guix-play/guix/pk-crypto.scm

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;;; GNU Guix --- Functional package management for GNU
;;; Copyright © 2013 Ludovic Courtès <ludo@gnu.org>
;;;
;;; This file is part of GNU Guix.
;;;
;;; GNU Guix is free software; you can redistribute it and/or modify it
;;; under the terms of the GNU General Public License as published by
;;; the Free Software Foundation; either version 3 of the License, or (at
;;; your option) any later version.
;;;
;;; GNU Guix is distributed in the hope that it will be useful, but
;;; WITHOUT ANY WARRANTY; without even the implied warranty of
;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
;;; GNU General Public License for more details.
;;;
;;; You should have received a copy of the GNU General Public License
;;; along with GNU Guix. If not, see <http://www.gnu.org/licenses/>.
(define-module (guix pk-crypto)
#:use-module (guix config)
#:use-module ((guix utils)
#:select (bytevector->base16-string
base16-string->bytevector))
#:use-module (system foreign)
#:use-module (rnrs bytevectors)
#:use-module (ice-9 match)
#:export (canonical-sexp?
string->canonical-sexp
canonical-sexp->string
number->canonical-sexp
canonical-sexp-car
canonical-sexp-cdr
canonical-sexp-nth
canonical-sexp-nth-data
canonical-sexp-length
canonical-sexp-null?
canonical-sexp-list?
bytevector->hash-data
hash-data->bytevector
sign
verify
generate-key
find-sexp-token
canonical-sexp->sexp
sexp->canonical-sexp))
;;; Commentary:
;;;
;;; Public key cryptographic routines from GNU Libgcrypt.
;;;;
;;; Libgcrypt uses "canonical s-expressions" to represent key material,
;;; parameters, and data. We keep it as an opaque object to map them to
;;; Scheme s-expressions because (1) Libgcrypt sexps may be stored in secure
;;; memory, and (2) the read syntax is different.
;;;
;;; A 'canonical-sexp->sexp' procedure is provided nevertheless, for use in
;;; cases where it is safe to move data out of Libgcrypt---e.g., when
;;; processing ACL entries, public keys, etc.
;;;
;;; Canonical sexps were defined by Rivest et al. in the IETF draft at
;;; <http://people.csail.mit.edu/rivest/Sexp.txt> for the purposes of SPKI
;;; (see <http://www.ietf.org/rfc/rfc2693.txt>.)
;;;
;;; Code:
;; Libgcrypt "s-expressions".
(define-wrapped-pointer-type <canonical-sexp>
canonical-sexp?
naked-pointer->canonical-sexp
canonical-sexp->pointer
(lambda (obj port)
;; Don't print OBJ's external representation: we don't want key material
;; to leak in backtraces and such.
(format port "#<canonical-sexp ~a | ~a>"
(number->string (object-address obj) 16)
(number->string (pointer-address (canonical-sexp->pointer obj))
16))))
(define libgcrypt-func
(let ((lib (dynamic-link %libgcrypt)))
(lambda (func)
"Return a pointer to symbol FUNC in libgcrypt."
(dynamic-func func lib))))
(define finalize-canonical-sexp!
(libgcrypt-func "gcry_sexp_release"))
(define-inlinable (pointer->canonical-sexp ptr)
"Return a <canonical-sexp> that wraps PTR."
(let* ((sexp (naked-pointer->canonical-sexp ptr))
(ptr* (canonical-sexp->pointer sexp)))
;; Did we already have a <canonical-sexp> object for PTR?
(when (equal? ptr ptr*)
;; No, so we can safely add a finalizer (in Guile 2.0.9
;; 'set-pointer-finalizer!' *adds* a finalizer rather than replacing the
;; existing one.)
(set-pointer-finalizer! ptr finalize-canonical-sexp!))
sexp))
(define string->canonical-sexp
(let* ((ptr (libgcrypt-func "gcry_sexp_new"))
(proc (pointer->procedure int ptr `(* * ,size_t ,int))))
(lambda (str)
"Parse STR and return the corresponding gcrypt s-expression."
(let* ((sexp (bytevector->pointer (make-bytevector (sizeof '*))))
(err (proc sexp (string->pointer str) 0 1)))
(if (= 0 err)
(pointer->canonical-sexp (dereference-pointer sexp))
(throw 'gcry-error err))))))
(define-syntax GCRYSEXP_FMT_ADVANCED
(identifier-syntax 3))
(define canonical-sexp->string
(let* ((ptr (libgcrypt-func "gcry_sexp_sprint"))
(proc (pointer->procedure size_t ptr `(* ,int * ,size_t))))
(lambda (sexp)
"Return a textual representation of SEXP."
