JAdESSigner Class
Properties Methods Events Config Settings Errors
The JAdESSigner class signs Javascript content electronically.
Syntax
secureblackbox.JAdESSigner
Remarks
JAdESSigner supports a range of digital signature formats over Javascript content,
including JSON Web Signatures (JWS) and ETSI JSON Advanced Electronic Signatures (JAdES).
JAdESSigner signer = new JAdESSigner();
signer.getNewSignature().setHashAlgorithm("SHA512"); // Default hashing algorithm SHA256
// Select the file which will be signed
signer.setDataFile("MyExe.exe");
// Select the path where the signed file will be saved
signer.setOutputFile("SignedFile.scs");
// Specify the certificate that shall be used for signing
signer.setSigningCertificate(new Certificate("cert.pfx","password"));
signer.getNewSignature().setLevel(JAdESSignature.jaslBaselineT); // Set the level of the signature
// Provide the address of the Time Stamping Authority (TSA) server to be used for timestamping the signature
signer.setTimestampServer("http://freetsa.org/tsr");
signer.sign(); // Sign
Standards and technologies supported
JAdESSigner can create signatures that match the following standards:
- Generic JSON Web Signatures (JWS) (RFC7515)
- JAdES: all profiles are supported (BES, EPES, T, LTV, B-B, B-T, and others) (ETSI TS 119 182-1)
- Timestamps using external TSAs.
- All industry-standard cryptographic algorithms (RSA, ECDSA, SHA256-512, and many others).
Configuring the signature spec
JWS and JAdES signatures can come in all sorts of flavours, with the primary factors being the signature format (how exactly the signed data is represented in bytes) and completeness (the extent of the trust information that is included in the signature). You can use the properties of your JAdESSigner object to configure these and other parameters. Typically, the service or software that you need to communicate with will provide you with a list of requirements that your JSON signature needs to satisfy. In some cases, they will also send you an example signature that you may use as a guide.
Typically, you will need to adjust the following categories of settings:
- Level (plain JWS, B, T, LT, or LTA). This can be adjusted with the Level property.
- Timestamp requirement: provide the address of your online TSA service via TimestampServer property.
- When creating LT/LTA signatures, tune up validation parameters via RevocationCheck, OfflineMode, and IgnoreChainValidationErrors properties.
- Configure the signature representation parameters such as CompactForm, Detached or FlattenedSignature.
The above are the most important settings from each category; you may need to adjust more specific settings, such as EPES policy parameters (such as PolicyID) or ContentType, to fine-tune your signature.
Signing certificates
JAdESSigner can use certificates residing on different media. Besides generic certificates stored in PFX or PEM files (A1), it can operate with non-exportable certificates residing on hardware media (A3), system stores/keychains, or in the cloud.
Non-exportable certificates can be accessed transparently via a Windows CSP or a PKCS#11 driver, if supplied by the certificate issuer. Proprietary or less interoperable media can be communicated with the external signing feature (see below).
Use CertificateManager and CertificateStorage components to load the signing certificate. Assign the certificate to SigningCertificate property, and optionally provide the remainder of its chain via the SigningChain property.
In the default configuration, JAdESSigner will do its best to collect the trust elements (certificates, CRLs, OCSP responses) required by the chosen signature level automatically. It will use all available sources, including the system stores, the chain validation cache, and the signature itself (when upgrading an existing signature). However, there can be situations where only some (or even none) of the trust elements are available in the public locations. This is particularly the case for internal, experimental, or test PKI environments. In such cases you might need to locate the missing elements manually and provide them to JAdESSigner via the KnownCertificates, KnownCRLs, and KnownOCSPs properties. You can also provide any trust anchors not included in the public Trusted Root directory via the TrustedCertificates collection.
Note: If signing with a non-exportable key (such as residing on a hardware device or in the cloud), please make sure you keep the original CertificateStorage object open until the signing is completed. This is because the storage component provides a 'bridge' to the private key. If the storage is closed prematurely, this bridge is destroyed, and the private key can't be used.
Signing the JSON
Now that you have configured the signature and certificate settings, you can proceed to signing. You can provide the JSON input in one of the following forms: as a file (assign the path to InputFile property), as a stream (assign to InputStream property), as a string (InputString), or as a byte array (assign to InputBytes). Similarly, the output can be collected in one of the same forms, either by passing the destination path or stream via OutputFile and OutputStream respectively, or by reading the resulting document bytes from the OutputBytes or OutputString property after the signing.
Having set up the input and output, call the component's Sign method. This will initiate the signing process. Depending on the settings, the signing may be as straightforward as calculating the document hash and signing it with the private key (e.g. when creating a B-level signature), or it may involve advanced chain validation routines (LT or LTA). During the latter the component contacts a number of external trust information sources (CA, CRL, and OCSP servers) to establish the validity of the signing certificate.
If a TSA server was provided via the TimestampServer property, the component will contact it too to timestamp the new signature.
During the signing JAdESSigner may fire events to let your code know of certain conditions. It may fire TLSCertValidate if one of the HTTP endpoints involved during the operation (which may be a CRL, OCSP, or TSA service) works over TLS and needs its certificate chain to be validated.
External signing and DCAuth
JAdESSigner, like many other components included in the product, supports two methods of signing with external keys. These methods are fully independent of each other: you can choose the one that suits your scenario best.
Synchronous method: ExternalSign
This is a simpler method that basically lets you infiltrate into the signing routine by taking care of the hash signing operation. The component does the rest of the job (hash calculation, preparation of signature objects, CRL/OCSP retrieval).
To initiate this method, call SignExternal instead of Sign. When the hash is ready, it will be passed back to your code with ExternalSign event. Your event handler needs to sign the hash with the private key and return the created signature back to the component - which will embed it into the document.
You don't need your signing certificate to contain an associated private key when using this method. The certificate itself (its public copy) may be needed though, as it is included in the hash calculation.
This method is synchronous, meaning SignExternal provides you the results immediately upon its completion.
Asynchronous method: DCAuth
DCAuth is a SecureBlackbox know-how technology. This protocol was designed to allow sharing of private keys across environments, allowing the signer and the private key to reside on different systems. It works in the following way:
- The signing party - such as JAdESSigner - initiates the operation using SignAsyncBegin call. This produces two outcomes: a pre-signed content (a JSON body with a blank signature placeholder), and a request state (an object containing a hash that needs to be signed). At this point the JAdESSigner instance can be released, and the process itself terminated (which may be useful when run as part of a web page).
- The request state is passed to the private key holder party. The private key holder passes the request state to a DCAuth object, which parses the request state, extracts the hash, and signs it. The output of DCAuth processing is another object, response state, which contains the signature. The private key holder then sends the response state back to the signing party.
- The signing party re-creates the signing controls, and passes the response state, together with the pre-signed content, to the signer's SignAsyncEnd method. SignAsyncEnd extracts the signature from the response state and incorporates it into the pre-signed object, hereby completing the signature.
This method is asynchronous in that sense that, from the signing party's viewpoint, it splits the signing operation into the pre-signing and completion stages which can be performed independently from each other and in different execution contexts. This makes this method particularly helpful for use in web pages and other scenarios where the signing key is not available in real time.
Fine-grained chain validation setup
Chain validation is a sophisticated, multi-faceted procedure that involves a lot of variables. Depending on the configuration of your operating environment, the specifics of the PKI framework being used, and the validation policy you need to follow, you may want to tune up your chain validation parameters so they fit them best. A summary of such parameters is given below.
- RevocationCheck lets you choose between and/or prioritize revocation origins. OCSP sources are often preferred to CRL because of their real-time capability and the smaller size of validation tokens they produce.
- OfflineMode is a master switch that stops the class from looking for any validation tokens online. If this property is switched on, the class will only use the KnownCertificates, TrustedCertificates, KnownCRLs, and KnownOCSPs collections to look for the missing validation material.
- IgnoreChainValidationErrors makes the class ignore any major validation issues it encounters (such us an untrusted chain or missing CRL). This option is handy for debugging and for creating signatures in the environments where the signing certificate is not trusted.
- KnownCertificates, KnownCRLs, and KnownOCSPs let you provide your own validation material. This may be useful when working in OfflineMode, where the signer has no access to the validation sources, or where the validation material has already been collected.
- TrustedCertificates lets you provide a list of trust anchors, either as a complement to the system's or as an alternative to it.
- BlockedCertificates lets you provide a list of blocked/distrusted certificates. Any CA certificate contained in it will be deemed untrusted/invalid.
The following parameters are not directly related to chain validation, but may have an implicit effect on it.
- Proxy, SocketSettings, and TLSSettings let you tune up the connectivity and TLS options in accordance with local preferences.
- TLSClientChain lets you provide the client certificate and its chain for TLS client authentication.
- Subscribe to TLSCertValidate to validate any TLS certificates of the services involved in chain validation.
The results of the chain validation procedure, upon its completion, are published in the following properties:
- ChainValidationResult contains the primary result of the chain validation routine: valid, valid but untrusted, invalid, or undefined.
- ChainValidationDetails provides the details of the factors that contributed to the chain validation result, such as an outdated certificate, a missing CRL, or a missing CA certificate.
- ValidationLog contains the detailed chain validation log. The log can often be very helpful in nailing down various validation issues.
Property List
The following is the full list of the properties of the class with short descriptions. Click on the links for further details.
AutoValidateSignatures | Specifies whether class should validate any present signatures when the JSON opened. |
BlockedCertificates | The certificates that must be rejected as trust anchors. |
Certificates | A collection of certificates included in the electronic signature. |
CheckTrustedLists | Specifies whether the class should attempt to validate chain trust via a known Trusted List. |
CompactForm | Specifies if the JWS compact serialization to be used. |
ContentType | Specifies payload content type. |
CRLs | A collection of certificate revocation lists embedded into the signature by the signer. |
DataBytes | Use this property to pass a payload or an object data to class in the byte array form. |
DataFile | A path to a file containing a payload or an object data. |
DataStream | A stream containing a payload or an object data. |
DataString | Use this property to pass a payload or an object data to class in the string form. |
Detached | Specifies whether a detached signature should be produced or verified. |
ExternalCrypto | Provides access to external signing and DC parameters. |
ExtractPayload | Specifies whether a payload should be extracted. |
FIPSMode | Reserved. |
FlattenedSignature | Specifies if the flattened signature to be used. |
IgnoreChainValidationErrors | Makes the class tolerant to chain validation errors. |
InputBytes | Use this property to pass the input to class in byte array form. |
InputFile | The file to be signed. |
InputStream | Stream containing the JWS/JAdES signature. |
InputString | Use this property to pass the input to class in the string form. |
KnownCertificates | Additional certificates for chain validation. |
KnownCRLs | Additional CRLs for chain validation. |
KnownOCSPs | Additional OCSP responses for chain validation. |
NewSignature | Provides access to new signature properties. |
OCSPs | A collection of OCSP responses embedded into the signature. |
OfflineMode | Switches the class to offline mode. |
OutputBytes | Use this property to read the output the class object has produced. |
OutputFile | Defines where to save the signature. |
OutputStream | The stream where the signature would be saved. |
OutputString | Use this property to read the output the class object has produced. |
Profile | Specifies a pre-defined profile to apply when creating the signature. |
Proxy | The proxy server settings. |
RevocationCheck | Specifies the kind(s) of revocation check to perform for all chain certificates. |
Signatures | Provides details of all signatures found in the JWS/JAdES signature. |
SigningCertificate | The certificate to be used for signing. |
SigningChain | The signing certificate chain. |
SocketSettings | Manages network connection settings. |
Timestamps | Contains a collection of timestamps for the processed document. |
TimestampServer | The address of the timestamping server. |
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. |
ValidationMoment | The time point at which signature validity is to be established. |
Method List
The following is the full list of the methods of the class with short descriptions. Click on the links for further details.
