public async Task RetrieveCertificateAsync() { #region RetrieveCertificate CertificateWithPolicy certificateWithPolicy = await client.GetCertificateWithPolicyAsync("MyCertificate"); #endregion #region GetCertificate Certificate certificate = await client.GetCertificateAsync(certificateWithPolicy.Name, certificateWithPolicy.Properties.Version); #endregion }
public async Task HelloWorldAsync() { // Environment variable with the Key Vault endpoint. string keyVaultUrl = Environment.GetEnvironmentVariable("AZURE_KEYVAULT_URL"); // Instantiate a certificate client that will be used to call the service. Notice that the client is using // default Azure credentials. To make default credentials work, ensure that environment variables 'AZURE_CLIENT_ID', // 'AZURE_CLIENT_KEY' and 'AZURE_TENANT_ID' are set with the service principal credentials. var client = new CertificateClient(new Uri(keyVaultUrl), new DefaultAzureCredential()); // Let's create a self signed certifiate using the default policy. If the certificiate // already exists in the Key Vault, then a new version of the key is created. string certName = $"defaultCert-{Guid.NewGuid()}"; CertificateOperation certOp = await client.StartCreateCertificateAsync(certName); // Next let's wait on the certificate operation to complete. Note that certificate creation can last an indeterministic // amount of time, so applications should only wait on the operation to complete in the case the issuance time is well // known and within the scope of the application lifetime. In this case we are creating a self-signed certificate which // should be issued in a relatively short amount of time. CertificateWithPolicy certificate = await certOp.WaitCompletionAsync(); // At some time later we could get the created certificate along with it's policy from the Key Vault. certificate = await client.GetCertificateWithPolicyAsync(certName); Debug.WriteLine($"Certificate was returned with name {certificate.Name} which expires {certificate.Properties.Expires}"); // We find that the certificate has been compromised and we want to disable it so applications will no longer be able // to access the compromised version of the certificate. CertificateProperties certificateProperties = certificate.Properties; certificateProperties.Enabled = false; Certificate updatedCert = await client.UpdateCertificatePropertiesAsync(certificateProperties); Debug.WriteLine($"Certificate enabled set to '{updatedCert.Properties.Enabled}'"); // We need to create a new version of the certificate that applications can use to replace the compromised certificate. // Creating a certificate with the same name and policy as the compromised certificate will create another version of the // certificate with similar properties to the original certificate CertificateOperation newCertOp = await client.StartCreateCertificateAsync(certificate.Name, certificate.Policy); CertificateWithPolicy newCert = await newCertOp.WaitCompletionAsync(); // The certificate is no longer needed, need to delete it from the Key Vault. await client.DeleteCertificateAsync(certName); // To ensure key is deleted on server side. Assert.IsTrue(await WaitForDeletedKeyAsync(client, certName)); // If the keyvault is soft-delete enabled, then for permanent deletion, deleted key needs to be purged. await client.PurgeDeletedCertificateAsync(certName); }