WebSocketServer Module

Properties Methods Events Config Settings Errors

The WebSocketServer module provides the server-side functionality of the WebSocket protocol.

Syntax

SecureBlackbox.Websocketserver

Remarks

Use this component to accept secure WebSocket connections in your application.

Property List

The following is the full list of the properties of the module with short descriptions. Click on the links for further details.


Active	Indicates whether the server is active and is listening to new connections.
BoundPort	Indicates the bound listening port.
ClientAuth	Enables or disables certificate-based client authentication.
ErrorOrigin	Indicates the endpoint where the error originates from.
ErrorSeverity	The severity of the error that happened.
ExternalCrypto	Provides access to external signing and DC parameters.
FIPSMode	Reserved.
HandshakeTimeout	Specifies the handshake timeout in milliseconds.
Host	The host to bind the listening port to.
PinnedClient	Populates the pinned client details.
PinnedClientChain	Contains the certificate chain of the pinned client.
Port	Specifies the port number to listen for connections on.
PortRangeFrom	Specifies the lower limit of the listening port range for incoming connections.
PortRangeTo	Specifies the upper limit of the listening port range for incoming connections.
ServerCertificates	The server's TLS certificates.
SessionTimeout	Specifies the default session timeout value in milliseconds.
SocketSettings	Manages network connection settings.
TLSSettings	Manages TLS layer settings.
Users	Provides a list of registered users.
WebsiteName	Specifies the web site name to use in the certificate.

Method List

The following is the full list of the methods of the module with short descriptions. Click on the links for further details.


Config	Sets or retrieves a configuration setting.
DoAction	Performs an additional action.
DropClient	Terminates a client connection.
ListClients	Enumerates the connected clients.
PinClient	Takes a snapshot of the connection's properties.
SendData	Sends a piece of binary data to the client.
SendKeepAlive	Sends a keep-alive message.
SendText	Sends a piece of text data to the client.
SetResponseBytes	Sets a byte array to be served as a response.
SetResponseStatus	Sets an HTTP status to be sent with the response.
SetResponseString	Sets a string to be served as a response.
Start	Starts the server.
Stop	Stops the server.

Event List

The following is the full list of the events fired by the module with short descriptions. Click on the links for further details.


Accept	Reports an incoming connection.
AuthAttempt	Fires when a connected client makes an authentication attempt.
BinaryData	Passes a received chunk of binary data to the application.
Connect	Reports an accepted connection.
Data	Supplies a data chunk received within a POST or PUT upload.
Disconnect	Fires to report a disconnected client.
Error	Information about errors during data delivery.
ExternalSign	Handles remote or external signing initiated by the server protocol.
GetRequest	Reports a GET request.
KeepAliveResponse	Reports a response to a keep-alive message.
Notification	This event notifies the application about an underlying control flow event.
TextData	Passes a received chunk of text data to the application.
TLSCertValidate	Fires when a client certificate needs to be validated.
TLSEstablished	Reports the setup of a TLS session.
TLSHandshake	Fires when a newly established client connection initiates a TLS handshake.
TLSPSK	Requests a pre-shared key for TLS-PSK.
TLSShutdown	Reports closure of a TLS session.

Config Settings

The following is a list of config settings for the module with short descriptions. Click on the links for further details.


AllowOptionsResponseWithoutAuth	Enables unauthenticated responses to OPTIONS requests.
ClientAuth	Enables or disables certificate-based client authentication.
DualStack	Allows the use of ip4 and ip6 simultaneously.
HomePage	Specifies the home page resource name.
Host	The host to bind to.
RequestFilter	The request string modifier.
ServerSSLDHKeyLength	Sets the size of the TLS DHE key exchange group.
WebsiteName	The website name for the TLS certificate.
CheckKeyIntegrityBeforeUse	Enables or disable private key integrity check before use.
CookieCaching	Specifies whether a cookie cache should be used for HTTP(S) transports.
Cookies	Gets or sets local cookies for the module (supported for HTTPClient, RESTClient and SOAPClient only).
DefDeriveKeyIterations	Specifies the default key derivation algorithm iteration count.
EnableClientSideSSLFFDHE	Enables or disables finite field DHE key exchange support in TLS clients.
GlobalCookies	Gets or sets global cookies for all the HTTP transports.
HttpUserAgent	Specifies the user agent name to be used by all HTTP clients.
LogDestination	Specifies the debug log destination.
LogDetails	Specifies the debug log details to dump.
LogFile	Specifies the debug log filename.
LogFilters	Specifies the debug log filters.
LogFlushMode	Specifies the log flush mode.
LogLevel	Specifies the debug log level.
LogMaxEventCount	Specifies the maximum number of events to cache before further action is taken.
LogRotationMode	Specifies the log rotation mode.
MaxASN1BufferLength	Specifies the maximal allowed length for ASN.1 primitive tag data.
MaxASN1TreeDepth	Specifies the maximal depth for processed ASN.1 trees.
OCSPHashAlgorithm	Specifies the hash algorithm to be used to identify certificates in OCSP requests.
StaticDNS	Specifies whether static DNS rules should be used.
StaticIPAddress[domain]	Gets or sets an IP address for the specified domain name.
StaticIPAddresses	Gets or sets all the static DNS rules.
Tag	Allows to store any custom data.
TLSSessionGroup	Specifies the group name of TLS sessions to be used for session resumption.
TLSSessionLifetime	Specifies lifetime in seconds of the cached TLS session.
TLSSessionPurgeInterval	Specifies how often the session cache should remove the expired TLS sessions.
UseOwnDNSResolver	Specifies whether the client modules should use own DNS resolver.
UseSharedSystemStorages	Specifies whether the validation engine should use a global per-process copy of the system certificate stores.
UseSystemOAEPAndPSS	Enforces or disables the use of system-driven RSA OAEP and PSS computations.
UseSystemRandom	Enables or disables the use of the OS PRNG.

Active Property (WebSocketServer Module)

Indicates whether the server is active and is listening to new connections.

public var active: Bool {
  get {...}
}


@property (nonatomic,readonly,assign,getter=active) BOOL active;

- (BOOL)active;

Default Value

False

Remarks

This read-only property returns True if the server is listening to incoming connections.

This property is read-only.

BoundPort Property (WebSocketServer Module)

Indicates the bound listening port.

Syntax

Swift
Objective-C

public var boundPort: Int32 {
  get {...}
}


@property (nonatomic,readonly,assign,getter=boundPort) int boundPort;

- (int)boundPort;

Default Value

Remarks

Check this property to find out the port that has been allocated to the server by the system. The bound port always equals Port if it is provided, or is allocated dynamically if configured to fall in the range between PortRangeFrom and PortRangeTo constraints.

This property is read-only.

ClientAuth Property (WebSocketServer Module)

Enables or disables certificate-based client authentication.

Syntax

Swift
Objective-C

public var clientAuth: WebsocketserverClientAuths {
  get {...}
  set {...}
}

public enum WebsocketserverClientAuths: Int32 {
  case ccatNoAuth = 0
  case ccatRequestCert = 1
  case ccatRequireCert = 2
}


@property (nonatomic,readwrite,assign,getter=clientAuth,setter=setClientAuth:) int clientAuth;

- (int)clientAuth;
- (void)setClientAuth :(int)newClientAuth;

Default Value

Remarks

Set this property to true to tune up the client authentication type: ccatNoAuth = 0; ccatRequestCert = 1; ccatRequireCert = 2;

ErrorOrigin Property (WebSocketServer Module)

Indicates the endpoint where the error originates from.

Syntax

Swift
Objective-C

public var errorOrigin: WebsocketserverErrorOrigins {
  get {...}
  set {...}
}

public enum WebsocketserverErrorOrigins: Int32 {
  case eoLocal = 0
  case eoRemote = 1
}


@property (nonatomic,readwrite,assign,getter=errorOrigin,setter=setErrorOrigin:) int errorOrigin;

- (int)errorOrigin;
- (void)setErrorOrigin :(int)newErrorOrigin;

Default Value

Remarks

Use this property to establish whether the reported error originates from a local or remote endpoint.


eoLocal	`0`
eoRemote	`1`

ErrorSeverity Property (WebSocketServer Module)

The severity of the error that happened.

Syntax

Swift
Objective-C

public var errorSeverity: WebsocketserverErrorSeverities {
  get {...}
  set {...}
}

public enum WebsocketserverErrorSeverities: Int32 {
  case esInfo = 0
  case esWarning = 1
  case esFatal = 2
}


@property (nonatomic,readwrite,assign,getter=errorSeverity,setter=setErrorSeverity:) int errorSeverity;

- (int)errorSeverity;
- (void)setErrorSeverity :(int)newErrorSeverity;

Default Value

Remarks

Use this property to establish whether the error is fatal.


esWarning	`1`
esFatal	`2`

ExternalCrypto Property (WebSocketServer Module)

Provides access to external signing and DC parameters.

Syntax

Swift
Objective-C

public var externalCrypto: ExternalCrypto {
  get {...}
}


@property (nonatomic,readwrite,assign,getter=externalCryptoAsyncDocumentID,setter=setExternalCryptoAsyncDocumentID:) NSString* externalCryptoAsyncDocumentID;

- (NSString*)externalCryptoAsyncDocumentID;
- (void)setExternalCryptoAsyncDocumentID :(NSString*)newExternalCryptoAsyncDocumentID;

@property (nonatomic,readwrite,assign,getter=externalCryptoCustomParams,setter=setExternalCryptoCustomParams:) NSString* externalCryptoCustomParams;

- (NSString*)externalCryptoCustomParams;
- (void)setExternalCryptoCustomParams :(NSString*)newExternalCryptoCustomParams;

@property (nonatomic,readwrite,assign,getter=externalCryptoData,setter=setExternalCryptoData:) NSString* externalCryptoData;

- (NSString*)externalCryptoData;
- (void)setExternalCryptoData :(NSString*)newExternalCryptoData;

@property (nonatomic,readwrite,assign,getter=externalCryptoExternalHashCalculation,setter=setExternalCryptoExternalHashCalculation:) BOOL externalCryptoExternalHashCalculation;

- (BOOL)externalCryptoExternalHashCalculation;
- (void)setExternalCryptoExternalHashCalculation :(BOOL)newExternalCryptoExternalHashCalculation;

@property (nonatomic,readwrite,assign,getter=externalCryptoHashAlgorithm,setter=setExternalCryptoHashAlgorithm:) NSString* externalCryptoHashAlgorithm;

- (NSString*)externalCryptoHashAlgorithm;
- (void)setExternalCryptoHashAlgorithm :(NSString*)newExternalCryptoHashAlgorithm;

@property (nonatomic,readwrite,assign,getter=externalCryptoKeyID,setter=setExternalCryptoKeyID:) NSString* externalCryptoKeyID;

- (NSString*)externalCryptoKeyID;
- (void)setExternalCryptoKeyID :(NSString*)newExternalCryptoKeyID;

@property (nonatomic,readwrite,assign,getter=externalCryptoKeySecret,setter=setExternalCryptoKeySecret:) NSString* externalCryptoKeySecret;

- (NSString*)externalCryptoKeySecret;
- (void)setExternalCryptoKeySecret :(NSString*)newExternalCryptoKeySecret;

@property (nonatomic,readwrite,assign,getter=externalCryptoMethod,setter=setExternalCryptoMethod:) int externalCryptoMethod;

- (int)externalCryptoMethod;
- (void)setExternalCryptoMethod :(int)newExternalCryptoMethod;

@property (nonatomic,readwrite,assign,getter=externalCryptoMode,setter=setExternalCryptoMode:) int externalCryptoMode;

- (int)externalCryptoMode;
- (void)setExternalCryptoMode :(int)newExternalCryptoMode;

@property (nonatomic,readwrite,assign,getter=externalCryptoPublicKeyAlgorithm,setter=setExternalCryptoPublicKeyAlgorithm:) NSString* externalCryptoPublicKeyAlgorithm;

- (NSString*)externalCryptoPublicKeyAlgorithm;
- (void)setExternalCryptoPublicKeyAlgorithm :(NSString*)newExternalCryptoPublicKeyAlgorithm;

Default Value

"SecureBlackbox"

Remarks

Use this property to tune-up remote cryptography settings. SecureBlackbox supports two independent types of external cryptography: synchronous (based on OnExternalSign event) and asynchronous (based on DC protocol and DCAuth signing component).

FIPSMode Property (WebSocketServer Module)

Reserved.

Syntax

Swift
Objective-C

public var fipsMode: Bool {
  get {...}
  set {...}
}


@property (nonatomic,readwrite,assign,getter=FIPSMode,setter=setFIPSMode:) BOOL FIPSMode;

- (BOOL)FIPSMode;
- (void)setFIPSMode :(BOOL)newFIPSMode;

Default Value

False

Remarks

This property is reserved for future use.

HandshakeTimeout Property (WebSocketServer Module)

Specifies the handshake timeout in milliseconds.

Syntax

Swift
Objective-C

public var handshakeTimeout: Int32 {
  get {...}
  set {...}
}


@property (nonatomic,readwrite,assign,getter=handshakeTimeout,setter=setHandshakeTimeout:) int handshakeTimeout;

- (int)handshakeTimeout;
- (void)setHandshakeTimeout :(int)newHandshakeTimeout;

Default Value

20000

Remarks

Use this property to set the TLS handshake timeout.

Host Property (WebSocketServer Module)

The host to bind the listening port to.

Syntax

Swift
Objective-C

public var host: String {
  get {...}
  set {...}
}


@property (nonatomic,readwrite,assign,getter=host,setter=setHost:) NSString* host;

- (NSString*)host;
- (void)setHost :(NSString*)newHost;

Default Value

Remarks

Use this property to specify the IP address on which to listen to incoming connections.

PinnedClient Property (WebSocketServer Module)

Populates the pinned client details.

