Library
Module
Module type
Parameter
Class
Class type
RSA public-key cryptography algorithm.
Messages are checked not to exceed the key size, and this is signalled via the Insufficient_key
exception.
Private-key operations are optionally protected through RSA blinding.
Raised if the key is too small to transform the given message, i.e. if the numerical interpretation of the (potentially padded) message is not smaller than the modulus.
The public portion of the key.
Sexplib
convertible.
val pub : e:Z.t -> n:Z.t -> (pub, [> `Msg of string ]) Stdlib.result
pub ~e ~n
validates the public key: 1 < e < n
, n > 0
, is_odd n
, and numbits n >= 89
(a requirement for PKCS1 operations).
type priv = private {
e : Z.t;
Public exponent
*)d : Z.t;
Private exponent
*)n : Z.t;
Modulus (p q
)
p : Z.t;
Prime factor p
q : Z.t;
Prime factor q
dp : Z.t;
d mod (p-1)
dq : Z.t;
d mod (q-1)
q' : Z.t;
q^(-1) mod p
}
Full private key (two-factor version).
Note The key layout assumes that p > q
, which affects the quantity q'
(sometimes called u
), and the computation of the private transform. Some systems assume otherwise. When using keys produced by a system that computes u = p^(-1) mod q
, either exchange p
with q
and dp
with dq
, or re-generate the full private key using priv_of_primes
.
Sexplib
convertible.
val priv :
e:Z.t ->
d:Z.t ->
n:Z.t ->
p:Z.t ->
q:Z.t ->
dp:Z.t ->
dq:Z.t ->
q':Z.t ->
(priv, [> `Msg of string ]) Stdlib.result
priv ~e ~d ~n ~p ~q ~dp ~dq ~q'
validates the private key: e, n
must be a valid pub
, p
and q
valid prime numbers > 0
, odd
, probabilistically prime, p <> q
, n = p * q
, e
probabilistically prime and coprime to both p
and q
, q' = q ^ -1 mod p
, 1 < d < n
, dp = d mod (p - 1)
, dq = d mod (q - 1)
, and d = e ^ -1 mod (p - 1) (q - 1)
.
val priv_of_primes :
e:Z.t ->
p:Z.t ->
q:Z.t ->
(priv, [> `Msg of string ]) Stdlib.result
priv_of_primes ~e ~p ~q
is the private key derived from the minimal description (e, p, q)
.
val priv_of_exp :
?g:Mirage_crypto_rng.g ->
?attempts:int ->
e:Z.t ->
d:Z.t ->
n:Z.t ->
unit ->
(priv, [> `Msg of string ]) Stdlib.result
priv_of_exp ?g ?attempts ~e ~d n
is the unique private key characterized by the public (e
) and private (d
) exponents, and modulus n
. This operation uses a probabilistic process that can fail to recover the key.
~attempts
is the number of trials. For triplets that form an RSA key, the probability of failure is at most 2^(-attempts)
. attempts
defaults to an unspecified number that yields a very high probability of recovering valid keys.
Note that no time masking is done for the computations in this function.
Either an 'a
or its digest, according to some hash algorithm.
Masking (cryptographic blinding) mode for the RSA transform with the private key. Masking does not change the result, but it does change the timing profile of the operation.
`No
disables masking. It is slightly faster but it exposes the private key to timing-based attacks.`Yes
uses random masking with the global RNG instance. This is the sane option.`Yes_with g
uses random masking with the generator g
.decrypt ~crt_hardening ~mask key ciphertext
is the decrypted ciphertext
, left-padded with 0x00
up to key
size.
~crt_hardening
defaults to false
. If true
verifies that the result is correct. This is to counter Chinese remainder theorem attacks to factorize primes. If the computed signature is incorrect, it is again computed in the classical way (c ^ d mod n) without the Chinese remainder theorem optimization. The deterministic PKCS1 signing, which is at danger, uses true
as default.
~mask
defaults to `Yes
.
val generate : ?g:Mirage_crypto_rng.g -> ?e:Z.t -> bits:bits -> unit -> priv
generate ~g ~e ~bits ()
is a new private key. The new key is guaranteed to be well formed, see priv
.
e
defaults to 2^16+1
.
Note This process might diverge if there are no keys for the given bit size. This can happen when bits
is extremely small.
module PKCS1 : sig ... end
PKCS v1.5 operations, as defined by PKCS #1 v1.5.
module OAEP (H : Mirage_crypto.Hash.S) : sig ... end
OAEP-padded encryption, as defined by PKCS #1 v2.1.
module PSS (H : Mirage_crypto.Hash.S) : sig ... end
PSS-based signing, as defined by PKCS #1 v2.1.