# encoding: ascii-8bit # # Licensed to the Apache Software Foundation (ASF) under one # or more contributor license agreements. See the NOTICE file # distributed with this work for additional information # regarding copyright ownership. The ASF licenses this file # to you under the Apache License, Version 2.0 (the # "License"); you may not use this file except in compliance # with the License. You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, # software distributed under the License is distributed on an # "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY # KIND, either express or implied. See the License for the # specific language governing permissions and limitations # under the License. # require 'spec_helper' shared_examples_for 'a binary protocol' do before(:each) do @trans = Thrift::MemoryBufferTransport.new @prot = protocol_class.new(@trans) end it "should define the proper VERSION_1, VERSION_MASK AND TYPE_MASK" do protocol_class.const_get(:VERSION_MASK).should == 0xffff0000 protocol_class.const_get(:VERSION_1).should == 0x80010000 protocol_class.const_get(:TYPE_MASK).should == 0x000000ff end it "should make strict_read readable" do @prot.strict_read.should eql(true) end it "should make strict_write readable" do @prot.strict_write.should eql(true) end it "should write the message header" do @prot.write_message_begin('testMessage', Thrift::MessageTypes::CALL, 17) @trans.read(@trans.available).should == [protocol_class.const_get(:VERSION_1) | Thrift::MessageTypes::CALL, "testMessage".size, "testMessage", 17].pack("NNa11N") end it "should write the message header without version when writes are not strict" do @prot = protocol_class.new(@trans, true, false) # no strict write @prot.write_message_begin('testMessage', Thrift::MessageTypes::CALL, 17) @trans.read(@trans.available).should == "\000\000\000\vtestMessage\001\000\000\000\021" end it "should write the message header with a version when writes are strict" do @prot = protocol_class.new(@trans) # strict write @prot.write_message_begin('testMessage', Thrift::MessageTypes::CALL, 17) @trans.read(@trans.available).should == "\200\001\000\001\000\000\000\vtestMessage\000\000\000\021" end # message footer is a noop it "should write the field header" do @prot.write_field_begin('foo', Thrift::Types::DOUBLE, 3) @trans.read(@trans.available).should == [Thrift::Types::DOUBLE, 3].pack("cn") end # field footer is a noop it "should write the STOP field" do @prot.write_field_stop @trans.read(1).should == "\000" end it "should write the map header" do @prot.write_map_begin(Thrift::Types::STRING, Thrift::Types::LIST, 17) @trans.read(@trans.available).should == [Thrift::Types::STRING, Thrift::Types::LIST, 17].pack("ccN"); end # map footer is a noop it "should write the list header" do @prot.write_list_begin(Thrift::Types::I16, 42) @trans.read(@trans.available).should == [Thrift::Types::I16, 42].pack("cN") end # list footer is a noop it "should write the set header" do @prot.write_set_begin(Thrift::Types::I16, 42) @trans.read(@trans.available).should == [Thrift::Types::I16, 42].pack("cN") end it "should write a bool" do @prot.write_bool(true) @prot.write_bool(false) @trans.read(@trans.available).should == "\001\000" end it "should treat a nil bool as false" do @prot.write_bool(nil) @trans.read(1).should == "\000" end it "should write a byte" do # byte is small enough, let's check -128..127 (-128..127).each do |i| @prot.write_byte(i) @trans.read(1).should == [i].pack('c') end # handing it numbers out of signed range should clip @trans.rspec_verify (128..255).each do |i| @prot.write_byte(i) @trans.read(1).should == [i].pack('c') end # and lastly, a Bignum is going to error out lambda { @prot.write_byte(2**65) }.should raise_error(RangeError) end it "should error gracefully when trying to write a nil byte" do lambda { @prot.write_byte(nil) }.should raise_error end it "should write an i16" do # try a random scattering of values # include the signed i16 minimum/maximum [-2**15, -1024, 17, 0, -10000, 1723, 2**15-1].each do |i| @prot.write_i16(i) end # and try something out of signed range, it should clip @prot.write_i16(2**15 + 5) @trans.read(@trans.available).should == "\200\000\374\000\000\021\000\000\330\360\006\273\177\377\200\005" # a Bignum should error # lambda { @prot.write_i16(2**65) }.should raise_error(RangeError) end it "should error gracefully when trying to write a nil i16" do lambda { @prot.write_i16(nil) }.should raise_error end it "should write