Syntax

Swift
Objective-C

public var pinnedClient: TLSClientEntry {
  get {...}
}


@property (nonatomic,readonly,assign,getter=pinnedClientAddress) NSString* pinnedClientAddress;

- (NSString*)pinnedClientAddress;

@property (nonatomic,readonly,assign,getter=pinnedClientChainValidationDetails) int pinnedClientChainValidationDetails;

- (int)pinnedClientChainValidationDetails;

@property (nonatomic,readonly,assign,getter=pinnedClientChainValidationResult) int pinnedClientChainValidationResult;

- (int)pinnedClientChainValidationResult;

@property (nonatomic,readonly,assign,getter=pinnedClientCiphersuite) NSString* pinnedClientCiphersuite;

- (NSString*)pinnedClientCiphersuite;

@property (nonatomic,readonly,assign,getter=pinnedClientClientAuthenticated) BOOL pinnedClientClientAuthenticated;

- (BOOL)pinnedClientClientAuthenticated;

@property (nonatomic,readonly,assign,getter=pinnedClientDigestAlgorithm) NSString* pinnedClientDigestAlgorithm;

- (NSString*)pinnedClientDigestAlgorithm;

@property (nonatomic,readonly,assign,getter=pinnedClientEncryptionAlgorithm) NSString* pinnedClientEncryptionAlgorithm;

- (NSString*)pinnedClientEncryptionAlgorithm;

@property (nonatomic,readonly,assign,getter=pinnedClientID) long long pinnedClientID;

- (long long)pinnedClientID;

@property (nonatomic,readonly,assign,getter=pinnedClientKeyExchangeAlgorithm) NSString* pinnedClientKeyExchangeAlgorithm;

- (NSString*)pinnedClientKeyExchangeAlgorithm;

@property (nonatomic,readonly,assign,getter=pinnedClientKeyExchangeKeyBits) int pinnedClientKeyExchangeKeyBits;

- (int)pinnedClientKeyExchangeKeyBits;

@property (nonatomic,readonly,assign,getter=pinnedClientNamedECCurve) NSString* pinnedClientNamedECCurve;

- (NSString*)pinnedClientNamedECCurve;

@property (nonatomic,readonly,assign,getter=pinnedClientPFSCipher) BOOL pinnedClientPFSCipher;

- (BOOL)pinnedClientPFSCipher;

@property (nonatomic,readonly,assign,getter=pinnedClientPort) int pinnedClientPort;

- (int)pinnedClientPort;

@property (nonatomic,readonly,assign,getter=pinnedClientPreSharedIdentity) NSString* pinnedClientPreSharedIdentity;

- (NSString*)pinnedClientPreSharedIdentity;

@property (nonatomic,readonly,assign,getter=pinnedClientPublicKeyBits) int pinnedClientPublicKeyBits;

- (int)pinnedClientPublicKeyBits;

@property (nonatomic,readonly,assign,getter=pinnedClientResumedSession) BOOL pinnedClientResumedSession;

- (BOOL)pinnedClientResumedSession;

@property (nonatomic,readonly,assign,getter=pinnedClientSecureConnection) BOOL pinnedClientSecureConnection;

- (BOOL)pinnedClientSecureConnection;

@property (nonatomic,readonly,assign,getter=pinnedClientSignatureAlgorithm) NSString* pinnedClientSignatureAlgorithm;

- (NSString*)pinnedClientSignatureAlgorithm;

@property (nonatomic,readonly,assign,getter=pinnedClientSymmetricBlockSize) int pinnedClientSymmetricBlockSize;

- (int)pinnedClientSymmetricBlockSize;

@property (nonatomic,readonly,assign,getter=pinnedClientSymmetricKeyBits) int pinnedClientSymmetricKeyBits;

- (int)pinnedClientSymmetricKeyBits;

@property (nonatomic,readonly,assign,getter=pinnedClientTotalBytesReceived) long long pinnedClientTotalBytesReceived;

- (long long)pinnedClientTotalBytesReceived;

@property (nonatomic,readonly,assign,getter=pinnedClientTotalBytesSent) long long pinnedClientTotalBytesSent;

- (long long)pinnedClientTotalBytesSent;

@property (nonatomic,readonly,assign,getter=pinnedClientValidationLog) NSString* pinnedClientValidationLog;

- (NSString*)pinnedClientValidationLog;

@property (nonatomic,readonly,assign,getter=pinnedClientVersion) NSString* pinnedClientVersion;

- (NSString*)pinnedClientVersion;

Default Value

"SecureBlackbox"

Remarks

Use this property to access the details of the client connection previously pinned with PinClient method.

PinnedClientChain Property (WebSocketServer Module)

Contains the certificate chain of the pinned client.

Syntax

Swift
Objective-C

public var pinnedClientChain: Array<Certificate> {
  get {...}
}


@property (nonatomic,readonly,assign,getter=pinnedClientCertCount) int pinnedClientCertCount;

- (int)pinnedClientCertCount;

- (NSData*)pinnedClientCertBytes:(int)pinnedClientCertIndex;

- (NSData*)pinnedClientCertCAKeyID:(int)pinnedClientCertIndex;

- (NSData*)pinnedClientCertFingerprint:(int)pinnedClientCertIndex;

- (long long)pinnedClientCertHandle:(int)pinnedClientCertIndex;

- (NSString*)pinnedClientCertIssuer:(int)pinnedClientCertIndex;

- (NSString*)pinnedClientCertIssuerRDN:(int)pinnedClientCertIndex;

- (NSString*)pinnedClientCertKeyAlgorithm:(int)pinnedClientCertIndex;

- (int)pinnedClientCertKeyBits:(int)pinnedClientCertIndex;

- (NSData*)pinnedClientCertKeyFingerprint:(int)pinnedClientCertIndex;

- (int)pinnedClientCertKeyUsage:(int)pinnedClientCertIndex;

- (NSData*)pinnedClientCertPublicKeyBytes:(int)pinnedClientCertIndex;

- (BOOL)pinnedClientCertSelfSigned:(int)pinnedClientCertIndex;

- (NSData*)pinnedClientCertSerialNumber:(int)pinnedClientCertIndex;

- (NSString*)pinnedClientCertSigAlgorithm:(int)pinnedClientCertIndex;

- (NSString*)pinnedClientCertSubject:(int)pinnedClientCertIndex;

- (NSData*)pinnedClientCertSubjectKeyID:(int)pinnedClientCertIndex;

- (NSString*)pinnedClientCertSubjectRDN:(int)pinnedClientCertIndex;

- (NSString*)pinnedClientCertValidFrom:(int)pinnedClientCertIndex;

- (NSString*)pinnedClientCertValidTo:(int)pinnedClientCertIndex;

Default Value

"SecureBlackbox"

Remarks

Use this property to access the certificate chain of the client connection pinned previously with a PinClient call.

Port Property (WebSocketServer Module)

Specifies the port number to listen for connections on.

Syntax

Swift
Objective-C

public var port: Int32 {
  get {...}
  set {...}
}


@property (nonatomic,readwrite,assign,getter=port,setter=setPort:) int port;

- (int)port;
- (void)setPort :(int)newPort;

Default Value

Remarks

Use this property to specify the port number to listen to connections on. Standard port numbers are 80 for an HTTP server, and 443 for an HTTPS server.

Alternatively, you may specify the acceptable range of listening ports via PortRangeFrom and PortRangeTo properties. In this case the port will be allocated within the requested range by the operating system, and reported in BoundPort.

PortRangeFrom Property (WebSocketServer Module)

Specifies the lower limit of the listening port range for incoming connections.

Syntax

Swift
Objective-C

public var portRangeFrom: Int32 {
  get {...}
  set {...}
}


@property (nonatomic,readwrite,assign,getter=portRangeFrom,setter=setPortRangeFrom:) int portRangeFrom;

- (int)portRangeFrom;
- (void)setPortRangeFrom :(int)newPortRangeFrom;

Default Value

Remarks

Use this property to specify the lower limit of the port range to listen to connections on. When a port range is used to specify the listening port (as opposed to a fixed value provided via Port), the port will be allocated within the requested range by the operating system, and reported in BoundPort.

Note that this property is ignored if the Port property is set to a non-zero value, in which case the server always aims to listen on that fixed port.

PortRangeTo Property (WebSocketServer Module)

Specifies the upper limit of the listening port range for incoming connections.

Syntax

Swift
Objective-C

public var portRangeTo: Int32 {
  get {...}
  set {...}
}


@property (nonatomic,readwrite,assign,getter=portRangeTo,setter=setPortRangeTo:) int portRangeTo;

- (int)portRangeTo;
- (void)setPortRangeTo :(int)newPortRangeTo;

Default Value

Remarks

Use this property to specify the upper limit of the port range to listen to connections on. When a port range is used to specify the listening port (as opposed to a fixed value provided via Port), the port will be allocated within the requested range by the operating system, and reported in BoundPort.

Note that this property is ignored if the Port property is set to a non-zero value, in which case the server always aims to listen on that fixed port.

ServerCertificates Property (WebSocketServer Module)

The server's TLS certificates.

Syntax

Swift
Objective-C

public var serverCertificates: Array<Certificate> {
  get {...}
}


@property (nonatomic,readwrite,assign,getter=serverCertCount,setter=setServerCertCount:) int serverCertCount;

- (int)serverCertCount;
- (void)setServerCertCount :(int)newServerCertCount;

- (NSData*)serverCertBytes:(int)serverCertIndex;

- (long long)serverCertHandle:(int)serverCertIndex;
- (void)setServerCertHandle:(int)serverCertIndex :(long long)newServerCertHandle;

Default Value

"SecureBlackbox"

Remarks

Use this property to provide a list of TLS certificates for the server endpoint.

A TLS endpoint needs a certificate to be able to accept TLS connections. At least one of the certificates in the collection - the endpoint certificate - must have a private key associated with it.

The collection may include more than one endpoint certificate, and more than one chain. A typical usage scenario is to include two chains (ECDSA and RSA), to cater for clients with different cipher suite preferences.

SessionTimeout Property (WebSocketServer Module)

Specifies the default session timeout value in milliseconds.

Syntax

Swift
Objective-C

public var sessionTimeout: Int32 {
  get {...}
  set {...}
}


@property (nonatomic,readwrite,assign,getter=sessionTimeout,setter=setSessionTimeout:) int sessionTimeout;

- (int)sessionTimeout;
- (void)setSessionTimeout :(int)newSessionTimeout;

Default Value

360000

Remarks

Specifies the period of inactivity (in milliseconds) after which the connection will be terminated by the server.

SocketSettings Property (WebSocketServer Module)

Manages network connection settings.

Syntax

Swift
Objective-C

public var socketSettings: SocketSettings {
  get {...}
}


@property (nonatomic,readwrite,assign,getter=socketIncomingSpeedLimit,setter=setSocketIncomingSpeedLimit:) int socketIncomingSpeedLimit;

- (int)socketIncomingSpeedLimit;
- (void)setSocketIncomingSpeedLimit :(int)newSocketIncomingSpeedLimit;

@property (nonatomic,readwrite,assign,getter=socketLocalAddress,setter=setSocketLocalAddress:) NSString* socketLocalAddress;

- (NSString*)socketLocalAddress;
- (void)setSocketLocalAddress :(NSString*)newSocketLocalAddress;

@property (nonatomic,readwrite,assign,getter=socketLocalPort,setter=setSocketLocalPort:) int socketLocalPort;

- (int)socketLocalPort;
- (void)setSocketLocalPort :(int)newSocketLocalPort;

@property (nonatomic,readwrite,assign,getter=socketOutgoingSpeedLimit,setter=setSocketOutgoingSpeedLimit:) int socketOutgoingSpeedLimit;

- (int)socketOutgoingSpeedLimit;
- (void)setSocketOutgoingSpeedLimit :(int)newSocketOutgoingSpeedLimit;

@property (nonatomic,readwrite,assign,getter=socketTimeout,setter=setSocketTimeout:) int socketTimeout;

- (int)socketTimeout;
- (void)setSocketTimeout :(int)newSocketTimeout;

@property (nonatomic,readwrite,assign,getter=socketUseIPv6,setter=setSocketUseIPv6:) BOOL socketUseIPv6;

- (BOOL)socketUseIPv6;
- (void)setSocketUseIPv6 :(BOOL)newSocketUseIPv6;

Default Value

"SecureBlackbox"

Remarks

Use this property to tune up network connection parameters.

TLSSettings Property (WebSocketServer Module)

Manages TLS layer settings.

Syntax

Swift
Objective-C

public var tlsSettings: TLSSettings {
  get {...}
}


@property (nonatomic,readwrite,assign,getter=TLSAutoValidateCertificates,setter=setTLSAutoValidateCertificates:) BOOL TLSAutoValidateCertificates;

- (BOOL)TLSAutoValidateCertificates;
- (void)setTLSAutoValidateCertificates :(BOOL)newTLSAutoValidateCertificates;

@property (nonatomic,readwrite,assign,getter=TLSBaseConfiguration,setter=setTLSBaseConfiguration:) int TLSBaseConfiguration;

- (int)TLSBaseConfiguration;
- (void)setTLSBaseConfiguration :(int)newTLSBaseConfiguration;

@property (nonatomic,readwrite,assign,getter=TLSCiphersuites,setter=setTLSCiphersuites:) NSString* TLSCiphersuites;

- (NSString*)TLSCiphersuites;
- (void)setTLSCiphersuites :(NSString*)newTLSCiphersuites;

@property (nonatomic,readwrite,assign,getter=TLSECCurves,setter=setTLSECCurves:) NSString* TLSECCurves;

- (NSString*)TLSECCurves;
- (void)setTLSECCurves :(NSString*)newTLSECCurves;

@property (nonatomic,readwrite,assign,getter=TLSExtensions,setter=setTLSExtensions:) NSString* TLSExtensions;

- (NSString*)TLSExtensions;
- (void)setTLSExtensions :(NSString*)newTLSExtensions;

@property (nonatomic,readwrite,assign,getter=TLSForceResumeIfDestinationChanges,setter=setTLSForceResumeIfDestinationChanges:) BOOL TLSForceResumeIfDestinationChanges;

- (BOOL)TLSForceResumeIfDestinationChanges;
- (void)setTLSForceResumeIfDestinationChanges :(BOOL)newTLSForceResumeIfDestinationChanges;

@property (nonatomic,readwrite,assign,getter=TLSPreSharedIdentity,setter=setTLSPreSharedIdentity:) NSString* TLSPreSharedIdentity;

- (NSString*)TLSPreSharedIdentity;
- (void)setTLSPreSharedIdentity :(NSString*)newTLSPreSharedIdentity;

@property (nonatomic,readwrite,assign,getter=TLSPreSharedKey,setter=setTLSPreSharedKey:) NSString* TLSPreSharedKey;

- (NSString*)TLSPreSharedKey;
- (void)setTLSPreSharedKey :(NSString*)newTLSPreSharedKey;

@property (nonatomic,readwrite,assign,getter=TLSPreSharedKeyCiphersuite,setter=setTLSPreSharedKeyCiphersuite:) NSString* TLSPreSharedKeyCiphersuite;

- (NSString*)TLSPreSharedKeyCiphersuite;
- (void)setTLSPreSharedKeyCiphersuite :(NSString*)newTLSPreSharedKeyCiphersuite;

@property (nonatomic,readwrite,assign,getter=TLSRenegotiationAttackPreventionMode,setter=setTLSRenegotiationAttackPreventionMode:) int TLSRenegotiationAttackPreventionMode;

- (int)TLSRenegotiationAttackPreventionMode;
- (void)setTLSRenegotiationAttackPreventionMode :(int)newTLSRenegotiationAttackPreventionMode;

@property (nonatomic,readwrite,assign,getter=TLSRevocationCheck,setter=setTLSRevocationCheck:) int TLSRevocationCheck;

- (int)TLSRevocationCheck;
- (void)setTLSRevocationCheck :(int)newTLSRevocationCheck;

@property (nonatomic,readwrite,assign,getter=TLSSSLOptions,setter=setTLSSSLOptions:) int TLSSSLOptions;

- (int)TLSSSLOptions;
- (void)setTLSSSLOptions :(int)newTLSSSLOptions;

@property (nonatomic,readwrite,assign,getter=TLSTLSMode,setter=setTLSTLSMode:) int TLSTLSMode;

- (int)TLSTLSMode;
- (void)setTLSTLSMode :(int)newTLSTLSMode;

@property (nonatomic,readwrite,assign,getter=TLSUseExtendedMasterSecret,setter=setTLSUseExtendedMasterSecret:) BOOL TLSUseExtendedMasterSecret;

- (BOOL)TLSUseExtendedMasterSecret;
- (void)setTLSUseExtendedMasterSecret :(BOOL)newTLSUseExtendedMasterSecret;

@property (nonatomic,readwrite,assign,getter=TLSUseSessionResumption,setter=setTLSUseSessionResumption:) BOOL TLSUseSessionResumption;

- (BOOL)TLSUseSessionResumption;
- (void)setTLSUseSessionResumption :(BOOL)newTLSUseSessionResumption;

@property (nonatomic,readwrite,assign,getter=TLSVersions,setter=setTLSVersions:) int TLSVersions;

- (int)TLSVersions;
- (void)setTLSVersions :(int)newTLSVersions;

Default Value

"SecureBlackbox"

Remarks

Use this property to tune up the TLS layer parameters.

