write(oprot) oprot.writeMessageEnd() oprot.trans.flush() def process_getVersion(self, seqid, iprot, oprot): args = getVersion_args() args.read(iprot) iprot.readMessageEnd() result = getVersion_result() result.success = self._handler.getVersion() oprot.writeMessageBegin("getVersion", TMessageType.REPLY, seqid) result.write(oprot) oprot.writeMessageEnd() oprot.trans.flush() def process_getStatus(self, seqid, iprot, oprot): args = getStatus_args() args.read(iprot) iprot.readMessageEnd() result = getStatus_result() result.success = self._handler.getStatus() oprot.writeMessageBegin("getStatus", TMessageType.REPLY, seqid) result.write(oprot) oprot.writeMessageEnd() oprot.trans.flush() def process_getStatusDetails(self, seqid, iprot, oprot): args = getStatusDetails_args() args.read(iprot) iprot.readMessageEnd() result = getStatusDetails_result() result.success = self._handler.getStatusDetails() oprot.writeMessageBegin("getStatusDetails", TMessageType.REPLY, seqid) result.write(oprot) oprot.writeMessageEnd() oprot.trans.flush() def process_getCounters(self, seqid, iprot, oprot): args = getCounters_args() args.read(iprot) iprot.readMessageEnd() result = getCounters_result() result.success = self._handler.getCounters() oprot.writeMessageBegin("getCounters", TMessageType.REPLY, seqid) result.write(oprot) oprot.writeMessageEnd() oprot.trans.flush() def process_getCounter(self, seqid, iprot, oprot): args = getCounter_args() args.read(iprot) iprot.readMessageEnd() result = getCounter_result() result.success = self._handler.getCounter(args.key) oprot.writeMessageBegin("getCounter", TMessageType.REPLY, seqid) result.write(oprot) oprot.writeMessageEnd() oprot.trans.flush() def process_setOption(self, seqid, iprot, oprot): args = setOption_args() args.read(iprot) iprot.readMessageEnd() result = setOption_result() self._handler.setOption(args.key, args.value) oprot.writeMessageBegin("setOption", TMessageType.REPLY, seqid) result.write(oprot) oprot.writeMessageEnd() oprot.trans.flush() def process_getOption(self, seqid, iprot, oprot): args = getOption_args() args.read(iprot) iprot.readMessageEnd() result = getOption_result() result.success = self._handler.getOption(args.key) oprot.writeMessageBegin("getOption", TMessageType.REPLY, seqid) result.write(oprot) oprot.writeMessageEnd() oprot.trans.flush() def process_getOptions(self, seqid, iprot, oprot): args = getOptions_args() args.read(iprot) iprot.readMessageEnd() result = getOptions_result() result.success = self._handler.getOptions() oprot.writeMessageBegin("getOptions", TMessageType.REPLY, seqid) result.write(oprot) oprot.writeMessageEnd() oprot.trans.flush() def process_getCpuProfile(self, seqid, iprot, oprot): args = getCpuProfile_args() args.read(iprot) iprot.readMessageEnd() result = getCpuProfile_result() result.success = self._handler.getCpuProfile(args.profileDurationInSec) oprot.writeMessageBegin("getCpuProfile", TMessageType.REPLY, seqid) result.write(oprot) oprot.writeMessageEnd() oprot.trans.flush() def process_aliveSince(self, seqid, iprot, oprot): args = aliveSince_args() args.read(iprot) iprot.readMessageEnd() result = aliveSince_result() result.success = self._handler.aliveSince() oprot.writeMessageBegin("aliveSince", TMessageType.REPLY, seqid) result.write(oprot) oprot.writeMessageEnd() oprot.trans.flush() def process_reinitialize(self, seqid, iprot, oprot): args = reinitialize_args() args.read(iprot) iprot.readMessageEnd() self._handler.reinitialize() return def process_shutdown(self, seqid, iprot, oprot): args = shutdown_args() args.read(iprot) iprot.readMessageEnd() self._handler.shutdown() return # HELPER FUNCTIONS AND STRUCTURES class getName_args: thrift_spec = ( ) def read(self, iprot): if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None: fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec)) return iprot.readStructBegin() while True: (fname, ftype, fid) = iprot.readFieldBegin() if ftype == TType.STOP: break else: iprot.skip(ftype) iprot.readFieldEnd() iprot.readStructEnd() def write(self, oprot): if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None: oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec))) return oprot.writeStructBegin('getName_args') oprot.writeFieldStop() oprot.writeStructEnd() def __repr__(self): L = ['%s=%r' % (key, value) for key, value in self.__dict__.iteritems()] return '%s(%s)' % (self.__class__.__name__, ', '.join(L)) def __eq__(self, other): return isinstance(other, self.__class__) and self.__dict__ == other.