NAMETie::EncryptedHash - Hashes (and objects based on hashes) with encrypting fields.
SYNOPSIS
DESCRIPTION
Tie::EncryptedHash augments Perl hash semantics to build secure, encrypting
containers of data. Tie::EncryptedHash introduces special hash fields that
are coupled with encrypt/decrypt routines to encrypt assignments at
While the password is set, a Tie::EncryptedHash behaves exactly like a standard Perl hash. This is its transparent mode of access. Encrypting and normal fields are identical in this mode. When password is deleted, encrypting fields are accessible only as ciphertext. This is Tie::EncryptedHash's opaque mode of access, optimized for serialization. Encryption is done with Crypt::CBC(3) which encrypts in the cipher block chaining mode with Blowfish, DES or IDEA. Tie::EncryptedHash uses Blowfish by default, but can be instructed to employ any cipher supported by Crypt::CBC(3).
MOTIVATIONTie::EncryptedHash was designed for storage and communication of key material used in public key cryptography algorithms. I abstracted out the mechanism for encrypting selected fields of a structured data record because of the sheer convenience of this data security method. Quite often, applications that require data confidentiality eschew strong cryptography in favor of OS-based access control mechanisms because of the additional costs of cryptography integration. Besides cipher implementations, which are available as ready-to-deploy perl modules, use of cryptography in an application requires code to aid conversion and representation of encrypted data. This code is usually encapsulated in a data access layer that manages encryption, decryption, access control and re-structuring of flat plaintext according to a data model. Tie::EncryptedHash provides these functions under the disguise of a Perl hash so perl applications can use strong cryptography without the cost of implementing a complex data access layer.
CONSTRUCTION
Tied Hash
Ties
Blessed Object
The
RESERVED ATTRIBUTESThe attributes __password, __cipher and __hide are reserved for communication with object methods. They are ``write-only'' from everywhere except the class to which the hash is tied. __scaffolding is inaccessible. Tie::EncryptedHash stores the current encryption password and some transient data structures in these fields and restricts access to them on need-to-know basis.
__password
The password is stored under the attribute
__cipher
The cipher used for encryption/decryption is stored under the attribute __cipher. The value defaults to 'Blowfish'.
__hide
Setting this attribute hides encrypting fields in opaque mode. 'undef' is returned at
BEHAVIOR
ReferencesA reference stored in an encrypting field is serialized before encryption. The data structure represented by the reference is folded into a single line of ciphertext which is stored under the first level key. In the opaque mode, therefore, only the first level of keys of the hash will be visible.
Opaque Mode
The opaque mode introduces several other constraints on access of
encrypting fields. Encrypting fields return ciphertext on
Multiple Passwords and CiphersModality of Tie::EncryptedHash's access system breaks down when more than one password is used to with different encrypting fields. This is a feature. Tie::EncryptedHash lets you mix passwords and ciphers in the same hash. Assign new values to __password and __cipher and create a new encrypting field. Transparent mode will be restricted to fields encrypted with the current password.
Error HandlingTie::Encrypted silently ignores access errors. It doesn't carp/croak when you perform an illegal operation (like assign plaintext to an encrypting field in opaque mode). This is to prevent data lossage, the kind that results from abnormal termination of applications.
QUIRKS
AutovivificationDue to the nature of autovivified references (which spring into existence when an undefined reference is dereferenced), references are stored as plaintext in transparent mode. Analogous ciphertext representations are maintained in parallel and restored to encrypting fields when password is deleted. This process is completely transparent to the user, though it's advisable to delete the password after the final assignment to a Tie::EncryptedHash. This ensures plaintext representations and scaffolding data structures are duly flushed.
Data::DumperSerialization of references is done with Data::Dumper, therefore the nature of data that can be assigned to encrypting fields is limited by what Data::Dumper can grok. We set $Data::Dumper::Purity = 1, so self-referential and recursive structures should be OK.
Speed
Tie::EncryptedHash'es keep their contents encrypted as much as possible, so
there's a rather severe speed penalty. With Blowfish,
STANDARD USAGEThe standard usage for this module would be something along the lines of: populate Tie::EncryptedHash with sensitive data, delete the password, serialize the encrypted hash with Data::Dumper, store the result on disk or send it over the wire to another machine. Later, when the sensitive data is required, procure the EncryptedHash, set the password and accesses the encrypted data fields.
SEE ALSOData::Dumper(3), Crypt::CBC(3), Crypt::DES(3), Crypt::Blowfish(3), Tie::SecureHash(3)
ACKNOWLEDGEMENTSThe framework of Tie::EncryptedHash derives heavily from Damian Conway's Tie::SecureHash. Objects that are blessed as well as tied are just one of the pleasant side-effects of stealing Damian's code. Thanks to Damian for this brilliant module. PacificNet (http://www.pacificnet.net) loaned me the aforementioned notebook to hack from the comfort of my bed. Thanks folks!
AUTHORVipul Ved Prakash <[email protected]>
LICENSEArtistic. | |