WebSocketClient Class

Properties Methods Events Config Settings Errors

The WebSocketClient class provides the client-side functionality of the WebSocket protocol.

Syntax

WebSocketClient

Remarks

Use this component to set up secure connections from your application with a WebSocket server.

Property List

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


AuthTypes	Defines allowed HTTP authentication types.
BlockedCertificates	The certificates that must be rejected as trust anchors.
Connected	Indicates whether the connection is active.
ConnectionInfo	Returns the details of the underlying network connection.
ExternalCrypto	Provides access to external signing and DC parameters.
FIPSMode	Reserved.
KnownCertificates	Additional certificates for chain validation.
KnownCRLs	Additional CRLs for chain validation.
KnownOCSPs	Additional OCSP responses for chain validation.
Proxy	The proxy server settings.
RequestParameters	Provides access to common HTTP request properties.
SocketSettings	Manages network connection settings.
TLSClientChain	The TLS client certificate chain.
TLSServerChain	The TLS server's certificate chain.
TLSSettings	Manages TLS layer settings.
TrustedCertificates	A list of trusted certificates for chain validation.

Method List

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


Config	Sets or retrieves a configuration setting.
Connect	Establishes connection to the server.
Disconnect	Disconnects from the server.
DoAction	Performs an additional action.
Reset	Resets the class settings.
SendData	Sends a piece of binary data to the server.
SendKeepAlive	Sends a keep-alive message.
SendText	Sends a piece of text data to the server.

Event List

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


BinaryData	Passes a received chunk of binary data to the application.
Connect	Reports the setup of the connection.
Disconnect	Notifies the application of websocket disconnection.
Error	Information about errors during data delivery.
ExternalSign	Handles remote or external signing initiated by the SignExternal method or other source.
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.
TLSCertNeeded	Fires when a remote TLS party requests a client certificate.
TLSCertValidate	This event is fired upon receipt of the TLS server's certificate, allowing the user to control its acceptance.
TLSEstablished	Fires when a TLS handshake with Host successfully completes.
TLSHandshake	Fires when a new TLS handshake is initiated, before the handshake commences.
TLSPSK	Notifies the application about the PSK key exchange.
TLSShutdown	Reports the graceful closure of a TLS connection.

Config Settings

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


AuthStickToLastURL	TBD.
CacheStreamOutput	Tells the class whether to cache stream- and file-bound responses in the class.
Cookies	TBD.
DefClientCookieFmt	TBD.
Extensions	Configures protocol extensions to use.
ForceNTLMAuth	Activates and enforces NTLM authentication.
IgnoreCookieSecureFlag	TBD.
IgnoreSystemTrust	Whether trusted Windows Certificate Stores should be treated as trusted.
IgnoreUnknownTransferEncodings	All incoming responses with unknown transfer encodings are ignored if this property is true.
KeepConnectionOpen	TBD.
MaxRedirections	The maximum number of HTTP redirects.
OutputFile	Specifies the file where the received content should be saved to.
PersistentAuthHeader	Whether to resend NTLM negotiation on every request.
RequestCompressionGZip	Ask server to use GZip compression.
RequestCompressionLevel	Ask server to use the specified compression level.
SendBufferSize	Size of send buffer in bytes.
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.
SuppressRedirectionContent	Whether to suppress the redirection content.
TempPath	Path for storing temporary files.
TLSExtensions	TBD.
TLSPeerExtensions	TBD.
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.
TolerateMinorChainIssues	Whether to tolerate minor chain issues.
Use100Continue	Whether to use 100-continue for POST and PUT commands.
UseCompression	Whether to use GZip compression.
UseKerberosAuth	TBD.
UseMicrosoftCTL	Enables or disables the automatic use of the Microsoft online certificate trust list.
UseSystemCertificates	Enables or disables the use of the system certificates.
ASN1UseGlobalTagCache	Controls whether ASN.1 module should use a global object cache.
AssignSystemSmartCardPins	Specifies whether CSP-level PINs should be assigned to CNG keys.
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 class.
DefDeriveKeyIterations	Specifies the default key derivation algorithm iteration count.
DNSLocalSuffix	The suffix to assign for TLD names.
EnableClientSideSSLFFDHE	Enables or disables finite field DHE key exchange support in TLS clients.
GlobalCookies	Gets or sets global cookies for all the HTTP transports.
HardwareCryptoUsePolicy	The hardware crypto usage policy.
HttpUserAgent	Specifies the user agent name to be used by all HTTP clients.
HttpVersion	The HTTP version to use in any inner HTTP client classes created.
IgnoreExpiredMSCTLSigningCert	Whether to tolerate the expired Windows Update signing certificate.
ListDelimiter	The delimiter character for multi-element lists.
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.
OldClientSideRSAFallback	Specifies whether the SSH client should use a SHA1 fallback.
ProductVersion	Returns the version of the SecureBlackbox library.
ServerSSLDHKeyLength	Sets the size of the TLS DHE key exchange group.
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.
UseInternalRandom	Switches between SecureBlackbox-own and platform PRNGs.
UseLegacyAdESValidation	Enables legacy AdES validation mode.
UseOwnDNSResolver	Specifies whether the client classes should use own DNS resolver.
UseSharedSystemStorages	Specifies whether the validation engine should use a global per-process copy of the system certificate stores.
UseSystemNativeSizeCalculation	An internal CryptoAPI access tweak.
UseSystemOAEPAndPSS	Enforces or disables the use of system-driven RSA OAEP and PSS computations.
UseSystemRandom	Enables or disables the use of the OS PRNG.

AuthTypes Property (WebSocketClient Class)

Defines allowed HTTP authentication types.

Syntax

ANSI (Cross Platform)
int GetAuthTypes();
int SetAuthTypes(int iAuthTypes);

Unicode (Windows)
INT GetAuthTypes();
INT SetAuthTypes(INT iAuthTypes);

int secureblackbox_websocketclient_getauthtypes(void* lpObj);
int secureblackbox_websocketclient_setauthtypes(void* lpObj, int iAuthTypes);

int GetAuthTypes();
int SetAuthTypes(int iAuthTypes);

Default Value

Remarks

Use this property to define which authentication types the component should support or attempt to use by enabling the relevant bitmask flags:


haBasic	`0x01`	Basic authentication
haDigest	`0x02`	Digest authentication (RFC 2617)
haNTLM	`0x04`	Windows NTLM authentication
haKerberos	`0x08`	Kerberos (Negotiate) authentication
haOAuth2	`0x10`	OAuth2 authentication

Data Type

Integer

BlockedCertificates Property (WebSocketClient Class)

The certificates that must be rejected as trust anchors.

Syntax

SecureBlackboxList<SecureBlackboxCertificate>* GetBlockedCertificates();
int SetBlockedCertificates(SecureBlackboxList<SecureBlackboxCertificate>* val);

int secureblackbox_websocketclient_getblockedcertcount(void* lpObj);
int secureblackbox_websocketclient_setblockedcertcount(void* lpObj, int iBlockedCertCount);

int secureblackbox_websocketclient_getblockedcertbytes(void* lpObj, int blockedcertindex, char** lpBlockedCertBytes, int* lenBlockedCertBytes);

int64 secureblackbox_websocketclient_getblockedcerthandle(void* lpObj, int blockedcertindex);
int secureblackbox_websocketclient_setblockedcerthandle(void* lpObj, int blockedcertindex, int64 lBlockedCertHandle);

int GetBlockedCertCount();
int SetBlockedCertCount(int iBlockedCertCount);

QByteArray GetBlockedCertBytes(int iBlockedCertIndex);

qint64 GetBlockedCertHandle(int iBlockedCertIndex);
int SetBlockedCertHandle(int iBlockedCertIndex, qint64 lBlockedCertHandle);

Remarks

Use this property to provide a list of compromised or blocked certificates. Any chain containing a blocked certificate will fail validation.

This property is not available at design time.

Data Type

SecureBlackboxCertificate

Connected Property (WebSocketClient Class)

Indicates whether the connection is active.

Syntax

ANSI (Cross Platform)
int GetConnected();

Unicode (Windows)
BOOL GetConnected();

int secureblackbox_websocketclient_getconnected(void* lpObj);

bool GetConnected();

Default Value

FALSE

Remarks

Use this property to check if the connection is alive.

This property is read-only and not available at design time.

Data Type

Boolean

ConnectionInfo Property (WebSocketClient Class)

Returns the details of the underlying network connection.

Syntax

SecureBlackboxTLSConnectionInfo* GetConnectionInfo();

int secureblackbox_websocketclient_getconninfoaeadcipher(void* lpObj);

int secureblackbox_websocketclient_getconninfochainvalidationdetails(void* lpObj);

int secureblackbox_websocketclient_getconninfochainvalidationresult(void* lpObj);

char* secureblackbox_websocketclient_getconninfociphersuite(void* lpObj);

int secureblackbox_websocketclient_getconninfoclientauthenticated(void* lpObj);

int secureblackbox_websocketclient_getconninfoclientauthrequested(void* lpObj);

int secureblackbox_websocketclient_getconninfoconnectionestablished(void* lpObj);

int secureblackbox_websocketclient_getconninfoconnectionid(void* lpObj, char** lpConnInfoConnectionID, int* lenConnInfoConnectionID);

char* secureblackbox_websocketclient_getconninfodigestalgorithm(void* lpObj);

char* secureblackbox_websocketclient_getconninfoencryptionalgorithm(void* lpObj);

int secureblackbox_websocketclient_getconninfoexportable(void* lpObj);

int64 secureblackbox_websocketclient_getconninfoid(void* lpObj);

char* secureblackbox_websocketclient_getconninfokeyexchangealgorithm(void* lpObj);

int secureblackbox_websocketclient_getconninfokeyexchangekeybits(void* lpObj);

char* secureblackbox_websocketclient_getconninfonamedeccurve(void* lpObj);

int secureblackbox_websocketclient_getconninfopfscipher(void* lpObj);

char* secureblackbox_websocketclient_getconninfopresharedidentity(void* lpObj);

char* secureblackbox_websocketclient_getconninfopresharedidentityhint(void* lpObj);

int secureblackbox_websocketclient_getconninfopublickeybits(void* lpObj);

char* secureblackbox_websocketclient_getconninforemoteaddress(void* lpObj);

int secureblackbox_websocketclient_getconninforemoteport(void* lpObj);

int secureblackbox_websocketclient_getconninforesumedsession(void* lpObj);

int secureblackbox_websocketclient_getconninfosecureconnection(void* lpObj);

int secureblackbox_websocketclient_getconninfoserverauthenticated(void* lpObj);

char* secureblackbox_websocketclient_getconninfosignaturealgorithm(void* lpObj);

int secureblackbox_websocketclient_getconninfosymmetricblocksize(void* lpObj);

int secureblackbox_websocketclient_getconninfosymmetrickeybits(void* lpObj);

int64 secureblackbox_websocketclient_getconninfototalbytesreceived(void* lpObj);

int64 secureblackbox_websocketclient_getconninfototalbytessent(void* lpObj);

char* secureblackbox_websocketclient_getconninfovalidationlog(void* lpObj);

char* secureblackbox_websocketclient_getconninfoversion(void* lpObj);

bool GetConnInfoAEADCipher();

int GetConnInfoChainValidationDetails();

int GetConnInfoChainValidationResult();

QString GetConnInfoCiphersuite();

bool GetConnInfoClientAuthenticated();

bool GetConnInfoClientAuthRequested();

bool GetConnInfoConnectionEstablished();

QByteArray GetConnInfoConnectionID();

QString GetConnInfoDigestAlgorithm();

QString GetConnInfoEncryptionAlgorithm();

bool GetConnInfoExportable();

qint64 GetConnInfoID();

QString GetConnInfoKeyExchangeAlgorithm();

int GetConnInfoKeyExchangeKeyBits();

QString GetConnInfoNamedECCurve();

bool GetConnInfoPFSCipher();

QString GetConnInfoPreSharedIdentity();

QString GetConnInfoPreSharedIdentityHint();

int GetConnInfoPublicKeyBits();

QString GetConnInfoRemoteAddress();

int GetConnInfoRemotePort();

bool GetConnInfoResumedSession();

bool GetConnInfoSecureConnection();

bool GetConnInfoServerAuthenticated();

QString GetConnInfoSignatureAlgorithm();

int GetConnInfoSymmetricBlockSize();

int GetConnInfoSymmetricKeyBits();

qint64 GetConnInfoTotalBytesReceived();

qint64 GetConnInfoTotalBytesSent();

QString GetConnInfoValidationLog();

QString GetConnInfoVersion();

Remarks

Use this property to learn about the connection setup, such as the protocol security details and amounts of data transferred each way.

This property is read-only and not available at design time.

Data Type

SecureBlackboxTLSConnectionInfo

ExternalCrypto Property (WebSocketClient Class)

Provides access to external signing and DC parameters.