Users Property (WebSocketServer Module)

Provides a list of registered users.

Syntax

Swift
Objective-C

public var users: Array<UserAccount> {
  get {...}
}


@property (nonatomic,readwrite,assign,getter=userCount,setter=setUserCount:) int userCount;

- (int)userCount;
- (void)setUserCount :(int)newUserCount;

- (NSData*)userAssociatedData:(int)userIndex;
- (void)setUserAssociatedData:(int)userIndex :(NSData*)newUserAssociatedData;

- (NSString*)userBasePath:(int)userIndex;
- (void)setUserBasePath:(int)userIndex :(NSString*)newUserBasePath;

- (NSData*)userCert:(int)userIndex;
- (void)setUserCert:(int)userIndex :(NSData*)newUserCert;

- (NSString*)userData:(int)userIndex;
- (void)setUserData:(int)userIndex :(NSString*)newUserData;

- (long long)userHandle:(int)userIndex;
- (void)setUserHandle:(int)userIndex :(long long)newUserHandle;

- (NSString*)userHashAlgorithm:(int)userIndex;
- (void)setUserHashAlgorithm:(int)userIndex :(NSString*)newUserHashAlgorithm;

- (int)userIncomingSpeedLimit:(int)userIndex;
- (void)setUserIncomingSpeedLimit:(int)userIndex :(int)newUserIncomingSpeedLimit;

- (int)userOutgoingSpeedLimit:(int)userIndex;
- (void)setUserOutgoingSpeedLimit:(int)userIndex :(int)newUserOutgoingSpeedLimit;

- (NSString*)userPassword:(int)userIndex;
- (void)setUserPassword:(int)userIndex :(NSString*)newUserPassword;

- (NSData*)userSharedSecret:(int)userIndex;
- (void)setUserSharedSecret:(int)userIndex :(NSData*)newUserSharedSecret;

- (NSString*)userUsername:(int)userIndex;
- (void)setUserUsername:(int)userIndex :(NSString*)newUserUsername;

Default Value

"SecureBlackbox"

Remarks

Assign a list of 'known' users to this property to automate authentication handling by the class.

WebsiteName Property (WebSocketServer Module)

Specifies the web site name to use in the certificate.

Syntax

Swift
Objective-C

public var websiteName: String {
  get {...}
  set {...}
}


@property (nonatomic,readwrite,assign,getter=websiteName,setter=setWebsiteName:) NSString* websiteName;

- (NSString*)websiteName;
- (void)setWebsiteName :(NSString*)newWebsiteName;

Default Value

"SecureBlackbox"

Remarks

If using an internally-generated certificate, use this property to specify the web site name to be included as a common name. A typical common name consists of the host name, such as '192.168.10.10' or 'domain.com'.

Config Method (WebSocketServer Module)

Sets or retrieves a configuration setting.

Syntax

Swift
Objective-C

public func config(configurationString: String) throws -> String

- (NSString*)config:(NSString*)configurationString;

Remarks

Config is a generic method available in every class. It is used to set and retrieve configuration settings for the class.

These settings are similar in functionality to properties, but they are rarely used. In order to avoid "polluting" the property namespace of the class, access to these internal properties is provided through the Config method.

To set a configuration setting named PROPERTY, you must call Config("PROPERTY=VALUE"), where VALUE is the value of the setting expressed as a string. For boolean values, use the strings "True", "False", "0", "1", "Yes", or "No" (case does not matter).

To read (query) the value of a configuration setting, you must call Config("PROPERTY"). The value will be returned as a string.

DoAction Method (WebSocketServer Module)

Performs an additional action.

Syntax

Swift
Objective-C

public func doAction(actionID: String, actionParams: String) throws -> String

- (NSString*)doAction:(NSString*)actionID :(NSString*)actionParams;

Remarks

DoAction is a generic method available in every class. It is used to perform an additional action introduced after the product major release. The list of actions is not fixed, and may be flexibly extended over time.

The unique identifier (case insencitive) of the action is provided in the ActionID parameter.

ActionParams contains the value of a single parameter, or a list of multiple parameters for the action in the form of PARAM1=VALUE1;PARAM2=VALUE2;....

DropClient Method (WebSocketServer Module)

Terminates a client connection.

Syntax

Swift
Objective-C

public func dropClient(connectionId: Int32, forced: Bool) throws -> Void

- (void)dropClient:(int)connectionId :(BOOL)forced;

Remarks

Call this method to shut down a connected client. Forced indicates whether the connection should be closed in a graceful manner.

ListClients Method (WebSocketServer Module)

Enumerates the connected clients.

Syntax

Swift
Objective-C

public func listClients() throws -> String

- (NSString*)listClients;

Remarks

This method enumerates the connected clients. It returns a list of strings, with each string being of 'ConnectionID|Address|Port' format, and representing a single connection.

PinClient Method (WebSocketServer Module)

Takes a snapshot of the connection's properties.

Syntax

Swift
Objective-C

public func pinClient(connectionId: Int32) throws -> Void

- (void)pinClient:(int)connectionId;

Remarks

Use this method to take a snapshot of a connected client. The captured properties are populated in PinnedClient and PinnedClientChain properties.

SendData Method (WebSocketServer Module)

Sends a piece of binary data to the client.

Syntax

Swift
Objective-C

public func sendData(connectionID: Int64, buffer: Data) throws -> Void

- (void)sendData:(long long)connectionID :(NSData*)buffer;

Remarks

Use this method to send a piece of binary data to the client.

SendKeepAlive Method (WebSocketServer Module)

Sends a keep-alive message.

Syntax

Swift
Objective-C

public func sendKeepAlive(connectionID: Int64) throws -> Bool

- (BOOL)sendKeepAlive:(long long)connectionID;

Remarks

Use this method to send a keep-alive 'ping' to the client. The response, if it comes back, will be reported via the KeepAliveResponse event.

Keep-alive messages provide good means for keeping the connection alive and stay immune to timeouts.

SendText Method (WebSocketServer Module)

Sends a piece of text data to the client.

Syntax

Swift
Objective-C

public func sendText(connectionID: Int64, text: String) throws -> Void

- (void)sendText:(long long)connectionID :(NSString*)text;

Remarks

Use this method to send a piece of text data to the client.

SetResponseBytes Method (WebSocketServer Module)

Sets a byte array to be served as a response.

Syntax

Swift
Objective-C

public func setResponseBytes(connectionId: Int32, bytes: Data, contentType: String, responseFilter: String) throws -> Void

- (void)setResponseBytes:(int)connectionId :(NSData*)bytes :(NSString*)contentType :(NSString*)responseFilter;

Remarks

Use this property to provide the response content in a byte array. The ResponseFilter parameter lets you select the element of the response that you would like to set with this call. The empty filter stands for the entire response body. The only response filter currently supported is parts:


parts[Index]	The body of a particular part of a multipart response.

SetResponseStatus Method (WebSocketServer Module)

Sets an HTTP status to be sent with the response.

Syntax

Swift
Objective-C

public func setResponseStatus(connectionId: Int32, statusCode: Int32) throws -> Void

- (void)setResponseStatus:(int)connectionId :(int)statusCode;

Remarks

Use this method to set an HTTP status for the request. A good place to call this method is a request-marking event, such as GetRequest.

SetResponseString Method (WebSocketServer Module)

Sets a string to be served as a response.

Syntax

Swift
Objective-C

public func setResponseString(connectionId: Int32, dataStr: String, contentType: String, responseFilter: String) throws -> Void

- (void)setResponseString:(int)connectionId :(NSString*)dataStr :(NSString*)contentType :(NSString*)responseFilter;

Remarks

Use this property to provide the response content in a string. The ResponseFilter parameter lets you select the element of the response that you would like to set with this call. The empty filter stands for the entire response body. The only response filter currently supported is parts:


parts[Index]	The body of a particular part of a multipart response.

Start Method (WebSocketServer Module)

Starts the server.

Syntax

Swift
Objective-C

public func start() throws -> Void

- (void)start;

Remarks

Use this method to activate the server and start listening to incoming connections.

Stop Method (WebSocketServer Module)

Stops the server.

Syntax

Swift
Objective-C

public func stop() throws -> Void

- (void)stop;

Remarks

Call this method to stop listening to incoming connections and deactivate the server.

Accept Event (WebSocketServer Module)

Reports an incoming connection.

Syntax

Swift
Objective-C

func onAccept(remoteAddress: String, remotePort: Int32, accept: inout Bool)

- (void)onAccept:(NSString*)remoteAddress :(int)remotePort :(int*)accept;

Remarks

This event is fired when a new connection from RemoteAddress:RemotePort is ready to be accepted. Use the Accept parameter to accept or decline it.

Subscribe to Connect event to be notified of every connection that has been set up.

AuthAttempt Event (WebSocketServer Module)

Fires when a connected client makes an authentication attempt.

Syntax

Swift
Objective-C

func onAuthAttempt(connectionID: Int64, httpMethod: String, uri: String, authMethod: String, username: String, password: String, allow: inout Bool)

- (void)onAuthAttempt:(long long)connectionID :(NSString*)HTTPMethod :(NSString*)URI :(NSString*)authMethod :(NSString*)username :(NSString*)password :(int*)allow;

Remarks

The class fires this event whenever a client attempts to authenticate itself. Use the Allow parameter to let the client through.

ConnectionID contains the unique session identifier for that client, HTTPMethod specifies the HTTP method (GET, POST, etc.) used to access the URI resource, AuthMethod specifies the authentication method, and Username and Password contain the professed credentials.

BinaryData Event (WebSocketServer Module)

Passes a received chunk of binary data to the application.

Syntax

Swift
Objective-C

func onBinaryData(connectionID: Int64, buffer: Data, last: Bool)

- (void)onBinaryData:(long long)connectionID :(NSData*)buffer :(BOOL)last;

Remarks

The class fires this event repeatedly to pass incoming pieces of binary data to the application. The Last parameter indicates that this is the last chunk.

Connect Event (WebSocketServer Module)

Reports an accepted connection.

Syntax

Swift
Objective-C

func onConnect(connectionID: Int64, remoteAddress: String, remotePort: Int32)

- (void)onConnect:(long long)connectionID :(NSString*)remoteAddress :(int)remotePort;

Remarks

The class fires this event to report that a new connection has been established. ConnectionId indicates the unique ID assigned to this connection. The same ID will be supplied to any other events related to this connection, such as GetRequest or AuthAttempt.

Data Event (WebSocketServer Module)

Supplies a data chunk received within a POST or PUT upload.

Syntax

Swift
Objective-C

func onData(connectionID: Int64, buffer: Data)

- (void)onData:(long long)connectionID :(NSData*)buffer;

Remarks

This event is fired to supply another piece of data received within a POST or PUT upload operation. This event may fire multiple times during a single request upload to pass the uploaded data to the application chunk-by-chunk.

Disconnect Event (WebSocketServer Module)

Fires to report a disconnected client.

Syntax

Swift
Objective-C

func onDisconnect(connectionID: Int64)

- (void)onDisconnect:(long long)connectionID;

Remarks

The class fires this event when a connected client disconnects.

Error Event (WebSocketServer Module)

Information about errors during data delivery.

Syntax

Swift
Objective-C

func onError(connectionID: Int64, errorCode: Int32, description: String)

- (void)onError:(long long)connectionID :(int)errorCode :(NSString*)description;

Remarks

The event is fired in case of exceptional conditions during message processing.

ErrorCode contains an error code and Description contains a textual description of the error. For a list of valid error codes and their descriptions, please refer to the HTTPS section.

ExternalSign Event (WebSocketServer Module)

Handles remote or external signing initiated by the server protocol.

Syntax

Swift
Objective-C

func onExternalSign(connectionID: Int64, operationId: String, hashAlgorithm: String, pars: String, data: String, signedData: inout String)

- (void)onExternalSign:(long long)connectionID :(NSString*)operationId :(NSString*)hashAlgorithm :(NSString*)pars :(NSString*)data :(NSString**)signedData;

Remarks

Assign a handler to this event if you need to delegate a low-level signing operation to an external, remote, or custom signing engine. Depending on the settings, the handler will receive a hashed or unhashed value to be signed.

The event handler must pass the value of Data to the signer, obtain the signature, and pass it back to the component via SignedData parameter.

OperationId provides a comment about the operation and its origin. It depends on the exact component being used, and may be empty. HashAlgorithm specifies the hash algorithm being used for the operation, and Pars contain algorithm-dependent parameters.

The component uses base16 (hex) encoding for Data, SignedData, and Pars parameters. If your signing engine uses a different input and output encoding, you may need to decode and/or encode the data before and/or after the signing.

A sample MD5 hash encoded in base16: a0dee2a0382afbb09120ffa7ccd8a152 - lower case base16 A0DEE2A0382AFBB09120FFA7CCD8A152 - upper case base16

A sample event handler that uses a .NET RSACryptoServiceProvider class may look like the following: signer.OnExternalSign += (s, e) => { var cert = new X509Certificate2("cert.pfx", "", X509KeyStorageFlags.Exportable); var key = (RSACryptoServiceProvider)cert.PrivateKey; var dataToSign = e.Data.FromBase16String(); var signedData = key.SignHash(dataToSign, "2.16.840.1.101.3.4.2.1"); e.SignedData = signedData.ToBase16String(); };

GetRequest Event (WebSocketServer Module)

Reports a GET request.

Syntax

Swift
Objective-C

func onGetRequest(connectionID: Int64, uri: String, handled: inout Bool)

- (void)onGetRequest:(long long)connectionID :(NSString*)URI :(int*)handled;

Remarks

The class fires this event to notify the application about a GET request received from the client.

ConnectionID indicates the connection that sent the request and URI suggests the requested resource.

Set Handled to true to indicate that your application's code will take care of the request. The application does it by providing the necessary details via SetResponseStatus, SetResponseHeader, SetResponseFile or SetResponseString methods. If the returned value of Handled is false, the server will try to take care of the request automatically by searching for the requested resource in DocumentRoot.

KeepAliveResponse Event (WebSocketServer Module)

Reports a response to a keep-alive message.

Syntax

Swift
Objective-C

func onKeepAliveResponse(connectionID: Int64)

- (void)onKeepAliveResponse:(long long)connectionID;

Remarks

This event is triggered when a response to a previously sent keep-alive message is received.

Notification Event (WebSocketServer Module)

This event notifies the application about an underlying control flow event.

Syntax

Swift
Objective-C

func onNotification(eventID: String, eventParam: String)

- (void)onNotification:(NSString*)eventID :(NSString*)eventParam;

Remarks

The class fires this event to let the application know about some event, occurrence, or milestone in the component. For example, it may fire to report completion of the document processing. The list of events being reported is not fixed, and may be flexibly extended over time.

The unique identifier of the event is provided in EventID parameter. EventParam contains any parameters accompanying the occurrence. Depending on the type of the component, the exact action it is performing, or the document being processed, one or both may be omitted.