__dict__ def __ne__(self, other): return not (self == other) class getName_result: """ Attributes: - success """ thrift_spec = ( (0, TType.STRING, 'success', None, None, ), # 0 ) def __init__(self, success=None,): self.success = success def read(self, iprot): if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None: fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec)) return iprot.readStructBegin() while True: (fname, ftype, fid) = iprot.readFieldBegin() if ftype == TType.STOP: break if fid == 0: if ftype == TType.STRING: self.success = iprot.readString(); else: iprot.skip(ftype) else: iprot.skip(ftype) iprot.readFieldEnd() iprot.readStructEnd() def write(self, oprot): if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None: oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec))) return oprot.writeStructBegin('getName_result') if self.success != None: oprot.writeFieldBegin('success', TType.STRING, 0) oprot.writeString(self.success) oprot.writeFieldEnd() oprot.writeFieldStop() oprot.writeStructEnd() def __repr__(self): L = ['%s=%r' % (key, value) for key, value in self.__dict__.iteritems()] return '%s(%s)' % (self.__class__.__name__, ', '.join(L)) def __eq__(self, other): return isinstance(other, self.__class__) and self.__dict__ == other.__dict__ def __ne__(self, other): return not (self == other) class getVersion_args: thrift_spec = ( ) def read(self, iprot): if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None: fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec)) return iprot.readStructBegin() while True: (fname, ftype, fid) = iprot.readFieldBegin() if ftype == TType.STOP: break else: iprot.skip(ftype) iprot.readFieldEnd() iprot.readStructEnd() def write(self, oprot): if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None: oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec))) return oprot.writeStructBegin('getVersion_args') oprot.writeFieldStop() oprot.writeStructEnd() def __repr__(self): L = ['%s=%r' % (key, value) for key, value in self.__dict__.iteritems()] return '%s(%s)' % (self.__class__.__name__, ', '.join(L)) def __eq__(self, other): return isinstance(other, self.__class__) and self.__dict__ == other.__dict__ def __ne__(self, other): return not (self == other) class getVersion_result: """ Attributes: - success """ thrift_spec = ( (0, TType.STRING, 'success', None, None, ), # 0 ) def __init__(self, success=None,): self.success = success def read(self, iprot): if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None: fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec)) return iprot.readStructBegin() while True: (fname, ftype, fid) = iprot.readFieldBegin() if ftype == TType.STOP: break if fid == 0: if ftype == TType.STRING: self.success = iprot.readString(); else: iprot.skip(ftype) else: iprot.skip(ftype) iprot.readFieldEnd() iprot.readStructEnd() def write(self, oprot): if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None: oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec))) return oprot.writeStructBegin('getVersion_result') if self.success != None: oprot.writeFieldBegin('success', TType.STRING, 0) oprot.writeString(self.success) oprot.writeFieldEnd() oprot.writeFieldStop() oprot.writeStructEnd() def __repr__(self): L = ['%s=%r' % (key, value) for key, value in self.__dict__.iteritems()] return '%s(%s)' % (self.__class__.__name__, ', '.join(L)) def __eq__(self, other): return isinstance(other, self.__class__) and self.__dict__ == other.__dict__ def __ne__(self, other): return not (self == other) class getStatus_args: thrift_spec = ( ) def read(self, iprot): if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None: fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec)) return iprot.readStructBegin() while True: (fname, ftype, fid) = iprot.readFieldBegin() if ftype == TType.STOP: break else: iprot.skip(ftype) iprot.readFieldEnd() iprot.readStructEnd() def write(self, oprot): if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None: oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec))) return oprot.writeStructBegin('getStatus_args') oprot.writeFieldStop() oprot.writeStructEnd() def __repr__(self): L = ['%s=%r' % (key, value) for key, value in self.__dict__.iteritems()] return '%s(%s)' % (self.__class__.__name__, ', '.join(L)) def __eq__(self, other): return isinstance(other, self.__class__) and self.__dict__ == other.