# Copyright (C) 2009-2020 MongoDB Inc. # # Licensed 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" require "base64" describe BSON::Binary do let(:testing1) { described_class.new("testing") } let(:testing2) { described_class.new("testing") } let(:not_testing) { described_class.new("not testing") } describe "#eql?" do context "for two equal objects" do it "returns true" do expect(testing1).to eql(testing2) end end context "for two different objects" do it "returns false" do expect(testing1).not_to eql(not_testing) end end end describe "#hash" do context "for two equal objects" do it "is the same" do expect(testing1.hash).to eq(testing2.hash) end end context "for two different objects" do it "is different" do expect(testing1.hash).not_to eq(not_testing.hash) end end end let(:hash) do { testing1 => "my value" } end it "can be used as Hash key" do expect(hash[testing2]).to eq("my value") expect(hash[not_testing]).to be_nil end describe "#as_json" do let(:object) do described_class.new("testing", :user) end it "returns the binary data plus type" do expect(object.as_json).to eq( { "$binary" => {'base64' => Base64.encode64("testing").strip, "subType" => '80' }} ) end it_behaves_like "a JSON serializable object" end describe "#initialize" do context 'when type is not given' do let(:obj) { described_class.new('foo') } it 'defaults to generic type' do expect(obj.type).to eq(:generic) end end context "when he type is invalid" do it "raises an error" do expect { described_class.new("testing", :error) }.to raise_error { |error| expect(error).to be_a(BSON::Binary::InvalidType) expect(error.message).to match /is not a valid binary type/ } end end end describe '#inspect' do let(:object) do described_class.new('testing123', :user) end it 'returns the truncated data and type' do expect(object.inspect).to eq("") end context 'with other encoding' do let(:object) do described_class.new("\x1F\x8B\b\x00\fxpU\x00\x03\xED\x1C\xDBv\xDB6\xF2\xBD_\x81UN\x9A\xE6T\x96H\xDD-\xDBjR7\xDD\xA6mR\x9F:m\xB7".force_encoding(Encoding::BINARY), :user) end it 'returns the truncated data and type' do expect(object.inspect).to eq("") end it 'is not binary' do # As long as the default Ruby encoding is not binary, the inspected # string should also not be in the binary encoding (it should be # in one of the text encodings, but which one could depend on # the Ruby runtime environment). expect(object.inspect.encoding).not_to eq(Encoding::BINARY) end end end describe '#from_bson' do let(:buffer) { BSON::ByteBuffer.new(bson) } let(:obj) { described_class.from_bson(buffer) } let(:bson) { "#{5.to_bson}#{0.chr}hello".force_encoding('BINARY') } it 'sets data encoding to binary' do expect(obj.data.encoding).to eq(Encoding.find('BINARY')) end context 'when binary subtype is supported' do let(:bson) { [3, 0, 0, 0, 1].map(&:chr).join.force_encoding('BINARY') + 'foo' } it 'works' do obj.should be_a(described_class) obj.type.should be :function end end context 'when binary subtype is not supported' do let(:bson) { [3, 0, 0, 0, 16].map(&:chr).join.force_encoding('BINARY') + 'foo' } it 'raises an exception' do lambda do obj end.should raise_error(BSON::Error::UnsupportedBinarySubtype, /BSON data contains unsupported binary subtype 0x10/) end end end describe "#to_bson/#from_bson" do let(:type) { 5.chr } it_behaves_like "a bson element" context "when the type is :generic" do let(:obj) { described_class.new("testing") } let(:bson) { "#{7.to_bson}#{0.chr}testing" } it_behaves_like "a serializable bson element" it_behaves_like "a deserializable bson element" end context "when the type is :function" do let(:obj) { described_class.new("testing", :function) } let(:bson) { "#{7.to_bson}#{1.chr}testing" } it_behaves_like "a serializable bson element" it_behaves_like "a deserializable bson element" end context "when the type is :old" do let(:obj) { described_class.new("testing", :old) } let(:bson) { "#{11.to_bson}#{2.chr}#{7.to_bson}testing" } it_behaves_like "a serializable bson element" it_behaves_like "a deserializable bson element" end context "when the type is :uuid_old" do let(:obj) { described_class.new("testing", :uuid_old) } let(:bson) { "#{7.to_bson}#{3.chr}testing" } it_behaves_like "a serializable bson element" it_behaves_like "a deserializable bson element" end context "when the type is :uuid" do let(:obj) { described_class.new("testing", :uuid) } let(:bson) { "#{7.to_bson}#{4.chr}testing" } it_behaves_like "a serializable bson element" it_behaves_like "a deserializable bson element" end context "when the type is :md5" do let(:obj) { described_class.new("testing", :md5) } let(:bson) { "#{7.to_bson}#{5.chr}testing" } it_behaves_like "a serializable bson element" it_behaves_like "a deserializable bson element" end context "when the type is :user" do let(:obj) { described_class.new("testing", :user) } let(:bson) { "#{7.to_bson}#{128.chr}testing" } it_behaves_like "a serializable bson element" it_behaves_like "a deserializable bson element" end context "when the type is :cyphertext" do let(:obj) { described_class.new("testing", :ciphertext) } let(:bson) { "#{7.to_bson}#{6.chr}testing" } it_behaves_like "a serializable bson element" it_behaves_like "a deserializable bson element" end context 'when given binary string' do let(:obj) { described_class.new("\x00\xfe\xff".force_encoding('BINARY')) } let(:bson) { "#{3.to_bson}#{0.chr}\x00\xfe\xff".force_encoding('BINARY') } it_behaves_like "a serializable bson element" it_behaves_like "a deserializable bson element" end context 'when given a frozen string' do let(:str) { "\x00\xfe\xff".force_encoding('BINARY').freeze } let(:obj) { described_class.new(str) } let(:bson) { "#{3.to_bson}#{0.chr}\x00\xfe\xff".force_encoding('BINARY') } it_behaves_like "a serializable bson element" it_behaves_like "a deserializable bson element" end end describe '#to_uuid' do let(:obj) { described_class.new("\x00" * 16, :uuid) } it 'accepts symbol representation' do expect(obj.to_uuid(:standard)).to eq('00000000-0000-0000-0000-000000000000') end it 'rejects string representation' do expect do obj.to_uuid('standard') end.to raise_error(ArgumentError, /Representation must be given as a symbol/) end end describe '#from_uuid' do let(:uuid) { '00000000-0000-0000-0000000000000000' } it 'accepts symbol representation' do obj = described_class.from_uuid(uuid, :standard) expect(obj.data).to eq("\x00" * 16) end it 'rejects string representation' do expect do described_class.from_uuid(uuid, 'standard') end.to raise_error(ArgumentError, /Representation must be given as a symbol/) end end end