Syntax

SecureBlackboxExternalCrypto* GetExternalCrypto();

char* secureblackbox_websocketclient_getexternalcryptoasyncdocumentid(void* lpObj);
int secureblackbox_websocketclient_setexternalcryptoasyncdocumentid(void* lpObj, const char* lpszExternalCryptoAsyncDocumentID);

char* secureblackbox_websocketclient_getexternalcryptocustomparams(void* lpObj);
int secureblackbox_websocketclient_setexternalcryptocustomparams(void* lpObj, const char* lpszExternalCryptoCustomParams);

char* secureblackbox_websocketclient_getexternalcryptodata(void* lpObj);
int secureblackbox_websocketclient_setexternalcryptodata(void* lpObj, const char* lpszExternalCryptoData);

int secureblackbox_websocketclient_getexternalcryptoexternalhashcalculation(void* lpObj);
int secureblackbox_websocketclient_setexternalcryptoexternalhashcalculation(void* lpObj, int bExternalCryptoExternalHashCalculation);

char* secureblackbox_websocketclient_getexternalcryptohashalgorithm(void* lpObj);
int secureblackbox_websocketclient_setexternalcryptohashalgorithm(void* lpObj, const char* lpszExternalCryptoHashAlgorithm);

char* secureblackbox_websocketclient_getexternalcryptokeyid(void* lpObj);
int secureblackbox_websocketclient_setexternalcryptokeyid(void* lpObj, const char* lpszExternalCryptoKeyID);

char* secureblackbox_websocketclient_getexternalcryptokeysecret(void* lpObj);
int secureblackbox_websocketclient_setexternalcryptokeysecret(void* lpObj, const char* lpszExternalCryptoKeySecret);

int secureblackbox_websocketclient_getexternalcryptomethod(void* lpObj);
int secureblackbox_websocketclient_setexternalcryptomethod(void* lpObj, int iExternalCryptoMethod);

int secureblackbox_websocketclient_getexternalcryptomode(void* lpObj);
int secureblackbox_websocketclient_setexternalcryptomode(void* lpObj, int iExternalCryptoMode);

char* secureblackbox_websocketclient_getexternalcryptopublickeyalgorithm(void* lpObj);
int secureblackbox_websocketclient_setexternalcryptopublickeyalgorithm(void* lpObj, const char* lpszExternalCryptoPublicKeyAlgorithm);

QString GetExternalCryptoAsyncDocumentID();
int SetExternalCryptoAsyncDocumentID(QString qsExternalCryptoAsyncDocumentID);

QString GetExternalCryptoCustomParams();
int SetExternalCryptoCustomParams(QString qsExternalCryptoCustomParams);

QString GetExternalCryptoData();
int SetExternalCryptoData(QString qsExternalCryptoData);

bool GetExternalCryptoExternalHashCalculation();
int SetExternalCryptoExternalHashCalculation(bool bExternalCryptoExternalHashCalculation);

QString GetExternalCryptoHashAlgorithm();
int SetExternalCryptoHashAlgorithm(QString qsExternalCryptoHashAlgorithm);

QString GetExternalCryptoKeyID();
int SetExternalCryptoKeyID(QString qsExternalCryptoKeyID);

QString GetExternalCryptoKeySecret();
int SetExternalCryptoKeySecret(QString qsExternalCryptoKeySecret);

int GetExternalCryptoMethod();
int SetExternalCryptoMethod(int iExternalCryptoMethod);

int GetExternalCryptoMode();
int SetExternalCryptoMode(int iExternalCryptoMode);

QString GetExternalCryptoPublicKeyAlgorithm();
int SetExternalCryptoPublicKeyAlgorithm(QString qsExternalCryptoPublicKeyAlgorithm);

Remarks

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

This property is read-only.

Data Type

SecureBlackboxExternalCrypto

FIPSMode Property (WebSocketClient Class)

Reserved.

Syntax

ANSI (Cross Platform)
int GetFIPSMode();
int SetFIPSMode(int bFIPSMode);

Unicode (Windows)
BOOL GetFIPSMode();
INT SetFIPSMode(BOOL bFIPSMode);

int secureblackbox_websocketclient_getfipsmode(void* lpObj);
int secureblackbox_websocketclient_setfipsmode(void* lpObj, int bFIPSMode);

bool GetFIPSMode();
int SetFIPSMode(bool bFIPSMode);

Default Value

FALSE

Remarks

This property is reserved for future use.

Data Type

Boolean

KnownCertificates Property (WebSocketClient Class)

Additional certificates for chain validation.

Syntax

SecureBlackboxList<SecureBlackboxCertificate>* GetKnownCertificates();
int SetKnownCertificates(SecureBlackboxList<SecureBlackboxCertificate>* val);

int secureblackbox_websocketclient_getknowncertcount(void* lpObj);
int secureblackbox_websocketclient_setknowncertcount(void* lpObj, int iKnownCertCount);

int secureblackbox_websocketclient_getknowncertbytes(void* lpObj, int knowncertindex, char** lpKnownCertBytes, int* lenKnownCertBytes);

int64 secureblackbox_websocketclient_getknowncerthandle(void* lpObj, int knowncertindex);
int secureblackbox_websocketclient_setknowncerthandle(void* lpObj, int knowncertindex, int64 lKnownCertHandle);

int GetKnownCertCount();
int SetKnownCertCount(int iKnownCertCount);

QByteArray GetKnownCertBytes(int iKnownCertIndex);

qint64 GetKnownCertHandle(int iKnownCertIndex);
int SetKnownCertHandle(int iKnownCertIndex, qint64 lKnownCertHandle);

Remarks

Use this property to supply a list of additional certificates that might be needed for chain validation. An example of a scenario where you might want to do that is when intermediary CA certificates are absent from the standard system locations (or when there are no standard system locations), and therefore should be supplied to the class manually.

The purpose of the certificates to be added to this collection is roughly equivalent to that of the Intermediate Certification Authorities system store in Windows.

Do not add trust anchors or root certificates to this collection: add them to TrustedCertificates instead.

This property is not available at design time.

Data Type

SecureBlackboxCertificate

KnownCRLs Property (WebSocketClient Class)

Additional CRLs for chain validation.

Syntax

SecureBlackboxList<SecureBlackboxCRL>* GetKnownCRLs();
int SetKnownCRLs(SecureBlackboxList<SecureBlackboxCRL>* val);

int secureblackbox_websocketclient_getknowncrlcount(void* lpObj);
int secureblackbox_websocketclient_setknowncrlcount(void* lpObj, int iKnownCRLCount);

int secureblackbox_websocketclient_getknowncrlbytes(void* lpObj, int knowncrlindex, char** lpKnownCRLBytes, int* lenKnownCRLBytes);

int64 secureblackbox_websocketclient_getknowncrlhandle(void* lpObj, int knowncrlindex);
int secureblackbox_websocketclient_setknowncrlhandle(void* lpObj, int knowncrlindex, int64 lKnownCRLHandle);

int GetKnownCRLCount();
int SetKnownCRLCount(int iKnownCRLCount);

QByteArray GetKnownCRLBytes(int iKnownCRLIndex);

qint64 GetKnownCRLHandle(int iKnownCRLIndex);
int SetKnownCRLHandle(int iKnownCRLIndex, qint64 lKnownCRLHandle);

Remarks

Use this property to supply additional CRLs that might be needed for chain validation. This property may be helpful when a chain is validated in offline mode, and the associated CRLs are stored separately from the signed message or document.

This property is not available at design time.

Data Type

SecureBlackboxCRL

KnownOCSPs Property (WebSocketClient Class)

Additional OCSP responses for chain validation.

Syntax

SecureBlackboxList<SecureBlackboxOCSPResponse>* GetKnownOCSPs();
int SetKnownOCSPs(SecureBlackboxList<SecureBlackboxOCSPResponse>* val);

int secureblackbox_websocketclient_getknownocspcount(void* lpObj);
int secureblackbox_websocketclient_setknownocspcount(void* lpObj, int iKnownOCSPCount);

int secureblackbox_websocketclient_getknownocspbytes(void* lpObj, int knownocspindex, char** lpKnownOCSPBytes, int* lenKnownOCSPBytes);

int64 secureblackbox_websocketclient_getknownocsphandle(void* lpObj, int knownocspindex);
int secureblackbox_websocketclient_setknownocsphandle(void* lpObj, int knownocspindex, int64 lKnownOCSPHandle);

int GetKnownOCSPCount();
int SetKnownOCSPCount(int iKnownOCSPCount);

QByteArray GetKnownOCSPBytes(int iKnownOCSPIndex);

qint64 GetKnownOCSPHandle(int iKnownOCSPIndex);
int SetKnownOCSPHandle(int iKnownOCSPIndex, qint64 lKnownOCSPHandle);

Remarks

Use this property to supply additional OCSP responses that might be needed for chain validation. This property may be helpful when a chain is validated in offline mode, and the associated OCSP responses are stored separately from the signed message or document.

This property is not available at design time.

Data Type

SecureBlackboxOCSPResponse

Proxy Property (WebSocketClient Class)

The proxy server settings.

Syntax

SecureBlackboxProxySettings* GetProxy();

char* secureblackbox_websocketclient_getproxyaddress(void* lpObj);
int secureblackbox_websocketclient_setproxyaddress(void* lpObj, const char* lpszProxyAddress);

int secureblackbox_websocketclient_getproxyauthentication(void* lpObj);
int secureblackbox_websocketclient_setproxyauthentication(void* lpObj, int iProxyAuthentication);

char* secureblackbox_websocketclient_getproxypassword(void* lpObj);
int secureblackbox_websocketclient_setproxypassword(void* lpObj, const char* lpszProxyPassword);

int secureblackbox_websocketclient_getproxyport(void* lpObj);
int secureblackbox_websocketclient_setproxyport(void* lpObj, int iProxyPort);

int secureblackbox_websocketclient_getproxyproxytype(void* lpObj);
int secureblackbox_websocketclient_setproxyproxytype(void* lpObj, int iProxyProxyType);

char* secureblackbox_websocketclient_getproxyrequestheaders(void* lpObj);
int secureblackbox_websocketclient_setproxyrequestheaders(void* lpObj, const char* lpszProxyRequestHeaders);

char* secureblackbox_websocketclient_getproxyresponsebody(void* lpObj);
int secureblackbox_websocketclient_setproxyresponsebody(void* lpObj, const char* lpszProxyResponseBody);

char* secureblackbox_websocketclient_getproxyresponseheaders(void* lpObj);
int secureblackbox_websocketclient_setproxyresponseheaders(void* lpObj, const char* lpszProxyResponseHeaders);

int secureblackbox_websocketclient_getproxyuseipv6(void* lpObj);
int secureblackbox_websocketclient_setproxyuseipv6(void* lpObj, int bProxyUseIPv6);

char* secureblackbox_websocketclient_getproxyusername(void* lpObj);
int secureblackbox_websocketclient_setproxyusername(void* lpObj, const char* lpszProxyUsername);

QString GetProxyAddress();
int SetProxyAddress(QString qsProxyAddress);

int GetProxyAuthentication();
int SetProxyAuthentication(int iProxyAuthentication);

QString GetProxyPassword();
int SetProxyPassword(QString qsProxyPassword);

int GetProxyPort();
int SetProxyPort(int iProxyPort);

int GetProxyProxyType();
int SetProxyProxyType(int iProxyProxyType);

QString GetProxyRequestHeaders();
int SetProxyRequestHeaders(QString qsProxyRequestHeaders);

QString GetProxyResponseBody();
int SetProxyResponseBody(QString qsProxyResponseBody);

QString GetProxyResponseHeaders();
int SetProxyResponseHeaders(QString qsProxyResponseHeaders);

bool GetProxyUseIPv6();
int SetProxyUseIPv6(bool bProxyUseIPv6);

QString GetProxyUsername();
int SetProxyUsername(QString qsProxyUsername);

Remarks

Use this property to tune up the proxy server settings.

This property is read-only.

Data Type

SecureBlackboxProxySettings

RequestParameters Property (WebSocketClient Class)

Provides access to common HTTP request properties.

Syntax

SecureBlackboxHTTPRequestParameters* GetRequestParameters();
int SetRequestParameters(SecureBlackboxHTTPRequestParameters* val);

char* secureblackbox_websocketclient_getreqparamsaccept(void* lpObj);
int secureblackbox_websocketclient_setreqparamsaccept(void* lpObj, const char* lpszReqParamsAccept);

char* secureblackbox_websocketclient_getreqparamsacceptcharset(void* lpObj);
int secureblackbox_websocketclient_setreqparamsacceptcharset(void* lpObj, const char* lpszReqParamsAcceptCharset);

char* secureblackbox_websocketclient_getreqparamsacceptlanguage(void* lpObj);
int secureblackbox_websocketclient_setreqparamsacceptlanguage(void* lpObj, const char* lpszReqParamsAcceptLanguage);

int64 secureblackbox_websocketclient_getreqparamsacceptrangeend(void* lpObj);
int secureblackbox_websocketclient_setreqparamsacceptrangeend(void* lpObj, int64 lReqParamsAcceptRangeEnd);

int64 secureblackbox_websocketclient_getreqparamsacceptrangestart(void* lpObj);
int secureblackbox_websocketclient_setreqparamsacceptrangestart(void* lpObj, int64 lReqParamsAcceptRangeStart);

char* secureblackbox_websocketclient_getreqparamsauthorization(void* lpObj);
int secureblackbox_websocketclient_setreqparamsauthorization(void* lpObj, const char* lpszReqParamsAuthorization);

char* secureblackbox_websocketclient_getreqparamsconnection(void* lpObj);
int secureblackbox_websocketclient_setreqparamsconnection(void* lpObj, const char* lpszReqParamsConnection);

int64 secureblackbox_websocketclient_getreqparamscontentlength(void* lpObj);
int secureblackbox_websocketclient_setreqparamscontentlength(void* lpObj, int64 lReqParamsContentLength);

int64 secureblackbox_websocketclient_getreqparamscontentrangeend(void* lpObj);
int secureblackbox_websocketclient_setreqparamscontentrangeend(void* lpObj, int64 lReqParamsContentRangeEnd);

int64 secureblackbox_websocketclient_getreqparamscontentrangefullsize(void* lpObj);
int secureblackbox_websocketclient_setreqparamscontentrangefullsize(void* lpObj, int64 lReqParamsContentRangeFullSize);