__dict__ def __ne__(self, other): return not (self == other) class getStatus_result: """ Attributes: - success """ thrift_spec = ( (0, TType.I32, 'success', None, None, ), # 0 ) def __init__(self, success=None,): self.success = success def read(self, iprot): if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None: fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec)) return iprot.readStructBegin() while True: (fname, ftype, fid) = iprot.readFieldBegin() if ftype == TType.STOP: break if fid == 0: if ftype == TType.I32: self.success = iprot.readI32(); else: iprot.skip(ftype) else: iprot.skip(ftype) iprot.readFieldEnd() iprot.readStructEnd() def write(self, oprot): if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None: oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec))) return oprot.writeStructBegin('getStatus_result') if self.success != None: oprot.writeFieldBegin('success', TType.I32, 0) oprot.writeI32(self.success) oprot.writeFieldEnd() oprot.writeFieldStop() oprot.writeStructEnd() def __repr__(self): L = ['%s=%r' % (key, value) for key, value in self.__dict__.iteritems()] return '%s(%s)' % (self.__class__.__name__, ', '.join(L)) def __eq__(self, other): return isinstance(other, self.__class__) and self.__dict__ == other.__dict__ def __ne__(self, other): return not (self == other) class getStatusDetails_args: thrift_spec = ( ) def read(self, iprot): if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None: fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec)) return iprot.readStructBegin() while True: (fname, ftype, fid) = iprot.readFieldBegin() if ftype == TType.STOP: break else: iprot.skip(ftype) iprot.readFieldEnd() iprot.readStructEnd() def write(self, oprot): if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None: oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec))) return oprot.writeStructBegin('getStatusDetails_args') oprot.writeFieldStop() oprot.writeStructEnd() def __repr__(self): L = ['%s=%r' % (key, value) for key, value in self.__dict__.iteritems()] return '%s(%s)' % (self.__class__.__name__, ', '.join(L)) def __eq__(self, other): return isinstance(other, self.__class__) and self.__dict__ == other.__dict__ def __ne__(self, other): return not (self == other) class getStatusDetails_result: """ Attributes: - success """ thrift_spec = ( (0, TType.STRING, 'success', None, None, ), # 0 ) def __init__(self, success=None,): self.success = success def read(self, iprot): if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None: fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec)) return iprot.readStructBegin() while True: (fname, ftype, fid) = iprot.readFieldBegin() if ftype == TType.STOP: break if fid == 0: if ftype == TType.STRING: self.success = iprot.readString(); else: iprot.skip(ftype) else: iprot.skip(ftype) iprot.readFieldEnd() iprot.readStructEnd() def write(self, oprot): if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None: oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec))) return oprot.writeStructBegin('getStatusDetails_result') if self.success != None: oprot.writeFieldBegin('success', TType.STRING, 0) oprot.writeString(self.success) oprot.writeFieldEnd() oprot.writeFieldStop() oprot.writeStructEnd() def __repr__(self): L = ['%s=%r' % (key, value) for key, value in self.__dict__.iteritems()] return '%s(%s)' % (self.__class__.__name__, ', '.join(L)) def __eq__(self, other): return isinstance(other, self.__class__) and self.__dict__ == other.__dict__ def __ne__(self, other): return not (self == other) class getCounters_args: thrift_spec = ( ) def read(self, iprot): if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None: fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec)) return iprot.readStructBegin() while True: (fname, ftype, fid) = iprot.readFieldBegin() if ftype == TType.STOP: break else: iprot.skip(ftype) iprot.readFieldEnd() iprot.readStructEnd() def write(self, oprot): if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None: oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec))) return oprot.writeStructBegin('getCounters_args') oprot.writeFieldStop() oprot.writeStructEnd() def __repr__(self): L = ['%s=%r' % (key, value) for key, value in self.__dict__.iteritems()] return '%s(%s)' % (self.__class__.__name__, ', '.join(L)) def __eq__(self, other): return isinstance(other, self.__class__) and self.__dict__ == other.