AddSignedHTTPHeaderField | Use this method to add HTTP header field. |
AddSignedObject | Use this method to add an object. |
AddSignedObjectHash | Use this method to add an object hash. |
Close | Closes an opened JWS/JAdES signature. |
Config | Sets or retrieves a configuration setting. |
CreateNew | Create a new JSON for signing. |
DoAction | Performs an additional action. |
ExtractAsyncData | Extracts user data from the DC signing service response. |
Open | Opens a JSON for signing or updating. |
Reset | Resets the class settings. |
Revalidate | Revalidates a signature in accordance with current settings. |
SelectInfo | Select signature information for a specific entity. |
Sign | Creates a new JAdES/JWS signature over the provided data. |
SignAsyncBegin | Initiates the asynchronous signing operation. |
SignAsyncEnd | Completes the asynchronous signing operation. |
SignExternal | Signs the data using an external signing facility. |
Timestamp | Use this method to add timestamp. |
Upgrade | Upgrades existing JAdES signature to a new level. |
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.
ChainElementDownload | Fires when there is a need to download a chain element from an online source. |
ChainElementNeeded | Fires when an element required to validate the chain was not located. |
ChainElementStore | This event is fired when a chain element (certificate, CRL, or OCSP response) should be stored along with a signature. |
ChainValidated | Reports the completion of a certificate chain validation. |
ChainValidationProgress | This event is fired multiple times during chain validation to report various stages of the validation procedure. |
Error | Information about errors during signing. |
ExternalSign | Handles remote or external signing initiated by the SignExternal method or other source. |
HTTPHeaderFieldNeeded | This event is fired when HTTP header field value is required. |
Loaded | This event is fired when the JSON has been loaded into memory. |
Notification | This event notifies the application about an underlying control flow event. |
ObjectNeeded | This event is fired when object is required. |
ObjectValidate | This event is fired when object should be verified by user. |
SignatureFound | Signifies the start of signature validation. |
SignatureValidated | Marks the completion of the signature validation routine. |
TimestampFound | Signifies the start of a timestamp validation routine. |
TimestampRequest | Fires when the class is ready to request a timestamp from an external TSA. |
TimestampValidated | Reports the completion of the timestamp validation routine. |
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. |
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.
AddSignedDataTimestamp | Whether to add signed data timestamp during signing. |
AsyncDocumentID | Specifies the document ID for SignAsyncEnd() call. |
CertThumbprint | Specifies the certificate thumbprint. |
CertURL | Specifies the certificate URL. |
ChainCurrentCACert | Returns the current CA certificate. |
ChainCurrentCert | Returns the certificate that is currently being validated. |
ChainCurrentCRL | Returns the current CRL. |
ChainCurrentCRLSize | Returns the size of the current CRL. |
ChainCurrentOCSP | Returns the current OCSP response. |
ChainCurrentOCSPSigner | Returns the signer of the current OCSP object. |
ChainInterimDetails | Returns the current interim validation details. |
ChainInterimResult | Returns the current interim validation result. |
CheckValidityPeriodForTrusted | Whether to check validity period for trusted certificates. |
CustomTrustedLists | Specifies the custom TrustedLists. |
CustomTSLs | Specifies the custom TrustedLists. |
DataBase64 | Specifies whether data is Base64-URL-encoded. |
DislikeOpenEndedOCSPs | Tells the class to discourage OCSP responses without an explicit NextUpdate parameter. |
ForceCompleteChainValidation | Whether to check the CA certificates when the signing certificate is invalid. |
ForceCompleteChainValidationForTrusted | Whether to continue with the full validation up to the root CA certificate for mid-level trust anchors. |
GracePeriod | Specifies a grace period to apply during revocation information checks. |
IgnoreChainLoops | Whether chain loops should be ignored. |
IgnoreChainValidationErrors | Whether to ignore any certificate chain validation issues. |
IgnoreOCSPNoCheckExtension | Whether the OCSP NoCheck extension should be ignored. |
IgnoreSystemTrust | Whether trusted Windows Certificate Stores should be treated as trusted. |
IgnoreTimestampFailure | Whether to ignore time-stamping failure during signing. |
ImplicitlyTrustSelfSignedCertificates | Whether to trust self-signed certificates. |
IncludeKnownRevocationInfoToSignature | Whether to include custom revocation info to the signature. |
JAdESOptions | Specifies the JAdES options. |
KeyId | Specifies Key ID. |
PolicyDescription | signature policy description. |
PolicyExplicitText | The explicit text of the user notice. |
PolicyUNNumbers | The noticeNumbers part of the NoticeReference CAdES attribute. |
PolicyUNOrganization | The organization part of the NoticeReference qualifier. |
ProductionPlace | Identifies the place of the signature production. |
PromoteLongOCSPResponses | Whether long OCSP responses are requested. |
ProtectedHeader | Specifies the protected header. |
PSSUsed | Whether to use RSASSA-PSS algorithm. |
SchemeParams | The algorithm scheme parameters to employ. |
SignerAttrs | Identifies the signer attributes. |
SignerCommitments | Identifies the signer commitments. |
SigningCertIncludeIssuerSerial | Specifies whether to include signing certificate issuer and serial number. |
SigningCertIncludeThumbprint | Specifies whether to include signing certificate thumbprint. |
SigningCertIncludeValue | Specifies whether to include signing certificate value. |
SigningChainIncludeThumbprints | Specifies whether to include signing chain thumbprints. |
SigningChainIncludeValue | Specifies whether to include signing chain values. |
SigPolicyDescription | signature policy description. |
SigPolicyExplicitText | The explicit text of the user notice. |
SigPolicyHash | The EPES policy hash. |
SigPolicyHashAlgorithm | The hash algorithm that was used to generate the EPES policy hash. |
SigPolicyID | The EPES policy ID. |
SigPolicyNoticeNumbers | The noticeNumbers part of the NoticeReference CAdES attribute. |
SigPolicyNoticeOrganization | The organization part of the NoticeReference qualifier. |
SigPolicyURI | The EPES policy URI. |
TempPath | Path for storing temporary files. |
ThumbprintHashAlgorithm | Specifies the thumbprint hash algorithm. |
TimestampResponse | A base16-encoded timestamp response received from a TSA. |
TimestampValidationDataDetails | Specifies timestamp validation data details to include to the signature. |
TLSChainValidationDetails | Contains the advanced details of the TLS server certificate validation. |
TLSChainValidationResult | Contains the result of the TLS server certificate validation. |
TLSClientAuthRequested | Indicates whether the TLS server requests client authentication. |
TLSValidationLog | Contains the log of the TLS server certificate validation. |
TolerateMinorChainIssues | Whether to tolerate minor chain issues. |
TspAttemptCount | Specifies the number of timestamping request attempts. |
TspHashAlgorithm | Sets a specific hash algorithm for use with the timestamping service. |
TspReqPolicy | Sets a request policy ID to include in the timestamping request. |
UnprotectedHeader | Specifies the unprotected header. |
UseDefaultTrustedLists | Enables or disables the use of the default TrustedLists. |
UseDefaultTSLs | Enables or disables the use of the default TrustedLists. |
UseMicrosoftCTL | Enables or disables the automatic use of the Microsoft online certificate trust list. |
UsePSS | Whether to use RSASSA-PSS algorithm. |
UseSystemCertificates | Enables or disables the use of the system certificates. |
UseValidationCache | Enables or disable the use of the product-wide certificate chain validation cache. |
UseValidatorSettingsForTLSValidation | Whether to employ the primary chain validator setup for auxiliary TLS chain validations. |
ValidationDataRefsDetails | Specifies validation data references details to include to the signature. |
ValidationDataRefsHashAlgorithm | Specifies the hash algorithm used in validation data references. |
ValidationDataValuesDetails | Specifies validation data values details to include to the signature. |
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. |
AutoValidateSignatures Property (JAdESSigner Class)
Specifies whether class should validate any present signatures when the JSON opened.
Syntax
public boolean isAutoValidateSignatures(); public void setAutoValidateSignatures(boolean autoValidateSignatures);
Default Value
False
Remarks
This setting is switched off by default to speed up JSON processing. Even if the JWS/JAdES signature is loaded with this property set to false, you can validate the signatures manually on a later stage using the Revalidate method.
BlockedCertificates Property (JAdESSigner Class)
The certificates that must be rejected as trust anchors.
Syntax
public CertificateList getBlockedCertificates(); public void setBlockedCertificates(CertificateList blockedCertificates);
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.
Please refer to the Certificate type for a complete list of fields.Certificates Property (JAdESSigner Class)
A collection of certificates included in the electronic signature.
Syntax
public CertificateList getCertificates();
Remarks
This property includes a collection of certificates of the currently selected info.
This collection is indexed from 0 to size -1.
This property is read-only and not available at design time.
Please refer to the Certificate type for a complete list of fields.CheckTrustedLists Property (JAdESSigner Class)
Specifies whether the class should attempt to validate chain trust via a known Trusted List.
Syntax
public boolean isCheckTrustedLists(); public void setCheckTrustedLists(boolean checkTrustedLists);
Default Value
False
Remarks
Set this property to true to enable the component to validate chain trust against an internal list of known Trusted Lists (such as EUTL).
CompactForm Property (JAdESSigner Class)
Specifies if the JWS compact serialization to be used.
Syntax
public boolean isCompactForm(); public void setCompactForm(boolean compactForm);
Default Value
False
Remarks
When this property is set to "true" value, the JAdES component will use the JWS compact serialization format when saving a signature.
The JWS compact serialization format is a compact, Url safe representation of a JWS (JSON Web Signature) or JWE (JSON Web Encryption) object, used for transmitting security tokens.
The JWS compact serialization format supports only one signature without unprotected header (only JWS or JAdES BaselineB signature).
ContentType Property (JAdESSigner Class)
Specifies payload content type.
Syntax
public String getContentType(); public void setContentType(String contentType);
Default Value
""
Remarks
Use this property to indicate the content type of the JWS Payload.
This property provides a way for the application to disambiguate among different kinds of objects that might be present in the payload, but it is typically not used when the kind of object is already known. The value of this property is a string that conforms to the Internet Media Type (MIME) format, such as "text/plain" or "application/json".
