Objective-C
Objective-C
Create CAdES p7m using Azure Key Vault to Sign in the Cloud
See more Signing in the Cloud Examples
Demonstrates how to create a CAdES p7m, using Azure Key Vault. The signing of the hash happens in the Cloud on Azure Key Vault. Everything else regarding the creation of CAdES happens locally within Chilkat.Note: This example requires Chilkat v9.5.0.96 or greater.
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#import <CkoCert.h>
#import <CkoJsonObject.h>
#import <CkoCrypt2.h>
#import <NSString.h>
BOOL success = NO;
// 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 in
// the Azure Key Vault.
// However, we still need the certificate locally (without private key).
CkoCert *cert = [[CkoCert alloc] init];
success = [cert LoadFromFile: @"qa_data/certs/myCert.cer"];
if (success == NO) {
NSLog(@"%@",cert.LastErrorText);
return;
}
// Here's a screenshot of our certificate with private key on Azure Key Vault:
// (image:https://example-code.com/images/azure_key_vault.jpg/endImage)
// To sign using the Azure Key Vault,
// add the following lines of code to specify your authentication credentials,
// and the name of the certificate w/ private key on the Azure server to be used.
CkoJsonObject *jsonAzure = [[CkoJsonObject alloc] init];
// Set the "service" equal to "azure_keyvault" to tell Chilkat to use Azure Key Vault for signing.
[jsonAzure UpdateString: @"service" value: @"azure_keyvault"];
[jsonAzure UpdateString: @"client_id" value: @"APP_ID"];
[jsonAzure UpdateString: @"client_secret" value: @"APP_PASSWORD"];
[jsonAzure UpdateString: @"tenant_id" value: @"TENANT_ID"];
// In the above screenshot, our vault name is "kvchilkat". You will use your vault name.
[jsonAzure UpdateString: @"vault_name" value: @"VAULT_NAME"];
// In the above screenshot, our cert name is "ChilkatTest1". You will use your cert name.
[jsonAzure UpdateString: @"cert_name" value: @"CERT_NAME"];
// In the above screenshot, our cert version is "63b94a23389546ecbc8eb6208a1bef37". You will use your cert version.
[jsonAzure UpdateString: @"cert_version" value: @"CERT_VERSION"];
success = [cert SetCloudSigner: jsonAzure];
CkoCrypt2 *crypt = [[CkoCrypt2 alloc] init];
success = [crypt SetSigningCert: cert];
if (success == NO) {
NSLog(@"%@",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 = YES;
crypt.HashAlgorithm = @"sha256";
CkoJsonObject *signedAttrs = [[CkoJsonObject alloc] init];
[signedAttrs UpdateInt: @"contentType" value: [NSNumber numberWithInt: 1]];
[signedAttrs UpdateInt: @"signingTime" value: [NSNumber numberWithInt: 1]];
[signedAttrs UpdateInt: @"messageDigest" value: [NSNumber numberWithInt: 1]];
[signedAttrs UpdateInt: @"signingCertificateV2" value: [NSNumber numberWithInt: 1]];
crypt.SigningAttributes = [signedAttrs Emit];
// You can sign any type of file..
NSString *inputXmlPath = @"qa_data/e-Invoice.xml";
NSString *outputP7mPath = @"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: inputXmlPath p7mPath: outputP7mPath];
if (success == NO) {
NSLog(@"%@",crypt.LastErrorText);
return;
}
NSLog(@"%@",@"Success.");