TextData Event (WebSocketServer Module)

Passes a received chunk of text data to the application.

Syntax

Swift
Objective-C

func onTextData(connectionID: Int64, text: String, last: Bool)

- (void)onTextData:(long long)connectionID :(NSString*)text :(BOOL)last;

Remarks

The class fires this event repeatedly to pass incoming pieces of text data to the application. The Last parameter indicates that this is the last chunk.

TLSCertValidate Event (WebSocketServer Module)

Fires when a client certificate needs to be validated.

Syntax

Swift
Objective-C

func onTLSCertValidate(connectionID: Int64, accept: inout Bool)

- (void)onTLSCertValidate:(long long)connectionID :(int*)accept;

Remarks

The class fires this event to notify the application of an authenticating client. Use the event handler to validate the certificate and pass your decision back to the server component via the Accept parameter.

TLSEstablished Event (WebSocketServer Module)

Reports the setup of a TLS session.

Syntax

Swift
Objective-C

func onTLSEstablished(connectionID: Int64)

- (void)onTLSEstablished:(long long)connectionID;

Remarks

Subscribe to this event to be notified about the setup of a TLS connection by a connected client.

TLSHandshake Event (WebSocketServer Module)

Fires when a newly established client connection initiates a TLS handshake.

Syntax

Swift
Objective-C

func onTLSHandshake(connectionID: Int64, serverName: String, abort: inout Bool)

- (void)onTLSHandshake:(long long)connectionID :(NSString*)serverName :(int*)abort;

Remarks

Use this event to get notified about the initiation of the TLS handshake by the remote client. The ServerName parameter specifies the requested host from the client hello message.

TLSPSK Event (WebSocketServer Module)

Requests a pre-shared key for TLS-PSK.

Syntax

Swift
Objective-C

func onTLSPSK(connectionID: Int64, identity: String, psk: inout String, ciphersuite: inout String)

- (void)onTLSPSK:(long long)connectionID :(NSString*)identity :(NSString**)PSK :(NSString**)ciphersuite;

Remarks

The class fires this event to report that a client has requested a TLS-PSK negotiation. ConnectionId indicates the unique connection ID that requested the PSK handshake.

Use Identity to look up for the corresponding pre-shared key in the server's database, then assign the key to the PSK parameter. If TLS 1.3 PSK is used, you will also need to assign the Ciphersuite parameter with the cipher suite associated with that identity and their key.

TLSShutdown Event (WebSocketServer Module)

Reports closure of a TLS session.

Syntax

Swift
Objective-C

func onTLSShutdown(connectionID: Int64)

- (void)onTLSShutdown:(long long)connectionID;

Remarks

The class fires this event when a connected client closes their TLS session gracefully. This event is typically followed by a Disconnect, which marks the closure of the underlying TCP session.

Certificate Type

Provides details of an individual X.509 certificate.

Remarks

This type provides access to X.509 certificate details.

Fields

bytes
Data

Returns raw certificate data in DER format.

ca
Bool

Indicates whether the certificate has a CA capability (a setting in BasicConstraints extension).

caKeyID
Data

A unique identifier (fingerprint) of the CA certificate's private key.

Authority Key Identifier is a (non-critical) X.509 certificate extension which allows the identification of certificates produced by the same issuer, but with different public keys.

crlDistributionPoints
String

Locations of the CRL (Certificate Revocation List) distribution points used to check this certificate's validity.

curve
String

Specifies the elliptic curve of the EC public key.


SB_EC_SECP112R1	`SECP112R1`
SB_EC_SECP112R2	`SECP112R2`
SB_EC_SECP128R1	`SECP128R1`
SB_EC_SECP128R2	`SECP128R2`
SB_EC_SECP160K1	`SECP160K1`
SB_EC_SECP160R1	`SECP160R1`
SB_EC_SECP160R2	`SECP160R2`
SB_EC_SECP192K1	`SECP192K1`
SB_EC_SECP192R1	`SECP192R1`
SB_EC_SECP224K1	`SECP224K1`
SB_EC_SECP224R1	`SECP224R1`
SB_EC_SECP256K1	`SECP256K1`
SB_EC_SECP256R1	`SECP256R1`
SB_EC_SECP384R1	`SECP384R1`
SB_EC_SECP521R1	`SECP521R1`
SB_EC_SECT113R1	`SECT113R1`
SB_EC_SECT113R2	`SECT113R2`
SB_EC_SECT131R1	`SECT131R1`
SB_EC_SECT131R2	`SECT131R2`
SB_EC_SECT163K1	`SECT163K1`
SB_EC_SECT163R1	`SECT163R1`
SB_EC_SECT163R2	`SECT163R2`
SB_EC_SECT193R1	`SECT193R1`
SB_EC_SECT193R2	`SECT193R2`
SB_EC_SECT233K1	`SECT233K1`
SB_EC_SECT233R1	`SECT233R1`
SB_EC_SECT239K1	`SECT239K1`
SB_EC_SECT283K1	`SECT283K1`
SB_EC_SECT283R1	`SECT283R1`
SB_EC_SECT409K1	`SECT409K1`
SB_EC_SECT409R1	`SECT409R1`
SB_EC_SECT571K1	`SECT571K1`
SB_EC_SECT571R1	`SECT571R1`
SB_EC_PRIME192V1	`PRIME192V1`
SB_EC_PRIME192V2	`PRIME192V2`
SB_EC_PRIME192V3	`PRIME192V3`
SB_EC_PRIME239V1	`PRIME239V1`
SB_EC_PRIME239V2	`PRIME239V2`
SB_EC_PRIME239V3	`PRIME239V3`
SB_EC_PRIME256V1	`PRIME256V1`
SB_EC_C2PNB163V1	`C2PNB163V1`
SB_EC_C2PNB163V2	`C2PNB163V2`
SB_EC_C2PNB163V3	`C2PNB163V3`
SB_EC_C2PNB176W1	`C2PNB176W1`
SB_EC_C2TNB191V1	`C2TNB191V1`
SB_EC_C2TNB191V2	`C2TNB191V2`
SB_EC_C2TNB191V3	`C2TNB191V3`
SB_EC_C2ONB191V4	`C2ONB191V4`
SB_EC_C2ONB191V5	`C2ONB191V5`
SB_EC_C2PNB208W1	`C2PNB208W1`
SB_EC_C2TNB239V1	`C2TNB239V1`
SB_EC_C2TNB239V2	`C2TNB239V2`
SB_EC_C2TNB239V3	`C2TNB239V3`
SB_EC_C2ONB239V4	`C2ONB239V4`
SB_EC_C2ONB239V5	`C2ONB239V5`
SB_EC_C2PNB272W1	`C2PNB272W1`
SB_EC_C2PNB304W1	`C2PNB304W1`
SB_EC_C2TNB359V1	`C2TNB359V1`
SB_EC_C2PNB368W1	`C2PNB368W1`
SB_EC_C2TNB431R1	`C2TNB431R1`
SB_EC_NISTP192	`NISTP192`
SB_EC_NISTP224	`NISTP224`
SB_EC_NISTP256	`NISTP256`
SB_EC_NISTP384	`NISTP384`
SB_EC_NISTP521	`NISTP521`
SB_EC_NISTB163	`NISTB163`
SB_EC_NISTB233	`NISTB233`
SB_EC_NISTB283	`NISTB283`
SB_EC_NISTB409	`NISTB409`
SB_EC_NISTB571	`NISTB571`
SB_EC_NISTK163	`NISTK163`
SB_EC_NISTK233	`NISTK233`
SB_EC_NISTK283	`NISTK283`
SB_EC_NISTK409	`NISTK409`
SB_EC_NISTK571	`NISTK571`
SB_EC_GOSTCPTEST	`GOSTCPTEST`
SB_EC_GOSTCPA	`GOSTCPA`
SB_EC_GOSTCPB	`GOSTCPB`
SB_EC_GOSTCPC	`GOSTCPC`
SB_EC_GOSTCPXCHA	`GOSTCPXCHA`
SB_EC_GOSTCPXCHB	`GOSTCPXCHB`
SB_EC_BRAINPOOLP160R1	`BRAINPOOLP160R1`
SB_EC_BRAINPOOLP160T1	`BRAINPOOLP160T1`
SB_EC_BRAINPOOLP192R1	`BRAINPOOLP192R1`
SB_EC_BRAINPOOLP192T1	`BRAINPOOLP192T1`
SB_EC_BRAINPOOLP224R1	`BRAINPOOLP224R1`
SB_EC_BRAINPOOLP224T1	`BRAINPOOLP224T1`
SB_EC_BRAINPOOLP256R1	`BRAINPOOLP256R1`
SB_EC_BRAINPOOLP256T1	`BRAINPOOLP256T1`
SB_EC_BRAINPOOLP320R1	`BRAINPOOLP320R1`
SB_EC_BRAINPOOLP320T1	`BRAINPOOLP320T1`
SB_EC_BRAINPOOLP384R1	`BRAINPOOLP384R1`
SB_EC_BRAINPOOLP384T1	`BRAINPOOLP384T1`
SB_EC_BRAINPOOLP512R1	`BRAINPOOLP512R1`
SB_EC_BRAINPOOLP512T1	`BRAINPOOLP512T1`
SB_EC_CURVE25519	`CURVE25519`
SB_EC_CURVE448	`CURVE448`

fingerprint
Data

Contains the fingerprint (a hash imprint) of this certificate.

friendlyName
String

Contains an associated alias (friendly name) of the certificate.

handle
Int64

Allows to get or set a 'handle', a unique identifier of the underlying property object. Use this property to assign objects of the same type in a quicker manner, without copying them fieldwise.

When you pass a handle of one object to another, the source object is copied to the destination rather than assigned. It is safe to get rid of the original object after such operation. pdfSigner.setSigningCertHandle(certMgr.getCertHandle());

hashAlgorithm
String

Specifies the hash algorithm to be used in the operations on the certificate (such as key signing)


SB_HASH_ALGORITHM_SHA1	`SHA1`
SB_HASH_ALGORITHM_SHA224	`SHA224`
SB_HASH_ALGORITHM_SHA256	`SHA256`
SB_HASH_ALGORITHM_SHA384	`SHA384`
SB_HASH_ALGORITHM_SHA512	`SHA512`
SB_HASH_ALGORITHM_MD2	`MD2`
SB_HASH_ALGORITHM_MD4	`MD4`
SB_HASH_ALGORITHM_MD5	`MD5`
SB_HASH_ALGORITHM_RIPEMD160	`RIPEMD160`
SB_HASH_ALGORITHM_CRC32	`CRC32`
SB_HASH_ALGORITHM_SSL3	`SSL3`
SB_HASH_ALGORITHM_GOST_R3411_1994	`GOST1994`
SB_HASH_ALGORITHM_WHIRLPOOL	`WHIRLPOOL`
SB_HASH_ALGORITHM_POLY1305	`POLY1305`
SB_HASH_ALGORITHM_SHA3_224	`SHA3_224`
SB_HASH_ALGORITHM_SHA3_256	`SHA3_256`
SB_HASH_ALGORITHM_SHA3_384	`SHA3_384`
SB_HASH_ALGORITHM_SHA3_512	`SHA3_512`
SB_HASH_ALGORITHM_BLAKE2S_128	`BLAKE2S_128`
SB_HASH_ALGORITHM_BLAKE2S_160	`BLAKE2S_160`
SB_HASH_ALGORITHM_BLAKE2S_224	`BLAKE2S_224`
SB_HASH_ALGORITHM_BLAKE2S_256	`BLAKE2S_256`
SB_HASH_ALGORITHM_BLAKE2B_160	`BLAKE2B_160`
SB_HASH_ALGORITHM_BLAKE2B_256	`BLAKE2B_256`
SB_HASH_ALGORITHM_BLAKE2B_384	`BLAKE2B_384`
SB_HASH_ALGORITHM_BLAKE2B_512	`BLAKE2B_512`
SB_HASH_ALGORITHM_SHAKE_128	`SHAKE_128`
SB_HASH_ALGORITHM_SHAKE_256	`SHAKE_256`
SB_HASH_ALGORITHM_SHAKE_128_LEN	`SHAKE_128_LEN`
SB_HASH_ALGORITHM_SHAKE_256_LEN	`SHAKE_256_LEN`

issuer
String

The common name of the certificate issuer (CA), typically a company name.

issuerRDN
String

A collection of information, in the form of [OID, Value] pairs, uniquely identifying the certificate issuer.

keyAlgorithm
String

Specifies the public key algorithm of this certificate.


