How to Install and Uninstall python39-pycryptodomex Package on openSuSE Tumbleweed
Last updated: November 23,2024
1. Install "python39-pycryptodomex" package
Please follow the steps below to install python39-pycryptodomex on openSuSE Tumbleweed
$
sudo zypper refresh
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$
sudo zypper install
python39-pycryptodomex
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2. Uninstall "python39-pycryptodomex" package
Please follow the step by step instructions below to uninstall python39-pycryptodomex on openSuSE Tumbleweed:
$
sudo zypper remove
python39-pycryptodomex
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3. Information about the python39-pycryptodomex package on openSuSE Tumbleweed
Information for package python39-pycryptodomex:
-----------------------------------------------
Repository : openSUSE-Tumbleweed-Oss
Name : python39-pycryptodomex
Version : 3.20.0-1.4
Arch : x86_64
Vendor : openSUSE
Installed Size : 6.1 MiB
Installed : No
Status : not installed
Source package : python-pycryptodomex-3.20.0-1.4.src
Upstream URL : https://www.pycryptodome.org
Summary : Cryptographic library for Python
Description :
PyCryptodomex is a self-contained Python package of low-level
cryptographic primitives.
Unlike PyCryptodome, it resides in its own namespace `Cryptodome`.
PyCryptodome is a fork of PyCrypto. It brings several enhancements
with respect to the last official version of PyCrypto (2.6.1),
for instance:
* Authenticated encryption modes (GCM, CCM, EAX, SIV, OCB)
* Accelerated AES on Intel platforms via AES-NI
* First class support for PyPy
* Elliptic curves cryptography (NIST P-256 curve only)
* Better and more compact API (`nonce` and `iv` attributes for
ciphers, automatic generation of random nonces and IVs, simplified
CTR cipher mode, and more)
* SHA-3 (including SHAKE XOFs), SHA-512/t and BLAKE2 hash algorithms
* Salsa20 and ChaCha20 stream ciphers
* Poly1305 MAC
* ChaCha20-Poly1305 authenticated cipher
* scrypt and HKDF
* Deterministic (EC)DSA
* Password-protected PKCS#8 key containers
* Shamir's Secret Sharing scheme
* Random numbers get sourced directly from the OS (and not from a
CSPRNG in userspace)
* Simplified install process, including better support for Windows
* Cleaner RSA and DSA key generation (largely based on FIPS 186-4)
* Major clean ups and simplification of the code base
PyCryptodomex is not a wrapper to a separate C library like *OpenSSL*.
To the largest possible extent, algorithms are implemented in pure
Python. Only the pieces that are extremely critical to performance
(e.g. block ciphers) are implemented as C extensions.
-----------------------------------------------
Repository : openSUSE-Tumbleweed-Oss
Name : python39-pycryptodomex
Version : 3.20.0-1.4
Arch : x86_64
Vendor : openSUSE
Installed Size : 6.1 MiB
Installed : No
Status : not installed
Source package : python-pycryptodomex-3.20.0-1.4.src
Upstream URL : https://www.pycryptodome.org
Summary : Cryptographic library for Python
Description :
PyCryptodomex is a self-contained Python package of low-level
cryptographic primitives.
Unlike PyCryptodome, it resides in its own namespace `Cryptodome`.
PyCryptodome is a fork of PyCrypto. It brings several enhancements
with respect to the last official version of PyCrypto (2.6.1),
for instance:
* Authenticated encryption modes (GCM, CCM, EAX, SIV, OCB)
* Accelerated AES on Intel platforms via AES-NI
* First class support for PyPy
* Elliptic curves cryptography (NIST P-256 curve only)
* Better and more compact API (`nonce` and `iv` attributes for
ciphers, automatic generation of random nonces and IVs, simplified
CTR cipher mode, and more)
* SHA-3 (including SHAKE XOFs), SHA-512/t and BLAKE2 hash algorithms
* Salsa20 and ChaCha20 stream ciphers
* Poly1305 MAC
* ChaCha20-Poly1305 authenticated cipher
* scrypt and HKDF
* Deterministic (EC)DSA
* Password-protected PKCS#8 key containers
* Shamir's Secret Sharing scheme
* Random numbers get sourced directly from the OS (and not from a
CSPRNG in userspace)
* Simplified install process, including better support for Windows
* Cleaner RSA and DSA key generation (largely based on FIPS 186-4)
* Major clean ups and simplification of the code base
PyCryptodomex is not a wrapper to a separate C library like *OpenSSL*.
To the largest possible extent, algorithms are implemented in pure
Python. Only the pieces that are extremely critical to performance
(e.g. block ciphers) are implemented as C extensions.