It is optional to use this property and it is recommended to omit the "application/" prefix of the media type value when it is not needed. The recipient of the signed message should treat the value as if "application/" were prepended to it, unless it already contains a '/'.
CRLs Property (JAdESSigner Class)
A collection of certificate revocation lists embedded into the signature by the signer.
Syntax
public CRLList getCRLs();
Remarks
Use this property to access the CRLs embedded into the signature by the signer.
This property is read-only and not available at design time.
Please refer to the CRL type for a complete list of fields.DataBytes Property (JAdESSigner Class)
Use this property to pass a payload or an object data to class in the byte array form.
Syntax
public byte[] getDataBytes(); public void setDataBytes(byte[] dataBytes);
Remarks
Assign a byte array containing a JWS payload or an object data to be processed to this property.
This property is not available at design time.
DataFile Property (JAdESSigner Class)
A path to a file containing a payload or an object data.
Syntax
public String getDataFile(); public void setDataFile(String dataFile);
Default Value
""
Remarks
Use this property to provide a JWS payload or an object data to be processed.
DataStream Property (JAdESSigner Class)
A stream containing a payload or an object data.
Syntax
public java.io.InputStream getDataStream(); public void setDataStream(java.io.InputStream dataStream);
Default Value
null
Remarks
Use this property to provide a JWS payload or an object data to be processed.
This property is not available at design time.
DataString Property (JAdESSigner Class)
Use this property to pass a payload or an object data to class in the string form.
Syntax
public String getDataString(); public void setDataString(String dataString);
Default Value
""
Remarks
Assign a string containing a JWS payload or an object data to be processed to this property.
This property is not available at design time.
Detached Property (JAdESSigner Class)
Specifies whether a detached signature should be produced or verified.
Syntax
public boolean isDetached(); public void setDetached(boolean detached);
Default Value
False
Remarks
Use this property to specify whether a detached signature should be produced or verified.
When this property is set to "true" value, the JWS payload will be detached from the signature and may either be a single detached object or the result of concatenating multiple detached data objects. In other words, the JWS payload and the signature are stored in separate objects.
If this property is set to "true" value, the user must provide the detached content via the DataFile or DataStream or DataBytes or DataString properties.
When Detached is set to "false" value, the JWS payload is included with the signature as a single object.
ExternalCrypto Property (JAdESSigner Class)
Provides access to external signing and DC parameters.
Syntax
public ExternalCrypto getExternalCrypto();
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.
Please refer to the ExternalCrypto type for a complete list of fields.ExtractPayload Property (JAdESSigner Class)
Specifies whether a payload should be extracted.
Syntax
public boolean isExtractPayload(); public void setExtractPayload(boolean extractPayload);
Default Value
False
Remarks
Use this property to specify whether a payload should be extracted when signature loaded. This applies only to non-detached signatures with a payload.
When this property is set to "true" value, the JWS payload will be extracted from the signature.
The user must provide the OutputFile or OutputStream properties with a filename or stream where to save the payload, if none is provided then payload is returned via OutputBytes or OutputString properties.
FIPSMode Property (JAdESSigner Class)
Reserved.
Syntax
public boolean isFIPSMode(); public void setFIPSMode(boolean FIPSMode);
Default Value
False
Remarks
This property is reserved for future use.
FlattenedSignature Property (JAdESSigner Class)
Specifies if the flattened signature to be used.
Syntax
public boolean isFlattenedSignature(); public void setFlattenedSignature(boolean flattenedSignature);
Default Value
True
Remarks
This property determines whether to use the flattened JWS JSON serialization format. This format is optimized for the single digital signature case and flattens the general JWS JSON serialization syntax by removing the "signatures" member and instead placing the "protected", "header", and "signature" members at the top-level JSON object (at the same level as the "payload" member).
When the FlattenedSignature property is set to "true" value, the signature will be represented using the flattened JWS JSON serialization format, but it is only applicable when there is a single signature involved.
When the property is set to "false" value, the signature will be represented using the general JWS JSON serialization format.
IgnoreChainValidationErrors Property (JAdESSigner Class)
Makes the class tolerant to chain validation errors.
Syntax
public boolean isIgnoreChainValidationErrors(); public void setIgnoreChainValidationErrors(boolean ignoreChainValidationErrors);
Default Value
False
Remarks
If this property is set to True, any errors emerging during certificate chain validation will be ignored. This setting may be handy if the purpose of validation is the creation of an LTV signature, and the validation is performed in an environment that doesn't trust the signer's certificate chain.
InputBytes Property (JAdESSigner Class)
Use this property to pass the input to class in byte array form.
Syntax
public byte[] getInputBytes(); public void setInputBytes(byte[] inputBytes);
Remarks
Assign a byte array containing the data to be processed to this property.
This property is not available at design time.
InputFile Property (JAdESSigner Class)
The file to be signed.
Syntax
public String getInputFile(); public void setInputFile(String inputFile);
Default Value
""
Remarks
Provide the path to the JSON to be signed.
InputStream Property (JAdESSigner Class)
Stream containing the JWS/JAdES signature.
Syntax
public java.io.InputStream getInputStream(); public void setInputStream(java.io.InputStream inputStream);
Default Value
null
Remarks
Use this property to feed the JWS/JAdES signature to the class via a stream.
This property is not available at design time.
InputString Property (JAdESSigner Class)
Use this property to pass the input to class in the string form.
Syntax
public String getInputString(); public void setInputString(String inputString);
Default Value
""
Remarks
Assign a string containing the data to be processed to this property.
This property is not available at design time.
KnownCertificates Property (JAdESSigner Class)
Additional certificates for chain validation.
Syntax
public CertificateList getKnownCertificates(); public void setKnownCertificates(CertificateList knownCertificates);
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.
Please refer to the Certificate type for a complete list of fields.KnownCRLs Property (JAdESSigner Class)
Additional CRLs for chain validation.
Syntax
public CRLList getKnownCRLs(); public void setKnownCRLs(CRLList knownCRLs);
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.
Please refer to the CRL type for a complete list of fields.KnownOCSPs Property (JAdESSigner Class)
Additional OCSP responses for chain validation.
Syntax
public OCSPResponseList getKnownOCSPs(); public void setKnownOCSPs(OCSPResponseList knownOCSPs);
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.
Please refer to the OCSPResponse type for a complete list of fields.NewSignature Property (JAdESSigner Class)
Provides access to new signature properties.
Syntax
public JAdESSignature getNewSignature();
Remarks
Use this property to tune-up signature properties.
This property is read-only and not available at design time.
Please refer to the JAdESSignature type for a complete list of fields.OCSPs Property (JAdESSigner Class)
A collection of OCSP responses embedded into the signature.
Syntax
public OCSPResponseList getOCSPs();
Remarks
Use this property to access the OCSP responses embedded into the signature by its creator.
This property is read-only and not available at design time.
Please refer to the OCSPResponse type for a complete list of fields.OfflineMode Property (JAdESSigner Class)
Switches the class to offline mode.
Syntax
public boolean isOfflineMode(); public void setOfflineMode(boolean offlineMode);
Default Value
False
Remarks
When working in offline mode, the class restricts itself from using any online revocation information sources, such as CRL or OCSP responders.
Offline mode may be useful if there is a need to verify the completeness of the validation information included within the signature or provided via KnownCertificates, KnownCRLs, and other related properties.
OutputBytes Property (JAdESSigner Class)
Use this property to read the output the class object has produced.
Syntax
public byte[] getOutputBytes();
Remarks
Read the contents of this property after the operation has completed to read the produced output. This property will only be set if the OutputFile and OutputStream properties had not been assigned.
This property is read-only and not available at design time.
OutputFile Property (JAdESSigner Class)
Defines where to save the signature.
Syntax
public String getOutputFile(); public void setOutputFile(String outputFile);
Default Value
""
Remarks
Specifies the path where the JWS/JAdES signature should be saved.
OutputStream Property (JAdESSigner Class)
The stream where the signature would be saved.
Syntax
public java.io.OutputStream getOutputStream(); public void setOutputStream(java.io.OutputStream outputStream);
Default Value
null
Remarks
Use this property to save the JWS/JAdES signature to the stream.
This property is not available at design time.
OutputString Property (JAdESSigner Class)
Use this property to read the output the class object has produced.
Syntax
public String getOutputString();
Default Value
""
Remarks
Read the contents of this property after the operation is completed to read the produced output. This property will only be set if OutputFile and OutputStream properties had not been assigned.
This property is read-only and not available at design time.
Profile Property (JAdESSigner Class)
Specifies a pre-defined profile to apply when creating the signature.
Syntax
public String getProfile(); public void setProfile(String profile);
Default Value
""
Remarks
Advanced signatures come in many variants, which are often defined by parties that needs to process them or by local standards. SecureBlackbox profiles are sets of pre-defined configurations which correspond to particular signature variants. By specifying a profile, you are pre-configuring the component to make it produce the signature that matches the configuration corresponding to that profile.
Proxy Property (JAdESSigner Class)
The proxy server settings.
Syntax
public ProxySettings getProxy();
Remarks
Use this property to tune up the proxy server settings.
This property is read-only.
Please refer to the ProxySettings type for a complete list of fields.RevocationCheck Property (JAdESSigner Class)
Specifies the kind(s) of revocation check to perform for all chain certificates.
Syntax
public int getRevocationCheck(); public void setRevocationCheck(int revocationCheck); Enumerated values: public final static int crcNone = 0; public final static int crcAuto = 1; public final static int crcAllCRL = 2; public final static int crcAllOCSP = 3; public final static int crcAllCRLAndOCSP = 4; public final static int crcAnyCRL = 5; public final static int crcAnyOCSP = 6; public final static int crcAnyCRLOrOCSP = 7; public final static int crcAnyOCSPOrCRL = 8;
Default Value
1
Remarks
Revocation checking is necessary to ensure the integrity of the chain and obtain up-to-date certificate validity and trustworthiness information.
Certificate Revocation Lists (CRLs) and Online Certificate Status Protocol (OCSP) responses serve the same purpose of ensuring that the certificate had not been revoked by the Certificate Authority (CA) at the time of use. Depending on your circumstances and security policy requirements, you may want to use either one or both of the revocation information source types.
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.
Signatures Property (JAdESSigner Class)
Provides details of all signatures found in the JWS/JAdES signature.
Syntax
public JAdESSignatureList getSignatures();
Remarks
Use this property to get the details of all the signatures identified in the JWS/JAdES signature.
This property is read-only and not available at design time.
Please refer to the JAdESSignature type for a complete list of fields.SigningCertificate Property (JAdESSigner Class)
The certificate to be used for signing.
Syntax
public Certificate getSigningCertificate(); public void setSigningCertificate(Certificate signingCertificate);
Remarks
Use this property to specify the certificate that shall be used for signing the data. Note that this certificate should have a private key associated with it. Use SigningChain to supply the rest of the certificate chain for inclusion into the signature.
This property is not available at design time.
Please refer to the Certificate type for a complete list of fields.SigningChain Property (JAdESSigner Class)
The signing certificate chain.