SB_CERT_ALGORITHM_ID_RSA_ENCRYPTION	`rsaEncryption`
SB_CERT_ALGORITHM_MD2_RSA_ENCRYPTION	`md2withRSAEncryption`
SB_CERT_ALGORITHM_MD5_RSA_ENCRYPTION	`md5withRSAEncryption`
SB_CERT_ALGORITHM_SHA1_RSA_ENCRYPTION	`sha1withRSAEncryption`
SB_CERT_ALGORITHM_ID_DSA	`id-dsa`
SB_CERT_ALGORITHM_ID_DSA_SHA1	`id-dsa-with-sha1`
SB_CERT_ALGORITHM_DH_PUBLIC	`dhpublicnumber`
SB_CERT_ALGORITHM_SHA224_RSA_ENCRYPTION	`sha224WithRSAEncryption`
SB_CERT_ALGORITHM_SHA256_RSA_ENCRYPTION	`sha256WithRSAEncryption`
SB_CERT_ALGORITHM_SHA384_RSA_ENCRYPTION	`sha384WithRSAEncryption`
SB_CERT_ALGORITHM_SHA512_RSA_ENCRYPTION	`sha512WithRSAEncryption`
SB_CERT_ALGORITHM_ID_RSAPSS	`id-RSASSA-PSS`
SB_CERT_ALGORITHM_ID_RSAOAEP	`id-RSAES-OAEP`
SB_CERT_ALGORITHM_RSASIGNATURE_RIPEMD160	`ripemd160withRSA`
SB_CERT_ALGORITHM_ID_ELGAMAL	`elGamal`
SB_CERT_ALGORITHM_SHA1_ECDSA	`ecdsa-with-SHA1`
SB_CERT_ALGORITHM_RECOMMENDED_ECDSA	`ecdsa-recommended`
SB_CERT_ALGORITHM_SHA224_ECDSA	`ecdsa-with-SHA224`
SB_CERT_ALGORITHM_SHA256_ECDSA	`ecdsa-with-SHA256`
SB_CERT_ALGORITHM_SHA384_ECDSA	`ecdsa-with-SHA384`
SB_CERT_ALGORITHM_SHA512_ECDSA	`ecdsa-with-SHA512`
SB_CERT_ALGORITHM_EC	`id-ecPublicKey`
SB_CERT_ALGORITHM_SPECIFIED_ECDSA	`ecdsa-specified`
SB_CERT_ALGORITHM_GOST_R3410_1994	`id-GostR3410-94`
SB_CERT_ALGORITHM_GOST_R3410_2001	`id-GostR3410-2001`
SB_CERT_ALGORITHM_GOST_R3411_WITH_R3410_1994	`id-GostR3411-94-with-GostR3410-94`
SB_CERT_ALGORITHM_GOST_R3411_WITH_R3410_2001	`id-GostR3411-94-with-GostR3410-2001`
SB_CERT_ALGORITHM_SHA1_ECDSA_PLAIN	`ecdsa-plain-SHA1`
SB_CERT_ALGORITHM_SHA224_ECDSA_PLAIN	`ecdsa-plain-SHA224`
SB_CERT_ALGORITHM_SHA256_ECDSA_PLAIN	`ecdsa-plain-SHA256`
SB_CERT_ALGORITHM_SHA384_ECDSA_PLAIN	`ecdsa-plain-SHA384`
SB_CERT_ALGORITHM_SHA512_ECDSA_PLAIN	`ecdsa-plain-SHA512`
SB_CERT_ALGORITHM_RIPEMD160_ECDSA_PLAIN	`ecdsa-plain-RIPEMD160`
SB_CERT_ALGORITHM_WHIRLPOOL_RSA_ENCRYPTION	`whirlpoolWithRSAEncryption`
SB_CERT_ALGORITHM_ID_DSA_SHA224	`id-dsa-with-sha224`
SB_CERT_ALGORITHM_ID_DSA_SHA256	`id-dsa-with-sha256`
SB_CERT_ALGORITHM_SHA3_224_RSA_ENCRYPTION	`id-rsassa-pkcs1-v1_5-with-sha3-224`
SB_CERT_ALGORITHM_SHA3_256_RSA_ENCRYPTION	`id-rsassa-pkcs1-v1_5-with-sha3-256`
SB_CERT_ALGORITHM_SHA3_384_RSA_ENCRYPTION	`id-rsassa-pkcs1-v1_5-with-sha3-384`
SB_CERT_ALGORITHM_SHA3_512_RSA_ENCRYPTION	`id-rsassa-pkcs1-v1_5-with-sha3-512`
SB_CERT_ALGORITHM_SHA3_224_ECDSA	`id-ecdsa-with-sha3-224`
SB_CERT_ALGORITHM_SHA3_256_ECDSA	`id-ecdsa-with-sha3-256`
SB_CERT_ALGORITHM_SHA3_384_ECDSA	`id-ecdsa-with-sha3-384`
SB_CERT_ALGORITHM_SHA3_512_ECDSA	`id-ecdsa-with-sha3-512`
SB_CERT_ALGORITHM_SHA3_224_ECDSA_PLAIN	`id-ecdsa-plain-with-sha3-224`
SB_CERT_ALGORITHM_SHA3_256_ECDSA_PLAIN	`id-ecdsa-plain-with-sha3-256`
SB_CERT_ALGORITHM_SHA3_384_ECDSA_PLAIN	`id-ecdsa-plain-with-sha3-384`
SB_CERT_ALGORITHM_SHA3_512_ECDSA_PLAIN	`id-ecdsa-plain-with-sha3-512`
SB_CERT_ALGORITHM_ID_DSA_SHA3_224	`id-dsa-with-sha3-224`
SB_CERT_ALGORITHM_ID_DSA_SHA3_256	`id-dsa-with-sha3-256`
SB_CERT_ALGORITHM_BLAKE2S_128_RSA_ENCRYPTION	`id-rsassa-pkcs1-v1_5-with-blake2s128`
SB_CERT_ALGORITHM_BLAKE2S_160_RSA_ENCRYPTION	`id-rsassa-pkcs1-v1_5-with-blake2s160`
SB_CERT_ALGORITHM_BLAKE2S_224_RSA_ENCRYPTION	`id-rsassa-pkcs1-v1_5-with-blake2s224`
SB_CERT_ALGORITHM_BLAKE2S_256_RSA_ENCRYPTION	`id-rsassa-pkcs1-v1_5-with-blake2s256`
SB_CERT_ALGORITHM_BLAKE2B_160_RSA_ENCRYPTION	`id-rsassa-pkcs1-v1_5-with-blake2b160`
SB_CERT_ALGORITHM_BLAKE2B_256_RSA_ENCRYPTION	`id-rsassa-pkcs1-v1_5-with-blake2b256`
SB_CERT_ALGORITHM_BLAKE2B_384_RSA_ENCRYPTION	`id-rsassa-pkcs1-v1_5-with-blake2b384`
SB_CERT_ALGORITHM_BLAKE2B_512_RSA_ENCRYPTION	`id-rsassa-pkcs1-v1_5-with-blake2b512`
SB_CERT_ALGORITHM_BLAKE2S_128_ECDSA	`id-ecdsa-with-blake2s128`
SB_CERT_ALGORITHM_BLAKE2S_160_ECDSA	`id-ecdsa-with-blake2s160`
SB_CERT_ALGORITHM_BLAKE2S_224_ECDSA	`id-ecdsa-with-blake2s224`
SB_CERT_ALGORITHM_BLAKE2S_256_ECDSA	`id-ecdsa-with-blake2s256`
SB_CERT_ALGORITHM_BLAKE2B_160_ECDSA	`id-ecdsa-with-blake2b160`
SB_CERT_ALGORITHM_BLAKE2B_256_ECDSA	`id-ecdsa-with-blake2b256`
SB_CERT_ALGORITHM_BLAKE2B_384_ECDSA	`id-ecdsa-with-blake2b384`
SB_CERT_ALGORITHM_BLAKE2B_512_ECDSA	`id-ecdsa-with-blake2b512`
SB_CERT_ALGORITHM_BLAKE2S_128_ECDSA_PLAIN	`id-ecdsa-plain-with-blake2s128`
SB_CERT_ALGORITHM_BLAKE2S_160_ECDSA_PLAIN	`id-ecdsa-plain-with-blake2s160`
SB_CERT_ALGORITHM_BLAKE2S_224_ECDSA_PLAIN	`id-ecdsa-plain-with-blake2s224`
SB_CERT_ALGORITHM_BLAKE2S_256_ECDSA_PLAIN	`id-ecdsa-plain-with-blake2s256`
SB_CERT_ALGORITHM_BLAKE2B_160_ECDSA_PLAIN	`id-ecdsa-plain-with-blake2b160`
SB_CERT_ALGORITHM_BLAKE2B_256_ECDSA_PLAIN	`id-ecdsa-plain-with-blake2b256`
SB_CERT_ALGORITHM_BLAKE2B_384_ECDSA_PLAIN	`id-ecdsa-plain-with-blake2b384`
SB_CERT_ALGORITHM_BLAKE2B_512_ECDSA_PLAIN	`id-ecdsa-plain-with-blake2b512`
SB_CERT_ALGORITHM_ID_DSA_BLAKE2S_224	`id-dsa-with-blake2s224`
SB_CERT_ALGORITHM_ID_DSA_BLAKE2S_256	`id-dsa-with-blake2s256`
SB_CERT_ALGORITHM_EDDSA_ED25519	`id-Ed25519`
SB_CERT_ALGORITHM_EDDSA_ED448	`id-Ed448`
SB_CERT_ALGORITHM_EDDSA_ED25519_PH	`id-Ed25519ph`
SB_CERT_ALGORITHM_EDDSA_ED448_PH	`id-Ed448ph`
SB_CERT_ALGORITHM_EDDSA	`id-EdDSA`
SB_CERT_ALGORITHM_EDDSA_SIGNATURE	`id-EdDSA-sig`

keyBits
Int32

Returns the length of the public key.

keyFingerprint
Data

Returns a fingerprint of the public key contained in the certificate.

keyUsage
Int32

Indicates the purposes of the key contained in the certificate, in the form of an OR'ed flag set.

This value is a bit mask of the following values:


ckuUnknown	`0x00000`	Unknown key usage
ckuDigitalSignature	`0x00001`	Digital signature
ckuNonRepudiation	`0x00002`	Non-repudiation
ckuKeyEncipherment	`0x00004`	Key encipherment
ckuDataEncipherment	`0x00008`	Data encipherment
ckuKeyAgreement	`0x00010`	Key agreement
ckuKeyCertSign	`0x00020`	Certificate signing
ckuCRLSign	`0x00040`	Revocation signing
ckuEncipherOnly	`0x00080`	Encipher only
ckuDecipherOnly	`0x00100`	Decipher only
ckuServerAuthentication	`0x00200`	Server authentication
ckuClientAuthentication	`0x00400`	Client authentication
ckuCodeSigning	`0x00800`	Code signing
ckuEmailProtection	`0x01000`	Email protection
ckuTimeStamping	`0x02000`	Timestamping
ckuOCSPSigning	`0x04000`	OCSP signing
ckuSmartCardLogon	`0x08000`	Smartcard logon
ckuKeyPurposeClientAuth	`0x10000`	Kerberos - client authentication
ckuKeyPurposeKDC	`0x20000`	Kerberos - KDC

keyValid
Bool

Returns True if the certificate's key is cryptographically valid, and False otherwise.

ocspLocations
String

Locations of OCSP (Online Certificate Status Protocol) services that can be used to check this certificate's validity, as recorded by the CA.

ocspNoCheck
Bool

Accessor to the value of the certificates ocsp-no-check extension.

origin
Int32

Returns the origin of this certificate.

policyIDs
String

Contains identifiers (OIDs) of the applicable certificate policies.

The Certificate Policies extension identifies a sequence of policies under which the certificate has been issued, and which regulate its usage.

privateKeyBytes
Data

Contains the certificate's private key. It is normal for this property to be empty if the private key is non-exportable.

privateKeyExists
Bool

Indicates whether the certificate has an associated private key.

privateKeyExtractable
Bool

Indicates whether the private key is extractable

publicKeyBytes
Data

Contains the certificate's public key in DER format.

qualifiedStatements
QualifiedStatementsTypes

Returns the qualified status of the certificate.

selfSigned
Bool

Indicates whether the certificate is self-signed (root) or signed by an external CA.

serialNumber
Data

Returns the certificate's serial number.

sigAlgorithm
String

Indicates the algorithm that was used by the CA to sign this certificate.

subject
String

The common name of the certificate holder, typically an individual's name, a URL, an e-mail address, or a company name.

subjectAlternativeName
String

Returns or sets the value of the Subject Alternative Name extension of the certificate.

subjectKeyID
Data

Contains a unique identifier (fingerprint) of the certificate's private key.

Subject Key Identifier is a (non-critical) X.509 certificate extension which allows the identification of certificates containing a particular public key. In SecureBlackbox, the unique identifier is represented with a SHA1 hash of the bit string of the subject public key.

subjectRDN
String

A collection of information, in the form of [OID, Value] pairs, uniquely identifying the certificate holder (subject).

validFrom
String

The time point at which the certificate becomes valid, in UTC.

validTo
String

The time point at which the certificate expires, in UTC.

Constructors

public init(stream: )

Loads the X.509 certificate from a stream. Stream is a stream containing the certificate data.

public init()

Creates a new object with default field values.

ExternalCrypto Type

Specifies the parameters of external cryptographic calls.

Remarks

External cryptocalls are used in a Distributed Cryptography (DC) subsystem, which allows the delegation of security operations to the remote agent. For instance, it can be used to compute the signature value on the server, while retaining the client's private key locally.

Fields

asyncDocumentID
String

Specifies an optional document ID for SignAsyncBegin() and SignAsyncEnd() calls.

Use this property when working with multi-signature DCAuth requests and responses to uniquely identify documents signed within a larger batch. On the completion stage, this value helps the signing component identify the correct signature in the returned batch of responses.

If using batched requests, make sure to set this property to the same value on both pre-signing (SignAsyncBegin) and completion (SignAsyncEnd) stages.

customParams
String

Custom parameters to be passed to the signing service (uninterpreted).

data
String

Additional data to be included in the async state and mirrored back by the requestor

externalHashCalculation
Bool

Specifies whether the message hash is to be calculated at the external endpoint. Please note that this mode is not supported by all components. In particular, components operating with larger objects (PDFSigner, CAdESSigner, XAdESSigner) do not support it.

hashAlgorithm
String

Specifies the request's signature hash algorithm.


SB_HASH_ALGORITHM_SHA1	`SHA1`
SB_HASH_ALGORITHM_SHA224	`SHA224`
SB_HASH_ALGORITHM_SHA256	`SHA256`
SB_HASH_ALGORITHM_SHA384	`SHA384`
SB_HASH_ALGORITHM_SHA512	`SHA512`
SB_HASH_ALGORITHM_MD2	`MD2`
SB_HASH_ALGORITHM_MD4	`MD4`
SB_HASH_ALGORITHM_MD5	`MD5`
SB_HASH_ALGORITHM_RIPEMD160	`RIPEMD160`
SB_HASH_ALGORITHM_CRC32	`CRC32`
SB_HASH_ALGORITHM_SSL3	`SSL3`
SB_HASH_ALGORITHM_GOST_R3411_1994	`GOST1994`
SB_HASH_ALGORITHM_WHIRLPOOL	`WHIRLPOOL`
SB_HASH_ALGORITHM_POLY1305	`POLY1305`
SB_HASH_ALGORITHM_SHA3_224	`SHA3_224`
SB_HASH_ALGORITHM_SHA3_256	`SHA3_256`
SB_HASH_ALGORITHM_SHA3_384	`SHA3_384`
SB_HASH_ALGORITHM_SHA3_512	`SHA3_512`
SB_HASH_ALGORITHM_BLAKE2S_128	`BLAKE2S_128`
SB_HASH_ALGORITHM_BLAKE2S_160	`BLAKE2S_160`
SB_HASH_ALGORITHM_BLAKE2S_224	`BLAKE2S_224`
SB_HASH_ALGORITHM_BLAKE2S_256	`BLAKE2S_256`
SB_HASH_ALGORITHM_BLAKE2B_160	`BLAKE2B_160`
SB_HASH_ALGORITHM_BLAKE2B_256	`BLAKE2B_256`
SB_HASH_ALGORITHM_BLAKE2B_384	`BLAKE2B_384`
SB_HASH_ALGORITHM_BLAKE2B_512	`BLAKE2B_512`
SB_HASH_ALGORITHM_SHAKE_128	`SHAKE_128`
SB_HASH_ALGORITHM_SHAKE_256	`SHAKE_256`
SB_HASH_ALGORITHM_SHAKE_128_LEN	`SHAKE_128_LEN`
SB_HASH_ALGORITHM_SHAKE_256_LEN	`SHAKE_256_LEN`

keyID
String

The ID of the pre-shared key used for DC request authentication.

Asynchronous DCAuth-driven communication requires that parties authenticate each other with a secret pre-shared cryptographic key. This provides extra protection layer for the protocol and diminishes the risk of private key becoming abused by foreign parties. Use this property to provide the pre-shared key identifier, and use to pass the key itself.

The same KeyID/KeySecret pair should be used on the DCAuth side for the signing requests to be accepted.

Note: The KeyID/KeySecret scheme is very similar to the AuthKey scheme used in various Cloud service providers to authenticate users.

Example: signer.ExternalCrypto.KeyID = "MainSigningKey"; signer.ExternalCrypto.KeySecret = "abcdef0123456789";

keySecret
String

The pre-shared key used for DC request authentication. This key must be set and match the key used by the DCAuth counterpart for the scheme to work.

method
AsyncSignMethods

Specifies the asynchronous signing method. This is typically defined by the DC server capabilities and setup.

Available options:


asmdPKCS1	`0`
asmdPKCS7	`1`

mode
ExternalCryptoModes

Specifies the external cryptography mode.

Available options:


ecmDefault	The default value (`0`)
ecmDisabled	Do not use DC or external signing (`1`)
ecmGeneric	Generic external signing with OnExternalSign event (`2`)
ecmDCAuth	DCAuth signing (`3`)
ecmDCAuthJSON	DCAuth signing in JSON format (`4`)

publicKeyAlgorithm
String

Provide public key algorithm here if the certificate is not available on the pre-signing stage.


