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Swift

Create CAdES (p7m) Signature using ARSS (Aruba Remote Signing Service)

See more Signing in the Cloud Examples

Demonstrates creating a CAdES (p7m) signature using the Aruba Remote Signing Service.

Chilkat Swift Downloads

Swift

func chilkatTest() {
    var success: Bool = false

    // This example assumes the Chilkat API to have been previously unlocked.
    // See Global Unlock Sample for sample code.

    // Load the certificate used for signing.  The certificate's private key is stored on 
    // the Aruba.it server and the signing will happen remotely using the
    // ARSS (Aruba Remote Signing Service).
    // However, we still need the certificate locally (without private key).
    let cert = CkoCert()!
    success = cert.load(fromFile: "qa_data/certs/myCert.cer")
    if success == false {
        print("\(cert.lastErrorText!)")
        return
    }

    // To sign using the Aruba Remote Signing Service, 
    // add the following lines of code to specify your authentication credentials,
    // and the ID of the certificate w/ private key on the server to be used.
    let jsonArss = CkoJsonObject()!

    // Set the "service" equal to "ARSS" to tell Chilkat to use ARSS for signing.
    jsonArss.updateString(jsonPath: "service", value: "ARSS")
    // Specify the certificate ID, such as "AS0"
    // This certificate should match the certificate loaded in the above code.
    jsonArss.updateString(jsonPath: "certID", value: "YOUR_ARSS_CERT_ID")
    jsonArss.updateString(jsonPath: "otpPwd", value: "YOUR_OTP_PWD")

    // Specifies the OTP authentication environment.
    // 
    // Common values are:
    //   "demoprod" - Demo/Test environment
    //   "prod"     - Production environment
    // 
    // This value is sent to the ARSS service and determines how the OTP
    // authentication is validated.  The correct value depends on the type
    // of Aruba account and environment that has been provisioned.
    // 
    // If signing fails with an authentication-related error, verify that
    // the typeOtpAuth value matches the environment associated with the
    // ARSS account credentials being used.
    jsonArss.updateString(jsonPath: "typeOtpAuth", value: "demoprod")

    jsonArss.updateString(jsonPath: "user", value: "YOUR_ARSS_USERNAME")
    jsonArss.updateString(jsonPath: "userPWD", value: "YOUR_ARSS_PASSWORD")

    // The "endpoint" can be specified starting in Chilkat v11.5.0
    jsonArss.updateString(jsonPath: "endpoint", value: "https://app1.firma-remota.it/ArubaSignerService/webresources/signerservice")

    success = cert.setCloudSigner(json: jsonArss)

    let crypt = CkoCrypt2()!

    success = crypt.setSigningCert(cert: cert)
    if success == false {
        print("\(crypt.lastErrorText!)")
        return
    }

    // The CadesEnabled property applies to all methods that create PKCS7 signatures. 
    // To create a CAdES-BES signature, set this property equal to true.
    crypt.cadesEnabled = true

    crypt.hashAlgorithm = "sha256"

    let signedAttrs = CkoJsonObject()!
    signedAttrs.updateInt(jsonPath: "contentType", value: 1)
    signedAttrs.updateInt(jsonPath: "signingTime", value: 1)
    signedAttrs.updateInt(jsonPath: "messageDigest", value: 1)
    signedAttrs.updateInt(jsonPath: "signingCertificateV2", value: 1)
    crypt.signingAttributes = signedAttrs.emit()

    // You can sign any type of file..
    var inputXmlPath: String? = "qa_data/e-Invoice.xml"
    var outputP7mPath: String? = "qa_output/signed.p7m"

    // Create the CAdES-BES attached signature, which contains the original data.
    // Chilkat will build the .p7m locally, but will (internally) use ARSS
    // to do the RSA signing remotely.
    success = crypt.createP7M(inPath: inputXmlPath, p7mPath: outputP7mPath)
    if success == false {
        print("\(crypt.lastErrorText!)")
        return
    }

    print("Success.")

}