[no description] https://git.osdyson.ru/mirror/pkgsrc/atom?h=TNF 2021-06-09T17:03:49Z 2021-06-09T17:03:49Z abs abs@pkgsrc.org 2021-06-09T17:03:49Z urn:sha1:c79c2aa26aae835d27d4f83d78c843239cb247f7 age is a simple, modern and secure file encryption tool, format, and Go library. It features small explicit keys, no config options, and UNIX-style composability The format specification is at age-encryption.org/v1. age was designed by @Benjojo12 and @FiloSottile. An alternative interoperable Rust implementation is available at github.com/str4d/rage. 2017-12-04T06:15:23Z jnemeth jnemeth@pkgsrc.org 2017-12-04T06:15:23Z urn:sha1:fc6cffec6afe05c442244e364b483ed0384c3ba0 This is a shell script to aid with creating a Certificate Authority and certificates for use with an OpenVPN server. See http://openvpn.net/howto.html for usage instructions along with the documentation provided in this package. 2016-07-09T21:43:24Z rillig rillig@pkgsrc.org 2016-07-09T21:43:24Z urn:sha1:d5a8ef2bff1c3e7a4e1b388446ac90769b524ff5 instrumented C code security fuzzer 2015-12-31T02:57:35Z agc agc@pkgsrc.org 2015-12-31T02:57:35Z urn:sha1:a096483bec75b0d2616d0535fe51d1e83e5ebb42 the sources taken at 20151230 from https://boringssl.googlesource.com/boringssl/ with portability fixes for NetBSD. It installs into ${PREFIX}/bssl to avoid conflicts with openssl. BoringSSL is a fork of OpenSSL that is designed to meet Google's needs. Although BoringSSL is an open source project, it is not intended for general use, as OpenSSL is. We don't recommend that third parties depend upon it. Doing so is likely to be frustrating because there are no guarantees of API or ABI stability. Programs ship their own copies of BoringSSL when they use it and we update everything as needed when deciding to make API changes. This allows us to mostly avoid compromises in the name of compatibility. It works for us, but it may not work for you. BoringSSL arose because Google used OpenSSL for many years in various ways and, over time, built up a large number of patches that were maintained while tracking upstream OpenSSL. As Google's product portfolio became more complex, more copies of OpenSSL sprung up and the effort involved in maintaining all these patches in multiple places was growing steadily. 2014-11-02T20:38:16Z agc agc@pkgsrc.org 2014-11-02T20:38:16Z urn:sha1:6ba18f253918ec43c429ab7f940ca4a630f6672c Secret Sharing Scheme, into the packages collection. In simple terms, this package provides a library for implementing the sharing of secrets and two tools for simple use-cases of the algorithm. The library implements what is known as Shamir's method for secret sharing in the Galois Field 2^8. In slightly simpler words, this is N-of-M secret-sharing byte-by-byte. Essentially this allows us to split a secret S into any M shares S1..SM such that any N of those shares can be used to reconstruct S but any less than N shares yields no information whatsoever. 2014-03-05T05:25:18Z agc agc@pkgsrc.org 2014-03-05T05:25:18Z urn:sha1:11efaf37e5993261c425d12a42f5277eb1dbe8f2 The libmerkletree library implements Merkle tree calculation, and also includes some higher-level functions to verify a file against a previously-generated Merkle tree. A Merkle tree is a hash tree calculated across blocks in data. Any block size can be specified in this implementation. A digest is calculated across each block in the data, and then a digest is calculated across blocks of the checksums, and this continues until only one block of digest exists. The hierarchical nature of this allows individual blocks of a file to be verified, even if other parts of the file have been modified. A degenerate case, in which the data is less than the blocksize, will mean that a single digest value for the block is calculated. This will be the same as the digest algorithm applied to the whole file. The digest calculations themselves are done by the libmultigest(3) library, and allow concatenation of multiple digests to produce a single large digest value. 2014-03-05T05:19:25Z agc agc@pkgsrc.org 2014-03-05T05:19:25Z urn:sha1:e84d4c67de2627a788f53e308a40a06d329eeccf The merkletree(1) command performs Merkle tree calculation and verification on the input data. This allows the establishment of the block positions (i.e. relative neighbourhood) of any changed data. 2014-03-05T05:14:42Z agc agc@pkgsrc.org 2014-03-05T05:14:42Z urn:sha1:24ca77f5da973d8df8c0e6693ed30f558af66975 libmultigest is a library interface to calculate multiple digests at the same time, without having to re-scan data. This is to protect against any single digest algorithm being found to have second pre-images. Up to 32 digests can be specified on the command line. The data being used as input to the digest can be modified by using a regular expression-based substitution operation, so that any Version Control System identifiers can be normalised before being digested. If no substitution regular expression is provided, the input data will be used as-is. The list of digests provided is: BLAKE2, CRC32C, MD5, RMD160, SHA1, SHA256, SHA512, SHA3-224, SHA3-256, SHA3-384, SHA3-512, SIZE, TIGER, TIGER2, WHIRLPOOL 2014-03-05T05:09:44Z agc agc@pkgsrc.org 2014-03-05T05:09:44Z urn:sha1:94b4b0f12d259218620fbb57a4e4f6b725f3ed80 The multigest utility calculates message digests of files or, if no file is specified, standard input. The list of possible algorithms is given in the libmultigest(3) manual page. The multigest utility is a simple wrapper for the various different algorithm implementations, , and was designed to be scalable as new message digest algorithms are developed. 2013-11-19T12:46:07Z tron tron@pkgsrc.org 2013-11-19T12:46:07Z urn:sha1:b35455379e7dd21ee2a7a99cd273091f12b588f5 SSLScan queries SSL services, such as HTTPS, in order to determine the ciphers that are supported. SSLScan is designed to be easy, lean and fast. The output includes prefered ciphers of the SSL service, the certificate and is in Text and XML formats.