public ImageDisOptions(
IStorageProvider storageProvider,
IImageTransformProvider imageTransformProvider,
string path = null,
ImageType[] allowedImageTypes = null,
IKeyGenerator keyGenerator = null)
{
if (storageProvider == null)
throw new ArgumentNullException("storageProvider");
StorageProvider = storageProvider;
if (imageTransformProvider == null)
throw new ArgumentNullException("imageTransformProvider");
ImageTransformProvider = imageTransformProvider;
Path = string.IsNullOrWhiteSpace(path) ? "/imagedis" : path;
AllowedImageTypes = allowedImageTypes == null || !allowedImageTypes.Any()
? new[] { ImageTypes.Jpeg, ImageTypes.Png }
: allowedImageTypes;
KeyGenerator = keyGenerator ?? new RandomKeyGenerator();
}
public KeyBuilder(
IKeyGenerator keyGenerator,
IEnumerable<IKeyTransformation> keyTransformations)
{
_keyGenerator = keyGenerator;
_keyTransformations = keyTransformations.ToList();
}
public void Setup()
{
_fakeScenarioContext = A.Fake<IScenarioContext>();
_fakeKeyGenerator = A.Fake<IKeyGenerator>();
A.CallTo(() => _fakeKeyGenerator.GenerateKey(A<Type>.Ignored, A<MethodInfo>.Ignored)).Returns("testkey");
_proxyInterceptor = new ProxyInterceptor(_fakeScenarioContext, _fakeKeyGenerator);
_proxyGenerator = new ProxyGenerator();
}
public IncludeStorageFacts()
{
_mocks = new MockRepository();
_stubKeyGen = _mocks.Stub<IKeyGenerator>();
_storage = new StaticIncludeStorage(_stubKeyGen);
_combination = new IncludeCombination(IncludeType.Css, new[] { "~/content/css/foo.css" }, "#foo {color:red}", Clock.UtcNow, new CssTypeElement());
_mocks.ReplayAll();
}
public AudioAlarmRedisRepository(IKeyGenerator<Guid> keygenerator, IRedisClientsManager manager)
{
if (keygenerator == null) throw new ArgumentNullException(nameof(keygenerator));
if (manager == null) throw new ArgumentNullException(nameof(manager));
this.keygenerator = keygenerator;
this.manager = manager;
}
/// <summary>
/// Initializes a new instance of the <see cref="AudioAlarmOrmRepository" /> class.
/// </summary>
public AudioAlarmOrmRepository(IKeyGenerator<Guid> keygenerator, IDbConnectionFactory factory)
{
if (keygenerator == null) throw new ArgumentNullException(nameof(keygenerator));
if (factory == null) throw new ArgumentNullException(nameof(factory));
this.keygenerator = keygenerator;
DbConnectionFactory = factory;
}
protected EventWebServicesTests(string baseUri)
{
if (string.IsNullOrWhiteSpace(baseUri)) throw new ArgumentNullException(nameof(baseUri));
if (!Uri.IsWellFormedUriString(baseUri, UriKind.RelativeOrAbsolute)) throw new FormatException("baseUri");
var rndGenerator = new RandomGenerator();
GuidKeyGenerator = new SequentialGuidKeyGenerator();
var fpiKeyGenerator = new FpiKeyGenerator(
new ContentGenerator<ApprovalStatus>(() => Pick<ApprovalStatus>.RandomItemFrom(new[]
{
ApprovalStatus.Informal,
ApprovalStatus.None
})),
new ContentGenerator<string>(() => Pick<string>.RandomItemFrom(new[]
{
"RXJG",
"GOGL",
"MSFT",
"YHOO"
})),
new ContentGenerator<string>(() => Pick<string>.RandomItemFrom(new[]
{
"DTD",
"XSL",
"XML",
"JSON"
})),
new ContentGenerator<string>(() => rndGenerator.Phrase(10)),
new ContentGenerator<string>(() => Pick<string>.RandomItemFrom(new[]
{
"EN",
"FR",
"DE",
"ES",
"IT",
"PL",
"RO"
})));
var valuesFactory = new ValuesFactory(GuidKeyGenerator);
var parametersFactory = new ParametersFactory(valuesFactory);
PropertiesFactory = new PropertiesFactory(GuidKeyGenerator, valuesFactory, parametersFactory);
AlarmFactory = new AlarmFactory(GuidKeyGenerator, PropertiesFactory, valuesFactory);
EventFactory = new EventFactory(GuidKeyGenerator, AlarmFactory, PropertiesFactory, valuesFactory);
CalendarFactory = new CalendarFactory(GuidKeyGenerator, fpiKeyGenerator);
ServiceClientFactory = new ServiceClientFactory();
ServiceClientFactory.Register(() => new JsonServiceClient(baseUri));
ServiceClientFactory.Register(() => new JsvServiceClient(baseUri));
ServiceClientFactory.Register(() => new XmlServiceClient(baseUri));
TestService = new EventTestService();
}
/// <summary>
/// Initializes a new instance of the <see cref="CalendarOrmRepository"/> class.