__dict__ def __ne__(self, other): return not (self == other) class getCounters_result: """ Attributes: - success """ thrift_spec = ( (0, TType.MAP, 'success', (TType.STRING,None,TType.I64,None), None, ), # 0 ) def __init__(self, success=None,): self.success = success def read(self, iprot): if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None: fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec)) return iprot.readStructBegin() while True: (fname, ftype, fid) = iprot.readFieldBegin() if ftype == TType.STOP: break if fid == 0: if ftype == TType.MAP: self.success = {} (_ktype1, _vtype2, _size0 ) = iprot.readMapBegin() for _i4 in xrange(_size0): _key5 = iprot.readString(); _val6 = iprot.readI64(); self.success[_key5] = _val6 iprot.readMapEnd() else: iprot.skip(ftype) else: iprot.skip(ftype) iprot.readFieldEnd() iprot.readStructEnd() def write(self, oprot): if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None: oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec))) return oprot.writeStructBegin('getCounters_result') if self.success != None: oprot.writeFieldBegin('success', TType.MAP, 0) oprot.writeMapBegin(TType.STRING, TType.I64, len(self.success)) for kiter7,viter8 in self.success.items(): oprot.writeString(kiter7) oprot.writeI64(viter8) oprot.writeMapEnd() oprot.writeFieldEnd() oprot.writeFieldStop() oprot.writeStructEnd() def __repr__(self): L = ['%s=%r' % (key, value) for key, value in self.__dict__.iteritems()] return '%s(%s)' % (self.__class__.__name__, ', '.join(L)) def __eq__(self, other): return isinstance(other, self.__class__) and self.__dict__ == other.__dict__ def __ne__(self, other): return not (self == other) class getCounter_args: """ Attributes: - key """ thrift_spec = ( None, # 0 (1, TType.STRING, 'key', None, None, ), # 1 ) def __init__(self, key=None,): self.key = key def read(self, iprot): if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None: fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec)) return iprot.readStructBegin() while True: (fname, ftype, fid) = iprot.readFieldBegin() if ftype == TType.STOP: break if fid == 1: if ftype == TType.STRING: self.key = iprot.readString(); else: iprot.skip(ftype) else: iprot.skip(ftype) iprot.readFieldEnd() iprot.readStructEnd() def write(self, oprot): if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None: oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec))) return oprot.writeStructBegin('getCounter_args') if self.key != None: oprot.writeFieldBegin('key', TType.STRING, 1) oprot.writeString(self.key) oprot.writeFieldEnd() oprot.writeFieldStop() oprot.writeStructEnd() def __repr__(self): L = ['%s=%r' % (key, value) for key, value in self.__dict__.iteritems()] return '%s(%s)' % (self.__class__.__name__, ', '.join(L)) def __eq__(self, other): return isinstance(other, self.__class__) and self.__dict__ == other.__dict__ def __ne__(self, other): return not (self == other) class getCounter_result: """ Attributes: - success """ thrift_spec = ( (0, TType.I64, 'success', None, None, ), # 0 ) def __init__(self, success=None,): self.success = success def read(self, iprot): if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None: fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec)) return iprot.readStructBegin() while True: (fname, ftype, fid) = iprot.readFieldBegin() if ftype == TType.STOP: break if fid == 0: if ftype == TType.I64: self.success = iprot.readI64(); else: iprot.skip(ftype) else: iprot.skip(ftype) iprot.readFieldEnd() iprot.readStructEnd() def write(self, oprot): if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None: oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec))) return oprot.writeStructBegin('getCounter_result') if self.success != None: oprot.writeFieldBegin('success', TType.I64, 0) oprot.writeI64(self.success) oprot.writeFieldEnd() oprot.writeFieldStop() oprot.writeStructEnd() def __repr__(self): L = ['%s=%r' % (key, value) for key, value in self.__dict__.iteritems()] return '%s(%s)' % (self.__class__.__name__, ', '.join(L)) def __eq__(self, other): return isinstance(other, self.__class__) and self.__dict__ == other.__dict__ def __ne__(self, other): return not (self == other) class setOption_args: """ Attributes: - key - value """ thrift_spec = ( None, # 0 (1, TType.STRING, 'key', None, None, ), # 1 (2, TType.STRING, 'value', None, None, ), # 2 ) def __init__(self, key=None, value=None,): self.key = key self.value = value def read(self, iprot): if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None: fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec)) return iprot.readStructBegin() while True: (fname, ftype, fid) = iprot.readFieldBegin() if ftype == TType.STOP: break if fid == 1: if ftype == TType.STRING: self.key = iprot.readString(); else: iprot.skip(ftype) elif fid == 2: if ftype == TType.STRING: self.value = iprot.readString(); else: iprot.skip(ftype) else: iprot.skip(ftype) iprot.readFieldEnd() iprot.readStructEnd() def write(self, oprot): if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None: oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec))) return oprot.writeStructBegin('setOption_args') if self.key != None: oprot.writeFieldBegin('key', TType.STRING, 1) oprot.writeString(self.key) oprot.writeFieldEnd() if self.value != None: oprot.writeFieldBegin('value', TType.STRING, 2) oprot.writeString(self.value) oprot.writeFieldEnd() oprot.writeFieldStop() oprot.writeStructEnd() def __repr__(self): L = ['%s=%r' % (key, value) for key, value in self.