Syntax
public CertificateList getSigningChain(); public void setSigningChain(CertificateList signingChain);
Remarks
Use this property to provide the chain for the signing certificate. Use the SigningCertificate property, if it is available, to provide the signing certificate itself.
This property is not available at design time.
Please refer to the Certificate type for a complete list of fields.SocketSettings Property (JAdESSigner Class)
Manages network connection settings.
Syntax
public SocketSettings getSocketSettings();
Remarks
Use this property to tune up network connection parameters.
This property is read-only.
Please refer to the SocketSettings type for a complete list of fields.Timestamps Property (JAdESSigner Class)
Contains a collection of timestamps for the processed document.
Syntax
public TimestampInfoList getTimestamps();
Remarks
Use this property to access the timestamps included in the processed document.
This property is read-only and not available at design time.
Please refer to the TimestampInfo type for a complete list of fields.TimestampServer Property (JAdESSigner Class)
The address of the timestamping server.
Syntax
public String getTimestampServer(); public void setTimestampServer(String timestampServer);
Default Value
""
Remarks
Use this property to provide the address of the Time Stamping Authority (TSA) server to be used for timestamping the signature.
SecureBlackbox supports RFC3161-compliant timestamping servers, available via HTTP or HTTPS.
If your timestamping service enforces credential-based user authentication (basic or digest), you can provide the credentials in the same URL:
http://user:password@timestamp.server.com/TsaService
For TSAs using certificate-based TLS authentication, provide the client certificate via the TLSClientChain property.
If this property is left empty, no timestamp will be added to the signature.
Starting from summer 2021 update (Vol. 2), the virtual timestamping service is supported, which allows you to intervene in the timestamping routine and provide your own handling for the TSA exchange. This may be handy if the service that you are requesting timestamps from uses a non-standard TSP protocol or requires special authentication option.
To employ the virtual service, assign an URI of the following format to this property:
virtual://localhost?hashonly=true&includecerts=true&reqpolicy=1.2.3.4.5&halg=SHA256&ignorenonce=true
Subscribe to Notification event to get notified about the virtualized timestamping event. The EventID of the timestamping event is TimestampRequest. Inside the event handler, read the base16-encoded request from the EventParam parameter and forward it to the timestamping authority. Upon receiving the response, pass it back to the component, encoded in base16, via the TimestampResponse config property:
component.Config("TimestampResponse=308208ab...");
Note that all the exchange with your custom TSA should take place within the same invocation of the Notification event.
The hashonly parameter of the virtual URI tells the component to only return the timestamp message imprint via the EventParam parameter. If set to false, EventParam will contain the complete RFC3161 timestamping request.
The includecerts parameter specifies that the requestCertificates parameter of the timestamping request should be set to true.
The reqpolicy parameter lets you specify the request policy, and the halg parameter specifies the hash algorithm to use for timestamping.
The ignorenonce parameter allows you to switch off client nonce verification to enable compatibility with TSA services that do not support nonce mirroring.
All the parameters are optional.
TLSClientChain Property (JAdESSigner Class)
The TLS client certificate chain.
Syntax
public CertificateList getTLSClientChain(); public void setTLSClientChain(CertificateList TLSClientChain);
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.
Please refer to the Certificate type for a complete list of fields.TLSServerChain Property (JAdESSigner Class)
The TLS server's certificate chain.
Syntax
public CertificateList getTLSServerChain();
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.
Please refer to the Certificate type for a complete list of fields.TLSSettings Property (JAdESSigner Class)
Manages TLS layer settings.
Syntax
public TLSSettings getTLSSettings();
Remarks
Use this property to tune up the TLS layer parameters.
This property is read-only.
Please refer to the TLSSettings type for a complete list of fields.TrustedCertificates Property (JAdESSigner Class)
A list of trusted certificates for chain validation.
Syntax
public CertificateList getTrustedCertificates(); public void setTrustedCertificates(CertificateList trustedCertificates);
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.
Please refer to the Certificate type for a complete list of fields.ValidationMoment Property (JAdESSigner Class)
The time point at which signature validity is to be established.
Syntax
public String getValidationMoment(); public void setValidationMoment(String validationMoment);
Default Value
""
Remarks
Use this property to specify the moment in time at which signature validity should be established. The time is in UTC. Leave the setting empty to stick to the default moment (either the signature creation time or the current time).
The validity of the same signature may differ depending on the time point chosen due to temporal changes in chain validities, revocation statuses, and timestamp times.
AddSignedHTTPHeaderField Method (JAdESSigner Class)
Use this method to add HTTP header field.
Syntax
public void addSignedHTTPHeaderField(String fieldName);
Remarks
This method allows you to add HTTP header field to the list of fields that will be signed. The method takes one parameter: the name of the header field.
This method changes the type of signed data to HttpHeaders mechanism and triggers the HTTPHeaderFieldNeeded event when the value of the HTTP header field is needed.
Use "(request target)" value as a field name to add request method and target URI into the list of fields that will be signed.
AddSignedObject Method (JAdESSigner Class)
Use this method to add an object.
Syntax
public void addSignedObject(String URI, String contentType);
Remarks
This method allows you to add an object to the list of objects that will be signed. The signed object is identified by its URI.
This method changes the type of signed data to ObjectByURI mechanism and triggers the ObjectNeeded event when the data of the object is needed.
AddSignedObjectHash Method (JAdESSigner Class)
Use this method to add an object hash.
Syntax
public void addSignedObjectHash(String URI, String contentType, byte[] hash);
Remarks
This method allows you to add an object hash to the list of objects that will be signed. The signed object is identified by its URI.
This method changes the type of signed data to ObjectByURIHash mechanism and triggers the ObjectValidate event when the object must be validated. Also, it triggers the ObjectNeeded event when the data of the object is needed this could occur while adding/validating SignedData or Archive timestamps.
Close Method (JAdESSigner Class)
Closes an opened JWS/JAdES signature.
Syntax
public void close(boolean saveChanges);
Remarks
Use this method to close a previously opened JWS/JAdES signature. Set SaveChanges to true to apply any changes made.
Config Method (JAdESSigner Class)
Sets or retrieves a configuration setting.
Syntax
public String config(String configurationString);
Remarks
Config is a generic method available in every class. It is used to set and retrieve configuration settings for the class.
These settings are similar in functionality to properties, but they are rarely used. In order to avoid "polluting" the property namespace of the class, access to these internal properties is provided through the Config method.
To set a configuration setting named PROPERTY, you must call Config("PROPERTY=VALUE"), where VALUE is the value of the setting expressed as a string. For boolean values, use the strings "True", "False", "0", "1", "Yes", or "No" (case does not matter).
To read (query) the value of a configuration setting, you must call Config("PROPERTY"). The value will be returned as a string.
CreateNew Method (JAdESSigner Class)
Create a new JSON for signing.
Syntax
public void createNew();
Remarks
Use this method to create a new JSON for signing. When finished, call Close to complete or discard the operation.
DoAction Method (JAdESSigner Class)
Performs an additional action.
Syntax
public String doAction(String actionID, String actionParams);
Remarks
DoAction is a generic method available in every class. It is used to perform an additional action introduced after the product major release. The list of actions is not fixed, and may be flexibly extended over time.
The unique identifier (case 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;....
ExtractAsyncData Method (JAdESSigner Class)
Extracts user data from the DC signing service response.
Syntax
public String extractAsyncData(String asyncReply);
Remarks
Call this method before finalizing the asynchronous signing process to extract the data passed to the ExternalCrypto.Data property on the pre-signing stage.
The Data parameter can be used to pass some state or document identifier along with the signing request from the pre-signing to the completion async stage.
Open Method (JAdESSigner Class)
Opens a JSON for signing or updating.
Syntax
public void open();
Remarks
Use this method to open a JSON for signing or updating. When finished, call Close to complete or discard the operation.
Reset Method (JAdESSigner Class)
Resets the class settings.
Syntax
public void reset();
Remarks
Reset is a generic method available in every class.
Revalidate Method (JAdESSigner Class)
Revalidates a signature in accordance with current settings.
Syntax
public void revalidate(String sigLabel);
Remarks
Use this method to re-validate a signature in the opened JWS/JAdES signature.
SelectInfo Method (JAdESSigner Class)
Select signature information for a specific entity.
Syntax
public void selectInfo(String entityLabel, int infoType, boolean clearSelection);
Remarks
Use this method to select (or filter) signature-related information for a specific signature element.
Provide the unique label of the entity that you are interested in via the EntityLabel parameter. Use one of the following filters, or their combination, to specify what information you are interested in:
sitEntity | 1 | Select the current entity |
sitParentEntity | 2 | Select the parent entity of the current entity |
sitTimestamps | 4 | Select all timestamps covering the current entity |
sitSignatures | 8 | Select all signatures covering the current entity |
sitSigningChain | 16 | Select the signing chain of the current entity |
sitEmbeddedCertificates | 256 | Select all certificates embedded in the current entity |
sitEmbeddedCRLs | 512 | Select all CRLs embedded in the current entity |
sitEmbeddedOCSPs | 1024 | Select all OCSP responses embedded in the current entity |
sitEmbeddedRevInfo | 1792 | Select the whole pack of embedded revocation information (certificates, CRLs and OCSPs) |
sitUsedCertificates | 4096 | Select all the certificates used to validate this entity's chain |
sitUsedCRLs | 8192 | Select all the CRLs used to validate this entity's chain |
sitUsedOCSPs | 16384 | Select all the OCSP responses used to validate this entity's chain |
sitUsedRevInfo | 28672 | Select the whole pack of revocation information used to validate this entity's chain (certificates, CRLs, OCSP responses) |
sitAttributes | 65536 | Select this entity's CMS attributes |
sitReferences | 131072 | Select this entity's XML references |
sitSignedParts | 262144 | Select this entity's signed parts |
Following the call, the relevant pieces of information will be copied to the respective component properties (Certificates, CRLs, OCSPs). Note that you can accumulate information in the properties by making repeated calls to SelectInfo and keeping ClearSelection set to false.
This method is useful if you would like to read/display detailed information about a particular signature or timestamp.
Sign Method (JAdESSigner Class)
Creates a new JAdES/JWS signature over the provided data.
Syntax
public void sign();
Remarks
Call this method to produce a new signature over the provided data.
SignAsyncBegin Method (JAdESSigner Class)
Initiates the asynchronous signing operation.
Syntax
public String signAsyncBegin();
Remarks
When using the DC framework, call this method to initiate the asynchronous signing process. Upon completion, a pre-signed copy of the document will be saved in OutputFile (or OutputStream). Keep the pre-signed copy somewhere local, and pass the returned string ('the request state') to the DC processor for handling.
Upon receiving the response state from the DC processor, assign the path to the pre-signed copy to InputFile (or InputStream), and call SignAsyncEnd to finalize the signing.
Note that depending on the signing method and DC configuration used, you may still need to provide the public part of the signing certificate via the SigningCertificate property.
Use the ExternalCrypto.AsyncDocumentID property to supply a unique document ID to include in the request. This is helpful when creating batches of multiple async requests, as it allows you to pass the whole response batch to SignAsyncEnd and expect it to recover the correct response from the batch automatically.
