Example #1
0
        public async Task IsValid_should_require_at_least_password_or_keyfile()
        {
            // Not specified
            var data = new PasswordData();

            Assert.False(data.IsValid);

            // Password only
            data.Password = "******";
            Assert.True(data.IsValid);

            using (var keyfile = TestFiles.Read("IO.Demo7Pass.bin"))
            {
                // Password & keyfile
                await data.AddKeyFile(keyfile);

                Assert.True(data.IsValid);
            }

            // Keyfile only
            data.Password = null;
            Assert.True(data.IsValid);

            // Not specified
            data.ClearKeyfile();
            Assert.False(data.IsValid);
        }
Example #2
0
        public async Task ParseContent_should_decrypt_passwords()
        {
            using (var decrypted = TestFiles.Read("IO.Demo7Pass.Decrypted.bin"))
            {
                var headers = new FileHeaders
                {
                    RandomAlgorithm    = CrsAlgorithm.Salsa20,
                    ProtectedStreamKey = CryptographicBuffer.DecodeFromBase64String(
                        "FDNbUwE9jt6Y9+syU+btBIOGRxYt2tiUqnb6FXWIF1E="),
                };

                var doc = await FileFormat.ParseContent(
                    decrypted, true, headers);

                Assert.NotNull(doc);

                var entry = doc.Descendants("Entry")
                            .Where(x => (string)x.Element("UUID") == "H/DqrrE1mEKScz8VpPrafg==")
                            .SelectMany(x => x.Elements("String"))
                            .Where(x => (string)x.Element("Key") == "Password")
                            .Select(x => (string)x.Element("Value"))
                            .Single();

                Assert.Equal("Password", entry);
            }
        }
Example #3
0
        public async Task Decrypt_should_decrypt_content()
        {
            using (var input = TestFiles.Read("IO.Demo7Pass.kdbx"))
            {
                input.Seek(222);

                var masterSeed = CryptographicBuffer.DecodeFromHexString(
                    "2b4656399a5bdf9fdfe9e8705a34b6f484f9b1b940c3d7cfb7ffece3b634e0ae");
                var masterKey = CryptographicBuffer.DecodeFromHexString(
                    "87730050341ff55c46421f2f2a5f4e1e018d0443d19cacc8682f128f1874d0a4");
                var encryptionIV = CryptographicBuffer.DecodeFromHexString(
                    "f360c29e1a603a6548cfbb28da6fff50");

                using (var decrypted = await FileFormat.Decrypt(input,
                                                                masterKey, masterSeed, encryptionIV))
                {
                    var buffer = WindowsRuntimeBuffer.Create(32);
                    buffer = await decrypted.ReadAsync(buffer, 32);

                    Assert.Equal(
                        "54347fe32f3edbccae1fc60f72c11dafd0a72487b315f9b174ed1073ed67a6e0",
                        CryptographicBuffer.EncodeToHexString(buffer));
                }
            }
        }
Example #4
0
        public async Task Headers_should_parse_fields()
        {
            using (var input = TestFiles.Read("IO.Demo7Pass.kdbx"))
            {
                var result = await FileFormat.Headers(input);

                var headers = result.Headers;
                Assert.NotNull(headers);

                Assert.True(headers.UseGZip);
                Assert.Equal(6000U, headers.TransformRounds);
                Assert.Equal(CrsAlgorithm.Salsa20, headers.RandomAlgorithm);

                Assert.Equal(
                    "2b4656399a5bdf9fdfe9e8705a34b6f484f9b1b940c3d7cfb7ffece3b634e0ae",
                    CryptographicBuffer.EncodeToHexString(headers.MasterSeed));
                Assert.Equal(
                    "9525f6992beb739cbaa73ae6e050627fcaff378d3cd6f6c232d20aa92f6d0927",
                    CryptographicBuffer.EncodeToHexString(headers.TransformSeed));
                Assert.Equal(
                    "f360c29e1a603a6548cfbb28da6fff50",
                    CryptographicBuffer.EncodeToHexString(headers.EncryptionIV));
                Assert.Equal(
                    "54347fe32f3edbccae1fc60f72c11dafd0a72487b315f9b174ed1073ed67a6e0",
                    CryptographicBuffer.EncodeToHexString(headers.StartBytes));
                Assert.Equal(
                    "W6YuG11d+8spXvO9K2J+dLFB19s+GVn85Tk0K6N2ISE=",
                    CryptographicBuffer.EncodeToBase64String(headers.Hash));
                Assert.Equal(
                    "FDNbUwE9jt6Y9+syU+btBIOGRxYt2tiUqnb6FXWIF1E=",
                    CryptographicBuffer.EncodeToBase64String(headers.ProtectedStreamKey));
            }
        }
        public async Task Should_read_correctly_formatted_stream()
        {
            using (var input = new InMemoryRandomAccessStream())
                using (var expectedData = TestFiles.Read("IO.HashedBlockStream.Content.bin"))
                {
                    await CopyData(input, "IO.HashedBlockStream.bin");

                    input.Seek(0);
                    expectedData.Seek(0);

                    using (var actualData = await HashedBlockFileFormat.Read(input))
                    {
                        Assert.Equal(expectedData.Size, (ulong)actualData.Length);

                        var actual   = new byte[1024];
                        var expected = WindowsRuntimeBuffer.Create(actual.Length);

                        while (true)
                        {
                            expected = await expectedData.ReadAsync(expected);

                            var read = await actualData.ReadAsync(actual, 0, actual.Length);

                            Assert.Equal(expected.Length, (uint)read);

                            if (read == 0)
                            {
                                break;
                            }

