URL and cookie safe UIDs
random bytes from browserify stand alone
TypeScript definitions for random-bytes
Isomorphic Library for Random Bytes
Generate cryptographically-secure random bytes in react native
Random bytes stream for node and browser
Isomorphic Library for Random Bytes
Common `crypto` snippets (generate random bytes, salt, hash password, etc)
Utility for generating memorable passwords and converting random bytes into human-readable phrases
pseudo random bytes in javascript for the browser
Similar to random-bytes-seed but returns a number between 0 and 1, similar to Math.random()
Retrieve a secure random byte string of a specified length
Creates a readable stream producing cryptographically strong pseudo-random data using `crypto.randomBytes()`
Zero-dep package to generate random bytes using a seed.
Random Bytes function. Works in node and browser.
Get a random buffer based on a seed. Useful for reproducible tests
Niceware-TS is a TypeScript implementation of Niceware, a method for generating or converting random bytes into English language passphrases.
Generate random bytes and numbers in Node.js and modern browsers with security in mind
Random bytes for react native, without the hassle of react-native crypto
Generate a readable stream of random bytes
random bytes from browserify stand alone
Get a buffer of random bytes from /dev/urandom file, time or another source
Generate cryptographically-secure random bytes in react native
Javascript obfuscation with random bytes inside
generate random bytes
High-level Rust wrapper for Linux Kernel Crypto API.
Pure-Rust Apple QuickTime File Format (QTFF) demuxer — atom walker, sample-table parser, codec FourCC resolution via oxideav-core registry
A simple git lfs file pulling implementation in pure rust. Can only pull files / folders and only support token-auth for now.
You can't get more random than random, but you can try really, really, really hard. `SuperRandom` combines sources of entropy to generate super-random bytes!
On Linux, Unix or OSX /dev/random can be used to create really secure passwords from random bytes. This gem provides an implementation to do just that.
Xelor was built for systems that require random bytes for processes faster than one second. Because normal random generation is based off of time as a seed, if there exists multiple calls towards SecureRandom or Rand within one second, the same number will be produced. This can be resolved on unix or linux based systems by making a system call to read /dev/urandom.
"The v9 UUID supports both sequential (time-based) and non-sequential (random) UUIDs with an optional prefix of up to four bytes, an optional checksum, and sufficient randomness to avoid collisions. It uses the UNIX timestamp for sequential UUIDs and CRC-8 for checksums. The version can be added if desired, but is omitted by default."
A Ruby library for encrypting and decrypting strings in the 3ncr.org/1#... envelope format (AES-256-GCM with a 12-byte random IV). Supports raw 32-byte AES keys, SHA3-256 derivation for high-entropy secrets, and Argon2id derivation for low-entropy secrets such as passwords.
AFINUS is ruby gem to destroy data and clean device. This is useful if you want to sell your computer, but you want to be sure that buyer can't recover your files. This simple script can make all your files non-recoverable even for experts, but if you work with high-sensitive data, you can also fill HD with random bytes (default 512kb).
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