![]() Perform a test restore to ensure that the backup is recoverable.Ħ. Test the backup: Test the backup process to ensure that it's working as expected. Configure backup settings: Once you've chosen a backup solution, configure the backup settings, such as backup frequency, retention policy, and destination location.ĥ. Select the one that meets your requirements in terms of features, performance, and budget.Ĥ. Select a backup solution: There are several backup solutions available, such as VMware Data Recovery, vSphere Data Protection, or DiskINternals VMFS Recovery. Choose the method that best suits your needs.ģ. File-level backup only backs up specific files and folders within the virtual machine. Image-level backup takes a snapshot of the entire virtual machine, including the operating system, applications, and data. Choose a backup method: There are different backup methods available, such as image-level backup or file-level backup. Identify the virtual machines that need to be backed up: Review the list of virtual machines in your environment and identify the ones that contain critical data or applications that need to be backed up.Ģ. Here are some steps to follow to backup VMware virtual machines:ġ. VMware backup, and by extension virtual server backup, is a common challenge for backup and storage administrators.īacking up VMware virtual machines is critical to ensure business continuity and protect critical data in case of system failures or disasters. The backup compression for TDE-enabled databases for SQL Server 2016 and newer versions is available, but at lower transfer size as explained here.VMware backup refers to the process of copying data on a virtual machine (VM) within a VMware environment to prevent loss of data. To restore a TDE-encrypted database to another SQL Server, you need to first restore the certificate to the destination server. TDE - enabled database backup is supported. ADE uses BitLocker for Windows VMs, and DM-Crypt for Linux VMs, to perform in-guest encryption. In addition, you can also back up your Azure Virtual machines that have their OS or data disks encrypted using Azure Disk Encryption. Azure virtual machine backup: Azure Backup supports backup of VMs with disks encrypted using platform-managed keys, as well as customer-managed keys owned and managed by you. Infrastructure encryption uses platform-managed keys for encrypting data.Įncryption specific to the workload being backed-up Infrastructure encryption can only be configured if you first choose to use your own keys for encryption at rest. Together with encryption at rest using customer-managed keys, it allows two-layer encryption of your backup data. This infrastructure encryption is managed by the platform. Infrastructure-level encryption: In addition to encrypting your data in the Recovery Services vault using customer-managed keys, you can also choose to have an additional layer of encryption configured on the storage infrastructure. ![]() However, you must enable encryption using your keys before you attempt to protect any items to the vault. You can disable the key or revoke access whenever needed. To allow encryption, it's required that you grant the Recovery Services vault access to the encryption key in the Azure Key Vault. This gives you full control over the data and the keys. The data is protected using an AES 256 based data encryption key (DEK), which is, in turn, protected using your keys. The encryption key used for encrypting backups may be different from the one used for the source. Azure Backup lets you use your RSA keys stored in the Azure Key Vault for encrypting your backups. Using customer-managed keys: When backing up your Azure Virtual Machines, you can choose to encrypt your data using encryption keys owned and managed by you. It applies to all workloads being backed-up to your Recovery Services vault. ![]() You don't need to take any explicit action from your end to enable this encryption. Using platform-managed keys: By default, all your data is encrypted using platform-managed keys. Encryption levelsĪzure Backup includes encryption on two levels: Encryption levelĮncryption of data in the Recovery Services vault This article describes the levels of encryption in Azure Backup that helps to protect your backed-up data. It always remains on the Azure backbone network. Additionally, all your backup data in transit is transferred over HTTPS. This data at rest is encrypted using 256-bit AES encryption (one of the strongest block ciphers available that is FIPS 140-2 compliant). Azure Backup automatically encrypts all your backed-up data while storing in the cloud using Azure Storage encryption, which helps you meet your security and compliance commitments.
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