/// </summary>
/// <param name="keygenerator">The generator for generating keys</param>
/// <param name="eventrepository">The repository for calendar events</param>
/// <param name="factory">The database connection factory</param>
public CalendarOrmRepository(IKeyGenerator<Guid> keygenerator, IEventRepository eventrepository, IDbConnectionFactory factory)
{
if (keygenerator == null) throw new ArgumentNullException(nameof(keygenerator));
if (eventrepository == null) throw new ArgumentNullException(nameof(eventrepository));
if (factory == null) throw new ArgumentNullException(nameof(factory));
this.keygenerator = keygenerator;
this.eventrepository = eventrepository;
this.factory = factory;
}
public CalendarFactory(
IKeyGenerator<Guid> guidKeyGenerator,
IKeyGenerator<Fpi> fpiKeyGenerator)
{
if (guidKeyGenerator == null) throw new ArgumentNullException(nameof(guidKeyGenerator));
if (fpiKeyGenerator == null) throw new ArgumentNullException(nameof(fpiKeyGenerator));
this.guidKeyGenerator = guidKeyGenerator;
this.fpiKeyGenerator = fpiKeyGenerator;
}
public AlarmFactory(IKeyGenerator<Guid> keyGenerator, IPropertiesFactory propertiesFactory, IValuesFactory valuesFactory)
{
if (keyGenerator == null) throw new ArgumentNullException(nameof(keyGenerator));
if (propertiesFactory == null) throw new ArgumentNullException(nameof(propertiesFactory));
this.keyGenerator = keyGenerator;
this.rndGenerator = new RandomGenerator();
this.propertiesFactory = propertiesFactory;
this.valuesFactory = valuesFactory;
}
public CalendarDapperRepository(IDbConnectionFactory factory, IKeyGenerator<Guid> keygenerator, IEventRepository eventrepository)
{
dbconnection.ThrowIfNull("factory");
keygenerator.ThrowIfNull("keygenerator");
eventrepository.ThrowIfNull("eventrepository");
this.factory = factory;
this.keygenerator = keygenerator;
this.eventrepository = eventrepository;
}
public CryptoUtility(SymmetricAlgorithm algorithm, IKeyGenerator keyGenerator)
{
Ensure.ArgumentNotNull(algorithm, "algorithm");
Ensure.ArgumentNotNull(keyGenerator, "keyGenerator");
_cryptoAlgorithm = algorithm;
_cryptoAlgorithm.Padding = PaddingMode.ISO10126;
_keyGenerator = keyGenerator;
}
/// <summary>
///
/// </summary>
/// <param name="keygenerator"></param>
/// <param name="eventrepository"></param>
/// <param name="manager"></param>
public CalendarRedisRepository(IKeyGenerator<Guid> keygenerator, IEventRepository eventrepository, IRedisClientsManager manager)
{
if (keygenerator == null) throw new ArgumentNullException(nameof(keygenerator));
this.keygenerator = keygenerator;
if (eventrepository == null) throw new ArgumentNullException(nameof(eventrepository));
this.eventrepository = eventrepository;
if (manager == null) throw new ArgumentNullException(nameof(manager));
this.manager = manager;
}
public EventUnitTests()
{
keyGenerator = new SequentialGuidKeyGenerator();
var valuesFactory = new ValuesFactory(keyGenerator);
var parametersFactory = new ParametersFactory(valuesFactory);
var propertiesFactory = new PropertiesFactory(keyGenerator, valuesFactory, parametersFactory);
var alarmFactory = new AlarmFactory(keyGenerator, propertiesFactory, valuesFactory);
factory = new EventFactory(keyGenerator, alarmFactory, propertiesFactory, valuesFactory);
tzid = new TZID("America", "New_York");
}
public EventRedisRepository(
IKeyGenerator<Guid> keygenerator,
IAudioAlarmRepository aalarmrepository,
IDisplayAlarmRepository dalarmrepository,
IEmailAlarmRepository ealarmrepository,
IRedisClientsManager manager)
{
this.keygenerator = keygenerator;
this.ealarmrepository = ealarmrepository;
this.dalarmrepository = dalarmrepository;
this.aalarmrepository = aalarmrepository;
this.manager = manager;
}
public DonutOutputCacheAttribute()
{
var keyBuilder = new KeyBuilder();
