Berkeley DB Reference Guide:
Environment

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Encryption

Berkeley DB releases optionally include strong cryptography support; this release DOES contain cryptography support.

Note that export/import and/or use of cryptography software, or even communicating technical details about cryptography software, is illegal in some parts of the world. You are strongly advised to pay close attention to any export/import and/or use laws which apply to you when you import release of Berkeley DB including cryptography to your country or re-distribute source code from it in any way.

Berkeley DB supports encryption using the Rijndael/AES (also known as the Advanced Encryption Standard and Federal Information Processing Standard (FIPS) 197) algorithm for encryption or decryption. The algorithm is configured to use a 128-bit key. Berkeley DB uses a 16-byte initialization vector generated using the Mersenne Twister. All encrypted information is additionally checksummed using the SHA1 Secure Hash Algorithm, using a 160-bit message digest.

The encryption support provided with Berkeley DB is intended to protect applications from an attacker obtaining physical access to the media on which a Berkeley DB database is stored, or an attacker compromising a system on which Berkeley DB is running but who is unable to read system or process memory on that system. The encryption support provided with Berkeley DB will not protect applications from attackers able to read system memory on the system where Berkeley DB is running.

Encryption is not the default for created databases, even in database environments configured for encryption. In addition to configuring for encryption by calling the DB_ENV->set_encrypt or DB->set_encrypt methods, applications must specify the DB_ENCRYPT flag before creating the database in order for the database to be encrypted. Further, databases cannot be converted to an encrypted format after they have been created without dumping and re-creating them.

Each encrypted database environment (including all its encrypted databases) is encrypted using a single password and a single algorithm. Applications wanting to provide a finer granularity of database access must either use multiple database environments or implement additional access controls outside of Berkeley DB.

The only encrypted parts of a database environment are its databases and its log files. Specifically, the Shared memory regions supporting the database environment are not encrypted. For this reason, it may be possible for an attacker to read some or all of an encrypted database by reading the on-disk files that back these shared memory regions. To prevent such attacks, applications may want to use in-memory filesystem support (on systems that support it), or the DB_PRIVATE or DB_SYSTEM_MEM flags to the DB_ENV->open method, to place the shared memory regions in memory that is never written to a disk. As some systems page system memory to a backing disk, it is important to consider the specific operating system running on the machine as well. Finally, when backing database environment shared regions with the filesystem, Berkeley DB can be configured to overwrite the shared regions before removing them by specifying the DB_OVERWRITE flag. This option is only effective in the presence of fixed-block filesystems, journaling or logging filesystems will require operating system support and probably modification of the Berkeley DB sources.

While all user data is encrypted, parts of the databases and log files in an encrypted environment are maintained in an unencrypted state. Specifically, log record headers are not encrypted, only the actual log records. Additionally, database internal page header fields are not encrypted. These page header fields includes information such as the page's DB_LSN, number, and position in the database's sort order.

Log records distributed by replication master to replicated clients are transmitted to the clients in unencrypted form. If encryption is desired in a replicated application, the use of a secure transport is strongly suggested.

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