AsyncState is a message of the distributed cryptography (DC) protocol. The DC protocol is based on the exchange of async states between a DC client (an application that wants to sign a PDF, XML, or Office document) and a DC server (an application that controls access to the private key). An async state can carry one or more signing requests, comprised of document hashes, or one or more signatures produced over those hashes.
In a typical scenario you get a client-side async state from the SignAsyncBegin method. This state contains document hashes to be signed on the DC server side. You then send the async state to the DC server (often represented by the DCAuth class), which processes it and produces a matching signature state. The async state produced by the server is then passed to the SignAsyncEnd method.
SignAsyncEnd Method (JAdESSigner Class)
Completes the asynchronous signing operation.
Syntax
public void signAsyncEnd(String asyncReply);
Remarks
When using the DC framework, call this method upon receiving the response state from the DC processor to complete the asynchronous signing process.
Before calling this method, assign the path to the pre-signed copy of the document obtained from the prior SignAsyncBegin call to InputFile (or InputStream). The method will embed the signature into the pre-signed document, and save the complete signed document to OutputFile (or OutputStream).
Note that depending on the signing method and DC configuration used, you may still need to provide the public part of the signing certificate via the SigningCertificate property.
Use the ExternalCrypto.AsyncDocumentID parameter to pass a specific document ID if using batched AsyncReply. If used, it should match the value provided on the pre-signing (SignAsyncBegin) stage.
AsyncState is a message of the distributed cryptography (DC) protocol. The DC protocol is based on the exchange of async states between a DC client (an application that wants to sign a PDF, XML, or Office document) and a DC server (an application that controls access to the private key). An async state can carry one or more signing requests, comprised of document hashes, or one or more signatures produced over those hashes.
In a typical scenario you get a client-side async state from the SignAsyncBegin method. This state contains document hashes to be signed on the DC server side. You then send the async state to the DC server (often represented by the DCAuth class), which processes it and produces a matching signature state. The async state produced by the server is then passed to the SignAsyncEnd method.
SignExternal Method (JAdESSigner Class)
Signs the data using an external signing facility.
Syntax
public void signExternal();
Remarks
Call this method to delegate the low-level signing operation to an external, remote, or custom signing engine. This method is useful if the signature has to be made by a device accessible through a custom or non-standard signing interface.
When all preparations are done and hash is computed, the class fires ExternalSign event which allows to pass the hash value for signing.
Timestamp Method (JAdESSigner Class)
Use this method to add timestamp.
Syntax
public void timestamp(String sigLabel, int timestampType);
Remarks
Call this method to timestamp the signature. Use the TimestampServer property to provide the address of the TSA (Time Stamping Authority) server which should be used for timestamping. Use the TimestampType parameter to specify the type of timestamp to create
Supported timestamp types:
tstSignature | 12 | Signature timestamp |
tstRefsOnly | 13 | RefsOnly timestamp |
tstSigAndRefs | 14 | SigAndRefs timestamp |
tstArchive | 7 | Archive timestamp |
Upgrade Method (JAdESSigner Class)
Upgrades existing JAdES signature to a new level.
Syntax
public void upgrade(String sigLabel, int upgradeKind);
Remarks
Use this method to upgrade JAdES signature to a new level specified by UpgradeKind. Signatures can normally be upgraded from less sophisticated levels (B, T, LT) to more sophisticated (T, LT, LTA).
Supported levels:
jaslUnknown | 0 | Unknown signature level |
jaslGeneric | 1 | Generic signature: JSON Web Signature (JWS) |
jaslBaselineB | 2 | Baseline B (B-B, basic) |
jaslBaselineT | 3 | Baseline T (B-T, timestamped) |
jaslBaselineLT | 4 | Baseline LT (B-LT, long-term) |
jaslBaselineLTA | 5 | Baseline LTA (B-LTA, long-term with archived timestamp) |
The supported additional upgrade kinds are:
jukAddValidationDataRefs | 256 | Add signature validation references |
jukAddValidationDataValues | 512 | Add signature validation values |
jukAddTimestampValidationData | 1024 | Add timestamp validation data |
ChainElementDownload Event (JAdESSigner Class)
Fires when there is a need to download a chain element from an online source.
Syntax
public class DefaultJAdESSignerEventListener implements JAdESSignerEventListener { ... public void chainElementDownload(JAdESSignerChainElementDownloadEvent e) {} ... } public class JAdESSignerChainElementDownloadEvent { public int kind; public String certRDN; public String CACertRDN; public String location; public int action; //read-write }
Remarks
Subscribe to this event to be notified about validation element retrievals. Use the Action parameter to suppress the download if required.
veaAuto | 0 | Handle the action automatically (the default behaviour) |
veaContinue | 1 | Accept the request implied by the event (accept the certificate, allow the object retrieval) |
veaReject | 2 | Reject the request implied by the event (reject the certificate, disallow the object retrieval) |
veaAcceptNow | 3 | Accept the validated certificate immediately |
veaAbortNow | 4 | Abort the validation, reject the certificate |
cekUnknown | 0 | Unknown or unsupported element type |
cekCertificate | 1 | An X.509 certificate |
cekCRL | 2 | A CRL |
cekOCSP | 3 | An OCSP response |
ChainElementNeeded Event (JAdESSigner Class)
Fires when an element required to validate the chain was not located.
Syntax
public class DefaultJAdESSignerEventListener implements JAdESSignerEventListener { ... public void chainElementNeeded(JAdESSignerChainElementNeededEvent e) {} ... } public class JAdESSignerChainElementNeededEvent { public int kind; public String certRDN; public String CACertRDN; }
Remarks
Subscribe to this event to be notified about missing validation elements. Use the KnownCRLs, KnownCertificates, and KnownOCSPs properties in the event handler to provide the missing piece.
cekUnknown | 0 | Unknown or unsupported element type |
cekCertificate | 1 | An X.509 certificate |
cekCRL | 2 | A CRL |
cekOCSP | 3 | An OCSP response |
ChainElementStore Event (JAdESSigner Class)
This event is fired when a chain element (certificate, CRL, or OCSP response) should be stored along with a signature.
Syntax
public class DefaultJAdESSignerEventListener implements JAdESSignerEventListener { ... public void chainElementStore(JAdESSignerChainElementStoreEvent e) {} ... } public class JAdESSignerChainElementStoreEvent { public int kind; public byte[] body; public String URI; //read-write }
Remarks
This event could occur if you are verifying XAdES-C form or higher. The Body parameter contains the element in binary form that should be stored along with a signature. Use the URI parameter to provide an URI of the stored element.
cekUnknown | 0 | Unknown or unsupported element type |
cekCertificate | 1 | An X.509 certificate |
cekCRL | 2 | A CRL |
cekOCSP | 3 | An OCSP response |
ChainValidated Event (JAdESSigner Class)
Reports the completion of a certificate chain validation.
Syntax
public class DefaultJAdESSignerEventListener implements JAdESSignerEventListener { ... public void chainValidated(JAdESSignerChainValidatedEvent e) {} ... } public class JAdESSignerChainValidatedEvent { public int index; public String entityLabel; public String subjectRDN; public int validationResult; public int validationDetails; public boolean cancel; //read-write }
Remarks
This event is fired when a certificate chain validation routine completes. SubjectRDN identifies the owner of the validated certificate.
ValidationResult set to 0 (zero) indicates successful chain validation.
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) |
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 |
ChainValidationProgress Event (JAdESSigner Class)
This event is fired multiple times during chain validation to report various stages of the validation procedure.
Syntax
public class DefaultJAdESSignerEventListener implements JAdESSignerEventListener { ... public void chainValidationProgress(JAdESSignerChainValidationProgressEvent e) {} ... } public class JAdESSignerChainValidationProgressEvent { public String eventKind; public String certRDN; public String CACertRDN; public int action; //read-write }
Remarks
Subscribe to this event to be notified about chain validation progress. Use the Action parameter to alter the validation flow.
The EventKind parameter reports the nature of the event being reported. The CertRDN and CACertRDN parameters report the distinguished names of the certificates that are relevant for the event invocation (one or both can be empty, depending on EventKind). Use the Action parameter to adjust the validation flow.
veaAuto | 0 | Handle the action automatically (the default behaviour) |
veaContinue | 1 | Accept the request implied by the event (accept the certificate, allow the object retrieval) |
veaReject | 2 | Reject the request implied by the event (reject the certificate, disallow the object retrieval) |
veaAcceptNow | 3 | Accept the validated certificate immediately |
veaAbortNow | 4 | Abort the validation, reject the certificate |
Error Event (JAdESSigner Class)
Information about errors during signing.
Syntax
public class DefaultJAdESSignerEventListener implements JAdESSignerEventListener { ... public void error(JAdESSignerErrorEvent e) {} ... } public class JAdESSignerErrorEvent { public int errorCode; public String description; }
Remarks
This event is fired in case of exceptional conditions during the JSON processing.
ErrorCode contains an error code and Description contains a textual description of the error.
ExternalSign Event (JAdESSigner Class)
Handles remote or external signing initiated by the SignExternal method or other source.
Syntax
public class DefaultJAdESSignerEventListener implements JAdESSignerEventListener { ... public void externalSign(JAdESSignerExternalSignEvent e) {} ... } public class JAdESSignerExternalSignEvent { public String operationId; public String hashAlgorithm; public String pars; public String data; public String signedData; //read-write }
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();
};
HTTPHeaderFieldNeeded Event (JAdESSigner Class)
This event is fired when HTTP header field value is required.
Syntax
public class DefaultJAdESSignerEventListener implements JAdESSignerEventListener { ... public void HTTPHeaderFieldNeeded(JAdESSignerHTTPHeaderFieldNeededEvent e) {} ... } public class JAdESSignerHTTPHeaderFieldNeededEvent { public String fieldName; public String fieldValues; //read-write }
Remarks
This event is triggered when the type of signed data is HttpHeaders mechanism (jasdtHttpHeaders). It indicates that a HTTP header field value is needed.
For "(request target)" field name value return request method and target URI seperated by space character. For example: "GET https://nsoftware.com/sbb/"
Loaded Event (JAdESSigner Class)
This event is fired when the JSON has been loaded into memory.
Syntax
public class DefaultJAdESSignerEventListener implements JAdESSignerEventListener { ... public void loaded(JAdESSignerLoadedEvent e) {} ... } public class JAdESSignerLoadedEvent { public boolean cancel; //read-write }
Remarks
The handler for this event is a good place to check JWS/JAdES signature properties, which may be useful when preparing the signature.
Set Cancel to true to terminate JSON processing on this stage.
Notification Event (JAdESSigner Class)
This event notifies the application about an underlying control flow event.
Syntax
public class DefaultJAdESSignerEventListener implements JAdESSignerEventListener { ... public void notification(JAdESSignerNotificationEvent e) {} ... } public class JAdESSignerNotificationEvent { public String eventID; public String eventParam; }
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.