_keyGenerator = new KeyGenerator(keyBuilder);
_donutHoleFiller = new DonutHoleFiller(new EncryptingActionSettingsSerialiser(new ActionSettingsSerialiser(), new Encryptor()));
_outputCacheManager = new OutputCacheManager(OutputCache.Instance, keyBuilder);
_cacheSettingsManager = new CacheSettingsManager();
_cacheHeadersHelper = new CacheHeadersHelper();
Duration = -1;
Location = (OutputCacheLocation)(-1);
}
public static List<VEVENT> GetNextOccurences(this IList<VEVENT> vevents, IKeyGenerator<Guid> keyGenerator, uint window = 6)
{
if (vevents.NullOrEmpty()) return vevents.ToList();
var first = vevents.First();
var last = vevents.Last();
var copy = new VEVENT(first)
{
Start = last.Start,
End = last.End
};
return copy.GenerateOccurrences(keyGenerator, window);
}
protected DonutOutputCacheAttribute(
IKeyGenerator keyGenerator, IReadWriteOutputCacheManager outputCacheManager,
IDonutHoleFiller donutHoleFiller, ICacheSettingsManager cacheSettingsManager, ICacheHeadersHelper cacheHeadersHelper
)
{
KeyGenerator = keyGenerator;
OutputCacheManager = outputCacheManager;
DonutHoleFiller = donutHoleFiller;
CacheSettingsManager = cacheSettingsManager;
CacheHeadersHelper = cacheHeadersHelper;
Duration = -1;
Location = (OutputCacheLocation)(-1);
Options = OutputCache.DefaultOptions;
}
/// <summary>
/// Initializes a new instance of the <see cref="DirectorySearcher" /> class.
/// </summary>
/// <param name="path">The path.</param>
/// <param name="searchPattern">The search pattern.</param>
/// <param name="recursive">if set to <c>true</c> [recursive].</param>
/// <param name="pathResolver">The path resolver.</param>
/// <param name="keyGenerator">The key generator.</param>
/// <param name="rules">The rules.</param>
public DirectorySearcher(
IConfigurationProvider configurationProvider,
IPathResolver pathResolver,
IKeyGenerator keyGenerator,
IFileSystemProvider fileProvider,
string path,
string searchPattern,
bool recursive,
params IIncludeConfigurationRule[] rules)
{
this.ConfigurationProvider = configurationProvider;
this.Path = path;
this.SearchPattern = searchPattern;
this.Recursive = recursive;
this.PathResolver = pathResolver;
this.KeyGenerator = keyGenerator;
this.Rules = rules;
}
/// <summary>
/// Constructor
/// </summary>
/// <param name="keygenerator"></param>
/// <param name="aalarmrepository"></param>
/// <param name="dalarmrepository"></param>
/// <param name="ealarmrepository"></param>
/// <param name="factory"></param>
public EventOrmRepository(
IKeyGenerator<Guid> keygenerator,
IAudioAlarmRepository aalarmrepository,
IDisplayAlarmRepository dalarmrepository,
IEmailAlarmRepository ealarmrepository,
IDbConnectionFactory factory)
{
if (keygenerator == null) throw new ArgumentNullException(nameof(keygenerator));
if (aalarmrepository == null) throw new ArgumentNullException(nameof(aalarmrepository));
if (dalarmrepository == null) throw new ArgumentNullException(nameof(dalarmrepository));
if (ealarmrepository == null) throw new ArgumentNullException(nameof(ealarmrepository));
if (factory == null) throw new ArgumentNullException(nameof(factory));
this.keygenerator = keygenerator;
this.aalarmrepository = aalarmrepository;
this.dalarmrepository = dalarmrepository;
this.ealarmrepository = ealarmrepository;
this.factory = factory;
}
public ValuesFactory(IKeyGenerator<Guid> keyGenerator)
{
if (keyGenerator == null) throw new ArgumentNullException(nameof(keyGenerator));
this.keyGenerator = keyGenerator;
rndGenerator = new RandomGenerator();
dateTimeGenerator = new SequentialGenerator<DateTime>
{
IncrementDateBy = Pick<IncrementDate>.RandomItemFrom(new[]
{
IncrementDate.Second,
IncrementDate.Minute,
IncrementDate.Hour,
IncrementDate.Day,
IncrementDate.Month,
IncrementDate.Year,
}),