(let loop ((len 1024))
(let* ((buf (bytevector->pointer (make-bytevector len)))
(size (proc (canonical-sexp->pointer sexp)
GCRYSEXP_FMT_ADVANCED buf len)))
(if (zero? size)
(loop (* len 2))
(pointer->string buf size "ISO-8859-1")))))))
(define canonical-sexp-car
(let* ((ptr (libgcrypt-func "gcry_sexp_car"))
(proc (pointer->procedure '* ptr '(*))))
(lambda (lst)
"Return the first element of LST, an sexp, if that element is a list;
return #f if LST or its first element is not a list (this is different from
the usual Lisp 'car'.)"
(let ((result (proc (canonical-sexp->pointer lst))))
(if (null-pointer? result)
#f
(pointer->canonical-sexp result))))))
(define canonical-sexp-cdr
(let* ((ptr (libgcrypt-func "gcry_sexp_cdr"))
(proc (pointer->procedure '* ptr '(*))))
(lambda (lst)
"Return the tail of LST, an sexp, or #f if LST is not a list."
(let ((result (proc (canonical-sexp->pointer lst))))
(if (null-pointer? result)
#f
(pointer->canonical-sexp result))))))
(define canonical-sexp-nth
(let* ((ptr (libgcrypt-func "gcry_sexp_nth"))
(proc (pointer->procedure '* ptr `(* ,int))))
(lambda (lst index)
"Return the INDEXth nested element of LST, an s-expression. Return #f
if that element does not exist, or if it's an atom. (Note: this is obviously
different from Scheme's 'list-ref'.)"
(let ((result (proc (canonical-sexp->pointer lst) index)))
(if (null-pointer? result)
#f
(pointer->canonical-sexp result))))))
(define (dereference-size_t p)
"Return the size_t value pointed to by P."
(bytevector-uint-ref (pointer->bytevector p (sizeof size_t))
0 (native-endianness)
(sizeof size_t)))
(define canonical-sexp-length
(let* ((ptr (libgcrypt-func "gcry_sexp_length"))
(proc (pointer->procedure int ptr '(*))))
(lambda (sexp)
"Return the length of SEXP if it's a list (including the empty list);
return zero if SEXP is an atom."
(proc (canonical-sexp->pointer sexp)))))
(define token-string?
(let ((token-cs (char-set-union char-set:digit
char-set:letter
(char-set #\- #\. #\/ #\_
#\: #\* #\+ #\=))))
(lambda (str)
"Return #t if STR is a token as per Section 4.3 of
<http://people.csail.mit.edu/rivest/Sexp.txt>."
(and (not (string-null? str))
(string-every token-cs str)
(not (char-set-contains? char-set:digit (string-ref str 0)))))))
(define canonical-sexp-nth-data
(let* ((ptr (libgcrypt-func "gcry_sexp_nth_data"))
(proc (pointer->procedure '* ptr `(* ,int *))))
(lambda (lst index)
"Return as a symbol (for \"sexp tokens\") or a bytevector (for any other
\"octet string\") the INDEXth data element (atom) of LST, an s-expression.
Return #f if that element does not exist, or if it's a list."
(let* ((size* (bytevector->pointer (make-bytevector (sizeof '*))))
(result (proc (canonical-sexp->pointer lst) index size*)))
(if (null-pointer? result)
#f
(let* ((len (dereference-size_t size*))
(str (pointer->string result len "ISO-8859-1")))
;; The sexp spec speaks of "tokens" and "octet strings".
;; Sometimes these octet strings are actual strings (text),
;; sometimes they're bytevectors, and sometimes they're
;; multi-precision integers (MPIs). Only the application knows.
;; However, for convenience, we return a symbol when a token is
;; encountered since tokens are frequent (at least in the 'car'
;; of each sexp.)
(if (token-string? str)
(string->symbol str) ; an sexp "token"
(bytevector-copy ; application data, textual or binary
(pointer->bytevector result len)))))))))
(define (number->canonical-sexp number)
"Return an s-expression representing NUMBER."
(string->canonical-sexp (string-append "#" (number->string number 16) "#")))
(define* (bytevector->hash-data bv #:optional (hash-algo "sha256"))
"Given BV, a bytevector containing a hash, return an s-expression suitable
for use as the data for 'sign'."
(string->canonical-sexp
(format #f "(data (flags pkcs1) (hash \"~a\" #~a#))"
hash-algo
(bytevector->base16-string bv))))
(define (hash-data->bytevector data)
"Return two values: the hash value (a bytevector), and the hash algorithm (a
string) extracted from DATA, an sexp as returned by 'bytevector->hash-data'.
