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(See “ Why You Can’t Stop Data Breaches ”).
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The typical form of encryption put in place for most Database Management Systems (DBMS) at-rest known as Transparent Data Encryption (TDE) were designed to protect against physical data theft or database server break-ins.īut to assume that this type of encryption will keep your entire database safe from a data breach or any level of decryption is short-sighted, because today’s data centers and databases in the cloud are not being hacked this way. Relational databases such as MySQL/MariaDB, Postgres, Microsoft SQL Server, AWS Redshift and Snowflake provide various encrypting and authentication options for both data at rest and data in motion, and most database engineers are using one or more of the many encryption types available today.
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Database encryption ensures that even if someone gains unauthorized access to sensitive data, it will be stored as a sort of "cipher text" that is incomprehensible and therefore, cannot be used because of how difficult it is to decrypt. Sensitive information within your databases, such as credit card numbers or personally identifiable information (PII), can get into the wrong hands even with the most sophisticated and complex protection measures in place. Database encryption is a cryptography method that adds an additional layer of data security which can be used to protect against data breaches from anyone other than authorized users.