CMS Class

Properties Methods Events Config Settings Errors

The CMS class is used to digitally sign, encrypt, verify, and decrypt data.

Syntax

ipworksencrypt.cms()

Remarks

The CMS class implements the Cryptographic Message Syntax and allow for various cryptographic operations to be performed on data including:

Sign
VerifySignature
Encrypt
Decrypt
SignAndEncrypt
DecryptAndVerifySignature

The class can generate and consume message in a variety of formats including PEM, DER (Binary), and SMIME. The EncryptionAlgorithm and SignatureHashAlgorithm are fully configurable and support a variety of industry standard encryption and hash algorithms.

The class supports additional functionality such as Compression, OAEP, and PSS. The GetRecipientInfo and GetSignerCertInfo methods as well as the RecipientInfo and SignerCertInfo events allow for a dynamic and flexible approach to message processing. Certificate may be loaded ahead of time or as-needed from the events.

Signing Notes

Sign digitally signs the input data with the the specified certificate(s). Certificates are specified by calling AddCertificate or setting the Certificates property.

OutputFormat specifies the encoding of the output message. Valid values are PEM, DER, and SMIME. IncludeCertificates specifies whether the public certificate is included in the signed message. Additional settings allow further configuration. The following properties are applicable when calling this method:

Certificates (required)
DetachedSignature
EnableCompression
GenerateSignatureTimestamp
IncludeCertificates
OutputFormat
SignatureHashAlgorithm
UsePSS

Input and Output Properties

The class will determine the source and destination of the input and output based on which properties are set.

The order in which the input properties are checked is as follows:

InputFile
InputMessage

When a valid source is found, the search stops. The order in which the output properties are checked is as follows:

OutputFile
OutputMessage: The output data is written to this property if no other destination is specified.

Sign and Verify a message Cms cms = new Cms(); cms.Certificates.Add(new Certificate(CertStoreTypes.cstPFXFile, @"C:\temp\test.pfx", "password", "*")); cms.InputMessage = "My Data"; cms.Sign(); string signedMessage = cms.OutputMessage; cms = new Cms(); cms.InputMessage = signedMessage; cms.VerifySignature(); string plaintextMessage = cms.OutputMessage; Sign and Verify a message - DER Output Format Cms cms = new Cms(); cms.Certificates.Add(new Certificate(CertStoreTypes.cstPFXFile, @"C:\temp\test.pfx", "password", "*")); cms.InputMessage = "My Data"; cms.OutputFormat = "DER"; cms.Sign(); byte[] signedMessage = cms.OutputMessageB; //Binary output cms = new Cms(); cms.InputMessageB = signedMessage; cms.VerifySignature(); string plaintextMessage = cms.OutputMessage; Sign and Verify a message - Detached Signature Cms cms = new Cms(); cms.Certificates.Add(new Certificate(CertStoreTypes.cstPFXFile, @"C:\temp\test.pfx", "password", "*")); cms.InputMessage = "My Data"; cms.DetachedSignature = true; cms.Sign(); string signature = cms.OutputMessage; cms = new Cms(); cms.InputMessage = "My Data"; cms.DetachedSignatureData = signature; cms.DetachedSignature = true; cms.VerifySignature(); Sign and Verify a message - Multiple Signatures Cms cms = new Cms(); cms.InputMessage = "My Data"; cms.Certificates.Add(new Certificate(CertStoreTypes.cstPFXFile, @"C:\temp\test.pfx", "password", "*")); cms.Certificates.Add(new Certificate(CertStoreTypes.cstPFXFile, @"C:\temp\test2.pfx", "password2", "*")); cms.Sign(); string signedMessage = cms.OutputMessage; cms = new Cms(); cms.InputMessage = signedMessage; cms.VerifySignature(); string plaintextMessage = cms.OutputMessage; Sign and Verify a message - No Included Certificate Cms cms = new Cms(); cms.InputMessage = "My Data"; cms.Certificates.Add(new Certificate(CertStoreTypes.cstPFXFile, @"C:\temp\test.pfx", "password", "*")); cms.IncludeCertificates = CmsIncludeCertificates.icsNone; cms.Sign(); string signedMessage = cms.OutputMessage; cms = new Cms(); cms.OnSignerCertInfo += (s, e) => { Console.WriteLine(e.Issuer); Console.WriteLine(e.SerialNumber); if (e.Issuer == "CN=100") //Identify the certificate to load based on event params { //Load the correct signer certificate. cms.SignerCerts.Add(new Certificate(CertStoreTypes.cstPublicKeyFile, @"C:\temp\test.cer", "", "*")); } }; cms.InputMessage = signedMessage; cms.VerifySignature(); string plaintextMessage = cms.OutputMessage;

Encryption Notes

Encrypt encrypts the input data with the the specified certificate(s). Certificates are specified by calling AddRecipientCert or setting the RecipientCerts property.

OutputFormat specifies the encoding of the output message. Valid values are PEM, DER, and SMIME. Additional settings allow further configuration. The following properties are applicable when calling this method:

RecipientCerts (required)
EncryptionAlgorithm
OutputFormat
UseOAEP

Input and Output Properties

The class will determine the source and destination of the input and output based on which properties are set.

The order in which the input properties are checked is as follows:

InputFile
InputMessage

When a valid source is found, the search stops. The order in which the output properties are checked is as follows:

OutputFile
OutputMessage: The output data is written to this property if no other destination is specified.

Encrypt and Decrypt a message Cms cms = new Cms(); cms.RecipientCerts.Add(new Certificate(CertStoreTypes.cstPublicKeyFile, @"C:\temp\test.cer", "", "*")); cms.InputMessage = "My Data"; cms.Encrypt(); string encryptedMessage = cms.OutputMessage; cms = new Cms(); cms.InputMessage = encryptedMessage; cms.Certificates.Add(new Certificate(CertStoreTypes.cstPFXFile, @"C:\temp\test.pfx", "password", "*")); cms.Decrypt(); string plaintextMessage = cms.OutputMessage; Encrypt and Decrypt a message - DER Output Format Cms cms = new Cms(); cms.RecipientCerts.Add(new Certificate(CertStoreTypes.cstPublicKeyFile, @"C:\temp\test.cer", "", "*")); cms.InputMessage = "My Data"; cms.OutputFormat = "DER"; cms.Encrypt(); byte[] encryptedMessage = cms.OutputMessageB; //Binary output cms = new Cms(); cms.InputMessageB = encryptedMessage; cms.Certificates.Add(new Certificate(CertStoreTypes.cstPFXFile, @"C:\temp\test.pfx", "password", "*")); cms.Decrypt(); string plaintextMessage = cms.OutputMessage; Encrypt and Decrypt - Multiple Recipients Cms cms = new Cms(); cms.RecipientCerts.Add(new Certificate(CertStoreTypes.cstPublicKeyFile, @"C:\temp\test.cer", "", "*")); cms.RecipientCerts.Add(new Certificate(CertStoreTypes.cstPublicKeyFile, @"C:\temp\test2.cer", "", "*")); cms.InputMessage = "My Data"; cms.Encrypt(); string encryptedMessage = cms.OutputMessage; cms = new Cms(); cms.InputMessage = encryptedMessage; cms.Certificates.Add(new Certificate(CertStoreTypes.cstPFXFile, @"C:\temp\test.pfx", "password", "*")); cms.Decrypt(); string plaintextMessage = cms.OutputMessage; Encrypt and Decrypt - Get Recipient Info Cms cms = new Cms(); cms.RecipientCerts.Add(new Certificate(CertStoreTypes.cstPublicKeyFile, @"C:\temp\test.cer", "", "*")); cms.InputMessage = "My Data"; cms.Encrypt(); string encryptedMessage = cms.OutputMessage; //If the recipient certificate is not known ahead of time the GetRecipientInfo method may be called //to find information about the certificate. cms = new Cms(); cms.InputMessage = encryptedMessage; cms.OnRecipientInfo += (s, e) => { Console.WriteLine(e.SerialNumber); Console.WriteLine(e.Issuer); if (e.Issuer == "CN=100") //Identify the certificate to load based on event params { cms.Certificates.Add(new Certificate(CertStoreTypes.cstPFXFile, @"C:\temp\test.pfx", "password", "*")); } }; cms.GetRecipientInfo(); cms.Decrypt(); string plaintextMessage = cms.OutputMessage;

Signature Verification Notes

VerifySignature verifies the signature of the input message.

In order to perform signature verification the public signer's certificate must be present or explicitly specified. In many cases the certificate itself is included in the input message and a certificate does not need to explicitly be set. If a certificate does need to be set for signature verification the certificate may be specified by calling AddRecipientCert or setting RecipientCerts.

When this method is called the SignerCertInfo event fires once for each signature on the message. This event provides details about the signer certificate, as well as the signer certificate itself (if present). The information provided via SignerCertInfo may be used to load an appropriate certificate for verification from within the event. If the CertEncoded parameter of SignerCertInfo is populated the certificate required for verification is already present in the message.