Direction = GeneratorDirection.Ascending
};
}
/// <summary>
/// Creates a new instance of the RijndaelEncryptionProvider class
/// </summary>
/// <param name="keyGenerator">Key generator to use to generate the key and iv</param>
public RijndaelEncryptionProvider(IKeyGenerator keyGenerator)
{
this.key = keyGenerator.GetBytes(32);
this.iv = keyGenerator.GetBytes(16);
}
public _CacheDecoratorCommandHandler(ICacheProvider cacheProvider, IKeyGenerator keyGenerator, ICommandHandler <T> decoratee)
{
this.cacheProvider = cacheProvider;
_keyGenerator = keyGenerator;
_decoratee = decoratee;
}
public static IEnumerable <SerializationInfo> GetSerializationMembers(Type type, IKeyGenerator keyGen)
{
EnsureMetaDataInitialized(type);
var data = MetaData[type];
return(data.ImplicitMembers
.Select(sm => new SerializationInfo(sm, new TomlKey(keyGen.GetKey(sm.MemberInfo))))
.Concat(data.ExplicitMembers));
}
/// <summary>
/// Creates a new instance of the DefaultHmacProvider type
/// </summary>
/// <param name="keyGenerator">Key generator to use to generate the key</param>
public DefaultHmacProvider(IKeyGenerator keyGenerator)
{
this.key = keyGenerator.GetBytes(PreferredKeySize);
}
/// <summary>
/// Initializes a new instance of the <see cref="DataServiceController{TKey, TAggregateRoot}"/> class.
/// </summary>
/// <param name="repositoryContext">The repository context that is used for initializing the data service controller.</param>
/// <param name="keyGenerator">The key generator which is used for generating the aggregate root key.
/// If the persistence mechanism will generate the key automatically, for example, in SQL Server databases, an auto increment
/// value is used for the key column, the <see cref="NullKeyGenerator{TKey}"/> can be used for this parameter.
/// </param>
public DataServiceController(IRepositoryContext repositoryContext, IKeyGenerator <TKey, TAggregateRoot> keyGenerator)
: this(repositoryContext, keyGenerator, new IronyQueryConditionParser(), new IronySortSpecificationParser())
{
}
public ProxyInterceptor(IScenarioContext scenarioContext, IKeyGenerator keyGenerator)
{
_scenarioContext = scenarioContext;
_keyGenerator = keyGenerator;
}
/// <summary>
/// Construct a sink that saves logs to the specified storage account.
/// </summary>
/// <param name="storageAccount">The Cloud Storage Account to use to insert the log entries to.</param>
/// <param name="formatProvider">Supplies culture-specific formatting information, or null.</param>
/// <param name="storageTableName">Table name that log entries will be written to. Note: Optional, setting this may impact performance</param>
/// <param name="additionalRowKeyPostfix">Additional postfix string that will be appended to row keys</param>
/// <param name="keyGenerator">Generates the PartitionKey and the RowKey</param>
/// <param name="propertyColumns">Specific properties to be written to columns. By default, all properties will be written to columns.</param>
public AzureTableStorageWithPropertiesSink(CloudStorageAccount storageAccount, IFormatProvider formatProvider, string storageTableName = null, string additionalRowKeyPostfix = null, IKeyGenerator keyGenerator = null, string[] propertyColumns = null)
{
var tableClient = storageAccount.CreateCloudTableClient();
if (string.IsNullOrEmpty(storageTableName))
{
storageTableName = "LogEventEntity";
}
_table = tableClient.GetTableReference(storageTableName);
_table.CreateIfNotExistsAsync().SyncContextSafeWait(_waitTimeoutMilliseconds);
_formatProvider = formatProvider;
_additionalRowKeyPostfix = additionalRowKeyPostfix;
_propertyColumns = propertyColumns;
_keyGenerator = keyGenerator ?? new PropertiesKeyGenerator();
}
/// <summary>
/// Construct a sink that saves logs to the specified storage account.