__dict__.iteritems()] return '%s(%s)' % (self.__class__.__name__, ', '.join(L)) def __eq__(self, other): return isinstance(other, self.__class__) and self.__dict__ == other.__dict__ def __ne__(self, other): return not (self == other) class setOption_result: thrift_spec = ( ) def read(self, iprot): if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None: fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec)) return iprot.readStructBegin() while True: (fname, ftype, fid) = iprot.readFieldBegin() if ftype == TType.STOP: break else: iprot.skip(ftype) iprot.readFieldEnd() iprot.readStructEnd() def write(self, oprot): if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None: oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec))) return oprot.writeStructBegin('setOption_result') oprot.writeFieldStop() oprot.writeStructEnd() def __repr__(self): L = ['%s=%r' % (key, value) for key, value in self.__dict__.iteritems()] return '%s(%s)' % (self.__class__.__name__, ', '.join(L)) def __eq__(self, other): return isinstance(other, self.__class__) and self.__dict__ == other.__dict__ def __ne__(self, other): return not (self == other) class getOption_args: """ Attributes: - key """ thrift_spec = ( None, # 0 (1, TType.STRING, 'key', None, None, ), # 1 ) def __init__(self, key=None,): self.key = key def read(self, iprot): if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None: fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec)) return iprot.readStructBegin() while True: (fname, ftype, fid) = iprot.readFieldBegin() if ftype == TType.STOP: break if fid == 1: if ftype == TType.STRING: self.key = iprot.readString(); else: iprot.skip(ftype) else: iprot.skip(ftype) iprot.readFieldEnd() iprot.readStructEnd() def write(self, oprot): if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None: oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec))) return oprot.writeStructBegin('getOption_args') if self.key != None: oprot.writeFieldBegin('key', TType.STRING, 1) oprot.writeString(self.key) oprot.writeFieldEnd() oprot.writeFieldStop() oprot.writeStructEnd() def __repr__(self): L = ['%s=%r' % (key, value) for key, value in self.__dict__.iteritems()] return '%s(%s)' % (self.__class__.__name__, ', '.join(L)) def __eq__(self, other): return isinstance(other, self.__class__) and self.__dict__ == other.__dict__ def __ne__(self, other): return not (self == other) class getOption_result: """ Attributes: - success """ thrift_spec = ( (0, TType.STRING, 'success', None, None, ), # 0 ) def __init__(self, success=None,): self.success = success def read(self, iprot): if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None: fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec)) return iprot.readStructBegin() while True: (fname, ftype, fid) = iprot.readFieldBegin() if ftype == TType.STOP: break if fid == 0: if ftype == TType.STRING: self.success = iprot.readString(); else: iprot.skip(ftype) else: iprot.skip(ftype) iprot.readFieldEnd() iprot.readStructEnd() def write(self, oprot): if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None: oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec))) return oprot.writeStructBegin('getOption_result') if self.success != None: oprot.writeFieldBegin('success', TType.STRING, 0) oprot.writeString(self.success) oprot.writeFieldEnd() oprot.writeFieldStop() oprot.writeStructEnd() def __repr__(self): L = ['%s=%r' % (key, value) for key, value in self.__dict__.iteritems()] return '%s(%s)' % (self.__class__.__name__, ', '.join(L)) def __eq__(self, other): return isinstance(other, self.__class__) and self.__dict__ == other.