The following property are applicable when calling this method:

DetachedSignature
DetachedSignatureData
EnableCompression
SignerCerts

If the input message is a detached signature, the original data that was signed must be specified in DetachedSignatureData. In addition the DetachedSignature property must be set to True to instruct the class to treat the input message as a detached signature.

If the input message is compressed EnableCompression must be set to True before calling this method.

Input and Output Properties

The class will determine the source and destination of the input and output based on which properties are set.

The order in which the input properties are checked is as follows:

InputFile
InputMessage

When a valid source is found, the search stops. The order in which the output properties are checked is as follows:

OutputFile
OutputMessage: The output data is written to this property if no other destination is specified.

Decryption Notes

Decrypt decrypts the input data with the specified certificate. Certificates are specified by calling AddCertificate or setting the Certificates property.

If the certificate used to encrypt the message is not known ahead of time GetRecipientInfo may be called prior to calling Decrypt to obtain information about the recipient (the entity the for which the message was encrypted). If GetRecipientInfo is called, the RecipientInfo event is fired with information about the recipient which may be used to load an appropriate decryption certificate.

The following properties are applicable when calling this method:

Certificates (Required)

Input and Output Properties

The class will determine the source and destination of the input and output based on which properties are set.

The order in which the input properties are checked is as follows:

InputFile
InputMessage

When a valid source is found, the search stops. The order in which the output properties are checked is as follows:

OutputFile
OutputMessage: The output data is written to this property if no other destination is specified.

Property List

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


Certificates	A collection of certificates used for signing and decryption.
DetachedSignature	Specifies whether to include a detached signature when signing a message.
DetachedSignatureData	The detached signature.
EnableCompression	Specifies whether to compress the message.
EncryptionAlgorithm	The algorithm used for encryption.
IncludeCertificates	Specifies whether to include the signer's certificate with the signed message.
InputFile	The file to process.
InputMessage	The message to process.
OutputFile	The output file.
OutputFormat	Specifies the output format.
OutputMessage	The output message after processing.
RecipientCerts	The collection of recipient certificates.
SignatureHashAlgorithm	The signature hash algorithm used during signing.
SignerCerts	The collection of signer certificates.
UseOAEP	This property specifies whether or not to use Optimal Asymmetric Encryption Padding (OAEP).
UsePSS	Whether to use RSA-PSS during signing and verification.

Method List

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


AddCertificate	Used to add certificates for signing.
AddRecipientCert	Used to add recipient certificates used to encrypt messages.
Config	Sets or retrieves a configuration setting.
Decrypt	Decrypts the current message.
DecryptAndVerifySignature	Decrypts and verifies the signature of the current message.
Encrypt	Encrypts the current message.
GetRecipientInfo	Gets the recipient certificate information for an encrypted message.
GetSignerCertInfo	This method gets the signature information for an signed message.
Reset	This method resets the class properties.
Sign	Signs the current message.
SignAndEncrypt	Signs and encrypts the current message.
VerifySignature	Verifies the signature of the current message.

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.


Error	Fired when information is available about errors during data delivery.
Log	Fires with log information during processing.
RecipientInfo	This event is fired for each recipient certificate of the encrypted message.
SignerCertInfo	Fired during verification of the signed message.

Config Settings

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


CompressBeforeSign	Specifies whether to compress before signing.
ContentTypeOID	Specifies the oid for content type.
CSP	The Cryptographic Service Provider.
GenerateSignatureTimestamp	Whether to generate timestamps in signatures.
IncludeHeaders	Tells the class whether to include the headers when encoding the message.
IncludeInternalHeaders	Tells the class whether or not to include the internal headers when encoding the message.
InputContentTransferEncoding	Sets the Content-Transfer-Encoding for the signed message.
InputContentType	Sets the Content-Type for the signed message.
InputMessageHeaders	Message headers.
LogDirectory	The directory on disk where debug logs are written.
LogFileName	The base filename to use with LogDirectory.
LogLevel	The level of detail for log messages.
OAEPMGF1HashAlgorithm	The MGF1 hash algorithm used with OAEP.
OAEPParams	The hex encoded OAEP parameters.
OAEPRSAHashAlgorithm	The RSA hash algorithm used with OAEP.
OutputMessageHeaders	The SMIME headers of the output message.
RecipientInfoType	The type of signer information to include in the signed message.
SignatureTimestamp	The signature timestamp in the signed message.
SignerInfoType	The type of signer information to include in the signed message.
UseAlgorithmOIDs	Whether OIDs are used when providing information about the algorithms.
BuildInfo	Information about the product's build.
CodePage	The system code page used for Unicode to Multibyte translations.
LicenseInfo	Information about the current license.
MaskSensitiveData	Whether sensitive data is masked in log messages.
UseInternalSecurityAPI	Whether or not to use the system security libraries or an internal implementation.

CMS.Certificates Property

A collection of certificates used for signing and decryption.

Syntax

getCertificates(): CertificateList;
setCertificates(certificates: CertificateList): void;

Default Value

Remarks

This property hold a collection of certificates used when Sign is called. The input message will be signed with each certificate specified in this property. AddCertificate may also be used to add a certificate to this collection.

The certificate(s) specified here are also used to decrypt the message when Decrypt is called.

Please refer to the Certificate type for a complete list of fields.

CMS.DetachedSignature Property

Specifies whether to include a detached signature when signing a message.

Syntax

isDetachedSignature(): boolean;
setDetachedSignature(detachedSignature: boolean): void;

Default Value

FALSE

Remarks

This property specifies whether the Sign operation products a message that includes both a signature and the message data, or just a signature.

When set to False default the output message holds the data and signature in one CMS message. This may be passed in its entirety to the receiving party for signature verification.

When set to True the output message holds only a signature in the CMS message. Both the original input data and the signature in the output message produced by the Sign operation must be passed to the receiving party for signature verification.

CMS.DetachedSignatureData Property

The detached signature.

Syntax

getDetachedSignatureData(): Uint8Array;
setDetachedSignatureData(detachedSignatureData: Uint8Array): void;

Default Value

Remarks

This setting is used to specify the detached signature before calling VerifySignature. The message data should be specified normally and this property should be set to the detached signature data. This may be set to the PEM, DER, or SMIME encoded signature message.

CMS.EnableCompression Property

Specifies whether to compress the message.

Syntax

isEnableCompression(): boolean;
setEnableCompression(enableCompression: boolean): void;

Default Value

FALSE

Remarks

This property specifies whether the input data will be compressed during the signing process.

If set to True the data will be compressed. If set to False (default) the data will not be compressed.

When compression is enabled the input will first be signed, and then compressed. To compress the data before signing set CompressBeforeSign.

CMS.EncryptionAlgorithm Property

The algorithm used for encryption.

Syntax

getEncryptionAlgorithm(): string;
setEncryptionAlgorithm(encryptionAlgorithm: string): void;

Default Value

"3DES"

Remarks

This property specifies the encryption algorithm used when Encrypt is called.

This may be the name of the algorithm, or the corresponding OID of the algorithm. The default value is 3DES. Possible values are:

"3DES"
"DES"
"RC2CBC40"
"RC2CBC64"
"RC2CBC128" or "RC2"
"AESCBC128" or "AES"
"AESCBC192"
"AESCBC256"
"AESGCM128" or "AESGCM"
"AESGCM192"
"AESGCM256"

CMS.IncludeCertificates Property

Specifies whether to include the signer's certificate with the signed message.

Syntax

getIncludeCertificates(): CMSIncludeCertificates;
setIncludeCertificates(includeCertificates: CMSIncludeCertificates): void;

enum CMSIncludeCertificates {
  icsNone,
  icsSignerCerts,
  icsSignerCertsAndChain
}

Default Value

Remarks

This setting specifies which certificates (if any) are included in the signed message. By default the public certificate of the certificate used to sign the message is included. This allows the receiving party to verify the signature without any additional knowledge. If this is set to icsNone the recipient must obtain and specify the public certificate to be used for signature verification. Possible values are:


Value	Description
0 (icsNone)	No signer certificates are included.
1 (icsSignerCerts - default)	The certificates specified in Certificates are included.
2 (icsSignerCertsAndChain)	The certificates specified in Certificates and the full chain of each certificate are included.

CMS.InputFile Property

The file to process.

Syntax

getInputFile(): string;
setInputFile(inputFile: string): void;

Default Value

Remarks

This property specifies the file to be processed. Set this property to the full or relative path to the file which will be processed.

Encrypt and/or Sign

When encrypting or signing this may be set to a file containing content that will be encrypted and/or signed.

Decrypt and/or Verify

When decrypting or verifying a signature this may be set to a file containing the PEM, DER, or SMIME encoded message.

Input and Output Properties

The class will determine the source and destination of the input and output based on which properties are set.