/// </summary>
/// <param name="storageAccount">The Cloud Storage Account to use to insert the log entries to.</param>
/// <param name="formatProvider">Supplies culture-specific formatting information, or null.</param>
/// <param name="batchSizeLimit"></param>
/// <param name="period"></param>
/// <param name="storageTableName">
/// Table name that log entries will be written to. Note: Optional, setting this may impact
/// performance
/// </param>
/// <param name="keyGenerator">generator used for partition keys and row keys</param>
public AzureBatchingTableStorageSink(CloudStorageAccount storageAccount, IFormatProvider formatProvider,
int batchSizeLimit, TimeSpan period, string storageTableName = null, IKeyGenerator keyGenerator = null)
: base(batchSizeLimit, period)
{
if (batchSizeLimit < 1 || batchSizeLimit > 100)
{
throw new ArgumentException("batchSizeLimit must be between 1 and 100 for Azure Table Storage");
}
_formatProvider = formatProvider;
_keyGenerator = keyGenerator ?? new DefaultKeyGenerator();
var tableClient = storageAccount.CreateCloudTableClient();
if (string.IsNullOrEmpty(storageTableName))
{
storageTableName = typeof(LogEventEntity).Name;
}
_table = tableClient.GetTableReference(storageTableName);
_table.CreateIfNotExistsAsync().SyncContextSafeWait();
}
public EntityIdProvider(IKeyGenerator <TEntity, TKey> keyGenerator) : this(keyGenerator, new AttributeKeyBinder <TEntity, TKey>())
{
}
public EntityIdProvider(IKeyGenerator <TEntity, TKey> keyGenerator, IEntityKeyBinder <TEntity, TKey> keyBinder)
{
_getKey = keyGenerator;
_keyBinder = keyBinder;
}
/// <summary>
/// Returns the unique value as a int value.
/// </summary>
/// <param name="generator">An object that produces new key values.</param>
/// <returns>Unique int value.</returns>
public static int GetKeyAsInt(this IKeyGenerator <long> generator)
{
return((int)generator.GetKey());
}
private void SetLicenseCapibilites()
{
LicenseCapability capibilities = null;
if (UIContext.License != null)
{
switch (UIContext.License.KeyGeneratorType)
{
case KeyGeneratorTypes.StaticSmall:
IKeyGenerator keygen = ObjectLocator.GetInstance <IKeyGenerator>(InstanceNames.SmallKeyGenerator);
capibilities = keygen.GetLicenseCapability();
break;
default:
break;
}
}
if (capibilities != null)
{
if (capibilities.SupportedLicenseKeyTypes.IsSet(LicenseKeyTypeFlag.SingleUser))
{
cboSingleUser.IsEnabled = true;
}
else
{
cboSingleUser.IsChecked = false;
cboSingleUser.IsEnabled = false;
}
if (capibilities.SupportedLicenseKeyTypes.IsSet(LicenseKeyTypeFlag.MultiUser))
{
cboMultiUser.IsEnabled = true;
}
else
{
cboMultiUser.IsChecked = false;
cboMultiUser.IsEnabled = false;
}
if (capibilities.SupportedLicenseKeyTypes.IsSet(LicenseKeyTypeFlag.HardwareLock))
{
cboHardwareLock.IsEnabled = true;
cboHardwareLockLocal.IsEnabled = true;
}
else
{
cboHardwareLock.IsChecked = false;
cboHardwareLock.IsEnabled = false;
cboHardwareLockLocal.IsChecked = false;
cboHardwareLockLocal.IsEnabled = false;
}
if (capibilities.SupportedLicenseKeyTypes.IsSet(LicenseKeyTypeFlag.Unlimited))
{
cboUnlimited.IsEnabled = true;
}
else
{
cboUnlimited.IsChecked = false;
cboUnlimited.IsEnabled = false;
}
if (capibilities.SupportedLicenseKeyTypes.IsSet(LicenseKeyTypeFlag.Enterprise))
{
cboEnterprise.IsEnabled = true;
}
else
{
cboEnterprise.IsChecked = false;
cboEnterprise.IsEnabled = false;
}
}
}
public SqlSecretStore(IServiceProvider serviceProvider, IKeyGenerator keyGenerator, ILogger <SqlSecretStore> logger)
{
_serviceProvider = serviceProvider;
_keyGenerator = keyGenerator;
_logger = logger;
}
public EncryptionSettings(IKeyGenerator keyGenerator)
{
SymmetricAlgorithm = Encryptor.PreferredSymmetricAlgorithm;
KeyDerivationAlgorithm = Encryptor.PreferredKeyDerivationAlgorithm;
KeyGenerator = keyGenerator;
}
/// <summary>
/// Registers an <see cref="IKeyGenerator{TKey, TAggregateRoot}"/> instance by using its instance to the service registration.