This class can fire this event with the following EventID values:
Loaded | Reports the completion of signature processing by the component. Use the event handler to access signature-related information. The EventParam value passed with this EventID is empty. |
PayloadExtracted | Reports the completion of payload extraction by the component if ExtractPayload property is enabled. Use the event handler to access payload. The EventParam value passed with this EventID is empty. |
BeforeAddArchiveTimestamp | TBD |
BeforeAddSignatureTimestamp | TBD |
BeforeAddSignedDataTimestamp | TBD |
SignaturesLoaded | Notifies the application that the component has finished loading signatures. |
BeforeTimestamp | This event is fired before a timestamp is requested from the timestamping authority. Use the event handler to modify TSA and HTTP settings. |
TimestampError | This event is only fired if the class failed to obtain a timestamp from the timestamping authority. The EventParam parameter contains extended error info. |
TimestampRequest | A timestamp is requested from the custom timestamping
authority. This event is only fired if TimestampServer was set to a
virtual:// URI. The EventParam parameter contains the
TSP request (or the plain hash, depending on the value provided to
TimestampServer), in base16, that needs to be sent to the TSA.
Use the event handler to send the request to the TSA. Upon receiving the response, assign it, in base16, to the TimestampResponse configuration property. |
ObjectNeeded Event (JAdESSigner Class)
This event is fired when object is required.
Syntax
public class DefaultJAdESSignerEventListener implements JAdESSignerEventListener { ... public void objectNeeded(JAdESSignerObjectNeededEvent e) {} ... } public class JAdESSignerObjectNeededEvent { public String URI; public String contentType; public boolean base64; //read-write }
Remarks
This event is triggered when the type of signed data is ObjectIdByURI mechanism (jasdtObjectIdByURI). It is fired to request the data to be signed/verified.
The event handler must pass object data to the component via DataFile or DataStream or DataBytes or DataString property.
ObjectValidate Event (JAdESSigner Class)
This event is fired when object should be verified by user.
Syntax
public class DefaultJAdESSignerEventListener implements JAdESSignerEventListener { ... public void objectValidate(JAdESSignerObjectValidateEvent e) {} ... } public class JAdESSignerObjectValidateEvent { public String URI; public String contentType; public String hashAlgorithm; public byte[] hash; public boolean base64; public boolean valid; //read-write }
Remarks
This event is triggered when the type of signed data is ObjectIdByURIHash mechanism (jasdtObjectIdByURIHash). It is fired to validate the detached object.
The event handler must pass the object validity to the component via Valid parameter.
SignatureFound Event (JAdESSigner Class)
Signifies the start of signature validation.
Syntax
public class DefaultJAdESSignerEventListener implements JAdESSignerEventListener { ... public void signatureFound(JAdESSignerSignatureFoundEvent e) {} ... } public class JAdESSignerSignatureFoundEvent { public int index; public String entityLabel; public String issuerRDN; public byte[] serialNumber; public byte[] subjectKeyID; public boolean certFound; public boolean validateSignature; //read-write public boolean validateChain; //read-write }
Remarks
This event tells the application that signature validation is about to start, and provides the details about the signer's certificate via its IssuerRDN, SerialNumber, and SubjectKeyID parameters. It fires for every signature located in the verified document or message.
The CertFound parameter is set to True if the class has found the needed certificate in one of the known locations, and to False otherwise, in which case you must provide it manually via the KnownCertificates property.
Signature validation consists of two independent stages: cryptographic signature validation and chain validation. Separate validation results are reported for each, with the SignatureValidationResult and ChainValidationResult properties respectively.
Use the ValidateSignature and ValidateChain parameters to tell the verifier which stages to include in the validation.
SignatureValidated Event (JAdESSigner Class)
Marks the completion of the signature validation routine.
Syntax
public class DefaultJAdESSignerEventListener implements JAdESSignerEventListener { ... public void signatureValidated(JAdESSignerSignatureValidatedEvent e) {} ... } public class JAdESSignerSignatureValidatedEvent { public int index; public String entityLabel; public String issuerRDN; public byte[] serialNumber; public byte[] subjectKeyID; public int validationResult; public boolean cancel; //read-write }
Remarks
This event is fired upon the completion of the signature validation routine, and reports the respective validation result.
Use the IssuerRDN, SerialNumber, and/or SubjectKeyID parameters to identify the signing certificate.
ValidationResult is set to 0 if the validation has been successful, or to a non-zero value in case of a validation failure.
svtValid | 0 | The signature is valid |
svtUnknown | 1 | Signature validity is unknown |
svtCorrupted | 2 | The signature is corrupted |
svtSignerNotFound | 3 | Failed to acquire the signing certificate. The signature cannot be validated. |
svtFailure | 4 | General failure |
svtReferenceCorrupted | 5 | Reference corrupted (XML-based signatures only) |
TimestampFound Event (JAdESSigner Class)
Signifies the start of a timestamp validation routine.
Syntax
public class DefaultJAdESSignerEventListener implements JAdESSignerEventListener { ... public void timestampFound(JAdESSignerTimestampFoundEvent e) {} ... } public class JAdESSignerTimestampFoundEvent { public int index; public String entityLabel; public String issuerRDN; public byte[] serialNumber; public byte[] subjectKeyID; public boolean certFound; public boolean validateTimestamp; //read-write public boolean validateChain; //read-write }
Remarks
This event fires for every timestamp identified during signature processing, and reports the details about the signer's certificate via its IssuerRDN, SerialNumber, and SubjectKeyID parameters.
The CertFound parameter is set to True if the class has found the needed certificate in one of the known locations, and to False otherwise, in which case you must provide it manually via the KnownCertificates property.
Just like with signature validation, timestamp validation consists of two independent stages: cryptographic signature validation and chain validation. Separate validation results are reported for each, with the ValidationResult and ChainValidationResult properties respectively.
Use the ValidateSignature and ValidateChain parameters to tell the verifier which stages to include in the validation.
TimestampRequest Event (JAdESSigner Class)
Fires when the class is ready to request a timestamp from an external TSA.
Syntax
public class DefaultJAdESSignerEventListener implements JAdESSignerEventListener { ... public void timestampRequest(JAdESSignerTimestampRequestEvent e) {} ... } public class JAdESSignerTimestampRequestEvent { public String TSA; public String timestampRequest; public String timestampResponse; //read-write public boolean suppressDefault; //read-write }
Remarks
Subscribe to this event to intercept timestamp requests. You can use it to override timestamping requests and perform them in your code.
The TSA parameter indicates the timestamping service being used. It matches the value passed to the TimestampServer property. Set the SuppressDefault parameter to false if you would like to stop the built-in TSA request from going ahead. The built-in TSA request is also not performed if the returned TimestampResponse parameter is not empty.
TimestampValidated Event (JAdESSigner Class)
Reports the completion of the timestamp validation routine.
Syntax
public class DefaultJAdESSignerEventListener implements JAdESSignerEventListener { ... public void timestampValidated(JAdESSignerTimestampValidatedEvent e) {} ... } public class JAdESSignerTimestampValidatedEvent { public int index; public String entityLabel; public String issuerRDN; public byte[] serialNumber; public byte[] subjectKeyID; public String time; public int validationResult; public int chainValidationResult; public int chainValidationDetails; public boolean cancel; //read-write }
Remarks
This event is fired upon the completion of the timestamp validation routine, and reports the respective validation result.
ValidationResult is set to 0 if the validation has been successful, or to a non-zero value in case of a failure.
svtValid | 0 | The signature is valid |
svtUnknown | 1 | Signature validity is unknown |
svtCorrupted | 2 | The signature is corrupted |
svtSignerNotFound | 3 | Failed to acquire the signing certificate. The signature cannot be validated. |
svtFailure | 4 | General failure |
svtReferenceCorrupted | 5 | Reference corrupted (XML-based signatures only) |
TLSCertNeeded Event (JAdESSigner Class)
Fires when a remote TLS party requests a client certificate.
Syntax
public class DefaultJAdESSignerEventListener implements JAdESSignerEventListener { ... public void TLSCertNeeded(JAdESSignerTLSCertNeededEvent e) {} ... } public class JAdESSignerTLSCertNeededEvent { public String host; public String CANames; }
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 (JAdESSigner Class)
This event is fired upon receipt of the TLS server's certificate, allowing the user to control its acceptance.
Syntax
public class DefaultJAdESSignerEventListener implements JAdESSignerEventListener { ... public void TLSCertValidate(JAdESSignerTLSCertValidateEvent e) {} ... } public class JAdESSignerTLSCertValidateEvent { public String serverHost; public String serverIP; public boolean accept; //read-write }
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 (JAdESSigner Class)
Fires when a TLS handshake with Host successfully completes.
Syntax
public class DefaultJAdESSignerEventListener implements JAdESSignerEventListener { ... public void TLSEstablished(JAdESSignerTLSEstablishedEvent e) {} ... } public class JAdESSignerTLSEstablishedEvent { public String host; public String version; public String ciphersuite; public byte[] connectionId; public boolean abort; //read-write }
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 (JAdESSigner Class)
Fires when a new TLS handshake is initiated, before the handshake commences.
Syntax
public class DefaultJAdESSignerEventListener implements JAdESSignerEventListener { ... public void TLSHandshake(JAdESSignerTLSHandshakeEvent e) {} ... } public class JAdESSignerTLSHandshakeEvent { public String host; public boolean abort; //read-write }
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.
TLSShutdown Event (JAdESSigner Class)
Reports the graceful closure of a TLS connection.
Syntax
public class DefaultJAdESSignerEventListener implements JAdESSignerEventListener { ... public void TLSShutdown(JAdESSignerTLSShutdownEvent e) {} ... } public class JAdESSignerTLSShutdownEvent { public String host; }
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.
Remarks
This type keeps and provides access to X.509 certificate details.
Fields
Bytes
byte[] (read-only)
Default Value: ""
Returns the raw certificate data in DER format.
CA
boolean
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
byte[] (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
String
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
String
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
String (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
String (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.
HashAlgorithm
String
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
String (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
String
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
String
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
String (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
boolean (read-only)
Default Value: False
Returns True if the certificate's key is cryptographically valid, and False otherwise.
OCSPLocations
String
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
boolean
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
String
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
byte[] (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
boolean (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
boolean (read-only)
Default Value: False
Indicates whether the private key is extractable (exportable).
PublicKeyBytes
byte[] (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
boolean (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
String (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
boolean (read-only)
Default Value: False
Indicates whether the certificate is self-signed (root) or signed by an external CA.
SerialNumber
byte[]
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
String (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
String (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
String
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
byte[]
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
String
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
boolean (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
String
Default Value: ""
The time point at which the certificate becomes valid, in UTC.
ValidTo
String
Default Value: ""
The time point at which the certificate expires, in UTC.
Constructors
public Certificate( bytes, startIndex, count, password);
Loads the X.509 certificate from a memory buffer. Bytes is a buffer containing the raw certificate data. StartIndex and Count specify the starting position and number of bytes to be read from the buffer, respectively. Password is a password encrypting the certificate.
public Certificate( certBytes, certStartIndex, certCount, keyBytes, keyStartIndex, keyCount, password);
Loads the X.509 certificate from a memory buffer.