The order in which the input properties are checked is as follows:

InputFile
InputMessage

When a valid source is found, the search stops. The order in which the output properties are checked is as follows:

OutputFile
OutputMessage: The output data is written to this property if no other destination is specified.

CMS.InputMessage Property

The message to process.

Syntax

getInputMessage(): Uint8Array;
setInputMessage(inputMessage: Uint8Array): void;

Default Value

Remarks

This property specifies the message to be processed.

Encrypt and/or Sign

When encrypting or signing this may be set to the content that will be encrypted and/or signed.

Decrypt and/or Verify

When decrypting or verifying a signature this may be set to the PEM, DER, or SMIME encoded message.

Input and Output Properties

The class will determine the source and destination of the input and output based on which properties are set.

The order in which the input properties are checked is as follows:

InputFile
InputMessage

When a valid source is found, the search stops. The order in which the output properties are checked is as follows:

OutputFile
OutputMessage: The output data is written to this property if no other destination is specified.

CMS.OutputFile Property

The output file.

Syntax

getOutputFile(): string;
setOutputFile(outputFile: string): void;

Default Value

Remarks

This property specifies the file to which the output will be written. This may be set to an absolute or relative path.

Encrypt and/or Sign

When encrypting or signing this specifies a file where the message will be written.

Decrypt and/or Verify

When decrypting or verifying a signature this specifies a file where the decrypted/verified content will be written.

Input and Output Properties

The class will determine the source and destination of the input and output based on which properties are set.

The order in which the input properties are checked is as follows:

InputFile
InputMessage

When a valid source is found, the search stops. The order in which the output properties are checked is as follows:

OutputFile
OutputMessage: The output data is written to this property if no other destination is specified.

CMS.OutputFormat Property

Specifies the output format.

Syntax

getOutputFormat(): string;
setOutputFormat(outputFormat: string): void;

Default Value

"PEM"

Remarks

This property specifies the format of the output message created when calling Sign, Encrypt, or SignAndEncrypt.

The various formats allow for easier transport of the signed or encrypted message, as well as interoperability with other utilities.

Possible values are:


Value	Description
`PEM` (default)	A PEM formatted message. For instance: -----BEGIN CMS----- MIAGCSqGSIb3DQEHAqCAMIACAQExDzANBglghkgBZQMEAgEFADCABgkqhkiG9w0BBwGggCSABGFD b250ZW50LVR5cGU6IHRleHQvcGxhaW47IGNoYXJzZXQ9Imlzby04ODU5LTEiDQpDb250ZW50LVRy ... mlJLPoCw5pf3Cjae56oXs29IZMcDXKersNjFGYSaG0o9k3lAcj9llLFh54Xr1ljx7K0VpVvlrmgu kNHAf7cUvvilW/KrDa+T2n+sOFAAAAAAAAA= -----END CMS-----
`DER`	The message is binary (raw bytes).
`SMIME`	The message is S/MIME encoded. For instance: MIME-Version: 1.0 Content-Type: application/pkcs7-mime; smime-type=signed-data; name="smime.p7m" Content-Transfer-Encoding: base64 Content-Disposition: attachment; filename="smime.p7m" MIAGCSqGSIb3DQEHAqCAMIACAQExDzANBglghkgBZQMEAgEFADCABgkqhkiG9w0BBwGggCSABGFD b250ZW50LVR5cGU6IHRleHQvcGxhaW47IGNoYXJzZXQ9Imlzby04ODU5LTEiDQpDb250ZW50LVRy ... Mpc/PtPNeHA3CCFGRFnHju/yb9CsQWpgf8TTWytjP7O1hFUecW0yiuGSDeeNlQ4ZcX0TOm6haRMT lqYIrHUNMn4tYaREevNBL9CQB8MAAAAAAAA=

CMS.OutputMessage Property

The output message after processing.

Syntax

getOutputMessage(): Uint8Array;

Default Value

Remarks

This property will be populated with the output of the operation if OutputFile is not set.

Encrypt and/or Sign

When encrypting or signing this will hold the fully encoded message.

Decrypt and/or Verify

When decrypting or verifying a signature this will hold the decrypted/verified content.

Input and Output Properties

The class will determine the source and destination of the input and output based on which properties are set.

The order in which the input properties are checked is as follows:

InputFile
InputMessage

When a valid source is found, the search stops. The order in which the output properties are checked is as follows:

OutputFile
OutputMessage: The output data is written to this property if no other destination is specified.

This property is read-only.

CMS.RecipientCerts Property

The collection of recipient certificates.

Syntax

getRecipientCerts(): CertificateList;
setRecipientCerts(recipientCerts: CertificateList): void;

Default Value

Remarks

This property is used to specify one or more public certificate used to encrypt the message. The certificates should be the public certificate of the recipient who will decrypt the message. The certificate(s) must be set before calling Encrypt or SignAndEncrypt methods.

This property is not available at design time.

Please refer to the Certificate type for a complete list of fields.

CMS.SignatureHashAlgorithm Property

The signature hash algorithm used during signing.

Syntax

getSignatureHashAlgorithm(): string;
setSignatureHashAlgorithm(signatureHashAlgorithm: string): void;

Default Value

"SHA256"

Remarks

This property specifies the signature hash algorithm used when Sign is called.

When Sign is called the input data is first hashed with the algorithm specified by this property to produce a message digest. The computed digest is then digitally signed with the certificates specified in Certificates.

The value specified here may be the name of the algorithm or the corresponding OID. Possible values are:

"SHA-256" (default)
"SHA-384"
"SHA-512"
"SHA-224"
"SHA1"
"MD5"

CMS.SignerCerts Property

The collection of signer certificates.

Syntax

getSignerCerts(): CertificateList;
setSignerCerts(signerCerts: CertificateList): void;

Default Value

Remarks

This property is used to specify one or more public certificate used to verify the message. The certificates should be the public certificate of the recipient who will verify the message.

This property is only required if a certificate is not included in the signed message. The SignerCertInfo event fires during verification with information about the signer certificate. This property may be populated from within the SignerCertInfo.

This property will also be populated after VerifySignature or DecryptAndVerifySignature is called with the certificate(s) present within the signed message (if any).

This property is not available at design time.

Please refer to the Certificate type for a complete list of fields.

CMS.UseOAEP Property

This property specifies whether or not to use Optimal Asymmetric Encryption Padding (OAEP).

Syntax

isUseOAEP(): boolean;
setUseOAEP(useOAEP: boolean): void;

Default Value

FALSE

Remarks

This property specifies whether or not to use Optimal Asymmetric Encryption Padding (OAEP). By default, this value is False and the class will use PKCS1.

To specify nondefault OAEP options, please see OAEPRSAHashAlgorithm, OAEPMGF1HashAlgorithm, and OAEPParams

CMS.UsePSS Property

Whether to use RSA-PSS during signing and verification.

Syntax

isUsePSS(): boolean;
setUsePSS(usePSS: boolean): void;

Default Value

FALSE

Remarks

This property specifies whether RSA-PSS will be used when signing and verifying messages. The default value is False.

CMS.addCertificate Method

Used to add certificates for signing.

Syntax

async cms.addCertificate(certStoreType : number, certStore : string, certStorePassword : string, certSubject : string): Promise<void>

Remarks

This method adds a signing certificate. Signing certificates may be added using this method or by adding a certificate directly to Certificates.

The added certificate(s) will be used to sign the message when Sign is called.

CertStoreType specifies the type of certificate store. The class supports both public and private keys in a variety of formats. When the cstAuto value is used, the class will automatically determine the type. This property can take one of the following values:


