|
|
|
|
Changelog for python311-pycryptodome-3.20.0-lp154.qubes.2.50.x86_64.rpm :
* Fri Jan 26 2024 Dirk Müller - update to 3.20.0: * Added support for TurboSHAKE128 and TurboSHAKE256. * Added method Crypto.Hash.new() to generate a hash object given a hash name. * Added support for AES-GCM encryption of PBES2 and PKCS#8 containers. * Added support for SHA-2 and SHA-3 algorithms in PBKDF2 when creating PBES2 and PKCS#8 containers. * Export of RSA keys accepts the prot_params dictionary as parameter to control the number of iterations for PBKDF2 and scrypt. * C unit tests also run on non-x86 architectures. * GH#787: Fixed autodetect logic for GCC 14 in combination with LTO. * Sat Dec 30 2023 Dirk Müller - update to 3.19.1 (bsc#1218564, CVE-2023-52323): * Fixed a side-channel leakage with OAEP decryption that could be exploited to carry out a Manger attack * Mon Nov 27 2023 Dirk Müller - update to 3.19.0: * The ``update()`` methods of TupleHash128 and TupleHash256 objects can now hash multiple items (byte strings) at once. * Added support for ECDH, with ``Crypto.Protocol.DH``. * GH#754: due to a bug in ``cffi``, do not use it on Windows with Python 3.12+. * Wed Jun 28 2023 ecsos - Add %{?sle15_python_module_pythons} * Thu Jun 01 2023 Dirk Müller - update to 3.18.0: * Added support for DER BOOLEAN encodings. * The library now compiles on Windows ARM64. Thanks to Niyas Sait. * GH#722: ``nonce`` attribute was not correctly set for XChaCha20_Poly1305 ciphers. Thanks to Liam Haber. * GH#728: Workaround for a possible x86 emulator bug in Windows for ARM64. * GH#739: OID encoding for arc 2 didn\'t accept children larger than 39. Thanks to James. * Correctly check that the scalar matches the point when importing an ECC private key. * Fri May 05 2023 Matej Cepl - Fix %%files to work with %pyproject_ style building. * Mon Mar 27 2023 Dirk Müller - update to 3.17.0: * Added support for the Counter Mode KDF defined in SP 800-108 Rev 1. * Reduce the minimum tag length for the EAX cipher to 2 bytes. * An RSA object has 4 new properties for the CRT coefficients: ``dp``, ``dq``, ``invq`` and ``invq`` (``invp`` is the same value as the existing ``u``). * GH#526: improved typing for ``RSA.construct``. * GH#534: reduced memory consumption when using a large number of cipher objects. * GH#598: fixed missing error handling for ``Util.number.inverse``. * GH#629: improved typing for ``AES.new`` and the various mode-specific types it returns. Thanks to Greg Werbin. * GH#653: added workaround for an alleged GCC compiler bug that affected Ed25519 code compiled for AVX2. * GH#658: attribute ``curve`` of an ECC key was not always the preferred curve name, as it used to be in v3.15.0 (independently of the curve name specified when generating the key). * GH#637: fixed typing for legacy modules ``PKCS1_v1_5`` and ``PKCS1_PSS``, as their ``verify()`` returned a boolean. * GH#664: with OCB mode, nonces of maximum length (15 bytes) were actually used as 14 bytes nonces. After this fix, data that was encrypted in past using the (default) nonce length of 15 bytes can still be decrypted by reducing the nonce to its first 14 bytes. * GH#705: improved typing for ``nonce``, ``iv``, and ``IV`` parameters of cipher objects. * Mon Mar 27 2023 Dirk Müller - update to 3.17.0: * ++++++++++++++++++++++++++ * New features * Added support for the Counter Mode KDF defined in SP 800-108 Rev 1. * Reduce the minimum tag length for the EAX cipher to 2 bytes. * An RSA object has 4 new properties for the CRT coefficients * ``dp``, ``dq``, ``invq`` and ``invq`` (``invp`` is the same value * as the existing ``u``). * Resolved issues * GH#526: improved typing for ``RSA.construct``. * GH#534: reduced memory consumption when using a large number * of cipher objects. * GH#598: fixed missing error handling for ``Util.number.inverse``. * GH#629: improved