an i32" do # try a random scattering of values # include the signed i32 minimum/maximum [-2**31, -123123, -2532, -3, 0, 2351235, 12331, 2**31-1].each do |i| @prot.write_i32(i) end # try something out of signed range, it should clip @trans.read(@trans.available).should == "\200\000\000\000" + "\377\376\037\r" + "\377\377\366\034" + "\377\377\377\375" + "\000\000\000\000" + "\000#\340\203" + "\000\0000+" + "\177\377\377\377" [2 ** 31 + 5, 2 ** 65 + 5].each do |i| lambda { @prot.write_i32(i) }.should raise_error(RangeError) end end it "should error gracefully when trying to write a nil i32" do lambda { @prot.write_i32(nil) }.should raise_error end it "should write an i64" do # try a random scattering of values # try the signed i64 minimum/maximum [-2**63, -12356123612323, -23512351, -234, 0, 1231, 2351236, 12361236213, 2**63-1].each do |i| @prot.write_i64(i) end # try something out of signed range, it should clip @trans.read(@trans.available).should == ["\200\000\000\000\000\000\000\000", "\377\377\364\303\035\244+]", "\377\377\377\377\376\231:\341", "\377\377\377\377\377\377\377\026", "\000\000\000\000\000\000\000\000", "\000\000\000\000\000\000\004\317", "\000\000\000\000\000#\340\204", "\000\000\000\002\340\311~\365", "\177\377\377\377\377\377\377\377"].join("") lambda { @prot.write_i64(2 ** 65 + 5) }.should raise_error(RangeError) end it "should error gracefully when trying to write a nil i64" do lambda { @prot.write_i64(nil) }.should raise_error end it "should write a double" do # try a random scattering of values, including min/max values = [Float::MIN,-1231.15325, -123123.23, -23.23515123, 0, 12351.1325, 523.23, Float::MAX] values.each do |f| @prot.write_double(f) @trans.read(@trans.available).should == [f].pack("G") end end it "should error gracefully when trying to write a nil double" do lambda { @prot.write_double(nil) }.should raise_error end if RUBY_VERSION >= '1.9' it 'should write a string' do str = 'abc' @prot.write_string(str) a = @trans.read(@trans.available) a.encoding.should == Encoding::BINARY a.unpack('C*').should == [0x00, 0x00, 0x00, 0x03, 0x61, 0x62, 0x63] end it 'should write a string with unicode characters' do str = "abc \u20AC \u20AD".encode('UTF-8') @prot.write_string(str) a = @trans.read(@trans.available) a.encoding.should == Encoding::BINARY a.unpack('C*').should == [0x00, 0x00, 0x00, 0x0B, 0x61, 0x62, 0x63, 0x20, 0xE2, 0x82, 0xAC, 0x20, 0xE2, 0x82, 0xAD] end it 'should write should write a string with unicode characters and transcoding' do str = "abc \u20AC".encode('ISO-8859-15') @prot.write_string(str) a = @trans.read(@trans.available) a.encoding.should == Encoding::BINARY a.unpack('C*').should == [0x00, 0x00, 0x00, 0x07, 0x61, 0x62, 0x63, 0x20, 0xE2, 0x82, 0xAC] end it 'should write a binary string' do buffer = [0, 1, 2, 3].pack('C*') @prot.write_binary(buffer) a = @trans.read(@trans.available) a.encoding.should == Encoding::BINARY a.unpack('C*').should == [0x00, 0x00, 0x00, 0x04, 0x00, 0x01, 0x02, 0x03] end else it 'should write a string' do str = 'abc' @prot.write_string(str) a = @trans.read(@trans.available) a.unpack('C*').should == [0x00, 0x00, 0x00, 0x03, 0x61, 0x62, 0x63] end it 'should write a binary string' do buffer = [0, 1, 2, 3].pack('C*') @prot.write_binary(buffer) a = @trans.read(@trans.available) a.unpack('C*').should == [0x00, 0x00, 0x00, 0x04, 0x00, 0x01, 0x02, 0x03] end end it "should error gracefully when trying to write a nil string" do lambda { @prot.write_string(nil) }.should raise_error end it "should write the message header without version when writes are not strict" do @prot = protocol_class.new(@trans, true, false) # no strict write @prot.write_message_begin('testMessage', Thrift::MessageTypes::CALL, 17) @trans.read(@trans.available).should == "\000\000\000\vtestMessage\001\000\000\000\021" end it "should write the message header with a version when writes are strict" do @prot = protocol_class.new(@trans) # strict write @prot.write_message_begin('testMessage', Thrift::MessageTypes::CALL, 17) @trans.read(@trans.available).should == "\200\001\000\001\000\000\000\vtestMessage\000\000\000\021" end # message footer is a noop it "should read a field header" do @trans.write([Thrift::Types::STRING, 3].pack("cn")) @prot.read_field_begin.should == [nil, Thrift::Types::STRING, 3] end # field footer is a noop it "should read a stop field" do @trans.write([Thrift::Types::STOP].pack("c")); @prot.read_field_begin.should == [nil, Thrift::Types::STOP, 0] end it "should