int64 secureblackbox_websocketclient_getreqparamscontentrangestart(void* lpObj);
int secureblackbox_websocketclient_setreqparamscontentrangestart(void* lpObj, int64 lReqParamsContentRangeStart);

char* secureblackbox_websocketclient_getreqparamscontenttype(void* lpObj);
int secureblackbox_websocketclient_setreqparamscontenttype(void* lpObj, const char* lpszReqParamsContentType);

char* secureblackbox_websocketclient_getreqparamscookie(void* lpObj);
int secureblackbox_websocketclient_setreqparamscookie(void* lpObj, const char* lpszReqParamsCookie);

char* secureblackbox_websocketclient_getreqparamscustomheaders(void* lpObj);
int secureblackbox_websocketclient_setreqparamscustomheaders(void* lpObj, const char* lpszReqParamsCustomHeaders);

char* secureblackbox_websocketclient_getreqparamsdate(void* lpObj);
int secureblackbox_websocketclient_setreqparamsdate(void* lpObj, const char* lpszReqParamsDate);

char* secureblackbox_websocketclient_getreqparamsfrom(void* lpObj);
int secureblackbox_websocketclient_setreqparamsfrom(void* lpObj, const char* lpszReqParamsFrom);

char* secureblackbox_websocketclient_getreqparamshost(void* lpObj);
int secureblackbox_websocketclient_setreqparamshost(void* lpObj, const char* lpszReqParamsHost);

int secureblackbox_websocketclient_getreqparamshttpversion(void* lpObj);
int secureblackbox_websocketclient_setreqparamshttpversion(void* lpObj, int iReqParamsHTTPVersion);

char* secureblackbox_websocketclient_getreqparamsifmatch(void* lpObj);
int secureblackbox_websocketclient_setreqparamsifmatch(void* lpObj, const char* lpszReqParamsIfMatch);

char* secureblackbox_websocketclient_getreqparamsifmodifiedsince(void* lpObj);
int secureblackbox_websocketclient_setreqparamsifmodifiedsince(void* lpObj, const char* lpszReqParamsIfModifiedSince);

char* secureblackbox_websocketclient_getreqparamsifnonematch(void* lpObj);
int secureblackbox_websocketclient_setreqparamsifnonematch(void* lpObj, const char* lpszReqParamsIfNoneMatch);

char* secureblackbox_websocketclient_getreqparamsifunmodifiedsince(void* lpObj);
int secureblackbox_websocketclient_setreqparamsifunmodifiedsince(void* lpObj, const char* lpszReqParamsIfUnmodifiedSince);

char* secureblackbox_websocketclient_getreqparamspassword(void* lpObj);
int secureblackbox_websocketclient_setreqparamspassword(void* lpObj, const char* lpszReqParamsPassword);

char* secureblackbox_websocketclient_getreqparamsreferer(void* lpObj);
int secureblackbox_websocketclient_setreqparamsreferer(void* lpObj, const char* lpszReqParamsReferer);

char* secureblackbox_websocketclient_getreqparamsuseragent(void* lpObj);
int secureblackbox_websocketclient_setreqparamsuseragent(void* lpObj, const char* lpszReqParamsUserAgent);

char* secureblackbox_websocketclient_getreqparamsusername(void* lpObj);
int secureblackbox_websocketclient_setreqparamsusername(void* lpObj, const char* lpszReqParamsUsername);

QString GetReqParamsAccept();
int SetReqParamsAccept(QString qsReqParamsAccept);

QString GetReqParamsAcceptCharset();
int SetReqParamsAcceptCharset(QString qsReqParamsAcceptCharset);

QString GetReqParamsAcceptLanguage();
int SetReqParamsAcceptLanguage(QString qsReqParamsAcceptLanguage);

qint64 GetReqParamsAcceptRangeEnd();
int SetReqParamsAcceptRangeEnd(qint64 lReqParamsAcceptRangeEnd);

qint64 GetReqParamsAcceptRangeStart();
int SetReqParamsAcceptRangeStart(qint64 lReqParamsAcceptRangeStart);

QString GetReqParamsAuthorization();
int SetReqParamsAuthorization(QString qsReqParamsAuthorization);

QString GetReqParamsConnection();
int SetReqParamsConnection(QString qsReqParamsConnection);

qint64 GetReqParamsContentLength();
int SetReqParamsContentLength(qint64 lReqParamsContentLength);

qint64 GetReqParamsContentRangeEnd();
int SetReqParamsContentRangeEnd(qint64 lReqParamsContentRangeEnd);

qint64 GetReqParamsContentRangeFullSize();
int SetReqParamsContentRangeFullSize(qint64 lReqParamsContentRangeFullSize);

qint64 GetReqParamsContentRangeStart();
int SetReqParamsContentRangeStart(qint64 lReqParamsContentRangeStart);

QString GetReqParamsContentType();
int SetReqParamsContentType(QString qsReqParamsContentType);

QString GetReqParamsCookie();
int SetReqParamsCookie(QString qsReqParamsCookie);

QString GetReqParamsCustomHeaders();
int SetReqParamsCustomHeaders(QString qsReqParamsCustomHeaders);

QString GetReqParamsDate();
int SetReqParamsDate(QString qsReqParamsDate);

QString GetReqParamsFrom();
int SetReqParamsFrom(QString qsReqParamsFrom);

QString GetReqParamsHost();
int SetReqParamsHost(QString qsReqParamsHost);

int GetReqParamsHTTPVersion();
int SetReqParamsHTTPVersion(int iReqParamsHTTPVersion);

QString GetReqParamsIfMatch();
int SetReqParamsIfMatch(QString qsReqParamsIfMatch);

QString GetReqParamsIfModifiedSince();
int SetReqParamsIfModifiedSince(QString qsReqParamsIfModifiedSince);

QString GetReqParamsIfNoneMatch();
int SetReqParamsIfNoneMatch(QString qsReqParamsIfNoneMatch);

QString GetReqParamsIfUnmodifiedSince();
int SetReqParamsIfUnmodifiedSince(QString qsReqParamsIfUnmodifiedSince);

QString GetReqParamsPassword();
int SetReqParamsPassword(QString qsReqParamsPassword);

QString GetReqParamsReferer();
int SetReqParamsReferer(QString qsReqParamsReferer);

QString GetReqParamsUserAgent();
int SetReqParamsUserAgent(QString qsReqParamsUserAgent);

QString GetReqParamsUsername();
int SetReqParamsUsername(QString qsReqParamsUsername);

Remarks

Use this property to configure the HTTP request properties.

This property is not available at design time.

Data Type

SecureBlackboxHTTPRequestParameters

SocketSettings Property (WebSocketClient Class)

Manages network connection settings.

Syntax

SecureBlackboxSocketSettings* GetSocketSettings();

int secureblackbox_websocketclient_getsocketdnsmode(void* lpObj);
int secureblackbox_websocketclient_setsocketdnsmode(void* lpObj, int iSocketDNSMode);

int secureblackbox_websocketclient_getsocketdnsport(void* lpObj);
int secureblackbox_websocketclient_setsocketdnsport(void* lpObj, int iSocketDNSPort);

int secureblackbox_websocketclient_getsocketdnsquerytimeout(void* lpObj);
int secureblackbox_websocketclient_setsocketdnsquerytimeout(void* lpObj, int iSocketDNSQueryTimeout);

char* secureblackbox_websocketclient_getsocketdnsservers(void* lpObj);
int secureblackbox_websocketclient_setsocketdnsservers(void* lpObj, const char* lpszSocketDNSServers);

int secureblackbox_websocketclient_getsocketdnstotaltimeout(void* lpObj);
int secureblackbox_websocketclient_setsocketdnstotaltimeout(void* lpObj, int iSocketDNSTotalTimeout);

int secureblackbox_websocketclient_getsocketincomingspeedlimit(void* lpObj);
int secureblackbox_websocketclient_setsocketincomingspeedlimit(void* lpObj, int iSocketIncomingSpeedLimit);

char* secureblackbox_websocketclient_getsocketlocaladdress(void* lpObj);
int secureblackbox_websocketclient_setsocketlocaladdress(void* lpObj, const char* lpszSocketLocalAddress);

int secureblackbox_websocketclient_getsocketlocalport(void* lpObj);
int secureblackbox_websocketclient_setsocketlocalport(void* lpObj, int iSocketLocalPort);

int secureblackbox_websocketclient_getsocketoutgoingspeedlimit(void* lpObj);
int secureblackbox_websocketclient_setsocketoutgoingspeedlimit(void* lpObj, int iSocketOutgoingSpeedLimit);

int secureblackbox_websocketclient_getsockettimeout(void* lpObj);
int secureblackbox_websocketclient_setsockettimeout(void* lpObj, int iSocketTimeout);

int secureblackbox_websocketclient_getsocketuseipv6(void* lpObj);
int secureblackbox_websocketclient_setsocketuseipv6(void* lpObj, int bSocketUseIPv6);

int GetSocketDNSMode();
int SetSocketDNSMode(int iSocketDNSMode);

int GetSocketDNSPort();
int SetSocketDNSPort(int iSocketDNSPort);

int GetSocketDNSQueryTimeout();
int SetSocketDNSQueryTimeout(int iSocketDNSQueryTimeout);

QString GetSocketDNSServers();
int SetSocketDNSServers(QString qsSocketDNSServers);

int GetSocketDNSTotalTimeout();
int SetSocketDNSTotalTimeout(int iSocketDNSTotalTimeout);

int GetSocketIncomingSpeedLimit();
int SetSocketIncomingSpeedLimit(int iSocketIncomingSpeedLimit);

QString GetSocketLocalAddress();
int SetSocketLocalAddress(QString qsSocketLocalAddress);

int GetSocketLocalPort();
int SetSocketLocalPort(int iSocketLocalPort);

int GetSocketOutgoingSpeedLimit();
int SetSocketOutgoingSpeedLimit(int iSocketOutgoingSpeedLimit);

int GetSocketTimeout();
int SetSocketTimeout(int iSocketTimeout);

bool GetSocketUseIPv6();
int SetSocketUseIPv6(bool bSocketUseIPv6);

Remarks

Use this property to tune up network connection parameters.

This property is read-only.

Data Type

SecureBlackboxSocketSettings

TLSClientChain Property (WebSocketClient Class)

The TLS client certificate chain.

Syntax

SecureBlackboxList<SecureBlackboxCertificate>* GetTLSClientChain();
int SetTLSClientChain(SecureBlackboxList<SecureBlackboxCertificate>* val);

int secureblackbox_websocketclient_gettlsclientcertcount(void* lpObj);
int secureblackbox_websocketclient_settlsclientcertcount(void* lpObj, int iTLSClientCertCount);

int secureblackbox_websocketclient_gettlsclientcertbytes(void* lpObj, int tlsclientcertindex, char** lpTLSClientCertBytes, int* lenTLSClientCertBytes);

int64 secureblackbox_websocketclient_gettlsclientcerthandle(void* lpObj, int tlsclientcertindex);
int secureblackbox_websocketclient_settlsclientcerthandle(void* lpObj, int tlsclientcertindex, int64 lTLSClientCertHandle);

int GetTLSClientCertCount();
int SetTLSClientCertCount(int iTLSClientCertCount);

QByteArray GetTLSClientCertBytes(int iTLSClientCertIndex);

qint64 GetTLSClientCertHandle(int iTLSClientCertIndex);
int SetTLSClientCertHandle(int iTLSClientCertIndex, qint64 lTLSClientCertHandle);

Remarks

Assign a certificate chain to this property to enable TLS client authentication in the class. Note that the client's end-entity certificate should have a private key associated with it.

Use the CertificateStorage or CertificateManager components to import the certificate from a file, system store, or PKCS11 device.

This property is not available at design time.

Data Type

SecureBlackboxCertificate

TLSServerChain Property (WebSocketClient Class)

The TLS server's certificate chain.

Syntax

SecureBlackboxList<SecureBlackboxCertificate>* GetTLSServerChain();

int secureblackbox_websocketclient_gettlsservercertcount(void* lpObj);

int secureblackbox_websocketclient_gettlsservercertbytes(void* lpObj, int tlsservercertindex, char** lpTLSServerCertBytes, int* lenTLSServerCertBytes);

char* secureblackbox_websocketclient_gettlsservercertfingerprint(void* lpObj, int tlsservercertindex);

int64 secureblackbox_websocketclient_gettlsservercerthandle(void* lpObj, int tlsservercertindex);

char* secureblackbox_websocketclient_gettlsservercertissuer(void* lpObj, int tlsservercertindex);

char* secureblackbox_websocketclient_gettlsservercertissuerrdn(void* lpObj, int tlsservercertindex);

char* secureblackbox_websocketclient_gettlsservercertkeyalgorithm(void* lpObj, int tlsservercertindex);

int secureblackbox_websocketclient_gettlsservercertkeybits(void* lpObj, int tlsservercertindex);

int secureblackbox_websocketclient_gettlsservercertkeyusage(void* lpObj, int tlsservercertindex);

int secureblackbox_websocketclient_gettlsservercertselfsigned(void* lpObj, int tlsservercertindex);

int secureblackbox_websocketclient_gettlsservercertserialnumber(void* lpObj, int tlsservercertindex, char** lpTLSServerCertSerialNumber, int* lenTLSServerCertSerialNumber);

char* secureblackbox_websocketclient_gettlsservercertsigalgorithm(void* lpObj, int tlsservercertindex);

char* secureblackbox_websocketclient_gettlsservercertsubject(void* lpObj, int tlsservercertindex);

char* secureblackbox_websocketclient_gettlsservercertsubjectrdn(void* lpObj, int tlsservercertindex);

char* secureblackbox_websocketclient_gettlsservercertvalidfrom(void* lpObj, int tlsservercertindex);

char* secureblackbox_websocketclient_gettlsservercertvalidto(void* lpObj, int tlsservercertindex);

int GetTLSServerCertCount();

QByteArray GetTLSServerCertBytes(int iTLSServerCertIndex);

QString GetTLSServerCertFingerprint(int iTLSServerCertIndex);

qint64 GetTLSServerCertHandle(int iTLSServerCertIndex);

QString GetTLSServerCertIssuer(int iTLSServerCertIndex);

QString GetTLSServerCertIssuerRDN(int iTLSServerCertIndex);

QString GetTLSServerCertKeyAlgorithm(int iTLSServerCertIndex);

int GetTLSServerCertKeyBits(int iTLSServerCertIndex);

int GetTLSServerCertKeyUsage(int iTLSServerCertIndex);

bool GetTLSServerCertSelfSigned(int iTLSServerCertIndex);

QByteArray GetTLSServerCertSerialNumber(int iTLSServerCertIndex);

QString GetTLSServerCertSigAlgorithm(int iTLSServerCertIndex);

QString GetTLSServerCertSubject(int iTLSServerCertIndex);

QString GetTLSServerCertSubjectRDN(int iTLSServerCertIndex);

QString GetTLSServerCertValidFrom(int iTLSServerCertIndex);

QString GetTLSServerCertValidTo(int iTLSServerCertIndex);

Remarks

Use this property to access the certificate chain sent by the TLS server. This property is ready to read when the TLSCertValidate event is fired by the client component.