SB_CERT_ALGORITHM_ID_RSA_ENCRYPTION	`rsaEncryption`
SB_CERT_ALGORITHM_MD2_RSA_ENCRYPTION	`md2withRSAEncryption`
SB_CERT_ALGORITHM_MD5_RSA_ENCRYPTION	`md5withRSAEncryption`
SB_CERT_ALGORITHM_SHA1_RSA_ENCRYPTION	`sha1withRSAEncryption`
SB_CERT_ALGORITHM_ID_DSA	`id-dsa`
SB_CERT_ALGORITHM_ID_DSA_SHA1	`id-dsa-with-sha1`
SB_CERT_ALGORITHM_DH_PUBLIC	`dhpublicnumber`
SB_CERT_ALGORITHM_SHA224_RSA_ENCRYPTION	`sha224WithRSAEncryption`
SB_CERT_ALGORITHM_SHA256_RSA_ENCRYPTION	`sha256WithRSAEncryption`
SB_CERT_ALGORITHM_SHA384_RSA_ENCRYPTION	`sha384WithRSAEncryption`
SB_CERT_ALGORITHM_SHA512_RSA_ENCRYPTION	`sha512WithRSAEncryption`
SB_CERT_ALGORITHM_ID_RSAPSS	`id-RSASSA-PSS`
SB_CERT_ALGORITHM_ID_RSAOAEP	`id-RSAES-OAEP`
SB_CERT_ALGORITHM_RSASIGNATURE_RIPEMD160	`ripemd160withRSA`
SB_CERT_ALGORITHM_ID_ELGAMAL	`elGamal`
SB_CERT_ALGORITHM_SHA1_ECDSA	`ecdsa-with-SHA1`
SB_CERT_ALGORITHM_RECOMMENDED_ECDSA	`ecdsa-recommended`
SB_CERT_ALGORITHM_SHA224_ECDSA	`ecdsa-with-SHA224`
SB_CERT_ALGORITHM_SHA256_ECDSA	`ecdsa-with-SHA256`
SB_CERT_ALGORITHM_SHA384_ECDSA	`ecdsa-with-SHA384`
SB_CERT_ALGORITHM_SHA512_ECDSA	`ecdsa-with-SHA512`
SB_CERT_ALGORITHM_EC	`id-ecPublicKey`
SB_CERT_ALGORITHM_SPECIFIED_ECDSA	`ecdsa-specified`
SB_CERT_ALGORITHM_GOST_R3410_1994	`id-GostR3410-94`
SB_CERT_ALGORITHM_GOST_R3410_2001	`id-GostR3410-2001`
SB_CERT_ALGORITHM_GOST_R3411_WITH_R3410_1994	`id-GostR3411-94-with-GostR3410-94`
SB_CERT_ALGORITHM_GOST_R3411_WITH_R3410_2001	`id-GostR3411-94-with-GostR3410-2001`
SB_CERT_ALGORITHM_SHA1_ECDSA_PLAIN	`ecdsa-plain-SHA1`
SB_CERT_ALGORITHM_SHA224_ECDSA_PLAIN	`ecdsa-plain-SHA224`
SB_CERT_ALGORITHM_SHA256_ECDSA_PLAIN	`ecdsa-plain-SHA256`
SB_CERT_ALGORITHM_SHA384_ECDSA_PLAIN	`ecdsa-plain-SHA384`
SB_CERT_ALGORITHM_SHA512_ECDSA_PLAIN	`ecdsa-plain-SHA512`
SB_CERT_ALGORITHM_RIPEMD160_ECDSA_PLAIN	`ecdsa-plain-RIPEMD160`
SB_CERT_ALGORITHM_WHIRLPOOL_RSA_ENCRYPTION	`whirlpoolWithRSAEncryption`
SB_CERT_ALGORITHM_ID_DSA_SHA224	`id-dsa-with-sha224`
SB_CERT_ALGORITHM_ID_DSA_SHA256	`id-dsa-with-sha256`
SB_CERT_ALGORITHM_SHA3_224_RSA_ENCRYPTION	`id-rsassa-pkcs1-v1_5-with-sha3-224`
SB_CERT_ALGORITHM_SHA3_256_RSA_ENCRYPTION	`id-rsassa-pkcs1-v1_5-with-sha3-256`
SB_CERT_ALGORITHM_SHA3_384_RSA_ENCRYPTION	`id-rsassa-pkcs1-v1_5-with-sha3-384`
SB_CERT_ALGORITHM_SHA3_512_RSA_ENCRYPTION	`id-rsassa-pkcs1-v1_5-with-sha3-512`
SB_CERT_ALGORITHM_SHA3_224_ECDSA	`id-ecdsa-with-sha3-224`
SB_CERT_ALGORITHM_SHA3_256_ECDSA	`id-ecdsa-with-sha3-256`
SB_CERT_ALGORITHM_SHA3_384_ECDSA	`id-ecdsa-with-sha3-384`
SB_CERT_ALGORITHM_SHA3_512_ECDSA	`id-ecdsa-with-sha3-512`
SB_CERT_ALGORITHM_SHA3_224_ECDSA_PLAIN	`id-ecdsa-plain-with-sha3-224`
SB_CERT_ALGORITHM_SHA3_256_ECDSA_PLAIN	`id-ecdsa-plain-with-sha3-256`
SB_CERT_ALGORITHM_SHA3_384_ECDSA_PLAIN	`id-ecdsa-plain-with-sha3-384`
SB_CERT_ALGORITHM_SHA3_512_ECDSA_PLAIN	`id-ecdsa-plain-with-sha3-512`
SB_CERT_ALGORITHM_ID_DSA_SHA3_224	`id-dsa-with-sha3-224`
SB_CERT_ALGORITHM_ID_DSA_SHA3_256	`id-dsa-with-sha3-256`
SB_CERT_ALGORITHM_BLAKE2S_128_RSA_ENCRYPTION	`id-rsassa-pkcs1-v1_5-with-blake2s128`
SB_CERT_ALGORITHM_BLAKE2S_160_RSA_ENCRYPTION	`id-rsassa-pkcs1-v1_5-with-blake2s160`
SB_CERT_ALGORITHM_BLAKE2S_224_RSA_ENCRYPTION	`id-rsassa-pkcs1-v1_5-with-blake2s224`
SB_CERT_ALGORITHM_BLAKE2S_256_RSA_ENCRYPTION	`id-rsassa-pkcs1-v1_5-with-blake2s256`
SB_CERT_ALGORITHM_BLAKE2B_160_RSA_ENCRYPTION	`id-rsassa-pkcs1-v1_5-with-blake2b160`
SB_CERT_ALGORITHM_BLAKE2B_256_RSA_ENCRYPTION	`id-rsassa-pkcs1-v1_5-with-blake2b256`
SB_CERT_ALGORITHM_BLAKE2B_384_RSA_ENCRYPTION	`id-rsassa-pkcs1-v1_5-with-blake2b384`
SB_CERT_ALGORITHM_BLAKE2B_512_RSA_ENCRYPTION	`id-rsassa-pkcs1-v1_5-with-blake2b512`
SB_CERT_ALGORITHM_BLAKE2S_128_ECDSA	`id-ecdsa-with-blake2s128`
SB_CERT_ALGORITHM_BLAKE2S_160_ECDSA	`id-ecdsa-with-blake2s160`
SB_CERT_ALGORITHM_BLAKE2S_224_ECDSA	`id-ecdsa-with-blake2s224`
SB_CERT_ALGORITHM_BLAKE2S_256_ECDSA	`id-ecdsa-with-blake2s256`
SB_CERT_ALGORITHM_BLAKE2B_160_ECDSA	`id-ecdsa-with-blake2b160`
SB_CERT_ALGORITHM_BLAKE2B_256_ECDSA	`id-ecdsa-with-blake2b256`
SB_CERT_ALGORITHM_BLAKE2B_384_ECDSA	`id-ecdsa-with-blake2b384`
SB_CERT_ALGORITHM_BLAKE2B_512_ECDSA	`id-ecdsa-with-blake2b512`
SB_CERT_ALGORITHM_BLAKE2S_128_ECDSA_PLAIN	`id-ecdsa-plain-with-blake2s128`
SB_CERT_ALGORITHM_BLAKE2S_160_ECDSA_PLAIN	`id-ecdsa-plain-with-blake2s160`
SB_CERT_ALGORITHM_BLAKE2S_224_ECDSA_PLAIN	`id-ecdsa-plain-with-blake2s224`
SB_CERT_ALGORITHM_BLAKE2S_256_ECDSA_PLAIN	`id-ecdsa-plain-with-blake2s256`
SB_CERT_ALGORITHM_BLAKE2B_160_ECDSA_PLAIN	`id-ecdsa-plain-with-blake2b160`
SB_CERT_ALGORITHM_BLAKE2B_256_ECDSA_PLAIN	`id-ecdsa-plain-with-blake2b256`
SB_CERT_ALGORITHM_BLAKE2B_384_ECDSA_PLAIN	`id-ecdsa-plain-with-blake2b384`
SB_CERT_ALGORITHM_BLAKE2B_512_ECDSA_PLAIN	`id-ecdsa-plain-with-blake2b512`
SB_CERT_ALGORITHM_ID_DSA_BLAKE2S_224	`id-dsa-with-blake2s224`
SB_CERT_ALGORITHM_ID_DSA_BLAKE2S_256	`id-dsa-with-blake2s256`
SB_CERT_ALGORITHM_EDDSA_ED25519	`id-Ed25519`
SB_CERT_ALGORITHM_EDDSA_ED448	`id-Ed448`
SB_CERT_ALGORITHM_EDDSA_ED25519_PH	`id-Ed25519ph`
SB_CERT_ALGORITHM_EDDSA_ED448_PH	`id-Ed448ph`
SB_CERT_ALGORITHM_EDDSA	`id-EdDSA`
SB_CERT_ALGORITHM_EDDSA_SIGNATURE	`id-EdDSA-sig`

Constructors

public init()

Creates a new ExternalCrypto object with default field values.

SocketSettings Type

A container for the socket settings.

Remarks

This type is a container for socket-layer parameters.

Fields

dnsMode
DNSResolveModes

Selects the DNS resolver to use: the component's (secure) built-in one, or the one provided by the system.


dmAuto	`0`
dmPlatform	`1`
dmOwn	`2`
dmOwnSecure	`3`

dnsPort
Int32

Specifies the port number to be used for sending queries to the DNS server.

dnsQueryTimeout
Int32

The timeout (in milliseconds) for each DNS query. The value of 0 indicates the infinite timeout.

dnsServers
String

The addresses of DNS servers to use for address resolution, separated by commas or semicolons.

dnsTotalTimeout
Int32

The timeout (in milliseconds) for the whole resolution process. The value of 0 indicates the infinite timeout.

incomingSpeedLimit
Int32

The maximum number of bytes to read from the socket, per second.

localAddress
String

The local network interface to bind the socket to.

localPort
Int32

The local port number to bind the socket to.

outgoingSpeedLimit
Int32

The maximum number of bytes to write to the socket, per second.

timeout
Int32

The maximum period of waiting, in milliseconds, after which the socket operation is considered unsuccessful.

If Timeout is set to 0, a socket operation will expire after the system-default timeout (2 hrs 8 min for TCP stack).

useIPv6
Bool

Enables or disables IP protocol version 6.

Constructors

public init()

Creates a new SocketSettings object.

TLSClientEntry Type

A container for a connected TLS client's details.

Remarks

Use this property to access the details of a particular connected client.

Fields

address
String

The client's IP address.

chainValidationDetails
Int32

The details of a certificate chain validation outcome. They may often suggest what reasons that contributed to the overall validation result.

Returns a bit mask of the following options:


cvrBadData	`0x0001`	One or more certificates in the validation path are malformed
cvrRevoked	`0x0002`	One or more certificates are revoked
cvrNotYetValid	`0x0004`	One or more certificates are not yet valid
cvrExpired	`0x0008`	One or more certificates are expired
cvrInvalidSignature	`0x0010`	A certificate contains a non-valid digital signature
cvrUnknownCA	`0x0020`	A CA certificate for one or more certificates has not been found (chain incomplete)
cvrCAUnauthorized	`0x0040`	One of the CA certificates are not authorized to act as CA
cvrCRLNotVerified	`0x0080`	One or more CRLs could not be verified
cvrOCSPNotVerified	`0x0100`	One or more OCSP responses could not be verified
cvrIdentityMismatch	`0x0200`	The identity protected by the certificate (a TLS endpoint or an e-mail addressee) does not match what is recorded in the certificate
cvrNoKeyUsage	`0x0400`	A mandatory key usage is not enabled in one of the chain certificates
cvrBlocked	`0x0800`	One or more certificates are blocked
cvrFailure	`0x1000`	General validation failure
cvrChainLoop	`0x2000`	Chain loop: one of the CA certificates recursively signs itself
cvrWeakAlgorithm	`0x4000`	A weak algorithm is used in one of certificates or revocation elements
cvrUserEnforced	`0x8000`	The chain was considered invalid following intervention from a user code

chainValidationResult
ChainValidities

The outcome of a certificate chain validation routine.

Available options:


cvtValid	`0`	The chain is valid
cvtValidButUntrusted	`1`	The chain is valid, but the root certificate is not trusted
cvtInvalid	`2`	The chain is not valid (some of certificates are revoked, expired, or contain an invalid signature)
cvtCantBeEstablished	`3`	The validity of the chain cannot be established because of missing or unavailable validation information (certificates, CRLs, or OCSP responses)

Use the ValidationLog property to access the detailed validation log.

ciphersuite
String

The cipher suite employed by this connection.

For TLS connections, this property returns the ciphersuite that was/is employed by the connection.

clientAuthenticated
Bool

Specifies whether client authentication was performed during this connection.

digestAlgorithm
String

The digest algorithm used in a TLS-enabled connection.

encryptionAlgorithm
String

The symmetric encryption algorithm used in a TLS-enabled connection.

id
Int64

The client connection's unique identifier. This value is used throughout to refer to a particular client connection.

keyExchangeAlgorithm
String

The key exchange algorithm used in a TLS-enabled connection.

keyExchangeKeyBits
Int32

The length of the key exchange key of a TLS-enabled connection.

namedECCurve
String

The elliptic curve used in this connection.

pfsCipher
Bool

Indicates whether the chosen ciphersuite provides perfect forward secrecy (PFS).

port
Int32

The remote port of the client connection.

preSharedIdentity
String

Specifies the identity used when the PSK (Pre-Shared Key) key-exchange mechanism is negotiated.

publicKeyBits
Int32

The length of the public key.

resumedSession
Bool

Indicates whether a TLS-enabled connection was spawned from another TLS connection

secureConnection
Bool

Indicates whether TLS or SSL is enabled for this connection.

signatureAlgorithm
String

The signature algorithm used in a TLS handshake.

symmetricBlockSize
Int32

The block size of the symmetric algorithm used.

symmetricKeyBits
Int32

The key length of the symmetric algorithm used.

totalBytesReceived
Int64

The total number of bytes received over this connection.

totalBytesSent
Int64

The total number of bytes sent over this connection.

validationLog
String

Contains the server certificate's chain validation log. This information may be very useful in investigating chain validation failures.

version
String

Indicates the version of SSL/TLS protocol negotiated during this connection.