typing for ``AES.new`` and the various * mode-specific types it returns. Thanks to Greg Werbin. * GH#653: added workaround for an alleged GCC compiler bug * hat affected Ed25519 code compiled for AVX2. * GH#658: attribute ``curve`` of an ECC key was not always * he preferred curve name, as it used to be in v3.15.0 * independently of the curve name specified when generating * he key). * GH#637: fixed typing for legacy modules ``PKCS1_v1_5`` and ``PKCS1_PSS``, * as their ``verify()`` returned a boolean. * GH#664: with OCB mode, nonces of maximum length (15 bytes * were actually used as 14 bytes nonces. * After this fix, data that was encrypted in past using the * default) nonce length of 15 bytes can still be decrypted * by reducing the nonce to its first 14 bytes. * GH#705: improved typing for ``nonce``, ``iv``, and ``IV`` parameters * of cipher objects. * Other changes * Build PyPy wheels only for versions 3.8 and 3.9, and not for 3.7 anymore. * Tue Dec 06 2022 Yogalakshmi Arunachalam - Update to version 3.16.0 * New features Build wheels for musl Linux. Thanks to Ben Raz. * Resolved issues GH#639: ARC4 now also works with \'keys\' as short as 8 bits. GH#669: fix segfaults when running in a manylinux2010 i686 image. * Tue Jun 28 2022 Torsten Gruner - update to 3.15.0: * Add support for curves Ed25519 and Ed448, including export and import of keys. * Add support for EdDSA signatures. * Add support for Asymmetric Key Packages (RFC5958) to import private keys. * GH#620: for Crypto.Util.number.getPrime , do not sequentially scan numbers searching for a prime. * Wed Mar 09 2022 pgajdosAATTsuse.com- do not use setup.py test construct https://trello.com/c/me9Z4sIv/121-setuppy-test-leftovers * Tue Feb 15 2022 Dirk Müller - update to 3.14.1: * GH#595: Fixed memory leak for GMP integers. * Add support for curve NIST P-192. * Add support for curve NIST P-224. * GH#590: Fixed typing info for ``Crypto.PublicKey.ECC``. * Relaxed ECDSA requirements for FIPS 186 signatures and accept any SHA-2 or * SHA-3 hash. ``sign()`` and ``verify()`` will be performed even if the hash is stronger than the ECC key. * Sat Dec 11 2021 Dirk Müller - update to 3.12.0: * ECC keys in the SEC1 format can be exported and imported. * Add support for KMAC128, KMAC256, TupleHash128, and TupleHash256 (NIST SP-800 185). * Add support for KangarooTwelve. * GH#563: An asymmetric key could not be imported as a ``memoryview``. * GH#566: cSHAKE128/256 generated a wrong output for customization strings * GH#582: CBC decryption generated the wrong plaintext when the input and the output were the same buffer. * Sat Oct 16 2021 Dirk Müller - update to 3.11.0: * GH#512: Especially for very small bit sizes, ``Crypto.Util.number.getPrime()`` was occasionally generating primes larger than given the bit size. * GH#552: Correct typing annotations for ``PKCS115_Cipher.decrypt()``. * GH#555: ``decrypt()`` method of a PKCS#1v1.5 cipher returned a ``bytearray`` instead of ``bytes``. * GH#557: External DSA domain parameters were accepted even when the modulus (``p``) was not prime. This affected ``Crypto.PublicKey.DSA.generate()`` and ``Crypto.PublicKey.DSA.construct()``. * Added cSHAKE128 and cSHAKE256 (of SHA-3 family). * GH#558: The flag RTLD_DEEPBIND passed to ``dlopen()`` is not well supported by `address sanitizers `_. It is now possible to set the environment variable ``PYCRYPTDOME_DISABLE_DEEPBIND`` to drop that flag and allow security testing. * Thu Mar 04 2021 Dirk Müller - update to 3.10.1: * Fixed a potential memory leak when initializing block ciphers. * GH#466: ``Crypto.Math.miller_rabin_test()`` was still using the system random source and not the one provided as parameter. * GH#469: RSA objects have the method ``public_key()`` like ECC objects. The old method ``publickey()`` is still available for backward compatibility. * GH#476: ``Crypto.Util.Padding.unpad()`` was raising an incorrect exception in case of zero-length inputs. Thanks to Captainowie. * GH#491: better exception message when ``Counter.new()`` is called with an integer ``initial_value`` than doesn\'t fit into ``nbits`` bits. * GH#496: added missing ``block_size`` member for ECB cipher objects. Thanks to willem. * GH#500: ``nonce`` member of an XChaCha20 cipher object was not matching the original nonce. * Tue Dec 01 2020 Hans-Peter Jansen - update to 3.9.9: * GH#435: Fixed Crypto.Util.number.size for negative numbers * Tue Aug 04 2020 Dirk Mueller - update to 3.9.8: * GH#426: The Shamir\'s secret sharing implementation is not actually compatible with ``ssss``. Added an optional parameter to enable interoperability. * GH#427: Skip altogether loading of ``gmp.dll`` on Windows. * GH#420: Fix incorrect CFB decryption when the input and the output are the same buffer. * Speed up Shamir\'s secret sharing routines. Thanks to ncarve. * Thu Mar 19 2020 Marketa Calabkova - Update to 3.9.7 * Align stack of functions using SSE2 intrinsics to avoid crashes, when compiled with gcc on 32-bit x86 platforms. * Prevent key_to_english from creating invalid data when fed with keys of length not multiple of 8. * Fix blocking RSA signing/decryption when key has very small factor. * fixed memory leak for operations that use memoryviews when cffi is not installed. * RSA OAEP decryption was not verifying that all PS bytes are zero. * Fixed wrong ASN.1 OID for HMAC-SHA512 in PBE2. * Sun Nov 10 2019 Hans-Peter Jansen - Update to 3.9.2 (10 November 2019): + New features * Add Python 3.8 wheels for Mac. + Resolved issues * GH#308: Avoid allocating arrays of __m128i on the stack, to cope with buggy compilers. * GH#322: Remove blanket -O3 optimization for gcc and clang, to cope with buggy compilers. * GH#337: Fix typing stubs for signatures. * GH#338: Deal with gcc installations that don\'t have x86intrin.h.- Update to version 3.9.1 (1 November 2019): + New features * Add Python 3.8 wheels for Linux and Windows. + Resolved issues * GH#328: minor speed-up when importing RSA.- Add export LC_ALL=en_US.UTF-8 to %build, %install and %check to fix the build on older distros (as done from Thomas Bechtold in python-pycryptodomex) * Tue Sep 10 2019 Tomáš Chvátal - Update to 3.9.0: * Add support for loading PEM files encrypted with AES256-CBC. * Add support for XChaCha20 and XChaCha20-Poly1305 ciphers. * Add support for bcrypt key derivation function (Crypto.Protocol.KDF.bcrypt). * Add support for left multiplication of an EC point by a scalar. * Add support for importing ECC and RSA keys in the new OpenSSH format. * Thu May 30 2019 Martin Liška - Update Source to point to github. * Thu May 30 2019 Martin Liška - Update to 3.8.2 * GH#291: fix strict aliasing problem, emerged with GCC 9.1. * Fri May 24 2019 Martin Liška - Use -fno-strict-aliasing in order to bypass: https://github.com/Legrandin/pycryptodome/issues/291. * Tue May 14 2019 Marketa Calabkova - Update to 3.8.1 * Add support for loading PEM files encrypted with AES192-CBC, AES256-CBC, and AES256-GCM. * When importing ECC keys, ignore EC PARAMS section that was included by some openssl commands. * repr() did not work for ECC.EccKey. * Minimal length for Blowfish cipher is 32 bits, not 40 bits. 3.8.0 * Speed-up ECC performance. ECDSA is 33 times faster on the NIST P-256 curve. * Added support for NIST P-384 and P-521 curves. * EccKey has new methods size_in_bits() and size_in_bytes(). * Support HMAC-SHA224, HMAC-SHA256, HMAC-SHA384, and HMAC-SHA512 in PBE2/PBKDF2. * DER objects were not rejected if their length field had a leading zero. * Allow legacy RC2 ciphers to have 40-bit keys. * point_at_infinity() becomes an instance method for Crypto.PublicKey.ECC.EccKey, from a static one. 3.7.3 * GH#258: False positive on PSS signatures when externally provided salt is too long. * Wed Jan 09 2019 Jonathan Brownell - Protect older platforms from encountering \"Suggests:\" keyword * Sun Jan 06 2019 Hans-Peter Jansen - fix tarball: use the one from PyPI... * Thu Nov 29 2018 Hans-Peter Jansen - Update to 3.7.2 - Resolved issues * GH#242: Fixed compilation problem on ARM platforms.