0 (cstUser - default)	For Windows, this specifies that the certificate store is a certificate store owned by the current user. Note: This store type is not available in Java.
1 (cstMachine)	For Windows, this specifies that the certificate store is a machine store. Note: This store type is not available in Java.
2 (cstPFXFile)	The certificate store is the name of a PFX (PKCS#12) file containing certificates.
3 (cstPFXBlob)	The certificate store is a string (binary or Base64-encoded) representing a certificate store in PFX (PKCS#12) format.
4 (cstJKSFile)	The certificate store is the name of a Java Key Store (JKS) file containing certificates. Note: This store type is only available in Java.
5 (cstJKSBlob)	The certificate store is a string (binary or Base64-encoded) representing a certificate store in Java Key Store (JKS) format. Note: This store type is only available in Java.
6 (cstPEMKeyFile)	The certificate store is the name of a PEM-encoded file that contains a private key and an optional certificate.
7 (cstPEMKeyBlob)	The certificate store is a string (binary or Base64-encoded) that contains a private key and an optional certificate.
8 (cstPublicKeyFile)	The certificate store is the name of a file that contains a PEM- or DER-encoded public key certificate.
9 (cstPublicKeyBlob)	The certificate store is a string (binary or Base64-encoded) that contains a PEM- or DER-encoded public key certificate.
10 (cstSSHPublicKeyBlob)	The certificate store is a string (binary or Base64-encoded) that contains an SSH-style public key.
11 (cstP7BFile)	The certificate store is the name of a PKCS#7 file containing certificates.
12 (cstP7BBlob)	The certificate store is a string (binary) representing a certificate store in PKCS#7 format.
13 (cstSSHPublicKeyFile)	The certificate store is the name of a file that contains an SSH-style public key.
14 (cstPPKFile)	The certificate store is the name of a file that contains a PPK (PuTTY Private Key).
15 (cstPPKBlob)	The certificate store is a string (binary) that contains a PPK (PuTTY Private Key).
16 (cstXMLFile)	The certificate store is the name of a file that contains a certificate in XML format.
17 (cstXMLBlob)	The certificate store is a string that contains a certificate in XML format.
18 (cstJWKFile)	The certificate store is the name of a file that contains a JWK (JSON Web Key).
19 (cstJWKBlob)	The certificate store is a string that contains a JWK (JSON Web Key).
21 (cstBCFKSFile)	The certificate store is the name of a file that contains a BCFKS (Bouncy Castle FIPS Key Store). Note: This store type is only available in Java and .NET.
22 (cstBCFKSBlob)	The certificate store is a string (binary or Base64-encoded) representing a certificate store in BCFKS (Bouncy Castle FIPS Key Store) format. Note: This store type is only available in Java and .NET.
23 (cstPKCS11)	The certificate is present on a physical security key accessible via a PKCS#11 interface. To use a security key, the necessary data must first be collected using the CertMgr class. The ListStoreCertificates method may be called after setting CertStoreType to `cstPKCS11`, CertStorePassword to the PIN, and CertStore to the full path of the PKCS#11 DLL. The certificate information returned in the CertList event's `CertEncoded` parameter may be saved for later use. When using a certificate, pass the previously saved security key information as the and set to the PIN. Code Example. SSH Authentication with Security Key: `certmgr.CertStoreType = CertStoreTypes.cstPKCS11; certmgr.OnCertList += (s, e) => { secKeyBlob = e.CertEncoded; }; certmgr.CertStore = @"C:\Program Files\OpenSC Project\OpenSC\pkcs11\opensc-pkcs11.dll"; certmgr.CertStorePassword = "123456"; //PIN certmgr.ListStoreCertificates(); sftp.SSHCert = new Certificate(CertStoreTypes.cstPKCS11, secKeyBlob, "123456", "*"); sftp.SSHUser = "test"; sftp.SSHLogon("myhost", 22);`
99 (cstAuto)	The store type is automatically detected from the input data. This setting may be used with both public and private keys and can detect any of the supported formats automatically.

CertStore specifies the path to the certificate file. If the CertStoreType is a blob, this specifies the certificate content. See Certificates for details.

CertStorePassword is the password for the certificate (if any).

CertSubject specified the subject of the certificate to load. The certificate subject is a comma-separated list of distinguished name fields and values. For instance, "CN=www.server.com, OU=test, C=US, E=support@nsoftware.com". Common fields and their meanings are as follows:


Field	Meaning
CN	Common Name. This is commonly a hostname like www.server.com.
O	Organization
OU	Organizational Unit
L	Locality
S	State
C	Country
E	Email Address

If a field value contains a comma, it must be quoted.

CMS.addRecipientCert Method

Used to add recipient certificates used to encrypt messages.

Syntax

async cms.addRecipientCert(certEncoded : Uint8Array): Promise<void>

Remarks

This method adds a public certificate used when Encrypt is called. Public certificates of recipients may be added using this method or by adding a certificate directly to the RecipientCerts property.

CertEncoded must contain the PEM or Base64 encoded public certificate.

CMS.config Method

Sets or retrieves a configuration setting.

Syntax

async cms.config(configurationString : string): Promise<string>

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.

CMS.decrypt Method

Decrypts the current message.

Syntax

async cms.decrypt(): Promise<void>

Remarks

Decrypt decrypts the input data with the specified certificate. Certificates are specified by calling AddCertificate or setting the Certificates property.

The following properties are applicable when calling this method:

Certificates (Required)

Input and Output Properties

The class will determine the source and destination of the input and output based on which properties are set.

The order in which the input properties are checked is as follows:

InputFile
InputMessage

When a valid source is found, the search stops. The order in which the output properties are checked is as follows:

OutputFile
OutputMessage: The output data is written to this property if no other destination is specified.

CMS.decryptAndVerifySignature Method

Decrypts and verifies the signature of the current message.

Syntax

async cms.decryptAndVerifySignature(): Promise<void>

Remarks

This method decrypts the input data and verifies the signature. Decryption certificates are specified by calling AddCertificate or setting the Certificates property. Certificates used to verify the signature will be taken from the message itself if included, or from the SignerCerts property.

The following properties are applicable when calling this method:

Certificates (Required)
DetachedSignature
DetachedSignatureData
EnableCompression
SignerCerts

If the input message is compressed EnableCompression must be set to True before calling this method.

Input and Output Properties

The class will determine the source and destination of the input and output based on which properties are set.

The order in which the input properties are checked is as follows:

InputFile
InputMessage

When a valid source is found, the search stops. The order in which the output properties are checked is as follows:

OutputFile
OutputMessage: The output data is written to this property if no other destination is specified.

CMS.encrypt Method

Encrypts the current message.

Syntax

async cms.encrypt(): Promise<void>

Remarks

Encrypt encrypts the input data with the the specified certificate(s). Certificates are specified by calling AddRecipientCert or setting the RecipientCerts property.

RecipientCerts (required)
EncryptionAlgorithm
OutputFormat
UseOAEP

Input and Output Properties

The class will determine the source and destination of the input and output based on which properties are set.

The order in which the input properties are checked is as follows:

InputFile
InputMessage

When a valid source is found, the search stops. The order in which the output properties are checked is as follows:

OutputFile
OutputMessage: The output data is written to this property if no other destination is specified.

CMS.getRecipientInfo Method

Gets the recipient certificate information for an encrypted message.

Syntax

async cms.getRecipientInfo(): Promise<void>

Remarks

This method retrieves information about the recipient(s) of the encrypted message. This may be called prior to calling Decrypt to determine which certificate should be loaded for decryption.

When this method is called the RecipientInfo event fires once for each recipient found within the message. Use the parameters of the RecipientInfo to determine which certificate to specify via AddCertificate or Certificates before calling Decrypt.

CMS.getSignerCertInfo Method

This method gets the signature information for an signed message.

Syntax

async cms.getSignerCertInfo(): Promise<void>

Remarks

This method retrieves information about the certificate used to sign the message. This may be called before calling VerifySignature to determine which certificate should be loaded for verification.

When this method is called, the SignerCertInfo event fires once for each signer of the message. Use the parameters of the SignerCertInfo to determine which certificate to specify before calling VerifySignature.

Note: Use of this method is optional. If no certificate is specified before calling VerifySignature, the class will fire the SignerCertInfo and a certificate may be loaded from within the event at that time (if necessary).

CMS.reset Method

This method resets the class properties.

Syntax

async cms.reset(): Promise<void>

Remarks

This method resets the values of all message and certificate properties. It is an easy way to reset the class properties before starting to populate with new values.

CMS.sign Method

Signs the current message.

Syntax

async cms.sign(): Promise<void>

Remarks

Sign digitally signs the input data with the the specified certificate(s). Certificates are specified by calling AddCertificate or setting the Certificates property.

Certificates (required)
DetachedSignature
EnableCompression
GenerateSignatureTimestamp
IncludeCertificates
OutputFormat
SignatureHashAlgorithm
UsePSS

Input and Output Properties

The class will determine the source and destination of the input and output based on which properties are set.

The order in which the input properties are checked is as follows:

InputFile
InputMessage

When a valid source is found, the search stops. The order in which the output properties are checked is as follows:

OutputFile
OutputMessage: The output data is written to this property if no other destination is specified.

CMS.signAndEncrypt Method

Signs and encrypts the current message.

Syntax

async cms.signAndEncrypt(): Promise<void>

Remarks

This method signs encrypts the input data with the the specified certificate(s). Encryption certificates are specified by calling AddRecipientCert or setting the RecipientCerts property. Signing certificates are set via the Certificates property.

OutputFormat specifies the encoding of the output message. Valid values are PEM, DER, and SMIME. Additional settings allow further configuration. IncludeCertificates specifies whether the public certificate is included in the signed message. The following properties are applicable when calling this method:

Certificates (required)
RecipientCerts (required)
DetachedSignature
EnableCompression
EncryptionAlgorithm
GenerateSignatureTimestamp
IncludeCertificates
OutputFormat
SignatureHashAlgorithm
UseOAEP
UsePSS

Input and Output Properties

The class will determine the source and destination of the input and output based on which properties are set.