Constructors

public init()

Creates a new TLSClientEntry object.

TLSSettings Type

A container for TLS connection settings.

Remarks

TLS (Transport Layer Security) protocol provides security for information exchanged over insecure connections such as TCP/IP.

Fields

autoValidateCertificates
Bool

Specifies whether server-side TLS certificates should be validated automatically using internal validation rules.

baseConfiguration
SecureTransportPredefinedConfigurations

Selects the base configuration for the TLS settings. Several profiles are on offer, tuned up for different purposes, such as high security or higher compatibility.


stpcDefault	`0`
stpcCompatible	`1`
stpcComprehensiveInsecure	`2`
stpcHighlySecure	`3`

ciphersuites
String

A list of ciphersuites separated with commas or semicolons. Each ciphersuite in the list may be prefixed with a minus sign (-) to indicate that the ciphersuite should be disabled rather than enabled. Besides the specific ciphersuite modifiers, this property supports the all (and -all) aliases that allow to blanketly enable or disable all ciphersuites at once.

Note: the list of ciphersuites provided to this property alters the baseline list of ciphersuites as defined by BaseConfiguration. Remember to start your ciphersuite string with -all; if you need to only enable a specific fixed set of ciphersuites. The list of supported ciphersuites is provided below:

NULL_NULL_NULL
RSA_NULL_MD5
RSA_NULL_SHA
RSA_RC4_MD5
RSA_RC4_SHA
RSA_RC2_MD5
RSA_IDEA_MD5
RSA_IDEA_SHA
RSA_DES_MD5
RSA_DES_SHA
RSA_3DES_MD5
RSA_3DES_SHA
RSA_AES128_SHA
RSA_AES256_SHA
DH_DSS_DES_SHA
DH_DSS_3DES_SHA
DH_DSS_AES128_SHA
DH_DSS_AES256_SHA
DH_RSA_DES_SHA
DH_RSA_3DES_SHA
DH_RSA_AES128_SHA
DH_RSA_AES256_SHA
DHE_DSS_DES_SHA
DHE_DSS_3DES_SHA
DHE_DSS_AES128_SHA
DHE_DSS_AES256_SHA
DHE_RSA_DES_SHA
DHE_RSA_3DES_SHA
DHE_RSA_AES128_SHA
DHE_RSA_AES256_SHA
DH_ANON_RC4_MD5
DH_ANON_DES_SHA
DH_ANON_3DES_SHA
DH_ANON_AES128_SHA
DH_ANON_AES256_SHA
RSA_RC2_MD5_EXPORT
RSA_RC4_MD5_EXPORT
RSA_DES_SHA_EXPORT
DH_DSS_DES_SHA_EXPORT
DH_RSA_DES_SHA_EXPORT
DHE_DSS_DES_SHA_EXPORT
DHE_RSA_DES_SHA_EXPORT
DH_ANON_RC4_MD5_EXPORT
DH_ANON_DES_SHA_EXPORT
RSA_CAMELLIA128_SHA
DH_DSS_CAMELLIA128_SHA
DH_RSA_CAMELLIA128_SHA
DHE_DSS_CAMELLIA128_SHA
DHE_RSA_CAMELLIA128_SHA
DH_ANON_CAMELLIA128_SHA
RSA_CAMELLIA256_SHA
DH_DSS_CAMELLIA256_SHA
DH_RSA_CAMELLIA256_SHA
DHE_DSS_CAMELLIA256_SHA
DHE_RSA_CAMELLIA256_SHA
DH_ANON_CAMELLIA256_SHA
PSK_RC4_SHA
PSK_3DES_SHA
PSK_AES128_SHA
PSK_AES256_SHA
DHE_PSK_RC4_SHA
DHE_PSK_3DES_SHA
DHE_PSK_AES128_SHA
DHE_PSK_AES256_SHA
RSA_PSK_RC4_SHA
RSA_PSK_3DES_SHA
RSA_PSK_AES128_SHA
RSA_PSK_AES256_SHA
RSA_SEED_SHA
DH_DSS_SEED_SHA
DH_RSA_SEED_SHA
DHE_DSS_SEED_SHA
DHE_RSA_SEED_SHA
DH_ANON_SEED_SHA
SRP_SHA_3DES_SHA
SRP_SHA_RSA_3DES_SHA
SRP_SHA_DSS_3DES_SHA
SRP_SHA_AES128_SHA
SRP_SHA_RSA_AES128_SHA
SRP_SHA_DSS_AES128_SHA
SRP_SHA_AES256_SHA
SRP_SHA_RSA_AES256_SHA
SRP_SHA_DSS_AES256_SHA
ECDH_ECDSA_NULL_SHA
ECDH_ECDSA_RC4_SHA
ECDH_ECDSA_3DES_SHA
ECDH_ECDSA_AES128_SHA
ECDH_ECDSA_AES256_SHA
ECDHE_ECDSA_NULL_SHA
ECDHE_ECDSA_RC4_SHA
ECDHE_ECDSA_3DES_SHA
ECDHE_ECDSA_AES128_SHA
ECDHE_ECDSA_AES256_SHA
ECDH_RSA_NULL_SHA
ECDH_RSA_RC4_SHA
ECDH_RSA_3DES_SHA
ECDH_RSA_AES128_SHA
ECDH_RSA_AES256_SHA
ECDHE_RSA_NULL_SHA
ECDHE_RSA_RC4_SHA
ECDHE_RSA_3DES_SHA
ECDHE_RSA_AES128_SHA
ECDHE_RSA_AES256_SHA
ECDH_ANON_NULL_SHA
ECDH_ANON_RC4_SHA
ECDH_ANON_3DES_SHA
ECDH_ANON_AES128_SHA
ECDH_ANON_AES256_SHA
RSA_NULL_SHA256
RSA_AES128_SHA256
RSA_AES256_SHA256
DH_DSS_AES128_SHA256
DH_RSA_AES128_SHA256
DHE_DSS_AES128_SHA256
DHE_RSA_AES128_SHA256
DH_DSS_AES256_SHA256
DH_RSA_AES256_SHA256
DHE_DSS_AES256_SHA256
DHE_RSA_AES256_SHA256
DH_ANON_AES128_SHA256
DH_ANON_AES256_SHA256
RSA_AES128_GCM_SHA256
RSA_AES256_GCM_SHA384
DHE_RSA_AES128_GCM_SHA256
DHE_RSA_AES256_GCM_SHA384
DH_RSA_AES128_GCM_SHA256
DH_RSA_AES256_GCM_SHA384
DHE_DSS_AES128_GCM_SHA256
DHE_DSS_AES256_GCM_SHA384
DH_DSS_AES128_GCM_SHA256
DH_DSS_AES256_GCM_SHA384
DH_ANON_AES128_GCM_SHA256
DH_ANON_AES256_GCM_SHA384
ECDHE_ECDSA_AES128_SHA256
ECDHE_ECDSA_AES256_SHA384
ECDH_ECDSA_AES128_SHA256
ECDH_ECDSA_AES256_SHA384
ECDHE_RSA_AES128_SHA256
ECDHE_RSA_AES256_SHA384
ECDH_RSA_AES128_SHA256
ECDH_RSA_AES256_SHA384
ECDHE_ECDSA_AES128_GCM_SHA256
ECDHE_ECDSA_AES256_GCM_SHA384
ECDH_ECDSA_AES128_GCM_SHA256
ECDH_ECDSA_AES256_GCM_SHA384
ECDHE_RSA_AES128_GCM_SHA256
ECDHE_RSA_AES256_GCM_SHA384
ECDH_RSA_AES128_GCM_SHA256
ECDH_RSA_AES256_GCM_SHA384
PSK_AES128_GCM_SHA256
PSK_AES256_GCM_SHA384
DHE_PSK_AES128_GCM_SHA256
DHE_PSK_AES256_GCM_SHA384
RSA_PSK_AES128_GCM_SHA256
RSA_PSK_AES256_GCM_SHA384
PSK_AES128_SHA256
PSK_AES256_SHA384
PSK_NULL_SHA256
PSK_NULL_SHA384
DHE_PSK_AES128_SHA256
DHE_PSK_AES256_SHA384
DHE_PSK_NULL_SHA256
DHE_PSK_NULL_SHA384
RSA_PSK_AES128_SHA256
RSA_PSK_AES256_SHA384
RSA_PSK_NULL_SHA256
RSA_PSK_NULL_SHA384
RSA_CAMELLIA128_SHA256
DH_DSS_CAMELLIA128_SHA256
DH_RSA_CAMELLIA128_SHA256
DHE_DSS_CAMELLIA128_SHA256
DHE_RSA_CAMELLIA128_SHA256
DH_ANON_CAMELLIA128_SHA256
RSA_CAMELLIA256_SHA256
DH_DSS_CAMELLIA256_SHA256
DH_RSA_CAMELLIA256_SHA256
DHE_DSS_CAMELLIA256_SHA256
DHE_RSA_CAMELLIA256_SHA256
DH_ANON_CAMELLIA256_SHA256
ECDHE_ECDSA_CAMELLIA128_SHA256
ECDHE_ECDSA_CAMELLIA256_SHA384
ECDH_ECDSA_CAMELLIA128_SHA256
ECDH_ECDSA_CAMELLIA256_SHA384
ECDHE_RSA_CAMELLIA128_SHA256
ECDHE_RSA_CAMELLIA256_SHA384
ECDH_RSA_CAMELLIA128_SHA256
ECDH_RSA_CAMELLIA256_SHA384
RSA_CAMELLIA128_GCM_SHA256
RSA_CAMELLIA256_GCM_SHA384
DHE_RSA_CAMELLIA128_GCM_SHA256
DHE_RSA_CAMELLIA256_GCM_SHA384
DH_RSA_CAMELLIA128_GCM_SHA256
DH_RSA_CAMELLIA256_GCM_SHA384
DHE_DSS_CAMELLIA128_GCM_SHA256
DHE_DSS_CAMELLIA256_GCM_SHA384
DH_DSS_CAMELLIA128_GCM_SHA256
DH_DSS_CAMELLIA256_GCM_SHA384
DH_anon_CAMELLIA128_GCM_SHA256
DH_anon_CAMELLIA256_GCM_SHA384
ECDHE_ECDSA_CAMELLIA128_GCM_SHA256
ECDHE_ECDSA_CAMELLIA256_GCM_SHA384
ECDH_ECDSA_CAMELLIA128_GCM_SHA256
ECDH_ECDSA_CAMELLIA256_GCM_SHA384
ECDHE_RSA_CAMELLIA128_GCM_SHA256
ECDHE_RSA_CAMELLIA256_GCM_SHA384
ECDH_RSA_CAMELLIA128_GCM_SHA256
ECDH_RSA_CAMELLIA256_GCM_SHA384
PSK_CAMELLIA128_GCM_SHA256
PSK_CAMELLIA256_GCM_SHA384
DHE_PSK_CAMELLIA128_GCM_SHA256
DHE_PSK_CAMELLIA256_GCM_SHA384
RSA_PSK_CAMELLIA128_GCM_SHA256
RSA_PSK_CAMELLIA256_GCM_SHA384
PSK_CAMELLIA128_SHA256
PSK_CAMELLIA256_SHA384
DHE_PSK_CAMELLIA128_SHA256
DHE_PSK_CAMELLIA256_SHA384
RSA_PSK_CAMELLIA128_SHA256
RSA_PSK_CAMELLIA256_SHA384
ECDHE_PSK_CAMELLIA128_SHA256
ECDHE_PSK_CAMELLIA256_SHA384
ECDHE_PSK_RC4_SHA
ECDHE_PSK_3DES_SHA
ECDHE_PSK_AES128_SHA
ECDHE_PSK_AES256_SHA
ECDHE_PSK_AES128_SHA256
ECDHE_PSK_AES256_SHA384
ECDHE_PSK_NULL_SHA
ECDHE_PSK_NULL_SHA256
ECDHE_PSK_NULL_SHA384
ECDHE_RSA_CHACHA20_POLY1305_SHA256
ECDHE_ECDSA_CHACHA20_POLY1305_SHA256
DHE_RSA_CHACHA20_POLY1305_SHA256
PSK_CHACHA20_POLY1305_SHA256
ECDHE_PSK_CHACHA20_POLY1305_SHA256
DHE_PSK_CHACHA20_POLY1305_SHA256
RSA_PSK_CHACHA20_POLY1305_SHA256
AES128_GCM_SHA256
AES256_GCM_SHA384
CHACHA20_POLY1305_SHA256
AES128_CCM_SHA256
AES128_CCM8_SHA256

ecCurves
String

Defines the elliptic curves to enable.

extensions
String

Provides access to TLS extensions.

forceResumeIfDestinationChanges
Bool

Whether to force TLS session resumption when the destination address changes.

preSharedIdentity
String

Defines the identity used when the PSK (Pre-Shared Key) key-exchange mechanism is negotiated.

preSharedKey
String

Contains the pre-shared for the PSK (Pre-Shared Key) key-exchange mechanism, encoded with base16.

preSharedKeyCiphersuite
String

Defines the ciphersuite used for PSK (Pre-Shared Key) negotiation.

renegotiationAttackPreventionMode
RenegotiationAttackPreventionModes

Selects renegotiation attack prevention mechanism.

The following options are available:


crapmCompatible	`0`	TLS 1.0 and 1.1 compatibility mode (renegotiation indication extension is disabled).
crapmStrict	`1`	Renegotiation attack prevention is enabled and enforced.
crapmAuto	`2`	Automatically choose whether to enable or disable renegotiation attack prevention.

revocationCheck
RevocationCheckKinds

Specifies the kind(s) of revocation check to perform.

Revocation checking is necessary to ensure the integrity of the chain and obtain up-to-date certificate validity and trustworthiness information.


crcNone	`0`	No revocation checking
crcAuto	`1`	Automatic mode selection. Currently this maps to crcAnyOCSPOrCRL, but it may change in the future.
crcAllCRL	`2`	Check all provided CRL endpoints for all chain certificates.
crcAllOCSP	`3`	Check all provided OCSP endpoints for all chain certificates.
crcAllCRLAndOCSP	`4`	Check all CRL and OCSP endpoints for all chain certificates.
crcAnyCRL	`5`	At least one CRL check for every certificate in the chain must succeed.
crcAnyOCSP	`6`	At least one OCSP check for every certificate in the chain must succeed.
crcAnyCRLOrOCSP	`7`	At least one CRL or OCSP check for every certificate in the chain must succeed. CRL endpoints are checked first.
crcAnyOCSPOrCRL	`8`	At least one CRL or OCSP check for every certificate in the chain must succeed. OCSP endpoints are checked first.

This setting controls the way the revocation checks are performed. Typically certificates come with two types of revocation information sources: CRL (certificate revocation lists) and OCSP responders. CRLs are static objects periodically published by the CA at some online location. OCSP responders are active online services maintained by the CA that can provide up-to-date information on certificate statuses in near real time.

There are some conceptual differences between the two. CRLs are normally larger in size. Their use involves some latency because there is normally some delay between the time when a certificate was revoked and the time the subsequent CRL mentioning that is published. The benefits of CRL is that the same object can provide statuses for all certificates issued by a particular CA, and that the whole technology is much simpler than OCSP (and thus is supported by more CAs).