read a map header" do @trans.write([Thrift::Types::DOUBLE, Thrift::Types::I64, 42].pack("ccN")) @prot.read_map_begin.should == [Thrift::Types::DOUBLE, Thrift::Types::I64, 42] end # map footer is a noop it "should read a list header" do @trans.write([Thrift::Types::STRING, 17].pack("cN")) @prot.read_list_begin.should == [Thrift::Types::STRING, 17] end # list footer is a noop it "should read a set header" do @trans.write([Thrift::Types::STRING, 17].pack("cN")) @prot.read_set_begin.should == [Thrift::Types::STRING, 17] end # set footer is a noop it "should read a bool" do @trans.write("\001\000"); @prot.read_bool.should == true @prot.read_bool.should == false end it "should read a byte" do [-128, -57, -3, 0, 17, 24, 127].each do |i| @trans.write([i].pack("c")) @prot.read_byte.should == i end end it "should read an i16" do # try a scattering of values, including min/max [-2**15, -5237, -353, 0, 1527, 2234, 2**15-1].each do |i| @trans.write([i].pack("n")); @prot.read_i16.should == i end end it "should read an i32" do # try a scattering of values, including min/max [-2**31, -235125, -6236, 0, 2351, 123123, 2**31-1].each do |i| @trans.write([i].pack("N")) @prot.read_i32.should == i end end it "should read an i64" do # try a scattering of values, including min/max [-2**63, -123512312, -6346, 0, 32, 2346322323, 2**63-1].each do |i| @trans.write([i >> 32, i & 0xFFFFFFFF].pack("NN")) @prot.read_i64.should == i end end it "should read a double" do # try a random scattering of values, including min/max [Float::MIN, -231231.12351, -323.233513, 0, 123.2351235, 2351235.12351235, Float::MAX].each do |f| @trans.write([f].pack("G")); @prot.read_double.should == f end end if RUBY_VERSION >= '1.9' it 'should read a string' do # i32 of value 3, followed by three characters/UTF-8 bytes 'a', 'b', 'c' buffer = [0x00, 0x00, 0x00, 0x03, 0x61, 0x62, 0x63].pack('C*') @trans.write(buffer) a = @prot.read_string a.should == 'abc'.encode('UTF-8') a.encoding.should == Encoding::UTF_8 end it 'should read a string containing unicode characters from UTF-8 encoded buffer' do # i32 of value 3, followed by one character U+20AC made up of three bytes buffer = [0x00, 0x00, 0x00, 0x03, 0xE2, 0x82, 0xAC].pack('C*') @trans.write(buffer) a = @prot.read_string a.should == "\u20AC".encode('UTF-8') a.encoding.should == Encoding::UTF_8 end it 'should read a binary string' do buffer = [0x00, 0x00, 0x00, 0x04, 0x00, 0x01, 0x02, 0x03].pack('C*') @trans.write(buffer) a = @prot.read_binary a.should == [0x00, 0x01, 0x02, 0x03].pack('C*') a.encoding.should == Encoding::BINARY end else it 'should read a string' do # i32 of value 3, followed by three characters/UTF-8 bytes 'a', 'b', 'c' buffer = [0x00, 0x00, 0x00, 0x03, 0x61, 0x62, 0x63].pack('C*') @trans.write(buffer) @prot.read_string.should == 'abc' end it 'should read a binary string' do buffer = [0x00, 0x00, 0x00, 0x04, 0x00, 0x01, 0x02, 0x03].pack('C*') @trans.write(buffer) a = @prot.read_binary a.should == [0x00, 0x01, 0x02, 0x03].pack('C*') end end it "should perform a complete rpc with no args or return" do srv_test( proc {|client| client.send_voidMethod()}, proc {|client| client.recv_voidMethod.should == nil} ) end it "should perform a complete rpc with a primitive return type" do srv_test( proc {|client| client.send_primitiveMethod()}, proc {|client| client.recv_primitiveMethod.should == 1} ) end it "should perform a complete rpc with a struct return type" do srv_test( proc {|client| client.send_structMethod()}, proc {|client| result = client.recv_structMethod result.set_byte_map = nil result.map_byte_map = nil result.should == Fixtures::COMPACT_PROTOCOL_TEST_STRUCT } ) end def get_socket_connection server = Thrift::ServerSocket.new("localhost", 9090) server.listen clientside = Thrift::Socket.new("localhost", 9090) clientside.open serverside = server.accept [clientside, serverside, server] end def srv_test(firstblock, secondblock) clientside, serverside, server = get_socket_connection clientproto = protocol_class.new(clientside) serverproto = protocol_class.new(serverside) processor = Thrift::Test::Srv::Processor.new(SrvHandler.new) client = Thrift::Test::Srv::Client.new(clientproto, clientproto) # first block firstblock.call(client) processor.process(serverproto, serverproto) # second block secondblock.call(client) ensure clientside.close serverside.close server.close end class SrvHandler def voidMethod() end def primitiveMethod 1 end def structMethod Fixtures::COMPACT_PROTOCOL_TEST_STRUCT end end end