diff options
author | lloyd <[email protected]> | 2014-02-08 13:50:57 +0000 |
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committer | lloyd <[email protected]> | 2014-02-08 13:50:57 +0000 |
commit | c2915d84b213f3bba8fc68d1d2c035289f7c8d11 (patch) | |
tree | 5b694977a315a2e547fcddbca2a778510a7f170e /doc/website | |
parent | 4a1bd5fffef24d8d09534760fd1b4a435948ca9d (diff) |
Resurrect algos.rst
Diffstat (limited to 'doc/website')
-rw-r--r-- | doc/website/algos.rst | 104 | ||||
-rw-r--r-- | doc/website/contents.rst | 1 | ||||
-rw-r--r-- | doc/website/index.rst | 13 |
3 files changed, 111 insertions, 7 deletions
diff --git a/doc/website/algos.rst b/doc/website/algos.rst new file mode 100644 index 000000000..37285b6e6 --- /dev/null +++ b/doc/website/algos.rst @@ -0,0 +1,104 @@ + +Supported Algorithms +--------------------------------- + +Botan supports a range of cryptographic algorithms and protocols, +including: + +TLS/Public Key Infrastructure +^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ + + * SSL/TLS (from SSL v3 to TLS v1.2), including using preshared + keys (TLS-PSK) or passwords (TLS-SRP) + * X.509 certificates (including generating new self-signed and CA + certs) and CRLs + * Certificate path validation and OCSP + * PKCS #10 certificate requests (creation and certificate issue) + +Public Key Cryptography +^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ + + * Encryption algorithms RSA, ElGamal, DLIES + (padding schemes OAEP or PKCS #1 v1.5) + * Signature algorithms RSA, DSA, ECDSA, GOST 34.10-2001, Nyberg-Rueppel, + Rabin-Williams (padding schemes PSS, PKCS #1 v1.5, X9.31) + * Key agreement techniques Diffie-Hellman and ECDH + +Hash functions +^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ + + * SHA-1, SHA-224, SHA-256, SHA-384, and SHA-512 + * RIPEMD-160, RIPEMD-128, Tiger, Whirlpool + * SHA-3 winner Keccak-1600 + * SHA-3 candidate Skein-512 + * Hash function combiners (Parallel and Comb4P) + * National standard hashes HAS-160 and GOST 34.11 + * Obsolete or insecure hashes MD5, MD4, MD2 + * Non-cryptographic checksums Adler32, CRC24, CRC32 + +Block ciphers +^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ + + * Authenticated cipher modes EAX, OCB, GCM, SIV, and CCM + * Unauthenticated cipher modes CTR, CBC, XTS, CFB, OFB, and ECB + * AES (including constant time SSSE3 and AES-NI versions) + * AES candidates Serpent, Twofish, MARS, CAST-256, RC6 + * DES, and variants 3DES and DESX + * Other block ciphers including Threefish-512, Blowfish, CAST-128, IDEA, + Noekeon, TEA, XTEA, RC2, RC5, SAFER-SK, and Square + * National/telecom block ciphers SEED, KASUMI, MISTY1, GOST 28147, Skipjack + * Block cipher constructions Luby-Rackoff and Lion + +Stream Ciphers +^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ + + * RC4 + * Salsa20/XSalsa20 + * ChaCha20 + * CTR and OFB modes also present a stream cipher interface + +Authentication Codes +^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ + + * HMAC + * CMAC (aka OMAC1) + * Obsolete designs CBC-MAC, ANSI X9.19 DES-MAC, and the + protocol-specific SSLv3 authentication code + +Other Useful Things +^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ + + * Key derivation functions for passwords, including PBKDF2 + * Password hashing functions, including bcrypt + * General key derivation functions KDF1 and KDF2 from IEEE 1363 + * PRFs from ANSI X9.42, SSL v3.0, TLS v1.0 + +Recommended Algorithms +--------------------------------- + +This section is by no means the last word on selecting which algorithms to +use. However, botan includes a sometimes bewildering array of possible +algorithms, and unless you're familiar with the latest developments in the +field, it can be hard to know what is secure and what is not. The following +attributes of the algorithms were evaluated when making this list: security, +support by other implementations, patent/IP status, and efficiency (in +roughly that order). + +If your data is in motion, strongly consider using TLS v1.2 as a pre built, +already standard and well studied protocol. + +Otherwise, if you simply *must* do something custom, use: + +* Message encryption: AES or Serpent in EAX or GCM mode + +* General hash functions: SHA-256 or SHA-512 + +* Message authentication: HMAC with SHA-256 + +* Public Key Encryption: RSA, 2048+ bit keys, with OAEP and SHA-256 + ("EME1(SHA-256)") + +* Public Key Signatures: RSA, 2048+ bit keys with PSS and SHA-512 + ("EMSA4(SHA-512)"), or ECDSA with SHA-256 or SHA-512 + +* Key Agreement: Diffie-Hellman or ECDH, with "KDF2(SHA-256)" diff --git a/doc/website/contents.rst b/doc/website/contents.rst index 56454e990..2e7214577 100644 --- a/doc/website/contents.rst +++ b/doc/website/contents.rst @@ -13,4 +13,5 @@ Contents pgpkey credits users + algos relnotes/contents diff --git a/doc/website/index.rst b/doc/website/index.rst index 62d322c52..ef05d41d4 100644 --- a/doc/website/index.rst +++ b/doc/website/index.rst @@ -6,12 +6,12 @@ Botan is a crypto library for C++ released under the permissive :doc:`BSD-2 license <license>`. It provides useful things like SSL/TLS, X.509 certificates, ECDSA, -AES, GCM, and bcrypt, plus a kitchen sink of crypto algorithms of -various utility. A third party open source implementation of `SSHv2 -<http://www.netsieben.com/products/ssh/>`_ that uses botan is also -available. In addition to C++ you can use botan from Python or Perl -(both included in tree), or with `Node.js -<https://github.com/justinfreitag/node-botan>`_. +AES, GCM, and bcrypt, plus a :doc:`kitchen sink <algos>` of crypto +algorithms of various utility. A third party open source +implementation of `SSHv2 <http://www.netsieben.com/products/ssh/>`_ +that uses botan is also available. In addition to C++ you can use +(parts of) botan from Python or Perl (both included in tree), or with +`Node.js <https://github.com/justinfreitag/node-botan>`_. See the :doc:`faq` for a list of common questions and answers, :doc:`download` for information about getting the latest release, @@ -24,4 +24,3 @@ Patches, "philosophical" bug reports, announcements of programs using the library, and related topics are also welcome. If you find what you believe to be a bug, please file a ticket in `Bugzilla <http://bugs.randombit.net/>`_. - |