This property is read-only and not available at design time.

Data Type

SecureBlackboxCertificate

TLSSettings Property (WebSocketClient Class)

Manages TLS layer settings.

Syntax

SecureBlackboxTLSSettings* GetTLSSettings();

int secureblackbox_websocketclient_gettlsautovalidatecertificates(void* lpObj);
int secureblackbox_websocketclient_settlsautovalidatecertificates(void* lpObj, int bTLSAutoValidateCertificates);

int secureblackbox_websocketclient_gettlsbaseconfiguration(void* lpObj);
int secureblackbox_websocketclient_settlsbaseconfiguration(void* lpObj, int iTLSBaseConfiguration);

char* secureblackbox_websocketclient_gettlsciphersuites(void* lpObj);
int secureblackbox_websocketclient_settlsciphersuites(void* lpObj, const char* lpszTLSCiphersuites);

int secureblackbox_websocketclient_gettlsclientauth(void* lpObj);
int secureblackbox_websocketclient_settlsclientauth(void* lpObj, int iTLSClientAuth);

char* secureblackbox_websocketclient_gettlseccurves(void* lpObj);
int secureblackbox_websocketclient_settlseccurves(void* lpObj, const char* lpszTLSECCurves);

char* secureblackbox_websocketclient_gettlsextensions(void* lpObj);
int secureblackbox_websocketclient_settlsextensions(void* lpObj, const char* lpszTLSExtensions);

int secureblackbox_websocketclient_gettlsforceresumeifdestinationchanges(void* lpObj);
int secureblackbox_websocketclient_settlsforceresumeifdestinationchanges(void* lpObj, int bTLSForceResumeIfDestinationChanges);

char* secureblackbox_websocketclient_gettlspresharedidentity(void* lpObj);
int secureblackbox_websocketclient_settlspresharedidentity(void* lpObj, const char* lpszTLSPreSharedIdentity);

char* secureblackbox_websocketclient_gettlspresharedkey(void* lpObj);
int secureblackbox_websocketclient_settlspresharedkey(void* lpObj, const char* lpszTLSPreSharedKey);

char* secureblackbox_websocketclient_gettlspresharedkeyciphersuite(void* lpObj);
int secureblackbox_websocketclient_settlspresharedkeyciphersuite(void* lpObj, const char* lpszTLSPreSharedKeyCiphersuite);

int secureblackbox_websocketclient_gettlsrenegotiationattackpreventionmode(void* lpObj);
int secureblackbox_websocketclient_settlsrenegotiationattackpreventionmode(void* lpObj, int iTLSRenegotiationAttackPreventionMode);

int secureblackbox_websocketclient_gettlsrevocationcheck(void* lpObj);
int secureblackbox_websocketclient_settlsrevocationcheck(void* lpObj, int iTLSRevocationCheck);

int secureblackbox_websocketclient_gettlsssloptions(void* lpObj);
int secureblackbox_websocketclient_settlsssloptions(void* lpObj, int iTLSSSLOptions);

int secureblackbox_websocketclient_gettlstlsmode(void* lpObj);
int secureblackbox_websocketclient_settlstlsmode(void* lpObj, int iTLSTLSMode);

int secureblackbox_websocketclient_gettlsuseextendedmastersecret(void* lpObj);
int secureblackbox_websocketclient_settlsuseextendedmastersecret(void* lpObj, int bTLSUseExtendedMasterSecret);

int secureblackbox_websocketclient_gettlsusesessionresumption(void* lpObj);
int secureblackbox_websocketclient_settlsusesessionresumption(void* lpObj, int bTLSUseSessionResumption);

int secureblackbox_websocketclient_gettlsversions(void* lpObj);
int secureblackbox_websocketclient_settlsversions(void* lpObj, int iTLSVersions);

bool GetTLSAutoValidateCertificates();
int SetTLSAutoValidateCertificates(bool bTLSAutoValidateCertificates);

int GetTLSBaseConfiguration();
int SetTLSBaseConfiguration(int iTLSBaseConfiguration);

QString GetTLSCiphersuites();
int SetTLSCiphersuites(QString qsTLSCiphersuites);

int GetTLSClientAuth();
int SetTLSClientAuth(int iTLSClientAuth);

QString GetTLSECCurves();
int SetTLSECCurves(QString qsTLSECCurves);

QString GetTLSExtensions();
int SetTLSExtensions(QString qsTLSExtensions);

bool GetTLSForceResumeIfDestinationChanges();
int SetTLSForceResumeIfDestinationChanges(bool bTLSForceResumeIfDestinationChanges);

QString GetTLSPreSharedIdentity();
int SetTLSPreSharedIdentity(QString qsTLSPreSharedIdentity);

QString GetTLSPreSharedKey();
int SetTLSPreSharedKey(QString qsTLSPreSharedKey);

QString GetTLSPreSharedKeyCiphersuite();
int SetTLSPreSharedKeyCiphersuite(QString qsTLSPreSharedKeyCiphersuite);

int GetTLSRenegotiationAttackPreventionMode();
int SetTLSRenegotiationAttackPreventionMode(int iTLSRenegotiationAttackPreventionMode);

int GetTLSRevocationCheck();
int SetTLSRevocationCheck(int iTLSRevocationCheck);

int GetTLSSSLOptions();
int SetTLSSSLOptions(int iTLSSSLOptions);

int GetTLSTLSMode();
int SetTLSTLSMode(int iTLSTLSMode);

bool GetTLSUseExtendedMasterSecret();
int SetTLSUseExtendedMasterSecret(bool bTLSUseExtendedMasterSecret);

bool GetTLSUseSessionResumption();
int SetTLSUseSessionResumption(bool bTLSUseSessionResumption);

int GetTLSVersions();
int SetTLSVersions(int iTLSVersions);

Remarks

Use this property to tune up the TLS layer parameters.

This property is read-only.

Data Type

SecureBlackboxTLSSettings

TrustedCertificates Property (WebSocketClient Class)

A list of trusted certificates for chain validation.

Syntax

SecureBlackboxList<SecureBlackboxCertificate>* GetTrustedCertificates();
int SetTrustedCertificates(SecureBlackboxList<SecureBlackboxCertificate>* val);

int secureblackbox_websocketclient_gettrustedcertcount(void* lpObj);
int secureblackbox_websocketclient_settrustedcertcount(void* lpObj, int iTrustedCertCount);

int secureblackbox_websocketclient_gettrustedcertbytes(void* lpObj, int trustedcertindex, char** lpTrustedCertBytes, int* lenTrustedCertBytes);

int64 secureblackbox_websocketclient_gettrustedcerthandle(void* lpObj, int trustedcertindex);
int secureblackbox_websocketclient_settrustedcerthandle(void* lpObj, int trustedcertindex, int64 lTrustedCertHandle);

int GetTrustedCertCount();
int SetTrustedCertCount(int iTrustedCertCount);

QByteArray GetTrustedCertBytes(int iTrustedCertIndex);

qint64 GetTrustedCertHandle(int iTrustedCertIndex);
int SetTrustedCertHandle(int iTrustedCertIndex, qint64 lTrustedCertHandle);

Remarks

Use this property to supply a list of trusted certificates that might be needed for chain validation. An example of a scenario where you might want to do that is when root CA certificates are absent from the standard system locations (or when there are no standard system locations), and therefore should be supplied to the component manually.

The purpose of this certificate collection is largely the same as that of the Windows Trusted Root Certification Authorities system store.

Use this property with extreme care as it directly affects chain verifiability; a wrong certificate added to the trusted list may result in bad chains being accepted, and forfeited signatures being recognized as genuine. Only add certificates that originate from the parties that you know and trust.

This property is not available at design time.

Data Type

SecureBlackboxCertificate

Config Method (WebSocketClient Class)

Sets or retrieves a configuration setting.

Syntax

ANSI (Cross Platform)
char* Config(const char* lpszConfigurationString);

Unicode (Windows)
LPWSTR Config(LPCWSTR lpszConfigurationString);

char* secureblackbox_websocketclient_config(void* lpObj, const char* lpszConfigurationString);

QString Config(const QString& qsConfigurationString);

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.

Error Handling (C++)

This method returns a String value; after it returns, call the GetLastErrorCode() method to obtain its result code; 0 indicates success, while a non-zero error code indicates that this method encountered an error during its execution. If an error occurs, the GetLastError() method can be called to retrieve the associated error message.

Connect Method (WebSocketClient Class)

Establishes connection to the server.

Syntax

ANSI (Cross Platform)
int Connect(const char* lpszAddress, const char* lpszProtocols);

Unicode (Windows)
INT Connect(LPCWSTR lpszAddress, LPCWSTR lpszProtocols);

int secureblackbox_websocketclient_connect(void* lpObj, const char* lpszAddress, const char* lpszProtocols);

int Connect(const QString& qsAddress, const QString& qsProtocols);

Remarks

Call this method to establish remote connection to a server at the provided web Address (URL).

Error Handling (C++)

This method returns a result code; 0 indicates success, while a non-zero error code indicates that this method encountered an error during its execution. If an error occurs, the GetLastError() method can be called to retrieve the associated error message. (Note: This method's result code can also be obtained by calling the GetLastErrorCode() method after it returns.)

Disconnect Method (WebSocketClient Class)

Disconnects from the server.

Syntax

ANSI (Cross Platform)
int Disconnect();

Unicode (Windows)
INT Disconnect();

int secureblackbox_websocketclient_disconnect(void* lpObj);

int Disconnect();

Remarks

Call this method to close the connection to the server.

Error Handling (C++)

DoAction Method (WebSocketClient Class)

Performs an additional action.

Syntax

ANSI (Cross Platform)
char* DoAction(const char* lpszActionID, const char* lpszActionParams);

Unicode (Windows)
LPWSTR DoAction(LPCWSTR lpszActionID, LPCWSTR lpszActionParams);

char* secureblackbox_websocketclient_doaction(void* lpObj, const char* lpszActionID, const char* lpszActionParams);

QString DoAction(const QString& qsActionID, const QString& qsActionParams);

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 insensitive) 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;....

Error Handling (C++)

Reset Method (WebSocketClient Class)

Resets the class settings.

Syntax

ANSI (Cross Platform)
int Reset();

Unicode (Windows)
INT Reset();

int secureblackbox_websocketclient_reset(void* lpObj);

int Reset();

Remarks

Reset is a generic method available in every class.

Error Handling (C++)

SendData Method (WebSocketClient Class)

Sends a piece of binary data to the server.

Syntax

ANSI (Cross Platform)
int SendData(const char* lpBuffer, int lenBuffer);

Unicode (Windows)
INT SendData(LPCSTR lpBuffer, INT lenBuffer);

int secureblackbox_websocketclient_senddata(void* lpObj, const char* lpBuffer, int lenBuffer);

int SendData(QByteArray qbaBuffer);

Remarks

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

Error Handling (C++)

SendKeepAlive Method (WebSocketClient Class)

Sends a keep-alive message.

Syntax

ANSI (Cross Platform)
int SendKeepAlive();

Unicode (Windows)
INT SendKeepAlive();

int secureblackbox_websocketclient_sendkeepalive(void* lpObj);

int SendKeepAlive();

Remarks

Use this method to send a keep-alive 'ping' to the server. 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.

Error Handling (C++)

SendText Method (WebSocketClient Class)

Sends a piece of text data to the server.

Syntax

ANSI (Cross Platform)
int SendText(const char* lpszText);

Unicode (Windows)
INT SendText(LPCWSTR lpszText);

int secureblackbox_websocketclient_sendtext(void* lpObj, const char* lpszText);

int SendText(const QString& qsText);

Remarks

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

Error Handling (C++)

BinaryData Event (WebSocketClient Class)

Passes a received chunk of binary data to the application.