                            Assert.Equal(expected.ToArray(), actual.Take(read));
                        }
                    }
                }
        }
Example #6
0
        public async Task Headers_should_detect_supported_format()
        {
            using (var input = TestFiles.Read("IO.Demo7Pass.kdbx"))
            {
                var result = await FileFormat.Headers(input);

                Assert.NotNull(result.Headers);
                Assert.Equal(FileFormats.Supported, result.Format);
            }
        }
Example #7
0
        public async Task Should_support_hex_keyfile()
        {
            using (var input = TestFiles.Read("IO.Demo7Pass.hex"))
            {
                var data = new PasswordData();
                await data.AddKeyFile(input);

                var master = data.GetMasterKey();
                Assert.Equal(
                    "964b383286fba51581e844762576671ba02f62dc9834a0d4954a6d0023d879e8",
                    CryptographicBuffer.EncodeToHexString(master));
            }
        }
Example #8
0
        public async Task Should_support_xml_keyfile()
        {
            using (var input = TestFiles.Read("IO.Demo7Pass.key"))
            {
                var data = new PasswordData();
                await data.AddKeyFile(input);

                var master = data.GetMasterKey();
                Assert.Equal(
                    "2e6f6954faadf36c27b72d93da06a8f541cc54c4d4e84db886c0e06e99ab8e48",
                    CryptographicBuffer.EncodeToHexString(master));
            }
        }
Example #9
0
        public async Task Should_support_random_keyfile()
        {
            using (var input = TestFiles.Read("IO.Demo7Pass.txt"))
            {
                var data = new PasswordData();
                await data.AddKeyFile(input);

                var master = data.GetMasterKey();
                Assert.Equal(
                    "f625b4ef8ccbb16ffcd96bf0742a5bf55e339f826ec103cfa13b1d97d3860c2e",
                    CryptographicBuffer.EncodeToHexString(master));
            }
        }
Example #10
0
        public async Task ClearKeyfile_should_clear_registered_keyfile()
        {
            using (var keyfile = TestFiles.Read("IO.Demo7Pass.bin"))
            {
                var data = new PasswordData();
                await data.AddKeyFile(keyfile);

                Assert.True(data.HasKeyFile);

                data.ClearKeyfile();
                Assert.False(data.HasKeyFile);
            }
        }
        private static async Task CopyData(IOutputStream output, string name)
        {
            using (var input = TestFiles.Read(name))
            {
                var buffer = WindowsRuntimeBuffer.Create(1024);

                do
                {
                    buffer = await input.ReadAsync(
                        buffer, buffer.Capacity);

                    await output.WriteAsync(buffer);
                } while (buffer.Length > 0);
            }
        }
Example #12
0
        public async Task Should_support_password_and_keyfile()
        {
            using (var input = TestFiles.Read("IO.Demo7Pass.key"))
            {
                var data = new PasswordData
                {
                    Password = "******",
                };
                await data.AddKeyFile(input);

                var master = data.GetMasterKey();
                Assert.Equal(
                    "f78be10350f04cc87d3f7030eede60e33799c6665316975bb442f8b803bd6baa",
                    CryptographicBuffer.EncodeToHexString(master));
            }
        }
Example #13
0
        public async Task ParseContent_should_decompress_content()
        {
            using (var decrypted = TestFiles.Read("IO.Demo7Pass.Decrypted.bin"))
            {
                var headers = new FileHeaders
                {
                    RandomAlgorithm    = CrsAlgorithm.Salsa20,
                    ProtectedStreamKey = CryptographicBuffer.DecodeFromBase64String(
                        "FDNbUwE9jt6Y9+syU+btBIOGRxYt2tiUqnb6FXWIF1E="),
                };

                var doc = await FileFormat.ParseContent(
                    decrypted, true, headers);

                Assert.NotNull(doc);

                var root = doc.Root;
                Assert.NotNull(root);
                Assert.Equal("KeePassFile", root.Name.LocalName);
            }
        }
Example #14
0
        public async Task Database_decryption()
        {
            using (var kdbx = TestFiles.Read("IO.Demo7Pass.kdbx"))
            {
                // Headers
                var result = await FileFormat.Headers(kdbx);

                Assert.Equal(FileFormats.Supported, result.Format);

                var headers = result.Headers;
                Assert.NotNull(headers);

                // Master Key
                var password = new PasswordData
                {
                    Password = "******",
                };
                var masterKey = await password
                                .GetMasterKey(headers);

                // Decrypt
                using (var decrypted = await FileFormat
                                       .Decrypt(kdbx, masterKey, headers))
                {
                    // Start bytes
                    Assert.True(await FileFormat
                                .VerifyStartBytes(decrypted, headers));

                    // Parse content
                    var doc = await FileFormat.ParseContent(
                        decrypted, headers.UseGZip, headers);

                    Assert.True(FileFormat.VerifyHeaders(headers, doc));
                }
            }
        }
Example #15
0
        public async Task Headers_should_detect_partial_support_format()
        {
            using (var database = TestFiles.Read("IO.Demo7Pass.kdbx"))
                using (var file = new InMemoryRandomAccessStream())
                {
                    var buffer = WindowsRuntimeBuffer.Create(512);
                    buffer = await database.ReadAsync(
                        buffer, 512, InputStreamOptions.None);

                    await file.WriteAsync(buffer);

                    file.Seek(8);

                    // Schema; 3.Max
                    await file.WriteAsync(CryptographicBuffer
                                          .DecodeFromHexString("FFFF0300"));

                    file.Seek(0);
                    var result = await FileFormat.Headers(file);

                    Assert.NotNull(result.Headers);
                    Assert.Equal(FileFormats.PartialSupported, result.Format);
                }
        }