The order in which the input properties are checked is as follows:

InputFile
InputMessage

When a valid source is found, the search stops. The order in which the output properties are checked is as follows:

OutputFile
OutputMessage: The output data is written to this property if no other destination is specified.

CMS.verifySignature Method

Verifies the signature of the current message.

Syntax

async cms.verifySignature(): Promise<void>

Remarks

VerifySignature verifies the signature of the input message.

The following property are applicable when calling this method:

DetachedSignature
DetachedSignatureData
EnableCompression
SignerCerts

If the input message is compressed EnableCompression must be set to True before calling this method.

Input and Output Properties

The class will determine the source and destination of the input and output based on which properties are set.

The order in which the input properties are checked is as follows:

InputFile
InputMessage

When a valid source is found, the search stops. The order in which the output properties are checked is as follows:

OutputFile
OutputMessage: The output data is written to this property if no other destination is specified.

CMS.Error Event

Fired when information is available about errors during data delivery.

Syntax

cms.on('Error', listener: (e: {readonly errorCode: number, readonly description: string}) => void )

Remarks

The Error event is fired in case of exceptional conditions during message processing. Normally the class .

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

CMS.Log Event

Fires with log information during processing.

Syntax

cms.on('Log', listener: (e: {readonly logLevel: number, readonly message: string, readonly logType: string}) => void )

Remarks

This event fires during processing with log information. The level of detail that is logged is controlled via the LogLevel.

LogLevel indicates the level of message. Possible values are:


0 (None)	No events are logged.
1 (Info - default)	Informational events are logged.
2 (Verbose)	Detailed data is logged.
3 (Debug)	Debug data is logged.

LogMessage is the log entry.

LogType indicates the type of log. Possible values are:

"INFO"
"ENCRYPT"
"COMPRESS"
"SIGN"
"DECRYPT"
"DECOMPRESS"
"VERIFY"
"DEBUG"

CMS.RecipientInfo Event

This event is fired for each recipient certificate of the encrypted message.

Syntax

cms.on('RecipientInfo', listener: (e: {readonly issuer: string, readonly serialNumber: string, readonly subjectKeyIdentifier: string, readonly encryptionAlgorithm: string}) => void )

Remarks

When GetRecipientInfo is called on a valid encrypted message, this event will fire once for each recipient certificate that the message has been encrypted for. This may be used to identify the certificate to load.

Issuer is the subject of the issuer certificate.

SerialNumber is the serial number of the encryption certificate.

SubjectKeyIdentifier is the X.509 subjectKeyIdentifier extension value of the certificate used to sign the message encoded as a hex string.

EncryptionAlgorithm is the encryption algorithm used to encrypt the message. Possible values are as follows:

"3DES"
"DES"
"RC2CBC40"
"RC2CBC64"
"RC2CBC128" or "RC2"
"AESCBC128" or "AES"
"AESCBC192"
"AESCBC256"
"AESGCM128" or "AESGCM"
"AESGCM192"
"AESGCM256"

CMS.SignerCertInfo Event

Fired during verification of the signed message.

Syntax

cms.on('SignerCertInfo', listener: (e: {readonly issuer: string, readonly serialNumber: string, readonly subjectKeyIdentifier: string, readonly certEncoded: string, readonly certEncodedB: Uint8Array}) => void )

Remarks

During verification, this event will be raised while parsing the signer's certificate information. The parameters which are populated depends on the options used when the message was originally signed. This information may be used to select the correct certificate for SignerCerts in order to verify the signature. The following parameters may be populated.

Issuer specifies the subject of the issuer of the certificate used to sign the message.

SerialNumber is the serial number of the certificate used to sign the message.

SubjectKeyIdentifier is the X.509 subjectKeyIdentifier extension value of the certificate used to sign the message encoded as a hex string.

CertEncoded is the PEM (base64 encoded) public certificate needed to verify the signature. Note: when this value is present the class will automatically use this value to perform signature verification.

The SignerCerts property may be set from within this event. In this manner the decision of which signer certificate to load may be delayed until the parameters of this event are inspected and the correct certificate can be located and loaded.

Certificate Type

This is the digital certificate being used.

Remarks

This type describes the current digital certificate. The certificate may be a public or private key. The fields are used to identify or select certificates.

The following fields are available:

Fields

EffectiveDate
string (read-only)
Default Value: ""

The date on which this certificate becomes valid. Before this date, it is not valid. The date is localized to the system's time zone. The following example illustrates the format of an encoded date:

23-Jan-2000 15:00:00.

ExpirationDate
string (read-only)
Default Value: ""

The date on which the certificate expires. After this date, the certificate will no longer be valid. The date is localized to the system's time zone. The following example illustrates the format of an encoded date:

23-Jan-2001 15:00:00.

ExtendedKeyUsage
string (read-only)
Default Value: ""

A comma-delimited list of extended key usage identifiers. These are the same as ASN.1 object identifiers (OIDs).

Fingerprint
string (read-only)
Default Value: ""

The hex-encoded, 16-byte MD5 fingerprint of the certificate. This property is primarily used for keys which do not have a corresponding X.509 public certificate, such as PEM keys that only contain a private key. It is commonly used for SSH keys.

The following example illustrates the format: bc:2a:72:af:fe:58:17:43:7a:5f:ba:5a:7c:90:f7:02

FingerprintSHA1
string (read-only)
Default Value: ""

The hex-encoded, 20-byte SHA-1 fingerprint of the certificate. This property is primarily used for keys which do not have a corresponding X.509 public certificate, such as PEM keys that only contain a private key. It is commonly used for SSH keys.

The following example illustrates the format: 30:7b:fa:38:65:83:ff:da:b4:4e:07:3f:17:b8:a4:ed:80:be:ff:84

FingerprintSHA256
string (read-only)
Default Value: ""

The hex-encoded, 32-byte SHA-256 fingerprint of the certificate. This property is primarily used for keys which do not have a corresponding X.509 public certificate, such as PEM keys that only contain a private key. It is commonly used for SSH keys.

The following example illustrates the format: 6a:80:5c:33:a9:43:ea:b0:96:12:8a:64:96:30:ef:4a:8a:96:86:ce:f4:c7:be:10:24:8e:2b:60:9e:f3:59:53

Issuer
string (read-only)
Default Value: ""

The issuer of the certificate. This property contains a string representation of the name of the issuing authority for the certificate.

KeyPassword
string
Default Value: ""

The password for the certificate's private key (if any).

Some certificate stores may individually protect certificates' private keys, separate from the standard protection offered by the . This property can be used to read such password-protected private keys.

Note: This property defaults to the value of . To clear it, you must set the property to the empty string (""). It can be set at any time, but when the private key's password is different from the store's password, then it must be set before calling .

PrivateKey
string (read-only)
Default Value: ""

The private key of the certificate (if available). The key is provided as PEM/Base64-encoded data.

Note: The may be available but not exportable. In this case, returns an empty string.

PrivateKeyAvailable
boolean (read-only)
Default Value: False

Whether a is available for the selected certificate. If is True, the certificate may be used for authentication purposes (e.g., server authentication).

PrivateKeyContainer
string (read-only)
Default Value: ""

The name of the container for the certificate (if available). This functionality is available only on Windows platforms.

PublicKey
string (read-only)
Default Value: ""

The public key of the certificate. The key is provided as PEM/Base64-encoded data.

PublicKeyAlgorithm
string (read-only)
Default Value: ""

The textual description of the certificate's public key algorithm. The property contains either the name of the algorithm (e.g., "RSA" or "RSA_DH") or an object identifier (OID) string representing the algorithm.

PublicKeyLength
number (read-only)
Default Value: 0

The length of the certificate's public key (in bits). Common values are 512, 1024, and 2048.

SerialNumber
string (read-only)
Default Value: ""

The serial number of the certificate encoded as a string. The number is encoded as a series of hexadecimal digits, with each pair representing a byte of the serial number.

SignatureAlgorithm
string (read-only)
Default Value: ""

The text description of the certificate's signature algorithm. The property contains either the name of the algorithm (e.g., "RSA" or "RSA_MD5RSA") or an object identifier (OID) string representing the algorithm.

Store
string
Default Value: "MY"

The name of the certificate store for the client certificate.

The property denotes the type of the certificate store specified by . If the store is password-protected, specify the password in .

is used in conjunction with the property to specify client certificates. If has a value, and or is set, a search for a certificate is initiated. Please see the property for details.

Designations of certificate stores are platform dependent.

The following designations are the most common User and Machine certificate stores in Windows:


MY	A certificate store holding personal certificates with their associated private keys.
CA	Certifying authority certificates.
ROOT	Root certificates.

When the certificate store type is cstPFXFile, this property must be set to the name of the file. When the type is cstPFXBlob, the property must be set to the binary contents of a PFX file (i.e., PKCS#12 certificate store).

StoreB
Uint8Array
Default Value: "MY"

The name of the certificate store for the client certificate.

