Swift
Swift
Create ICP-Brasil Compliant CMS Signature
See more CAdES Examples
Demonstrates how to create a .p7s signature that contains a data file, which in this case is a PDF. The .p7s will be compliant with the ICP-Brazil Digital Signature Standard.The .p7s file created by this example can be verified at ICP-Brasil Online Verifier
Chilkat Swift Downloads
func chilkatTest() {
var success: Bool = false
// This example requires the Chilkat API to have been previously unlocked.
// See Global Unlock Sample for sample code.
// ------------------------------------------------------------------------------------------------------
// Note: This example creates a CMS signature (.p7s) that contains the PDF.
// It is different than signing a PDF. To sign a PDF where the resulting PDF contains the CMS signature,
// see this example: Sign PDF for ICP-Brasil
// ------------------------------------------------------------------------------------------------------
let crypt = CkoCrypt2()!
// Any type of file can be signed. It doesn't have to be a PDF.
var inFile: String? = "qa_data/pdf/helloWorld.pdf"
let bd = CkoBinData()!
success = bd.loadFile(path: inFile)
if success == false {
print("Failed to load \(inFile!)")
return
}
// We'll be using a certificate w/ private key stored on a smartcard for signing.
let cert = CkoCert()!
// If the smartcard or token requires a PIN, we can set it here to avoid the dialog...
cert.smartCardPin = "000000"
success = cert.load(fromSmartcard: "")
if success != true {
print("\(cert.lastErrorText!)")
return
}
// Tell the crypt component to use this cert.
success = crypt.setSigningCert(cert: cert)
if success != true {
print("\(crypt.lastErrorText!)")
return
}
// Set properties for signing...
crypt.hashAlgorithm = "sha256"
let jsonSigningAttrs = CkoJsonObject()!
jsonSigningAttrs.updateInt(jsonPath: "contentType", value: 1)
jsonSigningAttrs.updateInt(jsonPath: "signingTime", value: 1)
jsonSigningAttrs.updateInt(jsonPath: "messageDigest", value: 1)
jsonSigningAttrs.updateBool(jsonPath: "signingCertificateV2", value: true)
// Listed here are the currently existing profiles. (Chilkat will add additional ICP Brasil policy profiles in future versions as new ones are created.)
// See https://www.gov.br/iti/pt-br/assuntos/repositorio/artefatos-de-assinatura-digital for more information.
//
// PA_AD_RA --> 2.16.76.1.7.1.5.1
// PA_AD_RA_v1_1 --> 2.16.76.1.7.1.5.1.1
// PA_AD_RA_v1_2 --> 2.16.76.1.7.1.5.1.2
// PA_AD_RA_v2_0 --> 2.16.76.1.7.1.5.2
// PA_AD_RA_v2_1 --> 2.16.76.1.7.1.5.2.1
// PA_AD_RA_v2_2 --> 2.16.76.1.7.1.5.2.2
// PA_AD_RA_v2_3 --> 2.16.76.1.7.1.5.2.3
// PA_AD_RA_v2_4 --> 2.16.76.1.7.1.5.2.4
// PA_AD_RB --> 2.16.76.1.7.1.1.1
// PA_AD_RB_v1_1 --> 2.16.76.1.7.1.1.1.1
// PA_AD_RB_v2_0 --> 2.16.76.1.7.1.1.2
// PA_AD_RB_v2_1 --> 2.16.76.1.7.1.1.2.1
// PA_AD_RB_v2_2 --> 2.16.76.1.7.1.1.2.2
// PA_AD_RB_v2_3 --> 2.16.76.1.7.1.1.2.3
// PA_AD_RC --> 2.16.76.1.7.1.4.1
// PA_AD_RC_v1_1 --> 2.16.76.1.7.1.4.1.1
// PA_AD_RC_v2_0 --> 2.16.76.1.7.1.4.2
// PA_AD_RC_v2_1 --> 2.16.76.1.7.1.4.2.1
// PA_AD_RC_v2_2 --> 2.16.76.1.7.1.4.2.2
// PA_AD_RC_v2_3 --> 2.16.76.1.7.1.4.2.3
// PA_AD_RT --> 2.16.76.1.7.1.2.1
// PA_AD_RT_v1_1 --> 2.16.76.1.7.1.2.1.1
// PA_AD_RT_v2_0 --> 2.16.76.1.7.1.2.2
// PA_AD_RT_v2_1 --> 2.16.76.1.7.1.2.2.1
// PA_AD_RT_v2_2 --> 2.16.76.1.7.1.2.2.2
// PA_AD_RT_v2_3 --> 2.16.76.1.7.1.2.2.3
// PA_AD_RV --> 2.16.76.1.7.1.3.1
// PA_AD_RV_v1_1 --> 2.16.76.1.7.1.3.1.1
// PA_AD_RV_v2_0 --> 2.16.76.1.7.1.3.2
// PA_AD_RV_v2_1 --> 2.16.76.1.7.1.3.2.1
// PA_AD_RV_v2_2 --> 2.16.76.1.7.1.3.2.2
// PA_AD_RV_v2_3 --> 2.16.76.1.7.1.3.2.3
// Set the policy OID and the profile name
jsonSigningAttrs.updateString(jsonPath: "policyId.id", value: "2.16.76.1.7.1.1.2.3")
jsonSigningAttrs.updateString(jsonPath: "policyId.profile", value: "PA_AD_RB_v2_3")
crypt.signingAttributes = jsonSigningAttrs.emit()
// The Brazil government validator requires the ASN.1 data to be in "constructed octets" form..
crypt.uncommonOptions = "UseConstructedOctets,OmitAlgorithmIdNull"
crypt.includeCertChain = false
// Sign.
success = crypt.opaqueSignBd(bd: bd)
if success == false {
print("\(crypt.lastErrorText!)")
return
}
// Save to a .p7s
success = bd.writeFile(path: "qa_output/helloWorld.pdf.p7s")
print("Success")
}