Return #f if DATA does not conform."
(let ((hash (find-sexp-token data 'hash)))
(if hash
(let ((algo (canonical-sexp-nth-data hash 1))
(value (canonical-sexp-nth-data hash 2)))
(values value (symbol->string algo)))
(values #f #f))))
(define sign
(let* ((ptr (libgcrypt-func "gcry_pk_sign"))
(proc (pointer->procedure int ptr '(* * *))))
(lambda (data secret-key)
"Sign DATA (an s-expression) with SECRET-KEY (an s-expression whose car
is 'private-key'.)"
(let* ((sig (bytevector->pointer (make-bytevector (sizeof '*))))
(err (proc sig (canonical-sexp->pointer data)
(canonical-sexp->pointer secret-key))))
(if (= 0 err)
(pointer->canonical-sexp (dereference-pointer sig))
(throw 'gry-error err))))))
(define verify
(let* ((ptr (libgcrypt-func "gcry_pk_verify"))
(proc (pointer->procedure int ptr '(* * *))))
(lambda (signature data public-key)
"Verify that SIGNATURE is a signature of DATA with PUBLIC-KEY, all of
which are gcrypt s-expressions."
(zero? (proc (canonical-sexp->pointer signature)
(canonical-sexp->pointer data)
(canonical-sexp->pointer public-key))))))
(define generate-key
(let* ((ptr (libgcrypt-func "gcry_pk_genkey"))
(proc (pointer->procedure int ptr '(* *))))
(lambda (params)
"Return as an s-expression a new key pair for PARAMS. PARAMS must be an
s-expression like: (genkey (rsa (nbits 4:2048)))."
(let* ((key (bytevector->pointer (make-bytevector (sizeof '*))))
(err (proc key (canonical-sexp->pointer params))))
(if (zero? err)
(pointer->canonical-sexp (dereference-pointer key))
(throw 'gcry-error err))))))
(define find-sexp-token
(let* ((ptr (libgcrypt-func "gcry_sexp_find_token"))
(proc (pointer->procedure '* ptr `(* * ,size_t))))
(lambda (sexp token)
"Find in SEXP the first element whose 'car' is TOKEN and return it;
return #f if not found."
(let* ((token (string->pointer (symbol->string token)))
(res (proc (canonical-sexp->pointer sexp) token 0)))
(if (null-pointer? res)
#f
(pointer->canonical-sexp res))))))
(define-inlinable (canonical-sexp-null? sexp)
"Return #t if SEXP is the empty-list sexp."
(null-pointer? (canonical-sexp->pointer sexp)))
(define (canonical-sexp-list? sexp)
"Return #t if SEXP is a list."
(or (canonical-sexp-null? sexp)
(> (canonical-sexp-length sexp) 0)))
(define (canonical-sexp-fold proc seed sexp)
"Fold PROC (as per SRFI-1) over SEXP, a canonical sexp."
(if (canonical-sexp-list? sexp)
(let ((len (canonical-sexp-length sexp)))
(let loop ((index 0)
(result seed))
(if (= index len)
result
(loop (+ 1 index)
(proc (or (canonical-sexp-nth sexp index)
(canonical-sexp-nth-data sexp index))
result)))))
(error "sexp is not a list" sexp)))
(define (canonical-sexp->sexp sexp)
"Return a Scheme sexp corresponding to SEXP. This is particularly useful to
compare sexps (since Libgcrypt does not provide an 'equal?' procedure), or to
use pattern matching."
(if (canonical-sexp-list? sexp)
(reverse
(canonical-sexp-fold (lambda (item result)
(cons (if (canonical-sexp? item)
(canonical-sexp->sexp item)
item)
result))
'()
sexp))
(canonical-sexp->string sexp))) ; XXX: not very useful
(define (sexp->canonical-sexp sexp)
"Return a canonical sexp equivalent to SEXP, a Scheme sexp as returned by
'canonical-sexp->sexp'."
;; XXX: This is inefficient, but the Libgcrypt API doesn't allow us to do
;; much better.
(string->canonical-sexp
(call-with-output-string
(lambda (port)
(define (write item)
(cond ((list? item)
(display "(" port)
(for-each write item)
(display ")" port))
((symbol? item)
(format port " ~a" item))
((bytevector? item)
(format port " #~a#"
(bytevector->base16-string item)))
(else
(error "unsupported sexp item type" item))))
(write sexp)))))
;;; pk-crypto.scm ends here