RSpec.describe RubySMB::Dcerpc::Winreg::QueryValueResponse do subject(:packet) { described_class.new } it { is_expected.to respond_to :lp_type } it { is_expected.to respond_to :lp_data } it { is_expected.to respond_to :pad } it { is_expected.to respond_to :lpcb_data } it { is_expected.to respond_to :lpcb_len } it { is_expected.to respond_to :error_status } it { is_expected.to respond_to :opnum } it 'is little endian' do expect(described_class.fields.instance_variable_get(:@hints)[:endian]).to eq :little end describe '#lp_type' do it 'is a NdrLpDword structure' do expect(packet.lp_type).to be_a RubySMB::Dcerpc::Ndr::NdrLpDword end end describe '#lp_data' do it 'is a NdrLpByteArray structure' do expect(packet.lp_data).to be_a RubySMB::Dcerpc::Ndr::NdrLpByteArray end end describe '#pad' do it 'is a string' do expect(packet.pad).to be_a BinData::String end it 'should keep #lpcb_data 4-byte aligned' do packet.lp_data = 'spec_test'.bytes expect(packet.lpcb_data.abs_offset % 4).to eq 0 end end describe '#lpcb_data' do it 'is a NdrLpDword structure' do expect(packet.lpcb_data).to be_a RubySMB::Dcerpc::Ndr::NdrLpDword end end describe '#lpcb_len' do it 'is a NdrLpDword structure' do expect(packet.lpcb_len).to be_a RubySMB::Dcerpc::Ndr::NdrLpDword end end describe '#error_status' do it 'is a 32-bit unsigned integer' do expect(packet.error_status).to be_a BinData::Uint32le end end describe '#initialize_instance' do it 'sets #opnum to REG_QUERY_VALUE constant' do expect(packet.opnum).to eq(RubySMB::Dcerpc::Winreg::REG_QUERY_VALUE) end end describe '#data' do context 'when #lp_type is 1 (unicode null-terminated string)' do it 'returns the expected value' do str = 'spec test string'.encode('utf-16le') packet.lp_type = 1 packet.lp_data = str.bytes expect(packet.data).to eq(str) end end context 'when #lp_type is 2 (unicode null-terminated string with unexpanded references to environment variables)' do it 'returns the expected value' do str = '/%PATH%/foo'.encode('utf-16le') packet.lp_type = 2 packet.lp_data = str.bytes expect(packet.data).to eq(str) end end context 'when #lp_type is 3 (binary data)' do it 'returns the expected value' do bytes = [0xFF, 0xEE, 0xDD, 0xCC].pack('C*') packet.lp_type = 3 packet.lp_data = bytes.bytes expect(packet.data).to eq(bytes) end end context 'when #lp_type is 4 (a 32-bit number in little-endian format)' do it 'returns the expected value' do number = 12345 packet.lp_type = 4 packet.lp_data = [number].pack('V').bytes expect(packet.data).to eq(number) end end context 'when #lp_type is 5 (a 32-bit number in big-endian format)' do it 'returns the expected value' do number = 12345 packet.lp_type = 5 packet.lp_data = [number].pack('N').bytes expect(packet.data).to eq(number) end end context 'when #lp_type is 7 (a sequence of unicode null-terminated strings, terminated by an empty string)' do it 'returns the expected value' do str_array = ['String1', 'String2', 'String3', 'LastString'].map {|v| v.encode('utf-16le')} null_byte = "\0".encode('utf-16le') str = (str_array + [null_byte]).join(null_byte) packet.lp_type = 7 packet.lp_data = str.bytes expect(packet.data).to eq(str_array) end end context 'when #lp_type is 11 (a 64-bit number in little-endian format)' do it 'returns the expected value' do number = 0x1234567812345678 packet.lp_type = 11 packet.lp_data = [number].pack('Q<').bytes expect(packet.data).to eq(number) end end context 'when #lp_type is an unknown value' do it 'returns an empty string' do str = 'test' packet.lp_type = 6 packet.lp_data = str.bytes expect(packet.data).to eq('') end end end end