__dict__ def __ne__(self, other): return not (self == other) class getOptions_args: thrift_spec = ( ) def read(self, iprot): if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None: fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec)) return iprot.readStructBegin() while True: (fname, ftype, fid) = iprot.readFieldBegin() if ftype == TType.STOP: break else: iprot.skip(ftype) iprot.readFieldEnd() iprot.readStructEnd() def write(self, oprot): if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None: oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec))) return oprot.writeStructBegin('getOptions_args') oprot.writeFieldStop() oprot.writeStructEnd() def __repr__(self): L = ['%s=%r' % (key, value) for key, value in self.__dict__.iteritems()] return '%s(%s)' % (self.__class__.__name__, ', '.join(L)) def __eq__(self, other): return isinstance(other, self.__class__) and self.__dict__ == other.__dict__ def __ne__(self, other): return not (self == other) class getOptions_result: """ Attributes: - success """ thrift_spec = ( (0, TType.MAP, 'success', (TType.STRING,None,TType.STRING,None), None, ), # 0 ) def __init__(self, success=None,): self.success = success def read(self, iprot): if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None: fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec)) return iprot.readStructBegin() while True: (fname, ftype, fid) = iprot.readFieldBegin() if ftype == TType.STOP: break if fid == 0: if ftype == TType.MAP: self.success = {} (_ktype10, _vtype11, _size9 ) = iprot.readMapBegin() for _i13 in xrange(_size9): _key14 = iprot.readString(); _val15 = iprot.readString(); self.success[_key14] = _val15 iprot.readMapEnd() else: iprot.skip(ftype) else: iprot.skip(ftype) iprot.readFieldEnd() iprot.readStructEnd() def write(self, oprot): if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None: oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec))) return oprot.writeStructBegin('getOptions_result') if self.success != None: oprot.writeFieldBegin('success', TType.MAP, 0) oprot.writeMapBegin(TType.STRING, TType.STRING, len(self.success)) for kiter16,viter17 in self.success.items(): oprot.writeString(kiter16) oprot.writeString(viter17) oprot.writeMapEnd() oprot.writeFieldEnd() oprot.writeFieldStop() oprot.writeStructEnd() def __repr__(self): L = ['%s=%r' % (key, value) for key, value in self.__dict__.iteritems()] return '%s(%s)' % (self.__class__.__name__, ', '.join(L)) def __eq__(self, other): return isinstance(other, self.__class__) and self.__dict__ == other.__dict__ def __ne__(self, other): return not (self == other) class getCpuProfile_args: """ Attributes: - profileDurationInSec """ thrift_spec = ( None, # 0 (1, TType.I32, 'profileDurationInSec', None, None, ), # 1 ) def __init__(self, profileDurationInSec=None,): self.profileDurationInSec = profileDurationInSec def read(self, iprot): if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None: fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec)) return iprot.readStructBegin() while True: (fname, ftype, fid) = iprot.readFieldBegin() if ftype == TType.STOP: break if fid == 1: if ftype == TType.I32: self.profileDurationInSec = iprot.readI32(); else: iprot.skip(ftype) else: iprot.skip(ftype) iprot.readFieldEnd() iprot.readStructEnd() def write(self, oprot): if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None: oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec))) return oprot.writeStructBegin('getCpuProfile_args') if self.profileDurationInSec != None: oprot.writeFieldBegin('profileDurationInSec', TType.I32, 1) oprot.writeI32(self.profileDurationInSec) oprot.writeFieldEnd() oprot.writeFieldStop() oprot.writeStructEnd() def __repr__(self): L = ['%s=%r' % (key, value) for key, value in self.__dict__.iteritems()] return '%s(%s)' % (self.__class__.__name__, ', '.join(L)) def __eq__(self, other): return isinstance(other, self.__class__) and self.__dict__ == other.__dict__ def __ne__(self, other): return not (self == other) class getCpuProfile_result: """ Attributes: - success """ thrift_spec = ( (0, TType.STRING, 'success', None, None, ), # 0 ) def __init__(self, success=None,): self.success = success def read(self, iprot): if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None: fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec)) return iprot.readStructBegin() while True: (fname, ftype, fid) = iprot.readFieldBegin() if ftype == TType.STOP: break if fid == 0: if ftype == TType.STRING: self.success = iprot.readString(); else: iprot.skip(ftype) else: iprot.skip(ftype) iprot.readFieldEnd() iprot.readStructEnd() def write(self, oprot): if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None: oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec))) return oprot.writeStructBegin('getCpuProfile_result') if self.success != None: oprot.writeFieldBegin('success', TType.STRING, 0) oprot.writeString(self.success) oprot.writeFieldEnd() oprot.writeFieldStop() oprot.writeStructEnd() def __repr__(self): L = ['%s=%r' % (key, value) for key, value in self.