Syntax

ANSI (Cross Platform)
virtual int FireBinaryData(WebSocketClientBinaryDataEventParams *e);

typedef struct {
  const char *Buffer;
  int lenBuffer;
  int Last;
  int reserved;
} WebSocketClientBinaryDataEventParams;


Unicode (Windows)
virtual INT FireBinaryData(WebSocketClientBinaryDataEventParams *e);

typedef struct {
  LPCSTR Buffer;
  INT lenBuffer;
  BOOL Last;
  INT reserved;
} WebSocketClientBinaryDataEventParams;

#define EID_WEBSOCKETCLIENT_BINARYDATA 1

virtual INT SECUREBLACKBOX_CALL FireBinaryData(LPSTR &lpBuffer, INT &lenBuffer, BOOL &bLast);

class WebSocketClientBinaryDataEventParams {
public:
  const QByteArray &Buffer();

  bool Last();

  int EventRetVal();
  void SetEventRetVal(int iRetVal);
};

// To handle, connect one or more slots to this signal.
void BinaryData(WebSocketClientBinaryDataEventParams *e);

// Or, subclass WebSocketClient and override this emitter function.
virtual int FireBinaryData(WebSocketClientBinaryDataEventParams *e) {...}

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 (WebSocketClient Class)

Reports the setup of the connection.

Syntax

ANSI (Cross Platform)
virtual int FireConnect(WebSocketClientConnectEventParams *e);

typedef struct {
  const char *Key;
  const char *SubProtocol;
  const char *Extensions;
  int reserved;
} WebSocketClientConnectEventParams;


Unicode (Windows)
virtual INT FireConnect(WebSocketClientConnectEventParams *e);

typedef struct {
  LPCWSTR Key;
  LPCWSTR SubProtocol;
  LPCWSTR Extensions;
  INT reserved;
} WebSocketClientConnectEventParams;

#define EID_WEBSOCKETCLIENT_CONNECT 2

virtual INT SECUREBLACKBOX_CALL FireConnect(LPSTR &lpszKey, LPSTR &lpszSubProtocol, LPSTR &lpszExtensions);

class WebSocketClientConnectEventParams {
public:
  const QString &Key();

  const QString &SubProtocol();

  const QString &Extensions();

  int EventRetVal();
  void SetEventRetVal(int iRetVal);
};

// To handle, connect one or more slots to this signal.
void Connect(WebSocketClientConnectEventParams *e);

// Or, subclass WebSocketClient and override this emitter function.
virtual int FireConnect(WebSocketClientConnectEventParams *e) {...}

Remarks

The class fires this event to notify of successful websocket connection setup.

Disconnect Event (WebSocketClient Class)

Notifies the application of websocket disconnection.

Syntax

ANSI (Cross Platform)
virtual int FireDisconnect(WebSocketClientDisconnectEventParams *e);

typedef struct {
  int reserved;
} WebSocketClientDisconnectEventParams;


Unicode (Windows)
virtual INT FireDisconnect(WebSocketClientDisconnectEventParams *e);

typedef struct {
  INT reserved;
} WebSocketClientDisconnectEventParams;

#define EID_WEBSOCKETCLIENT_DISCONNECT 3

virtual INT SECUREBLACKBOX_CALL FireDisconnect();

class WebSocketClientDisconnectEventParams {
public:
  int EventRetVal();
  void SetEventRetVal(int iRetVal);
};

// To handle, connect one or more slots to this signal.
void Disconnect(WebSocketClientDisconnectEventParams *e);

// Or, subclass WebSocketClient and override this emitter function.
virtual int FireDisconnect(WebSocketClientDisconnectEventParams *e) {...}

Remarks

Subscribe to this event to get notified of websocket disconnection.

Error Event (WebSocketClient Class)

Information about errors during data delivery.

Syntax

ANSI (Cross Platform)
virtual int FireError(WebSocketClientErrorEventParams *e);

typedef struct {
  int ErrorCode;
  int Fatal;
  int Remote;
  const char *Description;
  int reserved;
} WebSocketClientErrorEventParams;


Unicode (Windows)
virtual INT FireError(WebSocketClientErrorEventParams *e);

typedef struct {
  INT ErrorCode;
  BOOL Fatal;
  BOOL Remote;
  LPCWSTR Description;
  INT reserved;
} WebSocketClientErrorEventParams;

#define EID_WEBSOCKETCLIENT_ERROR 4

virtual INT SECUREBLACKBOX_CALL FireError(INT &iErrorCode, BOOL &bFatal, BOOL &bRemote, LPSTR &lpszDescription);

class WebSocketClientErrorEventParams {
public:
  int ErrorCode();

  bool Fatal();

  bool Remote();

  const QString &Description();

  int EventRetVal();
  void SetEventRetVal(int iRetVal);
};

// To handle, connect one or more slots to this signal.
void Error(WebSocketClientErrorEventParams *e);

// Or, subclass WebSocketClient and override this emitter function.
virtual int FireError(WebSocketClientErrorEventParams *e) {...}

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 (WebSocketClient Class)

Handles remote or external signing initiated by the SignExternal method or other source.

Syntax

ANSI (Cross Platform)
virtual int FireExternalSign(WebSocketClientExternalSignEventParams *e);

typedef struct {
  const char *OperationId;
  const char *HashAlgorithm;
  const char *Pars;
  const char *Data;
  char *SignedData;
  int reserved;
} WebSocketClientExternalSignEventParams;


Unicode (Windows)
virtual INT FireExternalSign(WebSocketClientExternalSignEventParams *e);

typedef struct {
  LPCWSTR OperationId;
  LPCWSTR HashAlgorithm;
  LPCWSTR Pars;
  LPCWSTR Data;
  LPWSTR SignedData;
  INT reserved;
} WebSocketClientExternalSignEventParams;

#define EID_WEBSOCKETCLIENT_EXTERNALSIGN 5

virtual INT SECUREBLACKBOX_CALL FireExternalSign(LPSTR &lpszOperationId, LPSTR &lpszHashAlgorithm, LPSTR &lpszPars, LPSTR &lpszData, LPSTR &lpszSignedData);

class WebSocketClientExternalSignEventParams {
public:
  const QString &OperationId();

  const QString &HashAlgorithm();

  const QString &Pars();

  const QString &Data();

  const QString &SignedData();
  void SetSignedData(const QString &qsSignedData);

  int EventRetVal();
  void SetEventRetVal(int iRetVal);
};

// To handle, connect one or more slots to this signal.
void ExternalSign(WebSocketClientExternalSignEventParams *e);

// Or, subclass WebSocketClient and override this emitter function.
virtual int FireExternalSign(WebSocketClientExternalSignEventParams *e) {...}

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 class via the SignedData parameter.

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

The class uses base16 (hex) encoding for the 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 the .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(); };

KeepAliveResponse Event (WebSocketClient Class)

Reports a response to a keep-alive message.

Syntax

ANSI (Cross Platform)
virtual int FireKeepAliveResponse(WebSocketClientKeepAliveResponseEventParams *e);

typedef struct {
  int reserved;
} WebSocketClientKeepAliveResponseEventParams;


Unicode (Windows)
virtual INT FireKeepAliveResponse(WebSocketClientKeepAliveResponseEventParams *e);

typedef struct {
  INT reserved;
} WebSocketClientKeepAliveResponseEventParams;

#define EID_WEBSOCKETCLIENT_KEEPALIVERESPONSE 6

virtual INT SECUREBLACKBOX_CALL FireKeepAliveResponse();

class WebSocketClientKeepAliveResponseEventParams {
public:
  int EventRetVal();
  void SetEventRetVal(int iRetVal);
};

// To handle, connect one or more slots to this signal.
void KeepAliveResponse(WebSocketClientKeepAliveResponseEventParams *e);

// Or, subclass WebSocketClient and override this emitter function.
virtual int FireKeepAliveResponse(WebSocketClientKeepAliveResponseEventParams *e) {...}

Remarks

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

Notification Event (WebSocketClient Class)

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

Syntax

ANSI (Cross Platform)
virtual int FireNotification(WebSocketClientNotificationEventParams *e);

typedef struct {
  const char *EventID;
  const char *EventParam;
  int reserved;
} WebSocketClientNotificationEventParams;


Unicode (Windows)
virtual INT FireNotification(WebSocketClientNotificationEventParams *e);

typedef struct {
  LPCWSTR EventID;
  LPCWSTR EventParam;
  INT reserved;
} WebSocketClientNotificationEventParams;

#define EID_WEBSOCKETCLIENT_NOTIFICATION 7

virtual INT SECUREBLACKBOX_CALL FireNotification(LPSTR &lpszEventID, LPSTR &lpszEventParam);

class WebSocketClientNotificationEventParams {
public:
  const QString &EventID();

  const QString &EventParam();

  int EventRetVal();
  void SetEventRetVal(int iRetVal);
};

// To handle, connect one or more slots to this signal.
void Notification(WebSocketClientNotificationEventParams *e);

// Or, subclass WebSocketClient and override this emitter function.
virtual int FireNotification(WebSocketClientNotificationEventParams *e) {...}

Remarks

The class fires this event to let the application know about some event, occurrence, or milestone in the class. 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 the EventID parameter. EventParam contains any parameters accompanying the occurrence. Depending on the type of the class, the exact action it is performing, or the document being processed, one or both may be omitted.

TextData Event (WebSocketClient Class)

Passes a received chunk of text data to the application.

Syntax

ANSI (Cross Platform)
virtual int FireTextData(WebSocketClientTextDataEventParams *e);

typedef struct {
  const char *Text;
  int Last;
  int reserved;
} WebSocketClientTextDataEventParams;


Unicode (Windows)
virtual INT FireTextData(WebSocketClientTextDataEventParams *e);

typedef struct {
  LPCWSTR Text;
  BOOL Last;
  INT reserved;
} WebSocketClientTextDataEventParams;

#define EID_WEBSOCKETCLIENT_TEXTDATA 8

virtual INT SECUREBLACKBOX_CALL FireTextData(LPSTR &lpszText, BOOL &bLast);

class WebSocketClientTextDataEventParams {
public:
  const QString &Text();

  bool Last();

  int EventRetVal();
  void SetEventRetVal(int iRetVal);
};

// To handle, connect one or more slots to this signal.
void TextData(WebSocketClientTextDataEventParams *e);

// Or, subclass WebSocketClient and override this emitter function.
virtual int FireTextData(WebSocketClientTextDataEventParams *e) {...}

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.

TLSCertNeeded Event (WebSocketClient Class)

Fires when a remote TLS party requests a client certificate.

Syntax

ANSI (Cross Platform)
virtual int FireTLSCertNeeded(WebSocketClientTLSCertNeededEventParams *e);

typedef struct {
  const char *Host;
  const char *CANames;
  int reserved;
} WebSocketClientTLSCertNeededEventParams;


Unicode (Windows)
virtual INT FireTLSCertNeeded(WebSocketClientTLSCertNeededEventParams *e);

typedef struct {
  LPCWSTR Host;
  LPCWSTR CANames;
  INT reserved;
} WebSocketClientTLSCertNeededEventParams;

#define EID_WEBSOCKETCLIENT_TLSCERTNEEDED 9

virtual INT SECUREBLACKBOX_CALL FireTLSCertNeeded(LPSTR &lpszHost, LPSTR &lpszCANames);

class WebSocketClientTLSCertNeededEventParams {
public:
  const QString &Host();

  const QString &CANames();

  int EventRetVal();
  void SetEventRetVal(int iRetVal);
};

// To handle, connect one or more slots to this signal.
void TLSCertNeeded(WebSocketClientTLSCertNeededEventParams *e);

// Or, subclass WebSocketClient and override this emitter function.
virtual int FireTLSCertNeeded(WebSocketClientTLSCertNeededEventParams *e) {...}

Remarks

This event fires to notify the implementation that a remote TLS server has requested a client certificate. The Host parameter identifies the host that makes a request, and the CANames parameter (optional, according to the TLS spec) advises on the accepted issuing CAs.

Use the TLSClientChain property in response to this event to provide the requested certificate. Please make sure the client certificate includes the associated private key. Note that you may set the certificates before the connection without waiting for this event to fire.

This event is preceded by the TLSHandshake event for the given host and, if the certificate was accepted, succeeded by the TLSEstablished event.

TLSCertValidate Event (WebSocketClient Class)

This event is fired upon receipt of the TLS server's certificate, allowing the user to control its acceptance.

Syntax

ANSI (Cross Platform)
virtual int FireTLSCertValidate(WebSocketClientTLSCertValidateEventParams *e);

typedef struct {
  const char *ServerHost;
  const char *ServerIP;
  int Accept;
  int reserved;
} WebSocketClientTLSCertValidateEventParams;


Unicode (Windows)
virtual INT FireTLSCertValidate(WebSocketClientTLSCertValidateEventParams *e);

typedef struct {
  LPCWSTR ServerHost;
  LPCWSTR ServerIP;
  BOOL Accept;
  INT reserved;
} WebSocketClientTLSCertValidateEventParams;

#define EID_WEBSOCKETCLIENT_TLSCERTVALIDATE 10

virtual INT SECUREBLACKBOX_CALL FireTLSCertValidate(LPSTR &lpszServerHost, LPSTR &lpszServerIP, BOOL &bAccept);

class WebSocketClientTLSCertValidateEventParams {
public:
  const QString &ServerHost();

  const QString &ServerIP();

  bool Accept();
  void SetAccept(bool bAccept);

  int EventRetVal();
  void SetEventRetVal(int iRetVal);
};

// To handle, connect one or more slots to this signal.
void TLSCertValidate(WebSocketClientTLSCertValidateEventParams *e);

// Or, subclass WebSocketClient and override this emitter function.
virtual int FireTLSCertValidate(WebSocketClientTLSCertValidateEventParams *e) {...}

Remarks

This event is fired during a TLS handshake. Use the TLSServerChain property to access the certificate chain. In general, classes may contact a number of TLS endpoints during their work, depending on their configuration.

Accept is assigned in accordance with the outcome of the internal validation check performed by the class, and can be adjusted if needed.

TLSEstablished Event (WebSocketClient Class)

Fires when a TLS handshake with Host successfully completes.

