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author | Mark H Weaver <mhw@netris.org> | 2018-04-10 00:42:22 -0400 |
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committer | Mark H Weaver <mhw@netris.org> | 2018-04-10 00:42:22 -0400 |
commit | f89aa1521af69b0e1a1350c2380579788b0f8945 (patch) | |
tree | 5009cca687ac669ef846920877cbfb6fffdd9893 /gnu/packages/haskell-crypto.scm | |
parent | 169c658f7f286efae397fa3eda55b1c56fa92a01 (diff) | |
parent | 60e1de6d95bd32b4996c199708541781b8f828fd (diff) | |
download | patches-f89aa1521af69b0e1a1350c2380579788b0f8945.tar patches-f89aa1521af69b0e1a1350c2380579788b0f8945.tar.gz |
Merge branch 'master' into core-updates
Diffstat (limited to 'gnu/packages/haskell-crypto.scm')
-rw-r--r-- | gnu/packages/haskell-crypto.scm | 130 |
1 files changed, 130 insertions, 0 deletions
diff --git a/gnu/packages/haskell-crypto.scm b/gnu/packages/haskell-crypto.scm index e4d4e56388..b0be30cb6b 100644 --- a/gnu/packages/haskell-crypto.scm +++ b/gnu/packages/haskell-crypto.scm @@ -530,3 +530,133 @@ list validation.") "This package provides a library to handle system accessors and storage for X.509 certificates.") (license license:bsd-3))) + +(define-public ghc-crypto-cipher-types + (package + (name "ghc-crypto-cipher-types") + (version "0.0.9") + (source + (origin + (method url-fetch) + (uri (string-append "https://hackage.haskell.org/package/" + "crypto-cipher-types-" version "/" + "crypto-cipher-types-" version ".tar.gz")) + (sha256 + (base32 + "03qa1i1kj07pfrxsi7fiaqnnd0vi94jd4jfswbmnm4gp1nvzcwr0")))) + (build-system haskell-build-system) + (inputs `(("ghc-byteable" ,ghc-byteable) + ("ghc-securemem" ,ghc-securemem))) + (home-page "https://github.com/vincenthz/hs-crypto-cipher") + (synopsis "Generic cryptography cipher types for Haskell") + (description "This Haskell package provides basic typeclasses and types +for symmetric ciphers.") + (license license:bsd-3))) + +(define-public ghc-cipher-aes + (package + (name "ghc-cipher-aes") + (version "0.2.11") + (source + (origin + (method url-fetch) + (uri (string-append "https://hackage.haskell.org/package/" + "cipher-aes-" version "/" + "cipher-aes-" version ".tar.gz")) + (sha256 + (base32 + "05ahz6kjq0fl1w66gpiqy0vndli5yx1pbsbw9ni3viwqas4p3cfk")))) + (build-system haskell-build-system) + (inputs `(("ghc-byteable" ,ghc-byteable) + ("ghc-securemem" ,ghc-securemem) + ("ghc-crypto-cipher-types" ,ghc-crypto-cipher-types))) + (native-inputs `(("ghc-quickcheck" ,ghc-quickcheck) + ("ghc-test-framework" ,ghc-test-framework) + ("ghc-test-framework-quickcheck2" ,ghc-test-framework-quickcheck2) + ("ghc-crypto-cipher-tests" ,ghc-crypto-cipher-tests))) + (home-page "https://github.com/vincenthz/hs-cipher-aes") + (synopsis "AES cipher implementation with advanced mode of operations for +Haskell") + (description "This Haskell package provides AES cipher implementation. + +The modes of operations available are ECB (Electronic code book), CBC (Cipher +block chaining), CTR (Counter), XTS (XEX with ciphertext stealing), +GCM (Galois Counter Mode). + +The AES implementation uses AES-NI when available (on x86 and x86-64 +architecture), but fallback gracefully to a software C implementation. + +The software implementation uses S-Boxes, which might suffer for cache timing +issues. However do notes that most other known software implementations, +including very popular one (openssl, gnutls) also uses similar +implementation. If it matters for your case, you should make sure you have +AES-NI available, or you'll need to use a different implementation.") + (license license:bsd-3))) + +(define-public ghc-crypto-random + (package + (name "ghc-crypto-random") + (version "0.0.9") + (source + (origin + (method url-fetch) + (uri (string-append "https://hackage.haskell.org/package/" + "crypto-random-" version "/" + "crypto-random-" version ".tar.gz")) + (sha256 + (base32 + "0139kbbb2h7vshf68y3fvjda29lhj7jjwl4vq78w4y8k8hc7l2hp")))) + (build-system haskell-build-system) + (inputs `(("ghc-securemem" ,ghc-securemem) + ("ghc-vector" ,ghc-vector))) + (home-page "https://github.com/vincenthz/hs-crypto-random") + (synopsis "Simple cryptographic random related types for Haskell") + (description "Simple cryptographic random related types: a safe +abstraction for CPRNGs.") + (license license:bsd-3))) + +(define-public ghc-cprng-aes + (package + (name "ghc-cprng-aes") + (version "0.6.1") + (source + (origin + (method url-fetch) + (uri (string-append "https://hackage.haskell.org/package/" + "cprng-aes-" version "/" + "cprng-aes-" version ".tar.gz")) + (sha256 + (base32 + "1wr15kbmk1g3l8a75n0iwbzqg24ixv78slwzwb2q6rlcvq0jlnb4")))) + (build-system haskell-build-system) + (inputs `(("ghc-byteable" ,ghc-byteable) + ("ghc-crypto-random" ,ghc-crypto-random) + ("ghc-cipher-aes" ,ghc-cipher-aes))) + (home-page "https://github.com/vincenthz/hs-cprng-aes") + (synopsis "Crypto Pseudo Random Number Generator using AES in counter mode +in Haskell") + (description "Simple crypto pseudo-random-number-generator with really +good randomness property. + +Using ent, a randomness property maker on one 1Mb sample: + +@itemize +@item Entropy = 7.999837 bits per byte. +@item Optimum compression would reduce the size of this 1048576 byte file by 0 +percent. +@item Chi square distribution for 1048576 samples is 237.02. +@item Arithmbetic mean value of data bytes is 127.3422 (127.5 = random). +@item Monte Carlo value for Pi is 3.143589568 (error 0.06 percent). +@end itemize + +Compared to urandom with the same sampling: + +@itemize +@item Entropy = 7.999831 bits per byte. +@item Optimum compression would reduce the size of this 1048576 byte file by 0 +percent. +@item Chi square distribution for 1048576 samples is 246.63. +@item Arithmetic mean value of data bytes is 127.6347 (127.5 = random). +@item Monte Carlo value for Pi is 3.132465868 (error 0.29 percent). +@end itemize") + (license license:bsd-3))) |