require_relative '../spec_helper' with_feature :ancillary_data do describe 'Socket::AncillaryData#initialize' do describe 'using Integers for the family, level, and type' do before do @data = Socket::AncillaryData .new(Socket::AF_INET, Socket::IPPROTO_IP, Socket::IP_RECVTTL, 'ugh') end it 'sets the address family' do @data.family.should == Socket::AF_INET end it 'sets the message level' do @data.level.should == Socket::IPPROTO_IP end it 'sets the message type' do @data.type.should == Socket::IP_RECVTTL end it 'sets the data' do @data.data.should == 'ugh' end end describe 'using Symbols for the family, level, and type' do before do @data = Socket::AncillaryData.new(:INET, :IPPROTO_IP, :RECVTTL, 'ugh') end it 'sets the address family' do @data.family.should == Socket::AF_INET end it 'sets the message level' do @data.level.should == Socket::IPPROTO_IP end it 'sets the message type' do @data.type.should == Socket::IP_RECVTTL end it 'sets the data' do @data.data.should == 'ugh' end end describe 'using Strings for the family, level, and type' do before do @data = Socket::AncillaryData.new('INET', 'IPPROTO_IP', 'RECVTTL', 'ugh') end it 'sets the address family' do @data.family.should == Socket::AF_INET end it 'sets the message level' do @data.level.should == Socket::IPPROTO_IP end it 'sets the message type' do @data.type.should == Socket::IP_RECVTTL end it 'sets the data' do @data.data.should == 'ugh' end end describe 'using custom objects with a to_str method for the family, level, and type' do before do fmock = mock(:family) lmock = mock(:level) tmock = mock(:type) dmock = mock(:data) fmock.stub!(:to_str).and_return('INET') lmock.stub!(:to_str).and_return('IP') tmock.stub!(:to_str).and_return('RECVTTL') dmock.stub!(:to_str).and_return('ugh') @data = Socket::AncillaryData.new(fmock, lmock, tmock, dmock) end it 'sets the address family' do @data.family.should == Socket::AF_INET end it 'sets the message level' do @data.level.should == Socket::IPPROTO_IP end it 'sets the message type' do @data.type.should == Socket::IP_RECVTTL end it 'sets the data' do @data.data.should == 'ugh' end end describe 'using :AF_INET as the family and :SOCKET as the level' do it 'sets the type to SCM_RIGHTS when using :RIGHTS as the type argument' do Socket::AncillaryData.new(:INET, :SOCKET, :RIGHTS, '').type.should == Socket::SCM_RIGHTS end platform_is_not :"solaris2.10", :aix do it 'sets the type to SCM_TIMESTAMP when using :TIMESTAMP as the type argument' do Socket::AncillaryData.new(:INET, :SOCKET, :TIMESTAMP, '').type.should == Socket::SCM_TIMESTAMP end end it 'raises TypeError when using a numeric string as the type argument' do -> { Socket::AncillaryData.new(:INET, :IGMP, Socket::SCM_RIGHTS.to_s, '') }.should raise_error(TypeError) end it 'raises SocketError when using :RECVTTL as the type argument' do -> { Socket::AncillaryData.new(:INET, :SOCKET, :RECVTTL, '') }.should raise_error(SocketError) end it 'raises SocketError when using :MOO as the type argument' do -> { Socket::AncillaryData.new(:INET, :SOCKET, :MOO, '') }.should raise_error(SocketError) end it 'raises SocketError when using :IP_RECVTTL as the type argument' do -> { Socket::AncillaryData.new(:INET, :SOCKET, :IP_RECVTTL, '') }.should raise_error(SocketError) end end describe 'using :AF_INET as the family and :SOCKET as the level' do it 'sets the type to SCM_RIGHTS when using :RIGHTS as the type argument' do Socket::AncillaryData.new(:INET, :SOCKET, :RIGHTS, '').type.should == Socket::SCM_RIGHTS end end describe 'using :AF_INET as the family and :IP as the level' do it 'sets the type to IP_RECVTTL when using :RECVTTL as the type argument' do Socket::AncillaryData.new(:INET, :IP, :RECVTTL, '').type.should == Socket::IP_RECVTTL end with_feature :ip_mtu do