CertBytes is a buffer containing the raw certificate data. CertStartIndex and CertCount specify the starting position and number of bytes to be read from the buffer, respectively.
KeyBytes is a buffer containing the private key data. KeyStartIndex and KeyCount specify the starting position and number of bytes to be read from the buffer, respectively.
Password is a password encrypting the certificate.
public Certificate( bytes, startIndex, count);
Loads the X.509 certificate from a memory buffer. Bytes is a buffer containing the raw certificate data. StartIndex and Count specify the starting position and number of bytes to be read from the buffer, respectively.
public Certificate( path, password);
Loads the X.509 certificate from a file. Path specifies the full path to the file containing the certificate data. Password is a password encrypting the certificate.
public Certificate( certPath, keyPath, password);
Loads the X.509 certificate from a file. CertPath specifies the full path to the file containing the certificate data. KeyPath specifies the full path to the file containing the private key. Password is a password encrypting the certificate.
public Certificate( path);
Loads the X.509 certificate from a file. Path specifies the full path to the file containing the certificate data.
public Certificate( stream);
Loads the X.509 certificate from a stream. Stream is a stream containing the certificate data.
public Certificate( stream, password);
Loads the X.509 certificate from a stream. Stream is a stream containing the certificate data. Password is a password encrypting the certificate.
public Certificate( certStream, keyStream, password);
Loads the X.509 certificate from a stream. CertStream is a stream containing the certificate data. KeyStream is a stream containing the private key. Password is a password encrypting the certificate.
public Certificate();
Creates a new object with default field values.
CRL Type
Represents a Certificate Revocation List.
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.
Fields
Bytes
byte[] (read-only)
Default Value: ""
Returns the raw CRL data in DER format.
CAKeyID
byte[]
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.
Issuer
String (read-only)
Default Value: ""
The common name of the CRL issuer (CA), typically a company name.
IssuerRDN
String (read-only)
Default Value: ""
A collection of information, in the form of [OID, Value] pairs, uniquely identifying the CRL issuer.
Location
String (read-only)
Default Value: ""
The URL that the CRL was downloaded from.
NextUpdate
String
Default Value: ""
The planned time and date of the next version of this CRL to be published.
SigAlgorithm
String
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
byte[] (read-only)
Default Value: ""
The to-be-signed part of the CRL (the CRL without the signature part).
ThisUpdate
String
Default Value: ""
The date and time at which this version of the CRL was published.
Constructors
public CRL( bytes, startIndex, count);
Creates a CRL object from a memory buffer. Bytes is a buffer containing raw (DER) CRL data, StartIndex and Count specify the starting position and the length of the CRL data in the buffer, respectively.
public CRL( location);
Creates a CRL object by downloading it from a remote location.
public CRL( stream);
Creates a CRL object from data contained in a stream.
public CRL();
Creates an empty CRL object.
ExternalCrypto Type
Specifies the parameters of external cryptographic calls.
Remarks
External cryptocalls are used in a Distributed Cryptography (DC) subsystem, which allows the delegation of security operations to the remote agent. For instance, it can be used to compute the signature value on the server, while retaining the client's private key locally.
Fields
AsyncDocumentID
String
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
String
Default Value: ""
Custom parameters to be passed to the signing service (uninterpreted).
Data
String
Default Value: ""
Additional data to be included in the async state and mirrored back by the requestor.
ExternalHashCalculation
boolean
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
String
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
String
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
String
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
String
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
public ExternalCrypto();
Creates a new ExternalCrypto object with default field values.
JAdESSignature Type
The class is a container for an JWS/JAdES signature.
Remarks
JSON message may include any number of JWS/JAdES signatures. class stores one of them.
Fields
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.
ClaimedSigningTime
String
Default Value: ""
The signing time from the signer's computer.
Use this property to provide the signature production time. The claimed time is not supported by a trusted source; it may be inaccurate, forfeited, or wrong, and as such is usually taken for informational purposes only by verifiers. Use timestamp servers to embed verifiable trusted timestamps. The time is in UTC.
CompatibilityErrors
int (read-only)
Default Value: 0
Returns compatibility errors encountered during validation.
Use this property to get specific compatibility errors encountered during validation. Unlike chain validation details, compatibility errors indicate violations by the signature of the assumed signature level/profile. For example, BES signatures are required to contain the signing time attribute. A prospective BES signature without such attribute will invoke a compatibility error.
ContainsLongTermInfo
boolean (read-only)
Default Value: False
Returns true if the signature was found to contain long-term validation details (certificates, CRLs, and OCSP response).
ContentType
String
Default Value: ""
Specifies payload content type.
Use this property to indicate the content type of the JWS Payload.
This property provides a way for the application to disambiguate among different kinds of objects that might be present in the payload, but it is typically not used when the kind of object is already known. The value of this property is a string that conforms to the Internet Media Type (MIME) format, such as "text/plain" or "application/json".
It is optional to use this property and it is recommended to omit the "application/" prefix of the media type value when it is not needed. The recipient of the signed message should treat the value as if "application/" were prepended to it, unless it already contains a '/'.
Countersigned
boolean (read-only)
Default Value: False
Indicates if the signature is countersigned.
Use this property to find out whether the JWS/JAdES signature contains any countersignatures over the main signature(s).
EntityLabel
String (read-only)
Default Value: ""
Use this property to get the signature entity label.
This property returns a string label that uniquely identifies the signature. The label can be used to establish the signature target in the SignatureFound event or to select the signing chain via the SelectInfo method.
HashAlgorithm
String
Default Value: "SHA256"
Specifies the hash algorithm to be used.
Supported values:
SB_HASH_ALGORITHM_SHA224 | SHA224 | |
SB_HASH_ALGORITHM_SHA256 | SHA256 | |
SB_HASH_ALGORITHM_SHA384 | SHA384 | |
SB_HASH_ALGORITHM_SHA512 | SHA512 | |
SB_HASH_ALGORITHM_SHA3_256 | SHA3_256 | |
SB_HASH_ALGORITHM_SHA3_384 | SHA3_384 | |
SB_HASH_ALGORITHM_SHA3_512 | SHA3_512 |
IssuerRDN
String (read-only)
Default Value: ""
The Relative Distinguished Name of the signing certificate's issuer.
A collection of information, in the form of [OID, Value] pairs, about the company that issued the signing certificate.
JAdESVersion
int
Default Value: 1
Specifies JAdES version.
This property specifies the version of the JAdES specification the signature should comply with.
The supported values are:
javUnknown | 0 | Unknown |
jav111 | 1 | JAdES v1.1.1 |
LastArchivalTime
String (read-only)
Default Value: ""
Indicates the most recent archival time of an archived signature
This property returns the time of the most recent archival timestamp applied to the signature. This property only makes sense for 'archived' (e.g. CAdES-A) signatures. Time is in UTC.
Level
int
Default Value: 2
Specifies the signature kind and level.
JAdES standard defines a number of different 'levels' of signatures which can be used for different purposes.
Use the Generic value to produce JWS signature.
The supported levels are:
jaslUnknown | 0 | Unknown signature level |
jaslGeneric | 1 | Generic signature: JSON Web Signature (JWS) |
jaslBaselineB | 2 | Baseline B (B-B, basic) |
jaslBaselineT | 3 | Baseline T (B-T, timestamped) |
jaslBaselineLT | 4 | Baseline LT (B-LT, long-term) |
jaslBaselineLTA | 5 | Baseline LTA (B-LTA, long-term with archived timestamp) |
ObjectType
String
Default Value: "jose+json"
Specifies signature object content type.
Use this property to specify the content type of the signature object.
It is used by the application to differentiate between different types of objects that might be present in an application data structure containing a JWS or JAdES.
The default value is "jose+json" which indicates that it is a JWS or JAdES using the JWS JSON Serialization, and "jose" which indicates that the object is a JWS or JAdES using the JWS Compact Serialization. Other type values can also be used by the application.
ParentEntity
String
Default Value: ""
Use this property to get the parent signature label.
This property contains the unique entity label of the current signature's parent object - typically a higher-level signature or a timestamp.
PolicyHash
String
Default Value: ""
The signature policy hash value.
Use this property to get the signature policy hash from EPES signatures
PolicyHashAlgorithm
String
Default Value: ""
The algorithm that was used to calculate the signature policy hash
Use this property to get or set the hash algorithm used to calculate the signature policy hash. Read the actual hash value from PolicyHash.
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 |
PolicyID
String
Default Value: ""
The policy ID that was included or to be included into the signature.
Use this property to retrieve the signature policy identifier from EPES signatures.
PolicyURI
String
Default Value: ""
The signature policy URI that was included in the signature.
Use this property to set or retrieve the URI of the signature policy from EPES signatures.
SerialNumber
byte[] (read-only)
Default Value: ""
The serial number of the signing certificate.
SignatureBytes
byte[] (read-only)
Default Value: ""
Returns the binary representation of the JSON/JAdES signature.
SignatureValidationResult
int (read-only)
Default Value: 0
The outcome of the cryptographic signature validation.
The following signature validity values are supported:
svtValid | 0 | The signature is valid |
svtUnknown | 1 | Signature validity is unknown |
svtCorrupted | 2 | The signature is corrupted |
svtSignerNotFound | 3 | Failed to acquire the signing certificate. The signature cannot be validated. |
svtFailure | 4 | General failure |
svtReferenceCorrupted | 5 | Reference corrupted (XML-based signatures only) |
SignedData
String
Default Value: ""
The sigD header parameter in JSON format that was included or to be included into the signature.
SignedDataType
int
Default Value: 0
Specifies the type of signed data.
Supported values:
jasdtPayload | 0 | JWS Payload |
jasdtHttpHeaders | 1 | HttpHeaders mechanism |
jasdtObjectIdByURI | 2 | ObjectIdByURI mechanism |
jasdtObjectIdByURIHash | 3 | ObjectIdByURIHash mechanism |
jasdtCustom | 4 | Custom mechanism |
SubjectKeyID
byte[] (read-only)
Default Value: ""
Contains the subject key identifier of the signing certificate.
Subject Key Identifier is a (non-critical) X.509 certificate extension which allows the identification of certificates containing a particular public key. In SecureBlackbox, the unique identifier is represented by a SHA-1 hash of the bit string of the subject public key.
SubjectRDN
String (read-only)
Default Value: ""
Contains information about the person owning the signing certificate. Only certificates with given subject information will be enumerated during the search operation. Information is stored in the form of [Object Identifier, Value] pairs.
Timestamped
boolean (read-only)
Default Value: False
Use this property to establish whether the signature contains an embedded timestamp.
ValidatedSigningTime
String (read-only)
Default Value: ""
Contains the certified signing time.
Use this property to obtain the signing time as certified by a timestamp from a trusted timestamping authority. This property is only non-empty if there was a valid timestamp included in the signature.
ClaimedSigningTime returns a non-trusted signing time from the signer's computer.
Both times are in UTC.
ValidationLog
String (read-only)
Default Value: ""
Contains the complete log of the certificate validation routine.
