# Building of samples for different platforms # Reused components - NET Core Standard 2.0 - NET Core App 2.0 # How to build - Download and install the latest .NET Core SDK for your platform https://www.microsoft.com/net/core#windowsvs2015 (archive for SDK 1.0.0-preview2-003121 located by: https://github.com/dotnet/core/blob/master/release-notes/download-archive.md) - Ensure that you have thrift.exe which supports netcore lib and it added to PATH - Go to current folder - Run **build.sh** or **build.cmd** from the root of cloned repository - Check tests in **src/Tests** folder - Continue with /tutorials/netcore # How to run Notes: dotnet run supports passing arguments to app after -- symbols (https://docs.microsoft.com/en-us/dotnet/articles/core/tools/dotnet-run) - example: **dotnet run -- -h** will show help for app - build - go to folder (Client/Server) - run with specifying of correct parameters **dotnet run -tr:tcp -pr:multiplexed**, **dotnet run -help** (later, after migration to csproj and latest SDK will be possibility to use more usable form **dotnet run -- arguments**) #Notes - Possible adding additional platforms after stabilization of .NET Core (runtimes, platforms (Red Hat Linux, OpenSuse, etc.) #Known issues - In trace logging mode you can see some not important internal exceptions # Running of samples Please install Thrift C# .NET Core library or copy sources and build them to correcly build and run samples # NetCore Server Usage: Server.exe -h will diplay help information Server.exe -tr: -pr: will run server with specified arguments (tcp transport and binary protocol by default) Options: -tr (transport): tcp - (default) tcp transport will be used (host - ""localhost"", port - 9090) tcpbuffered - tcp buffered transport will be used (host - ""localhost"", port - 9090) namedpipe - namedpipe transport will be used (pipe address - "".test"") http - http transport will be used (http address - ""localhost:9090"") tcptls - tcp transport with tls will be used (host - ""localhost"", port - 9090) framed - tcp framed transport will be used (host - ""localhost"", port - 9090) -pr (protocol): binary - (default) binary protocol will be used compact - compact protocol will be used json - json protocol will be used Sample: Server.exe -tr:tcp **Remarks**: For TcpTls mode certificate's file ThriftTest.pfx should be in directory with binaries in case of command line usage (or at project level in case of debugging from IDE). Password for certificate - "ThriftTest". # NetCore Client Usage: Client.exe -h will diplay help information Client.exe -tr: -pr: -mc: will run client with specified arguments (tcp transport and binary protocol by default) Options: -tr (transport): tcp - (default) tcp transport will be used (host - ""localhost"", port - 9090) tcpbuffered - buffered transport over tcp will be used (host - ""localhost"", port - 9090) namedpipe - namedpipe transport will be used (pipe address - "".test"") http - http transport will be used (address - ""http://localhost:9090"") tcptls - tcp tls transport will be used (host - ""localhost"", port - 9090) framed - tcp framed transport will be used (host - ""localhost"", port - 9090) -pr (protocol): binary - (default) binary protocol will be used compact - compact protocol will be used json - json protocol will be used -mc (multiple clients): - number of multiple clients to connect to server (max 100, default 1) Sample: Client.exe -tr:tcp -pr:binary -mc:10 Remarks: For TcpTls mode certificate's file ThriftTest.pfx should be in directory with binaries in case of command line usage (or at project level in case of debugging from IDE). Password for certificate - "ThriftTest". # How to test communication between NetCore and Python * Generate code with the latest **thrift.exe** util * Ensure that **thrift.exe** util generated folder **gen-py** with generated code for Python * Create **client.py** and **server.py** from the code examples below and save them to the folder with previosly generated folder **gen-py** * Run netcore samples (client and server) and python samples (client and server) Remarks: Samples of client and server code below use correct methods (operations) and fields (properties) according to generated contracts from *.thrift files At Windows 10 add record **127.0.0.1 testserver** to **C:\Windows\System32\drivers\etc\hosts** file for correct work of python server **Python Client:** ```python import sys import glob sys.path.append('gen-py') from tutorial import Calculator from tutorial.ttypes import InvalidOperation, Operation, Work from thrift import Thrift from thrift.transport import TSocket from thrift.transport import TTransport from thrift.protocol import TBinaryProtocol def main(): # Make socket transport = TSocket.TSocket('127.0.0.1', 9090) # Buffering is critical. Raw sockets are very slow transport = TTransport.TBufferedTransport(transport) # Wrap in a protocol protocol = TBinaryProtocol.TBinaryProtocol(transport) # Create a client to use the protocol encoder client = Calculator.Client(protocol) # Connect! transport.open() client.Ping() print('ping()') sum = client.Add(1, 1) print(('1+1=%d' % (sum))) work = Work() work.Op = Operation.Divide work.Num1 = 1 work.Num2 = 0 try: quotient = client.Calculate(1, work) print('Whoa? You know how to divide by zero?') print('FYI the answer is %d' % quotient) except InvalidOperation as e: print(('InvalidOperation: %r' % e)) work.Op = Operation.Substract work.Num1 = 15 work.Num2 = 10 diff = client.Calculate(1, work) print(('15-10=%d' % (diff))) log = client.GetStruct(1) print(('Check log: %s' % (log.Value))) client.Zip() print('zip()') # Close! transport.close() if __name__ == '__main__': try: main() except Thrift.TException as tx: print('%s' % tx.message) ``` **Python Server:** ```python import glob import sys sys.path.append('gen-py') from tutorial import Calculator from tutorial.ttypes import InvalidOperation, Operation from shared.ttypes import SharedStruct from thrift.transport import TSocket from thrift.transport import TTransport from thrift.protocol import TBinaryProtocol from thrift.server import TServer class CalculatorHandler: def __init__(self): self.log = {} def Ping(self): print('ping()') def Add(self, n1, n2): print('add(%d,%d)' % (n1, n2)) return n1 + n2 def Calculate(self, logid, work): print('calculate(%d, %r)' % (logid, work)) if work.Op == Operation.Add: val = work.Num1 + work.Num2 elif work.Op == Operation.Substract: val = work.Num1 - work.Num2 elif work.Op == Operation.Multiply: val = work.Num1 * work.Num2 elif work.Op == Operation.Divide: if work.Num2 == 0: x = InvalidOperation() x.WhatOp = work.Op x.Why = 'Cannot divide by 0' raise x val = work.Num1 / work.Num2 else: x = InvalidOperation() x.WhatOp = work.Op x.Why = 'Invalid operation' raise x log = SharedStruct() log.Key = logid log.Value = '%d' % (val) self.log[logid] = log return val def GetStruct(self, key): print('getStruct(%d)' % (key)) return self.log[key] def Zip(self): print('zip()') if __name__ == '__main__': handler = CalculatorHandler() processor = Calculator.Processor(handler) transport = TSocket.TServerSocket(host="testserver", port=9090) tfactory = TTransport.TBufferedTransportFactory() pfactory = TBinaryProtocol.TBinaryProtocolFactory() server = TServer.TSimpleServer(processor, transport, tfactory, pfactory) print('Starting the server...') server.serve() print('done.') # You could do one of these for a multithreaded server # server = TServer.TThreadedServer(processor, transport, tfactory, pfactory) # server = TServer.TThreadPoolServer(processor, transport, tfactory, pfactory) ```