The property denotes the type of the certificate store specified by . If the store is password-protected, specify the password in .

is used in conjunction with the property to specify client certificates. If has a value, and or is set, a search for a certificate is initiated. Please see the property for details.

Designations of certificate stores are platform dependent.

The following designations are the most common User and Machine certificate stores in Windows:


MY	A certificate store holding personal certificates with their associated private keys.
CA	Certifying authority certificates.
ROOT	Root certificates.

StorePassword
string
Default Value: ""

If the type of certificate store requires a password, this property is used to specify the password needed to open the certificate store.

StoreType
CertStoreTypes
Default Value: 0

The type of certificate store for this certificate.

The class supports both public and private keys in a variety of formats. When the cstAuto value is used, the class will automatically determine the type. This property can take one of the following values:


0 (cstUser - default)	For Windows, this specifies that the certificate store is a certificate store owned by the current user. Note: This store type is not available in Java.
1 (cstMachine)	For Windows, this specifies that the certificate store is a machine store. Note: This store type is not available in Java.
2 (cstPFXFile)	The certificate store is the name of a PFX (PKCS#12) file containing certificates.
3 (cstPFXBlob)	The certificate store is a string (binary or Base64-encoded) representing a certificate store in PFX (PKCS#12) format.
4 (cstJKSFile)	The certificate store is the name of a Java Key Store (JKS) file containing certificates. Note: This store type is only available in Java.
5 (cstJKSBlob)	The certificate store is a string (binary or Base64-encoded) representing a certificate store in Java Key Store (JKS) format. Note: This store type is only available in Java.
6 (cstPEMKeyFile)	The certificate store is the name of a PEM-encoded file that contains a private key and an optional certificate.
7 (cstPEMKeyBlob)	The certificate store is a string (binary or Base64-encoded) that contains a private key and an optional certificate.
8 (cstPublicKeyFile)	The certificate store is the name of a file that contains a PEM- or DER-encoded public key certificate.
9 (cstPublicKeyBlob)	The certificate store is a string (binary or Base64-encoded) that contains a PEM- or DER-encoded public key certificate.
10 (cstSSHPublicKeyBlob)	The certificate store is a string (binary or Base64-encoded) that contains an SSH-style public key.
11 (cstP7BFile)	The certificate store is the name of a PKCS#7 file containing certificates.
12 (cstP7BBlob)	The certificate store is a string (binary) representing a certificate store in PKCS#7 format.
13 (cstSSHPublicKeyFile)	The certificate store is the name of a file that contains an SSH-style public key.
14 (cstPPKFile)	The certificate store is the name of a file that contains a PPK (PuTTY Private Key).
15 (cstPPKBlob)	The certificate store is a string (binary) that contains a PPK (PuTTY Private Key).
16 (cstXMLFile)	The certificate store is the name of a file that contains a certificate in XML format.
17 (cstXMLBlob)	The certificate store is a string that contains a certificate in XML format.
18 (cstJWKFile)	The certificate store is the name of a file that contains a JWK (JSON Web Key).
19 (cstJWKBlob)	The certificate store is a string that contains a JWK (JSON Web Key).
21 (cstBCFKSFile)	The certificate store is the name of a file that contains a BCFKS (Bouncy Castle FIPS Key Store). Note: This store type is only available in Java and .NET.
22 (cstBCFKSBlob)	The certificate store is a string (binary or Base64-encoded) representing a certificate store in BCFKS (Bouncy Castle FIPS Key Store) format. Note: This store type is only available in Java and .NET.
23 (cstPKCS11)	The certificate is present on a physical security key accessible via a PKCS#11 interface. To use a security key, the necessary data must first be collected using the CertMgr class. The ListStoreCertificates method may be called after setting CertStoreType to `cstPKCS11`, CertStorePassword to the PIN, and CertStore to the full path of the PKCS#11 DLL. The certificate information returned in the CertList event's `CertEncoded` parameter may be saved for later use. When using a certificate, pass the previously saved security key information as the and set to the PIN. Code Example. SSH Authentication with Security Key: `certmgr.CertStoreType = CertStoreTypes.cstPKCS11; certmgr.OnCertList += (s, e) => { secKeyBlob = e.CertEncoded; }; certmgr.CertStore = @"C:\Program Files\OpenSC Project\OpenSC\pkcs11\opensc-pkcs11.dll"; certmgr.CertStorePassword = "123456"; //PIN certmgr.ListStoreCertificates(); sftp.SSHCert = new Certificate(CertStoreTypes.cstPKCS11, secKeyBlob, "123456", "*"); sftp.SSHUser = "test"; sftp.SSHLogon("myhost", 22);`
99 (cstAuto)	The store type is automatically detected from the input data. This setting may be used with both public and private keys and can detect any of the supported formats automatically.

SubjectAltNames
string (read-only)
Default Value: ""

Comma-separated lists of alternative subject names for the certificate.

ThumbprintMD5
string (read-only)
Default Value: ""

The MD5 hash of the certificate. It is primarily used for X.509 certificates. If the hash does not already exist, it is automatically computed.

ThumbprintSHA1
string (read-only)
Default Value: ""

The SHA-1 hash of the certificate. It is primarily used for X.509 certificates. If the hash does not already exist, it is automatically computed.

ThumbprintSHA256
string (read-only)
Default Value: ""

The SHA-256 hash of the certificate. It is primarily used for X.509 certificates. If the hash does not already exist, it is automatically computed.

Usage
string (read-only)
Default Value: ""

The text description of .

This value will be one or more of the following strings and will be separated by commas:

Digital Signature
Non-Repudiation
Key Encipherment
Data Encipherment
Key Agreement
Certificate Signing
CRL Signing
Encipher Only

If the provider is OpenSSL, the value is a comma-separated list of X.509 certificate extension names.

UsageFlags
number (read-only)
Default Value: 0

The flags that show intended use for the certificate. The value of is a combination of the following flags:


0x80	Digital Signature
0x40	Non-Repudiation
0x20	Key Encipherment
0x10	Data Encipherment
0x08	Key Agreement
0x04	Certificate Signing
0x02	CRL Signing
0x01	Encipher Only

Please see the property for a text representation of .

This functionality currently is not available when the provider is OpenSSL.

Version
string (read-only)
Default Value: ""

The certificate's version number. The possible values are the strings "V1", "V2", and "V3".

Subject
string
Default Value: ""

The subject of the certificate used for client authentication.

This property must be set after all other certificate properties are set. When this property is set, a search is performed in the current certificate store to locate a certificate with a matching subject.

If a matching certificate is found, the property is set to the full subject of the matching certificate.

If an exact match is not found, the store is searched for subjects containing the value of the property.

If a match is still not found, the property is set to an empty string, and no certificate is selected.

The special value "*" picks a random certificate in the certificate store.

The certificate subject is a comma-separated list of distinguished name fields and values. For instance, "CN=www.server.com, OU=test, C=US, E=support@nsoftware.com". Common fields and their meanings are as follows:


Field	Meaning
CN	Common Name. This is commonly a hostname like www.server.com.
O	Organization
OU	Organizational Unit
L	Locality
S	State
C	Country
E	Email Address

If a field value contains a comma, it must be quoted.

Encoded
string
Default Value: ""

The certificate (PEM/Base64 encoded). This property is used to assign a specific certificate. The and properties also may be used to specify a certificate.

When is set, a search is initiated in the current for the private key of the certificate. If the key is found, is updated to reflect the full subject of the selected certificate; otherwise, is set to an empty string.

EncodedB
Uint8Array
Default Value: ""

The certificate (PEM/Base64 encoded). This property is used to assign a specific certificate. The and properties also may be used to specify a certificate.

Constructors

public Certificate();

Creates a instance whose properties can be set. This is useful for use with when generating new certificates.

public Certificate(String certificateFile);

Opens CertificateFile and reads out the contents as an X.509 public key.

public Certificate(byte[] encoded);

Parses Encoded as an X.509 public key.

public Certificate(int storeType, String store, String storePassword, String subject);

StoreType identifies the type of certificate store to use. See for descriptions of the different certificate stores. Store is a file containing the certificate store. StorePassword is the password used to protect the store.