Use this property to access the chain validation log produced by the class. The log can be very useful when investigating issues with chain validation, as it contains a step-by-step trace of the entire validation procedure.
Constructors
public JAdESSignature();
Creates a new JAdES/JWS signature object.
OCSPResponse Type
Represents a single OCSP response originating from an OCSP responder.
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.
Fields
Bytes
byte[] (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.
Issuer
String (read-only)
Default Value: ""
Indicates the issuer of this response (a CA or its authorized representative).
IssuerRDN
String (read-only)
Default Value: ""
Indicates the RDN of the issuer of this response (a CA or its authorized representative).
Location
String (read-only)
Default Value: ""
The location of the OCSP responder.
ProducedAt
String
Default Value: ""
Specifies the time when the response was produced, in UTC.
SigAlgorithm
String
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
public OCSPResponse( bytes, startIndex, count);
Initializes the response from a memory buffer. Bytes is a buffer containing raw OCSP response data, StartIndex and Count specify the starting position and the number of bytes to be read from this buffer.
public OCSPResponse( location);
Downloads an OCSP response from a remote location.
public OCSPResponse( stream);
Initializes the response with the data from a stream.
public OCSPResponse();
Creates an empty OCSP response object.
ProxySettings Type
A container for proxy server settings.
Remarks
This type exposes a collection of properties for tuning up the proxy server configuration.
Fields
Address
String
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
String
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
String
Default Value: ""
Contains HTTP request headers for WebTunnel and HTTP proxy.
ResponseBody
String
Default Value: ""
Contains the HTTP or HTTPS (WebTunnel) proxy response body.
ResponseHeaders
String
Default Value: ""
Contains response headers received from an HTTP or HTTPS (WebTunnel) proxy server.
UseIPv6
boolean
Default Value: False
Specifies whether IPv6 should be used when connecting through the proxy.
Username
String
Default Value: ""
Specifies the username credential for proxy authentication.
Constructors
public ProxySettings();
Creates a new ProxySettings object.
SocketSettings Type
A container for the socket settings.
Remarks
This type is a container for socket-layer parameters.
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
String
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
String
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
boolean
Default Value: False
Enables or disables IP protocol version 6.
Constructors
public SocketSettings();
Creates a new SocketSettings object.
TimestampInfo Type
A container for timestamp information.
Remarks
The TimestampInfo object contains details of a third-party timestamp and the outcome of its validation.
Fields
Accuracy
long (read-only)
Default Value: 0
This field indicates the accuracy of the included time mark, in microseconds.
Bytes
byte[] (read-only)
Default Value: ""
Returns the raw timestamp data in DER format.
CertificateIndex
int (read-only)
Default Value: -1
Returns the index of the TSA certificate in the Certificates collection.
Use this property to look up the TSA certificate in the Certificates collection.
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.
ContainsLongTermInfo
boolean (read-only)
Default Value: False
Returns true if the signature was found to contain long-term validation details (certificates, CRLs, and OCSP response).
EntityLabel
String (read-only)
Default Value: ""
Use this property to get the timestamp entity label.
This property returns a string label that uniquely identifies the timestamp. The label can be used to establish the signature target in the SignatureFound event or to select the signing chain via the SelectInfo method.
HashAlgorithm
String (read-only)
Default Value: ""
Returns the timestamp's 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 |
ParentEntity
String (read-only)
Default Value: ""
Use this property to get the label of the timestamp's parent entity.
This property references the EntityLabel of the object that the timestamp covers, typically a signature.
SerialNumber
byte[] (read-only)
Default Value: ""
Returns the timestamp's serial number.
Time
String (read-only)
Default Value: ""
The time point incorporated into the timestamp.
TimestampType
int (read-only)
Default Value: 0
Returns the type of the timestamp.
Available options:
tstUnknown | 0 | |
tstLegacy | 1 | Supported by: Authenticode components |
tstTrusted | 2 | Supported by: Authenticode components |
tstGeneric | 3 | Supported by: CAdES components |
tstESC | 4 | Supported by: CAdES components |
tstContent | 5 | Supported by: CAdES components |
tstCertsAndCRLs | 6 | Supported by: CAdES components |
tstArchive | 7 | Archive timestamp. Supported by: ASiC, CAdES, JAdES, Office, SOAP, XAdES components |
tstArchive2 | 8 | Archive v2 timestamp. Supported by: ASiC, CAdES components |
tstArchive3 | 9 | Archive v3 timestamp. Supported by: ASiC, CAdES components |
tstIndividualDataObjects | 10 | Individual data objects timetamp. Supported by: ASiC, Office, SOAP, XAdES components |
tstAllDataObjects | 11 | All data objects timestamp. Supported by: ASiC, Office, SOAP, XAdES components |
tstSignature | 12 | Signature timestamp. Supported by: ASiC, JAdES, Office, SOAP, XAdES components |
tstRefsOnly | 13 | RefsOnly timestamp. Supported by: ASiC, JAdES, Office, SOAP, XAdES components |
tstSigAndRefs | 14 | SigAndRefs timestamp. Supported by: ASiC, JAdES, Office, SOAP, XAdES components |
tstSignedData | 15 | SignedData timestamp. Supported by: JAdES components |
tstArchive141 | 16 | Archive timestamp v1.4.1. Supported by: ASiC, Office, SOAP, XAdES components |
Not all of the above timestamp types can be supported by a specific signature technology used (CAdES, PDF, XAdES).
TSAName
String (read-only)
Default Value: ""
This value uniquely identifies the Timestamp Authority (TSA).
This property provides information about the entity that manages the TSA.
ValidationLog
String (read-only)
Default Value: ""
Contains the TSA certificate chain validation log. This information is extremely useful if the timestamp validation fails.
ValidationResult
int (read-only)
Default Value: 0
Contains the timestamp validation outcome.
Use this property to check the result of the most recent timestamp validation.
svtValid | 0 | The signature is valid |
svtUnknown | 1 | Signature validity is unknown |
svtCorrupted | 2 | The signature is corrupted |
svtSignerNotFound | 3 | Failed to acquire the signing certificate. The signature cannot be validated. |
svtFailure | 4 | General failure |
svtReferenceCorrupted | 5 | Reference corrupted (XML-based signatures only) |
Constructors
public TimestampInfo();
Creates a new TimestampInfo object with default field values.
TLSSettings Type
A container for TLS connection settings.
Remarks
The TLS (Transport Layer Security) protocol provides security for information exchanged over insecure connections such as TCP/IP.
Fields
AutoValidateCertificates
boolean
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
String
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
String
Default Value: ""
Defines the elliptic curves to enable.
Extensions
String
Default Value: ""
Provides access to TLS extensions.
ForceResumeIfDestinationChanges
boolean
Default Value: False
Whether to force TLS session resumption when the destination address changes.
PreSharedIdentity
String
Default Value: ""
Defines the identity used when the PSK (Pre-Shared Key) key-exchange mechanism is negotiated.
PreSharedKey
String
Default Value: ""
Contains the pre-shared key for the PSK (Pre-Shared Key) key-exchange mechanism, encoded with base16.
PreSharedKeyCiphersuite
String
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
boolean
Default Value: False
Enables the Extended Master Secret Extension, as defined in RFC 7627.
UseSessionResumption
boolean
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
public TLSSettings();
Creates a new TLSSettings object.
Config Settings (JAdESSigner 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.JAdESSigner Config Settings
The certificate URL is the "x5u" (X.509 URL) Header Parameter that refers to a resource for the X.509 public key certificate or certificate chain corresponding to the key used to digitally sign the JWS or JAdES.
If the value is set to "true", the JWS payload will be represented as a Base64-URL-encoded string.
If the value is "false", the JWS payload will be represented without any encoding.
The default value of this property is "true".
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.
Supported values are:
WriteBase64Param | The parameter controls the inclusion of the "b64" header parameter in the signature. When this flag is set, the "b64" header parameter will always be included in the header. Otherwise, the "b64" header parameter will only be included in the header when it is required. | |
PreferEtsiUClearInstance | The parameter determines whether the EtsiU components should be written as clear JSON instances or as Base64-encoded strings. When this flag is set, EtsiU components will be written as clear JSON instances, if possible. Otherwise, the EtsiU components will be Base64url-encoded strings. |
Key ID is a hint indicating which key was used to secure the JWS or JAdES.
Sample value: '{"addressCountry": "UK", "addressLocality": "London", "postalCode": "N1 7GU", "streetAddress": "20-22 Wenlock Road"}'
This setting is used to provide parameters for some cryptographic schemes. Use the Name1=Value1;Name2=Value2;... syntax to encode the parameters. For example: Scheme=PSS;SaltSize=32;TrailerField=1.
Supported values are:
certificate | Base64-encoded [X509v3] certificates | |
crl | Base64-encoded certificate revocation lists (CRL) | |
ocsp | OCSP responses |
- 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
In case of a timestamping failure, provide new TSA and HTTP settings inside the Notification event handler ('BeforeTimestamp' and 'TimestampError' event IDs).
The following default TSLs are used: EU (European Union) LOTL (list of trusted lists).
The following default TSLs are used: EU (European Union) LOTL (list of trusted lists).
Supported values are:
certificate | References to X.509 certificates | |
crl | References to certificate revocation lists (CRL) | |
ocsp | References to OCSP responses |
Supported values:
SB_HASH_ALGORITHM_SHA224 | SHA224 | |
SB_HASH_ALGORITHM_SHA256 | SHA256 | |
SB_HASH_ALGORITHM_SHA384 | SHA384 | |
SB_HASH_ALGORITHM_SHA512 | SHA512 | |
SB_HASH_ALGORITHM_SHA3_256 | SHA3_256 | |
SB_HASH_ALGORITHM_SHA3_384 | SHA3_384 | |
SB_HASH_ALGORITHM_SHA3_512 | SHA3_512 |
The default value is empty string, in this case, the hash algorithm specified in HashAlgorithm property is used.
Supported values are:
certificate | Base64-encoded [X509v3] certificates | |
crl | Base64-encoded certificate revocation lists (CRL) | |
ocsp | OCSP responses |
Base Config Settings
You can switch this property off to improve performance if your project only uses known, good private keys.
Supported values are:
off | No caching (default) | |
local | Local caching | |
global | Global caching |
This setting only applies to sessions negotiated with TLS version 1.3.
Supported values are:
file | File | |
console | Console | |
systemlog | System Log (supported for Android only) | |
debugger | Debugger (supported for VCL for Windows and .Net) |
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 |
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 |
none | No flush (caching only) | |
immediate | Immediate flush (real-time logging) | |
maxcount | Flush cached entries upon reaching LogMaxEventCount entries in the cache. |
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. |
The default value of this setting is 100.
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) |
Supported values are:
none | No static DNS rules (default) | |
local | Local static DNS rules | |
global | Global static DNS rules |
This setting only applies to certificates originating from a Windows system store.
Trappable Errors (JAdESSigner Class)
JAdESSigner 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) |
53477377 | The input file does not exist (SB_ERROR_JADES_INPUTFILE_NOT_EXISTS) |