/// </summary>
/// <typeparam name="TKey">The type of the aggregate root key.</typeparam>
/// <typeparam name="TAggregateRoot">The type of the aggregate root.</typeparam>
/// <param name="keyGenerator">The key generator instance to be registered.</param>
/// <returns>The current instance of <see cref="DataServiceConfigurationOptions"/> class.</returns>
public DataServiceConfigurationOptions RegisterKeyGenerator <TKey, TAggregateRoot>(IKeyGenerator <TKey, TAggregateRoot> keyGenerator)
where TKey : IEquatable <TKey>
where TAggregateRoot : class, IAggregateRoot <TKey> => this.RegisterService(keyGenerator, ServiceLifetime.Singleton);
/// <summary>
/// Processes the section.
/// </summary>
/// <param name="sectconfigurationSectionion">The section.</param>
/// <param name="configuration">The configuration.</param>
/// <returns></returns>
protected virtual KeyValuePair<string, IConfiguration>? ProcessSection(
DirectorySearcherArgs args,
IKeyGenerator keyGenerator,
IIncludeConfigurationRule[] rules)
{
// check if we have a valid configuration section
var bootstrapConfiguration = args.ConfigurationSection as IBootstrapConfiguration;
if (bootstrapConfiguration != null)
{
string key = bootstrapConfiguration.Key;
if (!string.IsNullOrWhiteSpace(key))
{
// loop over the rules. if a rule fails, return null.
foreach (var rule in rules)
{
if (!rule.Execute(args))
return null;
}
return new KeyValuePair<string, IConfiguration>(key, args.Configuration);
}
// todo: tracewarning
}
// let the rules determine what the kick out condition is. For that reason we should allow any config section and use the key generator.
return null;
}
=> keyGenerator.NotNull(nameof(keyGenerator)).GenerateKey(64, token); // 512
/// <summary>
/// 获取 1024 位密钥。
/// </summary>
/// <param name="keyGenerator">给定的 <see cref="IKeyGenerator"/>。</param>
/// <param name="token">给定的 <see cref="SecurityToken"/>(可选;默认使用选项配置)。</param>
/// <returns>返回字节数组。</returns>
public static byte[] GetKey1024(this IKeyGenerator keyGenerator, SecurityToken token = null)
=> keyGenerator.NotNull(nameof(keyGenerator)).GenerateKey(128, token); // 1024
/// <summary>
/// Initializes a new instance of the <see cref="DataServiceController{TKey, TAggregateRoot}"/> class.
