import com.google.protobuf.conformance.Conformance; import com.google.protobuf.util.JsonFormat; import com.google.protobuf.util.JsonFormat.TypeRegistry; import com.google.protobuf.InvalidProtocolBufferException; class ConformanceJava { private int testCount = 0; private TypeRegistry typeRegistry; private boolean readFromStdin(byte[] buf, int len) throws Exception { int ofs = 0; while (len > 0) { int read = System.in.read(buf, ofs, len); if (read == -1) { return false; // EOF } ofs += read; len -= read; } return true; } private void writeToStdout(byte[] buf) throws Exception { System.out.write(buf); } // Returns -1 on EOF (the actual values will always be positive). private int readLittleEndianIntFromStdin() throws Exception { byte[] buf = new byte[4]; if (!readFromStdin(buf, 4)) { return -1; } return (buf[0] & 0xff) | ((buf[1] & 0xff) << 8) | ((buf[2] & 0xff) << 16) | ((buf[3] & 0xff) << 24); } private void writeLittleEndianIntToStdout(int val) throws Exception { byte[] buf = new byte[4]; buf[0] = (byte)val; buf[1] = (byte)(val >> 8); buf[2] = (byte)(val >> 16); buf[3] = (byte)(val >> 24); writeToStdout(buf); } private Conformance.ConformanceResponse doTest(Conformance.ConformanceRequest request) { Conformance.TestAllTypes testMessage; switch (request.getPayloadCase()) { case PROTOBUF_PAYLOAD: { try { testMessage = Conformance.TestAllTypes.parseFrom(request.getProtobufPayload()); } catch (InvalidProtocolBufferException e) { return Conformance.ConformanceResponse.newBuilder().setParseError(e.getMessage()).build(); } break; } case JSON_PAYLOAD: { try { Conformance.TestAllTypes.Builder builder = Conformance.TestAllTypes.newBuilder(); JsonFormat.parser().usingTypeRegistry(typeRegistry) .merge(request.getJsonPayload(), builder); testMessage = builder.build(); } catch (InvalidProtocolBufferException e) { return Conformance.ConformanceResponse.newBuilder().setParseError(e.getMessage()).build(); } break; } case PAYLOAD_NOT_SET: { throw new RuntimeException("Request didn't have payload."); } default: { throw new RuntimeException("Unexpected payload case."); } } switch (request.getRequestedOutputFormat()) { case UNSPECIFIED: throw new RuntimeException("Unspecified output format."); case PROTOBUF: return Conformance.ConformanceResponse.newBuilder().setProtobufPayload(testMessage.toByteString()).build(); case JSON: try { return Conformance.ConformanceResponse.newBuilder().setJsonPayload( JsonFormat.printer().usingTypeRegistry(typeRegistry).print(testMessage)).build(); } catch (InvalidProtocolBufferException | IllegalArgumentException e) { return Conformance.ConformanceResponse.newBuilder().setSerializeError( e.getMessage()).build(); } default: { throw new RuntimeException("Unexpected request output."); } } } private boolean doTestIo() throws Exception { int bytes = readLittleEndianIntFromStdin(); if (bytes == -1) { return false; // EOF } byte[] serializedInput = new byte[bytes]; if (!readFromStdin(serializedInput, bytes)) { throw new RuntimeException("Unexpected EOF from test program."); } Conformance.ConformanceRequest request = Conformance.ConformanceRequest.parseFrom(serializedInput); Conformance.ConformanceResponse response = doTest(request); byte[] serializedOutput = response.toByteArray(); writeLittleEndianIntToStdout(serializedOutput.length); writeToStdout(serializedOutput); return true; } public void run() throws Exception { typeRegistry = TypeRegistry.newBuilder().add( Conformance.TestAllTypes.getDescriptor()).build(); while (doTestIo()) { this.testCount++; } System.err.println("ConformanceJava: received EOF from test runner after " + this.testCount + " tests"); } public static void main(String[] args) throws Exception { new ConformanceJava().run(); } }