This setting lets you adjust the validation course by including or excluding certain types of revocation sources from the validation process. The crcAnyOCSPOrCRL setting (give preference to faster OCSP route and only demand one source to succeed) is a good choice for most of typical validation environments. The "crcAll*" modes are much stricter, and may be used in scenarios where bulletproof validity information is essential.

sslOptions
Int32

Various SSL (TLS) protocol options, set of


cssloExpectShutdownMessage	`0x001`	Wait for the close-notify message when shutting down the connection
cssloOpenSSLDTLSWorkaround	`0x002`	(DEPRECATED) Use a DTLS version workaround when talking to very old OpenSSL versions
cssloDisableKexLengthAlignment	`0x004`	Do not align the client-side PMS by the RSA modulus size. It is unlikely that you will ever need to adjust it.
cssloForceUseOfClientCertHashAlg	`0x008`	Enforce use of client certificate hash algorithm. It is unlikely that you will ever need to adjust it.
cssloAutoAddServerNameExtension	`0x010`	Automatically add server name extension when known
cssloAcceptTrustedSRPPrimesOnly	`0x020`	Accept trusted SRP primes only
cssloDisableSignatureAlgorithmsExtension	`0x040`	Disable (not send) signature algorithms extension. It is unlikely that you will ever need to adjust it.
cssloIntolerateHigherProtocolVersions	`0x080`	(server option) Do not allow fallback from TLS versions higher than currently enabled
cssloStickToPrefCertHashAlg	`0x100`	Stick to preferred certificate hash algorithms
cssloNoImplicitTLS12Fallback	`0x200`	Disable implicit TLS 1.3 to 1.2 fallbacks
cssloUseHandshakeBatches	`0x400`	Send handshake message as large batches rather than individually

tlsMode
SSLModes

Specifies the TLS mode to use.


smDefault	`0`
smNoTLS	`1`	Do not use TLS
smExplicitTLS	`2`	Connect to the server without any encryption and then request an SSL session.
smImplicitTLS	`3`	Connect to the specified port, and establish the SSL session at once.
smMixedTLS	`4`	Connect to the specified port, and establish the SSL session at once, allow plain data.

useExtendedMasterSecret
Bool

Enables Extended Master Secret Extension, as defined in RFC 7627.

useSessionResumption
Bool

Enables or disables TLS session resumption capability.

versions
Int32

The SSL/TLS versions to enable by default.


csbSSL2	`0x01`	SSL 2
csbSSL3	`0x02`	SSL 3
csbTLS1	`0x04`	TLS 1.0
csbTLS11	`0x08`	TLS 1.1
csbTLS12	`0x10`	TLS 1.2
csbTLS13	`0x20`	TLS 1.3

Constructors

public init()

Creates a new TLSSettings object.

UserAccount Type

A container for user account information.

Remarks

UserAccount objects are used to store user account information, such as logins and passwords.

Fields

associatedData
Data

Contains the user's Associated Data when SSH AEAD (Authenticated Encryption with Associated Data) algorithm is used.

basePath
String

Base path for this user in the server's file system.

cert
Data

Contains the user's certificate.

data
String

Contains uninterpreted user-defined data that should be associated with the user account, such as comments or custom settings.

handle
Int64

Allows to get or set a 'handle', a unique identifier of the underlying property object. Use this property to assign objects of the same type in a quicker manner, without copying them fieldwise.

hashAlgorithm
String

Specifies the hash algorithm used to generate TOTP (Time-based One-Time Passwords) passwords for this user. Three HMAC algorithms are supported, with SHA-1, SHA-256, and SHA-512 digests:


SB_MAC_ALGORITHM_HMAC_SHA1	`SHA1`
SB_MAC_ALGORITHM_HMAC_SHA256	`SHA256`
SB_MAC_ALGORITHM_HMAC_SHA512	`SHA512`

incomingSpeedLimit
Int32

Specifies the incoming speed limit for this user. The value of 0 (zero) means "no limitation".

otpAlgorithm
OTPAlgorithms

The algorithm used to generate one-time passwords (OTP) for this user, either HOTP (Hash-based OTP) or TOTP (Time-based OTP). In the former case, a value of a dedicated counter is used to generate a unique password, while in the latter the password is generated on the basis of the current time value.


oaHmac	`0`
oaTime	`1`

otpValue
Int32

The user's time interval (TOTP) or Counter (HOTP).

outgoingSpeedLimit
Int32

Specifies the outgoing speed limit for this user. The value of 0 (zero) means "no limitation".

password
String

The user's authentication password.

passwordLen
Int32

Specifies the length of the user's OTP password.

sharedSecret
Data

Contains the user's secret key, which is essentially a shared secret between the client and server.

Shared secrets can be used in TLS-driven protocols, as well as in OTP (where it is called a 'key secret') for generating one-time passwords on one side, and validate them on the other.

sshKey
Data

Contains the user's SSH key.

username
String

The registered name (login) of the user.

Constructors

public init()

Creates a new UserAccount object.

Config Settings (WebSocketServer Module)

The class accepts one or more of the following configuration settings. Configuration settings are similar in functionality to properties, but they are rarely used. In order to avoid "polluting" the property namespace of the class, access to these internal properties is provided through the Config method.

WebSocketServer Config Settings

AllowOptionsResponseWithoutAuth: Enables unauthenticated responses to OPTIONS requests.

Set this property to true to allow the server serve OPTIONS requests without prior authentication of the client.

ClientAuth: Enables or disables certificate-based client authentication.

Set this property to one of the below values to tune up the client authentication logic:


0		No client authentication (the default setting)
1		Request certificates. The server will ask connecting clients for their certificates. Non-authenticated client connections will be accepted anyway.
2		Require certificates. The server will ask connecting clients for their certificates. If a client fails to provide a certificate, the server will terminate the connection.

If this property is set to 1 or 2, the component will request certificates from the connecting clients. Depending on the setting, the clients that fail to provide their certificate in response will be allowed or disallowed to proceed with the connection. The server signals about a received certificate by firing its CertificateValidate event. Use PinClient method in the event handler to pin the client details, and access the provided certificate chain via the PinnedClientChain property.

Note that this event is fired from the connecting clients threads, so please make sure you avoid bottlenecks in the event handler and put appropriate thread safety measures in place.

Unlike the client-side components, the server component does not perform automated certificate validation against the local security policy. You must perform appropriate certificate validation steps in your CertificateValidate event handler.

DualStack: Allows the use of ip4 and ip6 simultaneously.

This setting specifies a socket can use ip4 and ip6 simultaneously.

HomePage: Specifies the home page resource name.

Use this property to specify the home page (/) resource name.

Host: The host to bind to.

Specifies a specific interface the server should listen on.

RequestFilter: The request string modifier.

Use this property to tune up the request string as returned by GetRequestString method. Supported filters: params (request parameters only), params[Index] or params['Name'] (a specific request parameter), parts[Index] (the contents of a particular part of a multipart message). An empty request filter makes GetRequestString return the whole body of the request.

ServerSSLDHKeyLength: Sets the size of the TLS DHE key exchange group.

Use this property to adjust the length, in bits, of the DHE prime to be used by the TLS server.

WebsiteName: The website name for the TLS certificate.

Assign this property with a name to put in a self-generated TLS certificate.

Base Config Settings

CheckKeyIntegrityBeforeUse: Enables or disable private key integrity check before use.

This global property enables or disables private key material check before each signing operation. This slows down performance a bit, but prevents a selection of attacks on RSA keys where keys with unknown origins are used.

You can switch this property off to improve performance if your project only uses known, good private keys.

CookieCaching: Specifies whether a cookie cache should be used for HTTP(S) transports.

Set this property to enable or disable cookies caching for the class.

Supported values are:


off		No caching (default)
local		Local caching (supported for HTTPClient, RESTClient and SOAPClient only)
global		Global caching

Cookies: Gets or sets local cookies for the class (supported for HTTPClient, RESTClient and SOAPClient only).

Use this property to get cookies from the internal cookie storage of the class and/or restore them back between application sessions.

DefDeriveKeyIterations: Specifies the default key derivation algorithm iteration count.

This global property sets the default number of iterations for all supported key derivation algorithms. Note that you can provide the required number of iterations by using properties of the relevant key generation component; this global setting is used in scenarios where specific iteration count is not or cannot be provided.

EnableClientSideSSLFFDHE: Enables or disables finite field DHE key exchange support in TLS clients.

This global property enables or disables support for finite field DHE key exchange methods in TLS clients. FF DHE is a slower algorithm if compared to EC DHE; enabling it may result in slower connections.

This setting only applies to sessions negotiated with TLS version 1.3.

GlobalCookies: Gets or sets global cookies for all the HTTP transports.

Use this property to get cookies from the GLOBAL cookie storage or restore them back between application sessions. These cookies will be used by all the classes that have its CookieCaching property set to "global".

HttpUserAgent: Specifies the user agent name to be used by all HTTP clients.

This global setting defines the User-Agent field of the HTTP request provides information about the software that initiates the request. This value will be used by all the HTTP clients including the ones used internally in other classes.

LogDestination: Specifies the debug log destination.

Contains a comma-separated list of values that specifies where debug log should be dumped.

Supported values are:


file		File
console		Console
systemlog		System Log (supported for Android only)
debugger		Debugger (supported for VCL for Windows and .Net)

LogDetails: Specifies the debug log details to dump.

Contains a comma-separated list of values that specifies which debug log details to dump.

Supported values are:


time		Current time
level		Level
package		Package name
module		Module name
class		Class name
method		Method name
threadid		Thread Id
contenttype		Content type
content		Content
all		All details

LogFile: Specifies the debug log filename.

Use this property to provide a path to the log file.

LogFilters: Specifies the debug log filters.

Contains a comma-separated list of value pairs ("name:value") that describe filters.

Supported filter names are:


exclude-package		Exclude a package specified in the value
exclude-module		Exclude a module specified in the value
exclude-class		Exclude a class specified in the value
exclude-method		Exclude a method specified in the value
include-package		Include a package specified in the value
include-module		Include a module specified in the value
include-class		Include a class specified in the value
include-method		Include a method specified in the value

LogFlushMode: Specifies the log flush mode.

Use this property to set the log flush mode. The following values are defined:


none		No flush (caching only)
immediate		Immediate flush (real-time logging)
maxcount		Flush cached entries upon reaching LogMaxEventCount entries in the cache.

LogLevel: Specifies the debug log level.

Use this property to provide the desired debug log level.

Supported values are:


none		None (by default)
fatal		Severe errors that cause premature termination.
error		Other runtime errors or unexpected conditions.
warning		Use of deprecated APIs, poor use of API, 'almost' errors, other runtime situations that are undesirable or unexpected, but not necessarily "wrong".
info		Interesting runtime events (startup/shutdown).
debug		Detailed information on flow of through the system.
trace		More detailed information.

LogMaxEventCount: Specifies the maximum number of events to cache before further action is taken.

Use this property to specify the log event number threshold. This threshold may have different effects, depending on the rotation setting and/or the flush mode.

The default value of this setting is 100.

LogRotationMode: Specifies the log rotation mode.

Use this property to set the log rotation mode. The following values are defined:


none		No rotation
deleteolder		Delete older entries from the cache upon reaching LogMaxEventCount
keepolder		Keep older entries in the cache upon reaching LogMaxEventCount (newer entries are discarded)

MaxASN1BufferLength: Specifies the maximal allowed length for ASN.1 primitive tag data.

This global property limits the maximal allowed length for ASN.1 tag data for non-content-carrying structures, such as certificates, CRLs, or timestamps. It does not affect structures that can carry content, such as CMS/CAdES messages. This is a security property aiming at preventing DoS attacks.

MaxASN1TreeDepth: Specifies the maximal depth for processed ASN.1 trees.

This global property limits the maximal depth of ASN.1 trees that the component can handle without throwing an error. This is a security property aiming at preventing DoS attacks.

OCSPHashAlgorithm: Specifies the hash algorithm to be used to identify certificates in OCSP requests.

This global setting defines the hash algorithm to use in OCSP requests during chain validation. Some OCSP responders can only use older algorithms, in which case setting this property to SHA1 may be helpful.

StaticDNS: Specifies whether static DNS rules should be used.

Set this property to enable or disable static DNS rules for the class. Works only if UseOwnDNSResolver is set to true.

Supported values are:


none		No static DNS rules (default)
local		Local static DNS rules
global		Global static DNS rules

StaticIPAddress[domain]: Gets or sets an IP address for the specified domain name.

Use this property to get or set an IP address for the specified domain name in the internal (of the class) or global DNS rules storage depending on the StaticDNS value. The type of the IP address (IPv4 or IPv6) is determined automatically. If both addresses are available, they are devided by the | (pipe) character.

StaticIPAddresses: Gets or sets all the static DNS rules.

Use this property to get static DNS rules from the current rules storage or restore them back between application sessions. If StaticDNS of the class is set to "local", the property returns/restores the rules from/to the internal storage of the class. If StaticDNS of the class is set to "global", the property returns/restores the rules from/to the GLOBAL storage. The rules list is returned and accepted in JSON format.

Tag: Allows to store any custom data.

Use this config property to store any custom data.

TLSSessionGroup: Specifies the group name of TLS sessions to be used for session resumption.

Use this property to limit the search of chached TLS sessions to the specified group. Sessions from other groups will be ignored. By default, all sessions are cached with an empty group name and available to all the classes.

TLSSessionLifetime: Specifies lifetime in seconds of the cached TLS session.

Use this property to specify how much time the TLS session should be kept in the session cache. After this time, the session expires and will be automatically removed from the cache. Default value is 300 seconds (5 minutes).

TLSSessionPurgeInterval: Specifies how often the session cache should remove the expired TLS sessions.

Use this property to specify the time interval of purging the expired TLS sessions from the session cache. Default value is 60 seconds (1 minute).

UseOwnDNSResolver: Specifies whether the client components should use own DNS resolver.

Set this global property to false to force all the client components to use the DNS resolver provided by the target OS instead of using own one.

UseSharedSystemStorages: Specifies whether the validation engine should use a global per-process copy of the system certificate stores.

Set this global property to false to make each validation run use its own copy of system certificate stores.

UseSystemOAEPAndPSS: Enforces or disables the use of system-driven RSA OAEP and PSS computations.

This global setting defines who is responsible for performing RSA-OAEP and RSA-PSS computations where the private key is stored in a Windows system store and is exportable. If set to true, SBB will delegate the computations to Windows via a CryptoAPI call. Otherwise, it will export the key material and perform the computations using its own OAEP/PSS implementation.

This setting only applies to certificates originating from a Windows system store.

UseSystemRandom: Enables or disables the use of the OS PRNG.

Use this global property to enable or disable the use of operating system-driven pseudorandom number generation.

Trappable Errors (WebSocketServer Module)

WebSocketServer Errors


	1048577 Invalid parameter value (`SB_ERROR_INVALID_PARAMETER`)
	1048578 Class is configured incorrectly (`SB_ERROR_INVALID_SETUP`)
	1048579 Operation cannot be executed in the current state (`SB_ERROR_INVALID_STATE`)
	1048580 Attempt to set an invalid value to a property (`SB_ERROR_INVALID_VALUE`)
	1048581 Certificate does not have its private key loaded (`SB_ERROR_NO_PRIVATE_KEY`)
	1048581 Cancelled by the user (`SB_ERROR_CANCELLED_BY_USER`)