After the store has been successfully opened, the class will attempt to find the certificate identified by Subject . This can be either a complete or a substring match of the X.509 certificate's subject Distinguished Name (DN). The Subject parameter can also take an MD5, SHA-1, or SHA-256 thumbprint of the certificate to load in a "Thumbprint=value" format.

public Certificate(int storeType, String store, String storePassword, String subject, String configurationString);

ConfigurationString is a newline-separated list of name-value pairs that may be used to modify the default behavior. Possible values include "PersistPFXKey", which shows whether or not the PFX key is persisted after performing operations with the private key. This correlates to the PKCS12_NO_PERSIST_KEY CryptoAPI option. The default value is True (the key is persisted). "Thumbprint" - an MD5, SHA-1, or SHA-256 thumbprint of the certificate to load. When specified, this value is used to select the certificate in the store. This is applicable to the cstUser , cstMachine , cstPublicKeyFile , and cstPFXFile store types. "UseInternalSecurityAPI" shows whether the platform (default) or the internal security API is used when performing certificate-related operations.

public Certificate(int storeType, String store, String storePassword, byte[] encoded);

After the store has been successfully opened, the class will load Encoded as an X.509 certificate and search the opened store for a corresponding private key.

public Certificate(int storeType, byte[] store, String storePassword, String subject);

StoreType identifies the type of certificate store to use. See for descriptions of the different certificate stores. Store is a byte array containing the certificate data. StorePassword is the password used to protect the store.

public Certificate(int storeType, byte[] store, String storePassword, String subject, String configurationString);

public Certificate(int storeType, byte[] store, String storePassword, byte[] encoded);

After the store has been successfully opened, the class will load Encoded as an X.509 certificate and search the opened store for a corresponding private key.

Config Settings (class ipworksencrypt.cms)

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.

CMS Config Settings

CompressBeforeSign: Specifies whether to compress before signing.

When EnableCompression is set to True this property controls whether compression happens before or after signing. If set to True the input data will be compressed before signing. If set to False (default) the input data will be signed and then compressed.

ContentTypeOID: Specifies the oid for content type.

This setting optionally specifies an OID defining the data content type for the data being processed. This may be set before calling Encrypt, Sign, or SignAndEncrypt.

The default value is 1.2.840.113549.1.7.1 which is the OID for id-data.

CSP: The Cryptographic Service Provider.

For the Win32 editions, the name of the Cryptographic Service Provider used to provide access to encryption/decryption and signature operations.

NOTE: This config may only be used when the UseCryptoAPI is true.

GenerateSignatureTimestamp: Whether to generate timestamps in signatures.

If GenerateSignatureTimestamp is True, a timestamp will be generated and added to all signatures created by the class.

The default value is True.

IncludeHeaders: Tells the class whether to include the headers when encoding the message.

If True (default), the class will include MIME headers when Sign, Encrypt, or SignAndEncrypt are called. If False, only the message will be encoded.

The default value for IncludeHeaders is true.

Note: This setting is only applicable to when OutputFormat is set to SMIME.

IncludeInternalHeaders: Tells the class whether or not to include the internal headers when encoding the message.

If True, the class will generate and include MIME part headers when Sign, Encrypt, or SignAndEncrypt are called. When VerifySignature, Decrypt, or DecryptAndVerifySignature are called the MIME part headers will be stripped.

When set to False, only the message will be processed, MIME part headers will not be generated or stripped.

The default value for IncludeInternalHeaders is False.

Note: This setting is only applicable to when OutputFormat is set to SMIME.

InputContentTransferEncoding: Sets the Content-Transfer-Encoding for the signed message.

This setting specifies the Content-Transfer-Encoding header value in signed messages. By default the class will automatically determine the Content-Transfer-Encoding based on the file extension set in InputFile, however this setting may be set to override the determined value or to specify a value if data is read from InputMessage.

If no value is specified and a value cannot be automatically determined the default value 7bit will be used.

Note: This setting is only applicable when OutputFormat is set to SMIME and when calling Sign or SignAndEncrypt and DetachedSignature is True.

InputContentType: Sets the Content-Type for the signed message.

This setting specifies the Content-Type header value in signed messages. By default the class will automatically determine the Content-Type based on the file extension set in InputFile, however this setting may be set to override the determined value or to specify a value if data is read from InputMessage.

If no value is specified and a value cannot be automatically determined the default value text/plain; charset="iso-8859-1" will be used.

Note: This setting is only applicable when OutputFormat is set to SMIME and when calling Sign or SignAndEncrypt and DetachedSignature is True.

InputMessageHeaders: Message headers.

This setting specifies the headers of the SMIME message if they are not already present in the input message. In most cases the input message itself will contain the necessary headers, however if the headers are and body of the SMIME message are separate, the headers may be specified in this setting before calling Decrypt, DecryptAndVerifySignature, or VerifySignature.

LogDirectory: The directory on disk where debug logs are written.

This setting specifies a directory on disk to which debug logs will be written during operation. This should only be set for debugging purposes. Files with various extensions will be written to disk at the location specified with debug data for the operation being performed. If LogFileName is not specified the filenames will be in the format yyyy-MM-dd-HH-mm-ss-fff.

LogFileName: The base filename to use with LogDirectory.

This setting specifies the base filename to use when LogDirectory is set. If specified the name should be a filename without extension. Various files will be logged with different extensions during operation. This setting defines only the base filename. If unspecified the files will be named with a timestamp in the format yyyy-MM-dd-HH-mm-ss-fff.

LogLevel: The level of detail for log messages.

This setting specifies the level of detail that is logged via the Log event. Possible values are:


0 (None)	No events are logged.
1 (Info - default)	Informational events are logged.
2 (Verbose)	Detailed data is logged.
3 (Debug)	Debug data is logged.

OAEPMGF1HashAlgorithm: The MGF1 hash algorithm used with OAEP.

This configuration setting specifies the MGF1 hash algorithm used when UseOAEP is set to True. The default value is SHA256. Possible values are as follows:

"SHA1"
"SHA224"
"SHA256" (default)
"SHA384"
"SHA512"
"RIPEMD160"
"MD2"
"MD5"
"MD5SHA1"

Note: This setting is not applicable when UseFIPSCompliantAPI is set to true or when the private key of the signing certificate is not exportable since the underlying system implementation does not support separate OAEPRSAHashAlgorithm and OAEPMGF1HashAlgorithm values. In this case the OAEPRSAHashAlgorithm is also used for MGF1.

OAEPParams: The hex encoded OAEP parameters.

This configuration setting optionally specifies Optimal Asymmetric Encryption Padding (OAEP) parameters to be used when UseOAEP is set to True. The specified value should be hex encoded.

OAEPRSAHashAlgorithm: The RSA hash algorithm used with OAEP.

This configuration setting specifies that RSA hash algorithm used when UseOAEP is set to True. The default value is SHA256. Possible values are as follows:

"SHA1"
"SHA224"
"SHA256" (default)
"SHA384"
"SHA512"
"RIPEMD160"
"MD2"
"MD5"
"MD5SHA1"

OutputMessageHeaders: The SMIME headers of the output message.

When IncludeHeaders is set to False the SMIME headers are not included in the output message itself when Sign, Encrypt, or SignAndEncrypt are called. This setting may be used to obtain the SMIME headers separately. This setting is only applicable when OutputFormat is set to SMIME.

RecipientInfoType: The type of signer information to include in the signed message.

This configuration setting specifies which type of information about the recipient's encryption certificate is included in the encrypted message. Possible values are as follows:

0 (issuerAndSerialNumber - default)
1 (subjectKeyIdentifier)

Note: When subjectKeyIdentifier is selected, the recipient's encryption certificate must contain the subjectKeyIdentifier extension.

SignatureTimestamp: The signature timestamp in the signed message.

This setting holds the timestamp of the signature. After calling VerifySignature this setting will hold the timestamp identifying when the signature was created. The timestamp is in UTC time with the format yyyyMMddHHmmss. For instance 20181130223821.

SignerInfoType: The type of signer information to include in the signed message.

This configuration setting specifies which type of information about the signer certificate is included in the signed message. Possible values are as follows:

0 (issuerAndSerialNumber - default)
1 (subjectKeyIdentifier)

Note: When subjectKeyIdentifier is selected, the signing certificate must contain the subjectKeyIdentifier extension.

UseAlgorithmOIDs: Whether OIDs are used when providing information about the algorithms.

This configuration setting controls whether the EncryptionAlgorithm parameter of the RecipientInfo event is populated with the name of the algorithm, such as 3DES or the corresponding OID such as 1.2.840.113549.3.7.

The default value is False, and the name of the algorithm is used. Set this to True to use the object identifiers instead.

Base Config Settings

BuildInfo: Information about the product's build.

When queried, this setting will return a string containing information about the product's build.

CodePage: The system code page used for Unicode to Multibyte translations.

The default code page is Unicode UTF-8 (65001).