/// </summary>
/// <param name="repositoryContext">The repository context that is used by the current
/// <see cref="DataServiceController{TKey, TAggregateRoot}"/> for managing the object lifecycle.</param>
/// <param name="keyGenerator">The <see cref="IKeyGenerator{TKey, TAggregateRoot}"/> instance
/// which generates the aggregate root key for the specified aggregate root type.</param>
protected DataServiceController(IRepositoryContext repositoryContext, IKeyGenerator <TKey, TAggregateRoot> keyGenerator)
{
this.repositoryContext = repositoryContext;
this.repository = repositoryContext.GetRepository <TKey, TAggregateRoot>();
this.keyGenerator = keyGenerator;
}
public IActionResult GenerateKeys([FromServices] IKeyGenerator keyGenerator)
{
return(Ok(keyGenerator.Generate()));
}
/// <summary> /// 获取 AES 密钥。 /// </summary> /// <param name="keyGenerator">给定的 <see cref="IKeyGenerator"/>。</param> /// <param name="token">给定的 <see cref="SecurityToken"/>(可选;默认使用选项配置)。</param> /// <returns>返回字节数组。</returns> public static byte[] GetAesKey(this IKeyGenerator keyGenerator, SecurityToken token = null) => keyGenerator.GetKey256(token);
/// <summary> /// 获取 TripleDES 密钥。 /// </summary> /// <param name="keyGenerator">给定的 <see cref="IKeyGenerator"/>。</param> /// <param name="token">给定的 <see cref="SecurityToken"/>(可选;默认使用选项配置)。</param> /// <returns>返回字节数组。</returns> public static byte[] GetTripleDesKey(this IKeyGenerator keyGenerator, SecurityToken token = null) => keyGenerator.GetKey192(token);
public void TestSetup()
{
_keygen = new KeyGenerator();
}
/// <summary> /// 获取 HMAC MD5 密钥。 /// </summary> /// <param name="keyGenerator">给定的 <see cref="IKeyGenerator"/>。</param> /// <param name="token">给定的 <see cref="SecurityToken"/>(可选;默认使用选项配置)。</param> /// <returns>返回字节数组。</returns> public static byte[] GetHmacMd5Key(this IKeyGenerator keyGenerator, SecurityToken token = null) => keyGenerator.GetKey512(token);
protected void key_builder(IKeyGenerator keyGenerator, params IKeyTransformation[] keyTransformation)
{
keyBuilder = new KeyBuilder(keyGenerator, keyTransformation);
}
/// <summary> /// 获取 HMAC SHA512 密钥。 /// </summary> /// <param name="keyGenerator">给定的 <see cref="IKeyGenerator"/>。</param> /// <param name="token">给定的 <see cref="SecurityToken"/>(可选;默认使用选项配置)。</param> /// <returns>返回字节数组。</returns> public static byte[] GetHmacSha512Key(this IKeyGenerator keyGenerator, SecurityToken token = null) => keyGenerator.GetKey1024(token);
public KeyGeneratorFacts()
{
_keygen = new KeyGenerator();
}
public CryptoService(IKeyGenerator keyGenerator, Func <IKeyGenerator, IHmacProvider> hmacProvider)
{
_keyGenerator = keyGenerator;
_hmacProvider = hmacProvider(_keyGenerator);
}
public static void SetKeyGenerator(IKeyGenerator keyGenerator)
{
keyGenerator.Ensure("keyGenerator");
_keyGenerator = keyGenerator;
}
public void Initialize(IKeyGenerator keyGenerator)
{
this.KeyGeneratorInstance = keyGenerator;
}
public StaticIncludeStorage(IKeyGenerator keyGen)
{
_keyGen = keyGen;
}
/// <summary>
/// Creates a new instance of the AesEncryptionProvider class
/// </summary>
/// <param name="keyGenerator">Key generator to use to generate the key and iv</param>
public AesEncryptionProvider(IKeyGenerator keyGenerator)
{
this.key = keyGenerator.GetBytes(32);
this.iv = keyGenerator.GetBytes(16);
}
public FolderBO(IFolderDAO dao, IMappingEngine mapper, IKeyGenerator keyGenerator)
{
FolderDAO = dao;
Mapper = mapper;
KeyGenerator = keyGenerator;
}
public RsaKeyGeneratorTests()
{
_keyGenerator = new RsaKeyGenerator();
}
internal CryptographyCommandhandler(IKeyGenerator keyGenerator)
{
_keyGenerator = keyGenerator;
}
public MessageQueueRepository(IMessageDbContext context, IKeyGenerator keyGenerator)
{
this.context = context;
this.keyGenerator = keyGenerator;
}
=> keyGenerator.NotNull(nameof(keyGenerator)).GenerateKey(128, token); // 1024
/// <summary>
/// 获取 2048 位密钥。
/// </summary>
/// <param name="keyGenerator">给定的 <see cref="IKeyGenerator"/>。</param>
/// <param name="token">给定的 <see cref="SecurityToken"/>(可选;默认使用选项配置)。</param>
/// <returns>返回字节数组。</returns>
public static byte[] GetKey2048(this IKeyGenerator keyGenerator, SecurityToken token = null)
=> keyGenerator.NotNull(nameof(keyGenerator)).GenerateKey(256, token); // 2048
public StringGenerator(IKeyGenerator <int> intGenerator)
{
_intGenerator = intGenerator;
}