06 Jul 2012 10:22:30 UTC
- Distribution: Crypt-DH
- Module version: 0.07
- Source (raw)
- Browse (raw)
- How to Contribute
- Issues (12)
- Testers (2645 / 1 / 0)
- KwaliteeBus factor: 1
- 26.85% Coverage
- License: perl_5
- Perl: v5.6.0
- Activity24 month
- Download (42.71KB)
- MetaCPAN Explorer
- Subscribe to distribution
- This version
- Latest versionMITHALDU Christian Waldeand 2 contributors
- Benjamin Trott (cpan:BTROTT)
- BinGOs - Chris Williams (cpan:BINGOS)
- THE ALGORITHM
Crypt::DH - Diffie-Hellman key exchange system
use Crypt::DH; my $dh = Crypt::DH->new; $dh->g($g); $dh->p($p); ## Generate public and private keys. $dh->generate_keys; $my_pub_key = $dh->pub_key; ## Send $my_pub_key to "other" party, and receive "other" ## public key in return. ## Now compute shared secret from "other" public key. my $shared_secret = $dh->compute_secret( $other_pub_key );
Crypt::DH is a Perl implementation of the Diffie-Hellman key exchange system. Diffie-Hellman is an algorithm by which two parties can agree on a shared secret key, known only to them. The secret is negotiated over an insecure network without the two parties ever passing the actual shared secret, or their private keys, between them.
The algorithm generally works as follows: Party A and Party B choose a property p and a property g; these properties are shared by both parties. Each party then computes a random private key integer priv_key, where the length of priv_key is at most (number of bits in p) - 1. Each party then computes a public key based on g, priv_key, and p; the exact value is
g ^ priv_key mod p
The parties exchange these public keys.
The shared secret key is generated based on the exchanged public key, the private key, and p. If the public key of Party B is denoted pub_key_B, then the shared secret is equal to
pub_key_B ^ priv_key mod p
The mathematical principles involved insure that both parties will generate the same shared secret key.
More information can be found in PKCS #3 (Diffie-Hellman Key Agreement Standard):
Crypt::DH implements the core routines needed to use Diffie-Hellman key exchange. To actually use the algorithm, you'll need to start with values for p and g; p is a large prime, and g is a base which must be larger than 0 and less than p.
Crypt::DH uses Math::BigInt internally for big-integer calculations. All accessor methods (p, g, priv_key, and pub_key) thus return Math::BigInt objects, as does the compute_secret method. The accessors, however, allow setting with a scalar decimal string, hex string (^0x), Math::BigInt object, or Math::Pari object (for backwards compatibility).
Constructs a new Crypt::DH object and returns the object. %param may include none, some, or all of the keys p, g, and priv_key.
Given an argument $p, sets the p parameter (large prime) for this Crypt::DH object.
Returns the current value of p. (as a Math::BigInt object)
Given an argument $g, sets the g parameter (base) for this Crypt::DH object.
Returns the current value of g.
Generates the public and private key portions of the Crypt::DH object, assuming that you've already filled p and g with appropriate values.
If you've provided a priv_key, it's used, otherwise a random priv_key is created using either Crypt::Random (if already loaded), or /dev/urandom, or Perl's rand, in that order.
Given the public key $public_key of Party B (the party with which you're performing key negotiation and exchange), computes the shared secret key, based on that public key, your own private key, and your own large prime value (p).
The historical method name "compute_key" is aliased to this for compatibility.
Returns the private key. Given an argument $priv_key, sets the priv_key parameter for this Crypt::DH object.
Returns the public key.
Benjamin Trott (cpan:BTROTT) <email@example.com>
Brad Fitzpatrick (cpan:BRADFITZ) <firstname.lastname@example.org>
BinGOs - Chris Williams (cpan:BINGOS) <email@example.com>
Mithaldu - Christian Walde (cpan:MITHALDU) <firstname.lastname@example.org>
This library is free software and may be distributed under the same terms as perl itself.