- Update to 3.7.1 - New features * Added type stubs to enable static type checking with mypy. Thanks to Michael Nix. * New ``update_after_digest`` flag for CMAC. - Resolved issues * GH#232: Fixed problem with gcc 4.x when compiling ``ghash_clmul.c``. * GH#238: Incorrect digest value produced by CMAC after cloning the object. * Method ``update()`` of an EAX cipher object was returning the underlying CMAC object, instead of the EAX object itself. * Method ``update()`` of a CMAC object was not throwing an exception after the digest was computed (with ``digest()`` or ``verify()``). * Thu Nov 29 2018 Hans-Peter Jansen - checked in python-pycrytodomex as separate package on request of Dirk Müller * Sun Nov 25 2018 Hans-Peter Jansen - fixed source url * Thu Nov 01 2018 Hans-Peter Jansen - Update to 3.7.0 - New features * Added support for Poly1305 MAC (with AES and ChaCha20 ciphers for key derivation). * Added support for ChaCha20-Poly1305 AEAD cipher. * New parameter output for Crypto.Util.strxor.strxor, Crypto.Util.strxor.strxor_c, encrypt and decrypt methods in symmetric ciphers (Crypto.Cipher package). output is a pre-allocated buffer (a bytearray or a writeable memoryview) where the result must be stored. This requires less memory for very large payloads; it is also more efficient when encrypting (or decrypting) several small payloads. - Resolved issues * GH#266: AES-GCM hangs when processing more than 4GB at a time on x86 with PCLMULQDQ instruction. - Breaks in compatibility * Drop support for Python 3.3. * Remove Crypto.Util.py3compat.unhexlify and Crypto.Util.py3compat.hexlify. * With the old Python 2.6, use only ctypes (and not cffi) to interface to native code.- Clean up spec- pycryptodomex package spec added * Fri Oct 19 2018 Dirk Mueller - remove pycryptodomex copy in this package container * Mon Sep 03 2018 Marketa Calabkova - Update to 3.6.6 - Resolved issues: * Fix vulnerability on AESNI ECB with payloads smaller than 16 bytes.- Update to 3.5.5 - Resolved issues * Fixed incorrect AES encryption/decryption with AES acceleration on x86 due to gcc’s optimization and strict aliasing rules. * More prime number candidates than necessary where discarded as composite due to the limited way D values were searched in the Lucas test. * Fixed ResouceWarnings and DeprecationWarnings.- Update to 3.5.4 - New features: * Build Python 3.7 wheels on Linux, Windows and Mac. - Resolved issues: * More meaningful exceptions in case of mismatch in IV length (CBC/OFB/CFB modes). * Tue Jul 03 2018 hpjAATTurpla.net- Update to 3.6.3 (21 June 2018) - Resolved issues * GH#175: Fixed incorrect results for CTR encryption/decryption with more than 8 blocks.- Update to 3.6.2 (19 June 2018) - New features * ChaCha20 accepts 96 bit nonces (in addition to 64 bit nonces) as defined in RFC7539. * Accelerate AES-GCM on x86 using PCLMULQDQ instruction. * Accelerate AES-ECB and AES-CTR on x86 by pipelining AESNI instructions. * As result of the two improvements above, on x86 (Broadwell): - AES-ECB and AES-CTR are 3x faster - AES-GCM is 9x faster - Resolved issues * On Windows, MPIR library was stilled pulled in if renamed to ``gmp.dll``. - Breaks in compatibility * In ``Crypto.Util.number``, functions ``floor_div`` and ``exact_div`` have been removed. Also, ``ceil_div`` is limited to non-negative terms only.