it 'sets the type to IP_MTU when using :MTU as the type argument' do Socket::AncillaryData.new(:INET, :IP, :MTU, '').type.should == Socket::IP_MTU end end it 'raises SocketError when using :RIGHTS as the type argument' do -> { Socket::AncillaryData.new(:INET, :IP, :RIGHTS, '') }.should raise_error(SocketError) end it 'raises SocketError when using :MOO as the type argument' do -> { Socket::AncillaryData.new(:INET, :IP, :MOO, '') }.should raise_error(SocketError) end end describe 'using :AF_INET as the family and :IPV6 as the level' do it 'sets the type to IPV6_CHECKSUM when using :CHECKSUM as the type argument' do Socket::AncillaryData.new(:INET, :IPV6, :CHECKSUM, '').type.should == Socket::IPV6_CHECKSUM end with_feature :ipv6_nexthop do it 'sets the type to IPV6_NEXTHOP when using :NEXTHOP as the type argument' do Socket::AncillaryData.new(:INET, :IPV6, :NEXTHOP, '').type.should == Socket::IPV6_NEXTHOP end end it 'raises SocketError when using :RIGHTS as the type argument' do -> { Socket::AncillaryData.new(:INET, :IPV6, :RIGHTS, '') }.should raise_error(SocketError) end it 'raises SocketError when using :MOO as the type argument' do -> { Socket::AncillaryData.new(:INET, :IPV6, :MOO, '') }.should raise_error(SocketError) end end describe 'using :AF_INET as the family and :TCP as the level' do with_feature :tcp_cork do it 'sets the type to TCP_CORK when using :CORK as the type argument' do Socket::AncillaryData.new(:INET, :TCP, :CORK, '').type.should == Socket::TCP_CORK end end with_feature :tcp_info do it 'sets the type to TCP_INFO when using :INFO as the type argument' do Socket::AncillaryData.new(:INET, :TCP, :INFO, '').type.should == Socket::TCP_INFO end end it 'raises SocketError when using :RIGHTS as the type argument' do -> { Socket::AncillaryData.new(:INET, :TCP, :RIGHTS, '') }.should raise_error(SocketError) end it 'raises SocketError when using :MOO as the type argument' do -> { Socket::AncillaryData.new(:INET, :TCP, :MOO, '') }.should raise_error(SocketError) end end describe 'using :AF_INET as the family and :UDP as the level' do with_feature :udp_cork do it 'sets the type to UDP_CORK when using :CORK as the type argument' do Socket::AncillaryData.new(:INET, :UDP, :CORK, '').type.should == Socket::UDP_CORK end end it 'raises SocketError when using :RIGHTS as the type argument' do -> { Socket::AncillaryData.new(:INET, :UDP, :RIGHTS, '') }.should raise_error(SocketError) end it 'raises SocketError when using :MOO as the type argument' do -> { Socket::AncillaryData.new(:INET, :UDP, :MOO, '') }.should raise_error(SocketError) end end describe 'using :AF_UNIX as the family and :SOCKET as the level' do it 'sets the type to SCM_RIGHTS when using :RIGHTS as the type argument' do Socket::AncillaryData.new(:UNIX, :SOCKET, :RIGHTS, '').type.should == Socket::SCM_RIGHTS end it 'raises SocketError when using :CORK sa the type argument' do -> { Socket::AncillaryData.new(:UNIX, :SOCKET, :CORK, '') }.should raise_error(SocketError) end end describe 'using :AF_UNIX as the family and :IP as the level' do it 'raises SocketError' do -> { Socket::AncillaryData.new(:UNIX, :IP, :RECVTTL, '') }.should raise_error(SocketError) end end describe 'using :AF_UNIX as the family and :IPV6 as the level' do it 'raises SocketError' do -> { Socket::AncillaryData.new(:UNIX, :IPV6, :NEXTHOP, '') }.should raise_error(SocketError) end end describe 'using :AF_UNIX as the family and :TCP as the level' do it 'raises SocketError' do -> { Socket::AncillaryData.new(:UNIX, :TCP, :CORK, '') }.should raise_error(SocketError) end end describe 'using :AF_UNIX as the family and :UDP as the level' do it 'raises SocketError' do -> { Socket::AncillaryData.new(:UNIX, :UDP, :CORK, '') }.should raise_error(SocketError) end end end end