Syntax

ANSI (Cross Platform)
virtual int FireTLSEstablished(WebSocketClientTLSEstablishedEventParams *e);

typedef struct {
  const char *Host;
  const char *Version;
  const char *Ciphersuite;
  const char *ConnectionId;
  int lenConnectionId;
  int Abort;
  int reserved;
} WebSocketClientTLSEstablishedEventParams;


Unicode (Windows)
virtual INT FireTLSEstablished(WebSocketClientTLSEstablishedEventParams *e);

typedef struct {
  LPCWSTR Host;
  LPCWSTR Version;
  LPCWSTR Ciphersuite;
  LPCSTR ConnectionId;
  INT lenConnectionId;
  BOOL Abort;
  INT reserved;
} WebSocketClientTLSEstablishedEventParams;

#define EID_WEBSOCKETCLIENT_TLSESTABLISHED 11

virtual INT SECUREBLACKBOX_CALL FireTLSEstablished(LPSTR &lpszHost, LPSTR &lpszVersion, LPSTR &lpszCiphersuite, LPSTR &lpConnectionId, INT &lenConnectionId, BOOL &bAbort);

class WebSocketClientTLSEstablishedEventParams {
public:
  const QString &Host();

  const QString &Version();

  const QString &Ciphersuite();

  const QByteArray &ConnectionId();

  bool Abort();
  void SetAbort(bool bAbort);

  int EventRetVal();
  void SetEventRetVal(int iRetVal);
};

// To handle, connect one or more slots to this signal.
void TLSEstablished(WebSocketClientTLSEstablishedEventParams *e);

// Or, subclass WebSocketClient and override this emitter function.
virtual int FireTLSEstablished(WebSocketClientTLSEstablishedEventParams *e) {...}

Remarks

The class uses this event to notify the application about a successful completion of a TLS handshake.

The Version, Ciphersuite, and ConnectionId parameters indicate the security parameters of the new connection. Use the Abort parameter if you need to terminate the connection at this stage.

TLSHandshake Event (WebSocketClient Class)

Fires when a new TLS handshake is initiated, before the handshake commences.

Syntax

ANSI (Cross Platform)
virtual int FireTLSHandshake(WebSocketClientTLSHandshakeEventParams *e);

typedef struct {
  const char *Host;
  int Abort;
  int reserved;
} WebSocketClientTLSHandshakeEventParams;


Unicode (Windows)
virtual INT FireTLSHandshake(WebSocketClientTLSHandshakeEventParams *e);

typedef struct {
  LPCWSTR Host;
  BOOL Abort;
  INT reserved;
} WebSocketClientTLSHandshakeEventParams;

#define EID_WEBSOCKETCLIENT_TLSHANDSHAKE 12

virtual INT SECUREBLACKBOX_CALL FireTLSHandshake(LPSTR &lpszHost, BOOL &bAbort);

class WebSocketClientTLSHandshakeEventParams {
public:
  const QString &Host();

  bool Abort();
  void SetAbort(bool bAbort);

  int EventRetVal();
  void SetEventRetVal(int iRetVal);
};

// To handle, connect one or more slots to this signal.
void TLSHandshake(WebSocketClientTLSHandshakeEventParams *e);

// Or, subclass WebSocketClient and override this emitter function.
virtual int FireTLSHandshake(WebSocketClientTLSHandshakeEventParams *e) {...}

Remarks

The class uses this event to notify the application about the start of a new TLS handshake to Host. If the handshake is successful, this event will be followed by the TLSEstablished event. If the server chooses to request a client certificate, the TLSCertNeeded event will also be fired.

TLSPSK Event (WebSocketClient Class)

Notifies the application about the PSK key exchange.

Syntax

ANSI (Cross Platform)
virtual int FireTLSPSK(WebSocketClientTLSPSKEventParams *e);

typedef struct {
  const char *Host;
  const char *Hint;
  int reserved;
} WebSocketClientTLSPSKEventParams;


Unicode (Windows)
virtual INT FireTLSPSK(WebSocketClientTLSPSKEventParams *e);

typedef struct {
  LPCWSTR Host;
  LPCWSTR Hint;
  INT reserved;
} WebSocketClientTLSPSKEventParams;

#define EID_WEBSOCKETCLIENT_TLSPSK 13

virtual INT SECUREBLACKBOX_CALL FireTLSPSK(LPSTR &lpszHost, LPSTR &lpszHint);

class WebSocketClientTLSPSKEventParams {
public:
  const QString &Host();

  const QString &Hint();

  int EventRetVal();
  void SetEventRetVal(int iRetVal);
};

// To handle, connect one or more slots to this signal.
void TLSPSK(WebSocketClientTLSPSKEventParams *e);

// Or, subclass WebSocketClient and override this emitter function.
virtual int FireTLSPSK(WebSocketClientTLSPSKEventParams *e) {...}

Remarks

The class fires this event to notify the application about the beginning of TLS-PSK key exchange with Host. The Hint parameter may be used by the server to identify the key or service to use. Use the PreSharedKey field of TLSSettings to provide the pre-shared key to the component.

TLSShutdown Event (WebSocketClient Class)

Reports the graceful closure of a TLS connection.

Syntax

ANSI (Cross Platform)
virtual int FireTLSShutdown(WebSocketClientTLSShutdownEventParams *e);

typedef struct {
  const char *Host;
  int reserved;
} WebSocketClientTLSShutdownEventParams;


Unicode (Windows)
virtual INT FireTLSShutdown(WebSocketClientTLSShutdownEventParams *e);

typedef struct {
  LPCWSTR Host;
  INT reserved;
} WebSocketClientTLSShutdownEventParams;

#define EID_WEBSOCKETCLIENT_TLSSHUTDOWN 14

virtual INT SECUREBLACKBOX_CALL FireTLSShutdown(LPSTR &lpszHost);

class WebSocketClientTLSShutdownEventParams {
public:
  const QString &Host();

  int EventRetVal();
  void SetEventRetVal(int iRetVal);
};

// To handle, connect one or more slots to this signal.
void TLSShutdown(WebSocketClientTLSShutdownEventParams *e);

// Or, subclass WebSocketClient and override this emitter function.
virtual int FireTLSShutdown(WebSocketClientTLSShutdownEventParams *e) {...}

Remarks

This event notifies the application about the closure of an earlier established TLS connection. Note that only graceful connection closures are reported.

Certificate Type

Encapsulates an individual X.509 certificate.

Syntax

SecureBlackboxCertificate (declared in secureblackbox.h)

Remarks

This type keeps and provides access to X.509 certificate details.

The following fields are available:

Fields

Bytes
char* (read-only)
Default Value:

Returns the raw certificate data in DER format.

CA
int
Default Value: FALSE

Indicates whether the certificate has a CA capability. For the certificate to be considered a CA, it must have its Basic Constraints extension set with the CA indicator enabled.

Set this field when generating a new certificate to have its Basic Constraints extension generated automatically.

CAKeyID
char* (read-only)
Default Value:

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

Authority Key Identifier is a certificate extension which allows identification of certificates belonging to the same issuer, but with different public keys. It is a de-facto standard to include this extension in all certificates to facilitate chain building.

This setting cannot be set when generating a certificate as it always derives from another certificate property. CertificateManager generates this setting automatically if enough information is available to it: for self-signed certificates, this value is copied from the SubjectKeyID setting, and for lower-level certificates, from the parent certificate's subject key ID extension.

CertType
int (read-only)
Default Value: 0

Returns the type of the entity contained in the Certificate object.

A Certificate object can contain two types of cryptographic objects: a ready-to-use X.509 certificate, or a certificate request ("an unsigned certificate"). Certificate requests can be upgraded to full certificates by signing them with a CA certificate.

Use the CertificateManager class to load or create new certificate and certificate requests objects.

CRLDistributionPoints
char*
Default Value: ""

Contains a list of locations of CRL distribution points used to check this certificate's validity. The list is taken from the respective certificate extension.

Use this field when generating a certificate to provide a list of CRL endpoints that should be made part of the new certificate.

The endpoints are provided as a list of CRLF-separated URLs. Note that this differs from the behaviour used in earlier product versions, where the "|" character was used as the location separator.

Curve
char*
Default Value: ""

Specifies the elliptic curve associated with the certificate's public key. This setting only applies to certificates containing EC keys.


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
char* (read-only)
Default Value: ""

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

While there is no formal standard defining what a fingerprint is, a SHA1 hash of the certificate's DER-encoded body is typically used.

FriendlyName
char* (read-only)
Default Value: ""

Contains an associated alias (friendly name) of the certificate. The friendly name is not a property of a certificate: it is maintained by the certificate media rather than being included in its DER representation. Windows certificate stores are one example of media that does support friendly names.

Handle
int64
Default Value: 0

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
char*
Default Value: ""

Provides means to set the hash algorithm to be used in the subsequent operation on the certificate (such as generation or key signing). It is not a property of a certificate; use SigAlgorithm to find out the hash algorithm that is part of the certificate signature.


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
char* (read-only)
Default Value: ""

The common name of the certificate issuer (CA), typically a company name. This is part of a larger set of credentials available via IssuerRDN.

IssuerRDN
char*
Default Value: ""

A list of Property=Value pairs that uniquely identify the certificate issuer.

Example: /C=US/O=Nationwide CA/CN=Web Certification Authority

KeyAlgorithm
char*
Default Value: "0"

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`

Use the KeyBits, Curve, and PublicKeyBytes fields to get more details about the key the certificate contains.

KeyBits
int (read-only)
Default Value: 0

Returns the length of the public key in bits.

This value indicates the length of the principal cryptographic parameter of the key, such as the length of the RSA modulus or ECDSA field. The key data returned by the PublicKeyBytes or PrivateKeyBytes field would typically contain auxiliary values, and therefore be longer.

KeyFingerprint
char* (read-only)
Default Value: ""

Returns a SHA1 fingerprint of the public key contained in the certificate.

Note that the key fingerprint is different from the certificate fingerprint accessible via the Fingerprint field. The key fingeprint uniquely identifies the public key, and so can be the same for multiple certificates containing the same key.

KeyUsage
int
Default Value: 0

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

Set this field before generating the certificate to propagate the key usage flags to the new certificate.

KeyValid
int (read-only)
Default Value: FALSE

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

OCSPLocations
char*
Default Value: ""

Locations of OCSP services that can be used to check this certificate's validity in real time, as recorded by the CA.

Set this field before calling the certificate manager's Generate method to propagate it to the new certificate.

The OCSP locations are provided as a list of CRLF-separated URLs. Note that this differs from the behaviour used in earlier product versions, where the "|" character was used as the location separator.

OCSPNoCheck
int
Default Value: FALSE

Accessor to the value of the certificate's ocsp-no-check extension.

Origin
int (read-only)
Default Value: 0

Returns the location that the certificate was taken or loaded from.

PolicyIDs
char*
Default Value: ""

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.

Set this field when generating a certificate to propagate the policies information to the new certificate.

The policies are provided as a list of CRLF-separated entries. Note that this differs from the behaviour used in earlier product versions, where the "|" character was used as the policy element separator.

PrivateKeyBytes
char* (read-only)
Default Value:

Returns the certificate's private key in DER-encoded format. It is normal for this field to be empty if the private key is non-exportable, which, for example, is typical for certificates originating from hardware security devices.

PrivateKeyExists
int (read-only)
Default Value: FALSE

Indicates whether the certificate has a usable private key associated with it. If it is set to True, the certificate can be used for private key operations, such as signing or decryption.

This field is independent from PrivateKeyBytes, and can be set to True even if the former is empty. This would imply that the private key is non-exportable, but still can be used for cryptographic operations.

PrivateKeyExtractable
int (read-only)
Default Value: FALSE

Indicates whether the private key is extractable (exportable).

PublicKeyBytes
char* (read-only)
Default Value:

Contains the certificate's public key in DER format.

This typically would contain an ASN.1-encoded public key value. The exact format depends on the type of the public key contained in the certificate.

Qualified
int (read-only)
Default Value: FALSE

Indicates whether the certificate is qualified.

This property is set to True if the certificate is confirmed by a Trusted List to be qualified.

QualifiedStatements
int
Default Value: 0

Returns a simplified qualified status of the certificate.

Qualifiers
char* (read-only)
Default Value: ""

A list of qualifiers.

Contains a comma-separated list of qualifier aliases for the certificate, for example QCP-n-qscd,QCWithSSCD.

SelfSigned
int (read-only)
Default Value: FALSE

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

SerialNumber
char*
Default Value:

Returns the certificate's serial number.

The serial number is a binary string that uniquely identifies a certificate among others issued by the same CA. According to the X.509 standard, the (issuer, serial number) pair should be globally unique to facilitate chain building.

SigAlgorithm
char* (read-only)
Default Value: ""

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

A signature algorithm typically combines hash and public key algorithms together, such as sha256WithRSAEncryption or ecdsa-with-SHA256.

Source
int (read-only)
Default Value: 0

Returns the source (location or disposition) of a cryptographic primitive entity, such as a certificate, CRL, or OCSP response.

Subject
char* (read-only)
Default Value: ""

The common name of the certificate holder, typically an individual's name, a URL, an e-mail address, or a company name. This is part of a larger set of credentials available via SubjectRDN.

SubjectAlternativeName
char*
Default Value: ""

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

Subject alternative names are used to provide additional names that are impractical to store in the main SubjectRDN field. For example, it is often used to store all the domain names that a TLS certificate is authorized to protect.

The alternative names are provided as a list of CRLF-separated entries. Note that this differs from the behaviour used in earlier product versions, where the "|" character was used as the element separator.

SubjectKeyID
char*
Default Value:

Contains a unique identifier of the certificate's cryptographic key.