__dict__.iteritems()] return '%s(%s)' % (self.__class__.__name__, ', '.join(L)) def __eq__(self, other): return isinstance(other, self.__class__) and self.__dict__ == other.__dict__ def __ne__(self, other): return not (self == other) class aliveSince_args: thrift_spec = ( ) def read(self, iprot): if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None: fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec)) return iprot.readStructBegin() while True: (fname, ftype, fid) = iprot.readFieldBegin() if ftype == TType.STOP: break else: iprot.skip(ftype) iprot.readFieldEnd() iprot.readStructEnd() def write(self, oprot): if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None: oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec))) return oprot.writeStructBegin('aliveSince_args') oprot.writeFieldStop() oprot.writeStructEnd() def __repr__(self): L = ['%s=%r' % (key, value) for key, value in self.__dict__.iteritems()] return '%s(%s)' % (self.__class__.__name__, ', '.join(L)) def __eq__(self, other): return isinstance(other, self.__class__) and self.__dict__ == other.__dict__ def __ne__(self, other): return not (self == other) class aliveSince_result: """ Attributes: - success """ thrift_spec = ( (0, TType.I64, 'success', None, None, ), # 0 ) def __init__(self, success=None,): self.success = success def read(self, iprot): if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None: fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec)) return iprot.readStructBegin() while True: (fname, ftype, fid) = iprot.readFieldBegin() if ftype == TType.STOP: break if fid == 0: if ftype == TType.I64: self.success = iprot.readI64(); else: iprot.skip(ftype) else: iprot.skip(ftype) iprot.readFieldEnd() iprot.readStructEnd() def write(self, oprot): if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None: oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec))) return oprot.writeStructBegin('aliveSince_result') if self.success != None: oprot.writeFieldBegin('success', TType.I64, 0) oprot.writeI64(self.success) oprot.writeFieldEnd() oprot.writeFieldStop() oprot.writeStructEnd() def __repr__(self): L = ['%s=%r' % (key, value) for key, value in self.__dict__.iteritems()] return '%s(%s)' % (self.__class__.__name__, ', '.join(L)) def __eq__(self, other): return isinstance(other, self.__class__) and self.__dict__ == other.__dict__ def __ne__(self, other): return not (self == other) class reinitialize_args: thrift_spec = ( ) def read(self, iprot): if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None: fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec)) return iprot.readStructBegin() while True: (fname, ftype, fid) = iprot.readFieldBegin() if ftype == TType.STOP: break else: iprot.skip(ftype) iprot.readFieldEnd() iprot.readStructEnd() def write(self, oprot): if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None: oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec))) return oprot.writeStructBegin('reinitialize_args') oprot.writeFieldStop() oprot.writeStructEnd() def __repr__(self): L = ['%s=%r' % (key, value) for key, value in self.__dict__.iteritems()] return '%s(%s)' % (self.__class__.__name__, ', '.join(L)) def __eq__(self, other): return isinstance(other, self.__class__) and self.__dict__ == other.__dict__ def __ne__(self, other): return not (self == other) class shutdown_args: thrift_spec = ( ) def read(self, iprot): if iprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None and fastbinary is not None: fastbinary.decode_binary(self, iprot.trans, (self.__class__, self.thrift_spec)) return iprot.readStructBegin() while True: (fname, ftype, fid) = iprot.readFieldBegin() if ftype == TType.STOP: break else: iprot.skip(ftype) iprot.readFieldEnd() iprot.readStructEnd() def write(self, oprot): if oprot.__class__ == TBinaryProtocol.TBinaryProtocolAccelerated and self.thrift_spec is not None and fastbinary is not None: oprot.trans.write(fastbinary.encode_binary(self, (self.__class__, self.thrift_spec))) return oprot.writeStructBegin('shutdown_args') oprot.writeFieldStop() oprot.writeStructEnd() def __repr__(self): L = ['%s=%r' % (key, value) for key, value in self.__dict__.iteritems()] return '%s(%s)' % (self.__class__.__name__, ', '.join(L)) def __eq__(self, other): return isinstance(other, self.__class__) and self.__dict__ == other.__dict__ def __ne__(self, other): return not (self == other)