The following is a list of valid code page identifiers:


Identifier	Name
037	IBM EBCDIC - U.S./Canada
437	OEM - United States
500	IBM EBCDIC - International
708	Arabic - ASMO 708
709	Arabic - ASMO 449+, BCON V4
710	Arabic - Transparent Arabic
720	Arabic - Transparent ASMO
737	OEM - Greek (formerly 437G)
775	OEM - Baltic
850	OEM - Multilingual Latin I
852	OEM - Latin II
855	OEM - Cyrillic (primarily Russian)
857	OEM - Turkish
858	OEM - Multilingual Latin I + Euro symbol
860	OEM - Portuguese
861	OEM - Icelandic
862	OEM - Hebrew
863	OEM - Canadian-French
864	OEM - Arabic
865	OEM - Nordic
866	OEM - Russian
869	OEM - Modern Greek
870	IBM EBCDIC - Multilingual/ROECE (Latin-2)
874	ANSI/OEM - Thai (same as 28605, ISO 8859-15)
875	IBM EBCDIC - Modern Greek
932	ANSI/OEM - Japanese, Shift-JIS
936	ANSI/OEM - Simplified Chinese (PRC, Singapore)
949	ANSI/OEM - Korean (Unified Hangul Code)
950	ANSI/OEM - Traditional Chinese (Taiwan; Hong Kong SAR, PRC)
1026	IBM EBCDIC - Turkish (Latin-5)
1047	IBM EBCDIC - Latin 1/Open System
1140	IBM EBCDIC - U.S./Canada (037 + Euro symbol)
1141	IBM EBCDIC - Germany (20273 + Euro symbol)
1142	IBM EBCDIC - Denmark/Norway (20277 + Euro symbol)
1143	IBM EBCDIC - Finland/Sweden (20278 + Euro symbol)
1144	IBM EBCDIC - Italy (20280 + Euro symbol)
1145	IBM EBCDIC - Latin America/Spain (20284 + Euro symbol)
1146	IBM EBCDIC - United Kingdom (20285 + Euro symbol)
1147	IBM EBCDIC - France (20297 + Euro symbol)
1148	IBM EBCDIC - International (500 + Euro symbol)
1149	IBM EBCDIC - Icelandic (20871 + Euro symbol)
1200	Unicode UCS-2 Little-Endian (BMP of ISO 10646)
1201	Unicode UCS-2 Big-Endian
1250	ANSI - Central European
1251	ANSI - Cyrillic
1252	ANSI - Latin I
1253	ANSI - Greek
1254	ANSI - Turkish
1255	ANSI - Hebrew
1256	ANSI - Arabic
1257	ANSI - Baltic
1258	ANSI/OEM - Vietnamese
1361	Korean (Johab)
10000	MAC - Roman
10001	MAC - Japanese
10002	MAC - Traditional Chinese (Big5)
10003	MAC - Korean
10004	MAC - Arabic
10005	MAC - Hebrew
10006	MAC - Greek I
10007	MAC - Cyrillic
10008	MAC - Simplified Chinese (GB 2312)
10010	MAC - Romania
10017	MAC - Ukraine
10021	MAC - Thai
10029	MAC - Latin II
10079	MAC - Icelandic
10081	MAC - Turkish
10082	MAC - Croatia
12000	Unicode UCS-4 Little-Endian
12001	Unicode UCS-4 Big-Endian
20000	CNS - Taiwan
20001	TCA - Taiwan
20002	Eten - Taiwan
20003	IBM5550 - Taiwan
20004	TeleText - Taiwan
20005	Wang - Taiwan
20105	IA5 IRV International Alphabet No. 5 (7-bit)
20106	IA5 German (7-bit)
20107	IA5 Swedish (7-bit)
20108	IA5 Norwegian (7-bit)
20127	US-ASCII (7-bit)
20261	T.61
20269	ISO 6937 Non-Spacing Accent
20273	IBM EBCDIC - Germany
20277	IBM EBCDIC - Denmark/Norway
20278	IBM EBCDIC - Finland/Sweden
20280	IBM EBCDIC - Italy
20284	IBM EBCDIC - Latin America/Spain
20285	IBM EBCDIC - United Kingdom
20290	IBM EBCDIC - Japanese Katakana Extended
20297	IBM EBCDIC - France
20420	IBM EBCDIC - Arabic
20423	IBM EBCDIC - Greek
20424	IBM EBCDIC - Hebrew
20833	IBM EBCDIC - Korean Extended
20838	IBM EBCDIC - Thai
20866	Russian - KOI8-R
20871	IBM EBCDIC - Icelandic
20880	IBM EBCDIC - Cyrillic (Russian)
20905	IBM EBCDIC - Turkish
20924	IBM EBCDIC - Latin-1/Open System (1047 + Euro symbol)
20932	JIS X 0208-1990 & 0121-1990
20936	Simplified Chinese (GB2312)
21025	IBM EBCDIC - Cyrillic (Serbian, Bulgarian)
21027	Extended Alpha Lowercase
21866	Ukrainian (KOI8-U)
28591	ISO 8859-1 Latin I
28592	ISO 8859-2 Central Europe
28593	ISO 8859-3 Latin 3
28594	ISO 8859-4 Baltic
28595	ISO 8859-5 Cyrillic
28596	ISO 8859-6 Arabic
28597	ISO 8859-7 Greek
28598	ISO 8859-8 Hebrew
28599	ISO 8859-9 Latin 5
28605	ISO 8859-15 Latin 9
29001	Europa 3
38598	ISO 8859-8 Hebrew
50220	ISO 2022 Japanese with no halfwidth Katakana
50221	ISO 2022 Japanese with halfwidth Katakana
50222	ISO 2022 Japanese JIS X 0201-1989
50225	ISO 2022 Korean
50227	ISO 2022 Simplified Chinese
50229	ISO 2022 Traditional Chinese
50930	Japanese (Katakana) Extended
50931	US/Canada and Japanese
50933	Korean Extended and Korean
50935	Simplified Chinese Extended and Simplified Chinese
50936	Simplified Chinese
50937	US/Canada and Traditional Chinese
50939	Japanese (Latin) Extended and Japanese
51932	EUC - Japanese
51936	EUC - Simplified Chinese
51949	EUC - Korean
51950	EUC - Traditional Chinese
52936	HZ-GB2312 Simplified Chinese
54936	Windows XP: GB18030 Simplified Chinese (4 Byte)
57002	ISCII Devanagari
57003	ISCII Bengali
57004	ISCII Tamil
57005	ISCII Telugu
57006	ISCII Assamese
57007	ISCII Oriya
57008	ISCII Kannada
57009	ISCII Malayalam
57010	ISCII Gujarati
57011	ISCII Punjabi
65000	Unicode UTF-7
65001	Unicode UTF-8

The following is a list of valid code page identifiers for Mac OS only:


Identifier	Name
1	ASCII
2	NEXTSTEP
3	JapaneseEUC
4	UTF8
5	ISOLatin1
6	Symbol
7	NonLossyASCII
8	ShiftJIS
9	ISOLatin2
10	Unicode
11	WindowsCP1251
12	WindowsCP1252
13	WindowsCP1253
14	WindowsCP1254
15	WindowsCP1250
21	ISO2022JP
30	MacOSRoman
10	UTF16String
0x90000100	UTF16BigEndian
0x94000100	UTF16LittleEndian
0x8c000100	UTF32String
0x98000100	UTF32BigEndian
0x9c000100	UTF32LittleEndian
65536	Proprietary

LicenseInfo: Information about the current license.

When queried, this setting will return a string containing information about the license this instance of a class is using. It will return the following information:

Product: The product the license is for.
Product Key: The key the license was generated from.
License Source: Where the license was found (e.g., RuntimeLicense, License File).
License Type: The type of license installed (e.g., Royalty Free, Single Server).
Last Valid Build: The last valid build number for which the license will work.

MaskSensitiveData: Whether sensitive data is masked in log messages.

In certain circumstances it may be beneficial to mask sensitive data, like passwords, in log messages. Set this to true to mask sensitive data. The default is true.

This setting only works on these classes: AS3Receiver, AS3Sender, Atom, Client(3DS), FTP, FTPServer, IMAP, OFTPClient, SSHClient, SCP, Server(3DS), Sexec, SFTP, SFTPServer, SSHServer, TCPClient, TCPServer.

UseInternalSecurityAPI: Whether or not to use the system security libraries or an internal implementation.

When set to false, the class will use the system security libraries by default to perform cryptographic functions where applicable.

Setting this configuration setting to true tells the class to use the internal implementation instead of using the system security libraries.

This setting is set to false by default on all platforms.

Trappable Errors (class ipworksencrypt.cms)

CMS Errors

10191	Invalid index (RecipientIndex).
10192	Message decoding error (code).
10193	Unexpected message type.
10194	Unsupported hashing/signing algorithm.
10195	The message does not have any signers.
10196	The message signature could not be verified.
10197	Could not locate a suitable decryption certificate.
10198	The signer certificate could not be found.
10199	No signing certificate was supplied for signing the message.
10201	The specified certificate was not the one required.
10202	The specified certificate could not be found.
10221	Could not acquire CSP.
10222	Type validation error.
10223	Unsupported key size.
10224	Unrecognized Content-Type object identifier.
10225	Unrecognized public key format.
10226	No choices specified.
10228	Must specify output stream.
10280	Invalid part index.
10281	Unknown MIME type.
10283	No MIME-boundary found.
10280	Error decoding certificate.