Subject Key Identifier is a certificate extension which allows a specific public key to be associated with a certificate holder. Typically, subject key identifiers of CA certificates are recorded as respective CA key identifiers in the subordinate certificates that they issue, which facilitates chain building.

The SubjectKeyID and CAKeyID fields of self-signed certificates typically contain identical values, as in that specific case, the issuer and the subject are the same entity.

SubjectRDN
char*
Default Value: ""

A list of Property=Value pairs that uniquely identify the certificate holder (subject).

Depending on the purpose of the certificate and the policies of the CA that issued it, the values included in the subject record may differ drastically and contain business or personal names, web URLs, email addresses, and other data.

Example: /C=US/O=Oranges and Apples, Inc./OU=Accounts Receivable/1.2.3.4.5=Value with unknown OID/CN=Margaret Watkins.

Valid
int (read-only)
Default Value: FALSE

Indicates whether or not the signature over the certificate or the request is valid and matches the public key contained in the CA certificate/request.

ValidFrom
char*
Default Value: ""

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

ValidTo
char*
Default Value: ""

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

Constructors

Certificate()

Creates a new object with default field values.

CRL Type

Represents a Certificate Revocation List.

Syntax

SecureBlackboxCRL (declared in secureblackbox.h)

Remarks

CRLs store information about revoked certificates, i.e., certificates that have been identified as invalid by their issuing certificate authority (CA) for any number of reasons.

Each CRL object lists certificates from a single CA and identifies them by their serial numbers. A CA may or may not publish a CRL, may publish several CRLs, or may publish the same CRL in multiple locations.

Unlike OCSP responses, CRLs only list certificates that have been revoked. They do not list certificates that are still valid.

The following fields are available:

Fields

Bytes
char* (read-only)
Default Value:

Returns the raw CRL data in DER format.

CAKeyID
char*
Default Value:

A unique identifier (fingerprint) of the CA certificate's private key, if present in the CRL.

EntryCount
int (read-only)
Default Value: 0

Returns the number of certificate status entries in the CRL.

Handle
int64
Default Value: 0

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.

Issuer
char* (read-only)
Default Value: ""

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

IssuerRDN
char* (read-only)
Default Value: ""

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

Location
char* (read-only)
Default Value: ""

The URL that the CRL was downloaded from.

NextUpdate
char*
Default Value: ""

The planned time and date of the next version of this CRL to be published.

SigAlgorithm
char*
Default Value: "0"

The public key algorithm that was used by the CA to sign this CRL.

Source
int (read-only)
Default Value: 0

Returns the source (location or disposition) of a cryptographic primitive entity, such as a certificate, CRL, or OCSP response.

TBS
char* (read-only)
Default Value:

The to-be-signed part of the CRL (the CRL without the signature part).

ThisUpdate
char*
Default Value: ""

The date and time at which this version of the CRL was published.

Constructors

CRL()

Creates an empty CRL object.

ExternalCrypto Type

Specifies the parameters of external cryptographic calls.

Syntax

SecureBlackboxExternalCrypto (declared in secureblackbox.h)

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.

The following fields are available:

AsyncDocumentID

CustomParams

Data

ExternalHashCalculation

Fields

AsyncDocumentID
char*
Default Value: ""

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 the pre-signing (SignAsyncBegin) and completion (SignAsyncEnd) stages.

CustomParams
char*
Default Value: ""

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

Data
char*
Default Value: ""

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

ExternalHashCalculation
int
Default Value: FALSE

Specifies whether the message hash is to be calculated at the external endpoint. Please note that this mode is not supported by the DCAuth class.

If set to true, the class will pass a few kilobytes of to-be-signed data from the document to the OnExternalSign event. This only applies when SignExternal() is called.

HashAlgorithm
char*
Default Value: "SHA256"

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
char*
Default Value: ""

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 an extra protection layer for the protocol and diminishes the risk of the private key becoming abused by foreign parties. Use this property to provide the pre-shared key identifier, and use KeySecret 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
char*
Default Value: ""

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.

Read more about configuring authentication in the KeyID topic.

Method
int
Default Value: 0

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

Available options:


asmdPKCS1	`0`
asmdPKCS7	`1`

Mode
int
Default Value: 0

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 the OnExternalSign event (`2`)
ecmDCAuth	DCAuth signing (`3`)
ecmDCAuthJSON	DCAuth signing in JSON format (`4`)

PublicKeyAlgorithm
char*
Default Value: ""

Provide the 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

ExternalCrypto()

Creates a new ExternalCrypto object with default field values.

HTTPRequestParameters Type

Represents the headers of the HTTP request to make.

Syntax

SecureBlackboxHTTPRequestParameters (declared in secureblackbox.h)

Remarks

If a header is not assigned but required for a successful request (such as Connection or Host), it will be generated automatically by the class.

The following fields are available:

Fields

Accept
char*
Default Value: ""

Specifies the Accept header field of the HTTP request. The Accept field defines which media types are accepted in the response.

AcceptCharset
char*
Default Value: ""

Specifies the Accept-Charset header field of the HTTP request. The Accept-Charset field specifies the character set which the client can understand.

AcceptLanguage
char*
Default Value: ""

Specifies the Accept-Language header field of the HTTP request. The Accept-Language field specifies the language (and locale) which the client can understand.

AcceptRangeEnd
int64
Default Value: 0

This property, in combination with AcceptRangeStart, defines the media-range of the HTTP request.

AcceptRangeStart
int64
Default Value: 0

This property, in combination with AcceptRangeEnd, defines the media-range of the HTTP request.

Authorization
char*
Default Value: ""

Specifies the Authorization header of the HTTP request. This header contains the credentials to authenticate a user with a server.

Connection
char*
Default Value: ""

Specifies the value to pass to the Connection header field of HTTP request.

ContentLength
int64
Default Value: 0

Specifies the size of the entity-body of the HTTP request. Leave this field set to 0 to make the class calculate it automatically.

ContentRangeEnd
int64
Default Value: 0

Specifies the upper bound used in the Content-Range header of the HTTP request.

ContentRangeFullSize
int64
Default Value: 0

Specifies the total length of the full entity-body of the HTTP request.

ContentRangeStart
int64
Default Value: 0

Specifies the lower bound used in the Content-Range header of the HTTP request.

ContentType
char*
Default Value: ""

The Content-Type header field of the HTTP request.

Cookie
char*
Default Value: ""

This header is expected to be assigned with cookies previously received from the server and stored by the client.

CustomHeaders
char*
Default Value: ""

Assign any custom HTTP headers to be passed to the server to this property.

Date
char*
Default Value: ""

The date and time of the request.

From
char*
Default Value: ""

Contains the From header field of the HTTP request. It specifies the e-mail address for the human user who controls the requesting user agent.

Host
char*
Default Value: ""

This field contains the Host header field of the HTTP request. It specifies the host and port number of the resource being requested.

HTTPVersion
int
Default Value: 1

Specifies the version of HTTP protocol to use: 1.0 or 1.1.


chvHTTP10	HTTP/1.0 (`0`)
chvHTTP11	HTTP/1.1 (`1`)

IfMatch
char*
Default Value: ""

Contains the If-Match request header field. This field makes the requested method conditional: when If-Match field is set, only the entities matching the included entity tags will be returned by the server.

IfModifiedSince
char*
Default Value: ""

Contains the If-Modified-Since request header field. This field makes the requested method conditional: when If-Modified-Since field is set, only the modified entities will be returned by the server.

IfNoneMatch
char*
Default Value: ""

Contains the If-None-Match request header field. This field makes the requested method conditional: when If-None-Match field is set, only the entities which doesn't match the included entity tags will be returned by the server.

IfUnmodifiedSince
char*
Default Value: ""

Contains the If-Unmodified-Since request header field. This field makes the requested method conditional: when If-Unmodified-Since field is set, only the unmodified entities will be returned by the server.

Password
char*
Default Value: ""

Assign this property with the user's password.

Referer
char*
Default Value: ""

The Referer field of the HTTP request header specifies the address of the resource from which the Request-URI was obtained (the referrer).

UserAgent
char*
Default Value: ""

The User-Agent field of the HTTP request provides information about the software that initiates the request.

Username
char*
Default Value: ""

Assign this property with the user's login name.

Constructors

HTTPRequestParameters()

Creates a new HTTPRequestParameters object.

OCSPResponse Type

Represents a single OCSP response originating from an OCSP responder.

Syntax

SecureBlackboxOCSPResponse (declared in secureblackbox.h)

Remarks

OCSP is a protocol that allows verification of certificate status in real-time, and is an alternative to Certificate Revocation Lists (CRLs).

An OCSP response is a snapshot of the certificate status at a given time.

The following fields are available:

Fields

Bytes
char* (read-only)
Default Value:

A buffer containing the raw OCSP response data.

EntryCount
int (read-only)
Default Value: 0

The number of SingleResponse elements contained in this OCSP response. Each SingleResponse element corresponds to a certificate status.

Handle
int64
Default Value: 0

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.

Issuer
char* (read-only)
Default Value: ""

Indicates the issuer of this response (a CA or its authorized representative).

IssuerRDN
char* (read-only)
Default Value: ""

Indicates the RDN of the issuer of this response (a CA or its authorized representative).

Location
char* (read-only)
Default Value: ""

The location of the OCSP responder.

ProducedAt
char*
Default Value: ""

Specifies the time when the response was produced, in UTC.

SigAlgorithm
char*
Default Value: "0"

The public key algorithm that was used by the CA to sign this OCSP response.

Source
int (read-only)
Default Value: 0

Returns the source (location or disposition) of a cryptographic primitive entity, such as a certificate, CRL, or OCSP response.

Constructors

OCSPResponse()

Creates an empty OCSP response object.

ProxySettings Type

A container for proxy server settings.

Syntax

SecureBlackboxProxySettings (declared in secureblackbox.h)

Remarks

This type exposes a collection of properties for tuning up the proxy server configuration.

The following fields are available:

Fields

Address
char*
Default Value: ""

The IP address of the proxy server.

Authentication
int
Default Value: 0

The authentication type used by the proxy server.


patNoAuthentication	`0`
patBasic	`1`
patDigest	`2`
patNTLM	`3`

Password
char*
Default Value: ""

The password to authenticate to the proxy server.

Port
int
Default Value: 0

The port on the proxy server to connect to.

ProxyType
int
Default Value: 0

The type of the proxy server.


cptNone	`0`
cptSocks4	`1`
cptSocks5	`2`
cptWebTunnel	`3`
cptHTTP	`4`

RequestHeaders
char*
Default Value: ""

Contains HTTP request headers for WebTunnel and HTTP proxy.

ResponseBody
char*
Default Value: ""

Contains the HTTP or HTTPS (WebTunnel) proxy response body.

ResponseHeaders
char*
Default Value: ""

Contains response headers received from an HTTP or HTTPS (WebTunnel) proxy server.

UseIPv6
int
Default Value: FALSE

Specifies whether IPv6 should be used when connecting through the proxy.

Username
char*
Default Value: ""

Specifies the username credential for proxy authentication.

Constructors

ProxySettings()

Creates a new ProxySettings object.

SocketSettings Type

A container for the socket settings.

Syntax

SecureBlackboxSocketSettings (declared in secureblackbox.h)

Remarks

This type is a container for socket-layer parameters.

The following fields are available:

Fields

DNSMode
int
Default Value: 0

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
int
Default Value: 0

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

DNSQueryTimeout
int
Default Value: 0

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

DNSServers
char*
Default Value: ""

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

DNSTotalTimeout
int
Default Value: 0

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

IncomingSpeedLimit
int
Default Value: 0

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

LocalAddress
char*
Default Value: ""

The local network interface to bind the socket to.

LocalPort
int
Default Value: 0

The local port number to bind the socket to.

OutgoingSpeedLimit
int
Default Value: 0

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

Timeout
int
Default Value: 60000

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
int
Default Value: FALSE

Enables or disables IP protocol version 6.

Constructors

SocketSettings()

Creates a new SocketSettings object.

TLSConnectionInfo Type

Contains information about a network connection.

Syntax

SecureBlackboxTLSConnectionInfo (declared in secureblackbox.h)

Remarks

Use this property to check various details of the network connection. These include the total amounts of data transferred, the availability of TLS, and its parameters.

The following fields are available:

Fields

AEADCipher
int (read-only)
Default Value: FALSE

Indicates whether the encryption algorithm used is an AEAD cipher.

ChainValidationDetails
int (read-only)
Default Value: 0

The details of a certificate chain validation outcome. They may often suggest the 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
int (read-only)
Default Value: 0

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
char* (read-only)
Default Value: ""

The cipher suite employed by this connection.

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

ClientAuthenticated
int (read-only)
Default Value: FALSE

Specifies whether client authentication was performed during this connection.

ClientAuthRequested
int (read-only)
Default Value: FALSE

Specifies whether client authentication was requested during this connection.

ConnectionEstablished
int (read-only)
Default Value: FALSE

Indicates whether the connection has been established fully.

ConnectionID
char* (read-only)
Default Value:

The unique identifier assigned to this connection.

DigestAlgorithm
char* (read-only)
Default Value: ""

The digest algorithm used in a TLS-enabled connection.

EncryptionAlgorithm
char* (read-only)
Default Value: ""

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

Exportable
int (read-only)
Default Value: FALSE

Indicates whether a TLS connection uses a reduced-strength exportable cipher.

ID
int64 (read-only)
Default Value: -1

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

KeyExchangeAlgorithm
char* (read-only)
Default Value: ""

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

KeyExchangeKeyBits
int (read-only)
Default Value: 0

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

NamedECCurve
char* (read-only)
Default Value: ""

The elliptic curve used in this connection.