- suggesting libgmp10 and python-cffi- add license file tag * Wed May 16 2018 tchvatalAATTsuse.com- Provide/obsolete also python-crypto for py2 package * Mon May 07 2018 hpjAATTurpla.net- fix condition to act as drop in replacement for python-pycrypto * Fri May 04 2018 hpjAATTurpla.net- Update to 3.6.1 (15 April 2018) - New features * Added Google Wycheproof tests (https://github.com/google/wycheproof) for RSA, DSA, ECDSA, GCM, SIV, EAX, CMAC. * New parameter ``mac_len`` (length of MAC tag) for CMAC. - Resolved issues * In certain circumstances (at counter wrapping, which happens on average after 32 GBi) AES GCM produced wrong ciphertexts. * Method ``encrypt()`` of AES SIV cipher could be still called, whereas only ``encrypt_and_digest()`` should be allowed.- Update to 3.6.0 (8 April 2018) - New features * Introduced ``export_key`` and deprecated ``exportKey`` for DSA and RSA key objects. * Ciphers and hash functions accept ``memoryview`` objects in input. * Added support for SHA-512/224 and SHA-512/256. - Resolved issues * Reintroduced `Crypto.__version__` variable as in PyCrypto. * Fixed compilation problem with MinGW.- Update to 3.5.1 (8 March 2018) - Resolved issues * GH#142. Fix mismatch with declaration and definition of addmul128.- Update to 3.5.0 (7 March 2018) - New features * Import and export of ECC curves in compressed form. * The initial counter for a cipher in CTR mode can be a byte string (in addition to an integer). * Faster PBKDF2 for HMAC-based PRFs (at least 20x for short passwords, more for longer passwords). Thanks to Christian Heimes for pointing out the implementation was under-optimized. * The salt for PBKDF2 can be either a string or bytes (GH#67). * Ciphers and hash functions accept data as `bytearray`, not just binary strings. * The old SHA-1 and MD5 hash functions are available even when Python\'s own `hashlib` does not include them. - Resolved issues * Without libgmp, modular exponentiation (since v3.4.8) crashed on 32-bit big-endian systems. - Breaks in compatibility * Removed support for Python < 2.6.- Update to 3.4.12 (5 February 2018) - Resolved issues * GH#129. pycryptodomex could only be installed via wheels.- Update to 3.4.11 (5 February 2018) - Resolved issues * GH#121. the record list was still not correct due to PEP3147 and __pycache__ directories. Thanks again to John O\'Brien.- Update to 3.4.10 (2 February 2018) - Resolved issues * When creating ElGamal keys, the generator wasn\'t a square residue: ElGamal encryption done with those keys cannot be secure under the DDH assumption. Thanks to Weikeng Chen.- Update to 3.4.9 (1 February 2018) - New features * More meaningful error messages while importing an ECC key. - Resolved issues * GH#123 and #125. The SSE2 command line switch was not always passed on 32-bit x86 platforms. * GH#121. The record list (--record) was not always correctly filled for the pycryptodomex package. Thanks to John W. O\'Brien.- Update to 3.4.8 (27 January 2018) - New features * Added a native extension in pure C for modular exponentiation, optimized for SSE2 on x86. In the process, we drop support for the arbitrary arithmetic library MPIR on Windows, which is painful to compile and deploy. The custom modular exponentiation is 130% (160%) slower on an Intel CPU in 32-bit (64-bit) mode, compared to MPIR. Still, that is much faster that CPython\'s own `pow()` function which is 900% (855%) slower than MPIR. Support for the GMP library on Unix remains. * Added support for *manylinux * wheels. * Support for Python 3.7. - Resolved issues * The DSA parameter \'p\' prime was created with 255 bits cleared (but still with the correct strength). * GH#106. Not all docs were included in the tar ball. Thanks to Christopher Hoskin. * GH#109. ECDSA verification failed for DER encoded signatures. Thanks to Alastair Houghton. * Human-friendly messages for padding errors with ECB and CBC. * Mon Sep 18 2017 hpjAATTurpla.net- provide python-crypto 2.6.1 * Wed Sep 06 2017 toddrme2178AATTgmail.com- Initial version
|
|
|