PFSCipher
int (read-only)
Default Value: FALSE

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

PreSharedIdentity
char*
Default Value: ""

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

PreSharedIdentityHint
char* (read-only)
Default Value: ""

A hint professed by the server to help the client select the PSK identity to use.

PublicKeyBits
int (read-only)
Default Value: 0

The length of the public key.

RemoteAddress
char* (read-only)
Default Value: ""

The client's IP address.

RemotePort
int (read-only)
Default Value: 0

The remote port of the client connection.

ResumedSession
int (read-only)
Default Value: FALSE

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

SecureConnection
int (read-only)
Default Value: FALSE

Indicates whether TLS or SSL is enabled for this connection.

ServerAuthenticated
int (read-only)
Default Value: FALSE

Indicates whether server authentication was performed during a TLS-enabled connection.

SignatureAlgorithm
char* (read-only)
Default Value: ""

The signature algorithm used in a TLS handshake.

SymmetricBlockSize
int (read-only)
Default Value: 0

The block size of the symmetric algorithm used.

SymmetricKeyBits
int (read-only)
Default Value: 0

The key length of the symmetric algorithm used.

TotalBytesReceived
int64 (read-only)
Default Value: 0

The total number of bytes received over this connection.

TotalBytesSent
int64 (read-only)
Default Value: 0

The total number of bytes sent over this connection.

ValidationLog
char* (read-only)
Default Value: ""

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

Version
char* (read-only)
Default Value: ""

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

Constructors

TLSConnectionInfo()

Creates a new TLSConnectionInfo object.

TLSSettings Type

A container for TLS connection settings.

Syntax

SecureBlackboxTLSSettings (declared in secureblackbox.h)

Remarks

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

The following fields are available:

AutoValidateCertificates

ForceResumeIfDestinationChanges

PreSharedIdentity

PreSharedKey

PreSharedKeyCiphersuite

RenegotiationAttackPreventionMode

RevocationCheck

SSLOptions

TLSMode

UseExtendedMasterSecret

UseSessionResumption

Versions

Fields

AutoValidateCertificates
int
Default Value: TRUE

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

BaseConfiguration
int
Default Value: 0

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


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

Ciphersuites
char*
Default Value: ""

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, allowing all ciphersuites to be blanketly enabled or disabled 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

ClientAuth
int
Default Value: 0

Enables or disables certificate-based client authentication.

Set this property to true to tune up the client authentication type:


ccatNoAuth	`0`
ccatRequestCert	`1`
ccatRequireCert	`2`

ECCurves
char*
Default Value: ""

Defines the elliptic curves to enable.

Extensions
char*
Default Value: ""

Provides access to TLS extensions.

ForceResumeIfDestinationChanges
int
Default Value: FALSE

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

PreSharedIdentity
char*
Default Value: ""

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

PreSharedKey
char*
Default Value: ""

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

PreSharedKeyCiphersuite
char*
Default Value: ""

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

RenegotiationAttackPreventionMode
int
Default Value: 2

Selects the 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
int
Default Value: 1

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`	All provided CRL endpoints will be checked, and all checks must succeed.
crcAllOCSP	`3`	All provided OCSP endpoints will be checked, and all checks must succeed.
crcAllCRLAndOCSP	`4`	All provided CRL and OCSP endpoints will be checked, and all checks must succeed.
crcAnyCRL	`5`	All provided CRL endpoints will be checked, and at least one check must succeed.
crcAnyOCSP	`6`	All provided OCSP endpoints will be checked, and at least one check must succeed.
crcAnyCRLOrOCSP	`7`	All provided CRL and OCSP endpoints will be checked, and at least one check must succeed. CRL endpoints are checked first.
crcAnyOCSPOrCRL	`8`	All provided CRL and OCSP endpoints will be checked, and at least one check must succeed. OCSP endpoints are checked first.

This setting controls the way the revocation checks are performed for every certificate in the chain. 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 the faster OCSP route and only demand one source to succeed) is a good choice for most typical validation environments. The "crcAll*" modes are much stricter, and may be used in scenarios where bulletproof validity information is essential.

Note: If no CRL or OCSP endpoints are provided by the CA, the revocation check will be considered successful. This is because the CA chose not to supply revocation information for its certificates, meaning they are considered irrevocable.

Note: Within each of the above settings, if any retrieved CRL or OCSP response indicates that the certificate has been revoked, the revocation check fails.

SSLOptions
int
Default Value: 16

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 the use of the client certificate hash algorithm. It is unlikely that you will ever need to adjust it.
cssloAutoAddServerNameExtension	`0x010`	Automatically add the server name extension when known
cssloAcceptTrustedSRPPrimesOnly	`0x020`	Accept trusted SRP primes only
cssloDisableSignatureAlgorithmsExtension	`0x040`	Disable (do not send) the 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 the handshake message as large batches rather than individually

TLSMode
int
Default Value: 0

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, but allow plain data.

UseExtendedMasterSecret
int
Default Value: FALSE

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

UseSessionResumption
int
Default Value: FALSE

Enables or disables the TLS session resumption capability.

Versions
int
Default Value: 16

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

TLSSettings()

Creates a new TLSSettings object.

SecureBlackboxList Type

Syntax

SecureBlackboxList<T> (declared in secureblackbox.h)

Remarks

SecureBlackboxList is a generic class that is used to hold a collection of objects of type T, where T is one of the custom types supported by the WebSocketClient class.

Methods

GetCount	This method returns the current size of the collection. int GetCount() {}
SetCount	This method sets the size of the collection. This method returns `0` if setting the size was successful; or `-1` if the collection is `ReadOnly`. When adding additional objects to a collection call this method to specify the new size. Increasing the size of the collection preserves existing objects in the collection. int SetCount(int count) {}
Get	This method gets the item at the specified position. The `index` parameter specifies the index of the item in the collection. This method returns `NULL` if an invalid `index` is specified. T* Get(int index) {}
Set	This method sets the item at the specified position. The `index` parameter specifies the index of the item in the collection that is being set. This method returns `-1` if an invalid `index` is specified. Note: Objects created using the `new` operator must be freed using the `delete` operator; they will not be automatically freed by the class. T* Set(int index, T* value) {}

Config Settings (WebSocketClient Class)

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.

WebSocketClient Config Settings

AuthStickToLastURL: TBD.

TBD

CacheStreamOutput: Tells the component whether to cache stream- and file-bound responses in the component.

Set this property to true to enable caching of potentially long responses obtained with Get method. If the response is cached, it will be available via OutputBytes and OutputString properties after the request is completed, but may occupy extra memory resources.

Cookies: TBD.

TBD

DefClientCookieFmt: TBD.

TBD

Extensions: Configures protocol extensions to use.

Provide the extensions in the form of NAME1;VALUE1,NAME2;VALUE2,NAME3;VALUE3 and so on. The VALUE part can be empty: NAME1,NAME2;VALUE2,NAME3.

ForceNTLMAuth: Activates and enforces NTLM authentication.

Set this property to True to force NTLM (Windows Integrated) authentication.

IgnoreCookieSecureFlag: TBD.

TBD

IgnoreSystemTrust: Whether trusted Windows Certificate Stores should be treated as trusted.

Specifies whether, during chain validation, the class should respect the trust to CA certificates as configured in the operating system. In Windows this effectively defines whether the class should trust the certificates residing in the Trusted Root Certification Authorities store.

If IgnoreSystemTrust is True, certificates residing in the trusted root store are treated as if they are known, rather than trusted. Only certificates provided via other means (such as the TrustedCertificates property) are considered trusted.

IgnoreUnknownTransferEncodings: All incoming responses with unknown transfer encodings are ignored if this property is true.

All incoming responses with unknown transfer encodings are ignored if this property is true.

KeepConnectionOpen: TBD.

TBD

MaxRedirections: The maximum number of HTTP redirects.

Specifies the maximum number of HTTP redirects. Value 0 prevents any redirections, and -1 allows unlimited redirections.

OutputFile: Specifies the file where the received content should be saved to.

This is a backward-compatibility duplicate of the OutputFile property. Use OutputFile instead.

PersistentAuthHeader: Whether to resend NTLM negotiation on every request.

Specifies whether to resend NTLM negotiation on every request.

RequestCompressionGZip: Ask server to use GZip compression.

Ask server to use GZip compression.

RequestCompressionLevel: Ask server to use the specified compression level.

Ask server to use the specified compression level.

SendBufferSize: Size of send buffer in bytes.

The size of blocks used to send data to the server.

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.

SuppressRedirectionContent: Whether to suppress the redirection content.

If this property is set to True, the redirection content will be silently suppressed by the class. Otherwise the message containing a redirection code will be processed as usual, the Redirection event will be fired, and the data will be written to OutputString or OutputBytes.

TempPath: Path for storing temporary files.

This setting specifies an absolute path to the location on disk where temporary files are stored.

TLSExtensions: TBD.

TBD

TLSPeerExtensions: TBD.

TBD

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).

TolerateMinorChainIssues: Whether to tolerate minor chain issues.

This parameter controls whether the chain validator should tolerate minor technical issues when validating the chain. Those are:

CA, revocation source, TLS key usage requirements are not mandated
Violation of OCSP issuer requirements are ignored
The AuthorityKeyID extension in CRL- and certificate-issuing CAs are ignored (helps with incorrectly renewed certificates)
Basic constraints and name constraints of CA certificates are ignored
Some weaker algorithms are tolerated

Use100Continue: Whether to use 100-continue for POST and PUT commands.

Set this property to True to use the 100-continue approach for POST and PUT commands. In this approach, prior to sending the request body, the client sends a request message asking the server whether it is willing to accept the request body. The request body is sent only if the server accepts it.

UseCompression: Whether to use GZip compression.

Use this property to tell the server that it can transfer GZIPped data (if the server supports it).

UseKerberosAuth: TBD.

TBD

UseMicrosoftCTL: Enables or disables the automatic use of the Microsoft online certificate trust list.

Enable this property to make the chain validation module automatically look up missing CA certificates in the public Windows Update repository.

UseSystemCertificates: Enables or disables the use of the system certificates.

Use this property to tell the chain validation module to automatically look up missing CA certificates in the system certificates. In many cases it is beneficial to switch this property on, as the operating system certificate configuration provides a representative trust framework.

Base Config Settings

ASN1UseGlobalTagCache: Controls whether ASN.1 module should use a global object cache.

This is a performance setting. It is unlikely that you will ever need to adjust it.

AssignSystemSmartCardPins: Specifies whether CSP-level PINs should be assigned to CNG keys.

This is a low-level tweak for certain cryptographic providers. It is unlikely that you will ever need to adjust it.

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
global		Global caching

Cookies: Gets or sets local cookies for the class.

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.

DNSLocalSuffix: The suffix to assign for TLD names.

Use this global setting to adjust the default suffix to assign to top-level domain names. The default is .local.

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".

HardwareCryptoUsePolicy: The hardware crypto usage policy.

This global setting controls the hardware cryptography usage policy: auto, enable, or disable.

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.

HttpVersion: The HTTP version to use in any inner HTTP client components created.

Set this property to 1.0 or 1.1 to indicate the HTTP version that any internal HTTP clients should use.

IgnoreExpiredMSCTLSigningCert: Whether to tolerate the expired Windows Update signing certificate.

It is not uncommon for Microsoft Windows Update Certificate Trust List to be signed with an expired Microsoft certificate. Setting this global property to true makes SBB ignore the expired factor and take the Trust List into account.

ListDelimiter: The delimiter character for multi-element lists.

Allows to set the delimiter for any multi-entry values returned by the component as a string object, such as file lists. For most of the components, this property is set to a newline sequence.

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.

OldClientSideRSAFallback: Specifies whether the SSH client should use a SHA1 fallback.

Tells the SSH client to use a legacy ssh-rsa authentication even if the server indicates support for newer algorithms, such as rsa-sha-256. This is a backward-compatibility tweak.

ProductVersion: Returns the version of the SecureBlackbox library.

This property returns the long version string of the SecureBlackbox library being used (major.minor.build.revision).

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.

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.

StaticIPAddresses: Gets or sets all the static DNS rules.

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.

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

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).

UseInternalRandom: Switches between SecureBlackbox-own and platform PRNGs.

Allows to switch between internal/native PRNG implementation and the one provided by the platform.

UseLegacyAdESValidation: Enables legacy AdES validation mode.

Use this setting to switch the AdES component to the validation approach that was used in SBB 2020/SBB 2022 (less attention to temporal details).

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.

UseSystemNativeSizeCalculation: An internal CryptoAPI access tweak.

This is an internal setting. Please do not use it unless instructed by the support team.

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 (WebSocketClient Class)

Error Handling (C++)

Call the GetLastErrorCode() method to obtain the last called method's result code; 0 indicates success, while a non-zero error code indicates that this method encountered an error during its execution. Known error codes are listed below. If an error occurs, the GetLastError() method can be called to retrieve the associated error message.

WebSocketClient Errors

1048577	Invalid parameter (`SB_ERROR_INVALID_PARAMETER`)
1048578	Invalid configuration (`SB_ERROR_INVALID_SETUP`)
1048579	Invalid state (`SB_ERROR_INVALID_STATE`)
1048580	Invalid value (`SB_ERROR_INVALID_VALUE`)
1048581	Private key not found (`SB_ERROR_NO_PRIVATE_KEY`)
1048582	Cancelled by the user (`SB_ERROR_CANCELLED_BY_USER`)
1048583	The file was not found (`SB_ERROR_NO_SUCH_FILE`)
1048584	Unsupported feature or operation (`SB_ERROR_UNSUPPORTED_FEATURE`)
1048585	General error (`SB_ERROR_GENERAL_ERROR`)