This is a SHA-1 hash generator by JavaScript.
JavaScript implementation of SCRAM-SHA-1 SASL mechanism.
native js function for hashing messages with SHA-1
XMPP SASL SCRAM-SHA-1 for JavaScript
jsSHA implements the complete Secure Hash Standard (SHA) family (SHA-1, SHA-224/256/384/512, SHA3-224/256/384/512, SHAKE128/256, cSHAKE128/256, and KMAC128/256) with HMAC
Fast SHA-1 digest hash based on Uint8Array, pure JavaScript.
Tiny SHA-1 hasher for Node and browsers
High-performance synchronous SHA-1 implementation for JavaScript
Lightning fast hash functions for browsers and Node.js using hand-tuned WebAssembly binaries (MD4, MD5, SHA-1, SHA-2, SHA-3, Keccak, BLAKE2, BLAKE3, PBKDF2, Argon2, bcrypt, scrypt, Adler-32, CRC32, CRC32C, RIPEMD-160, HMAC, xxHash, SM3, Whirlpool)
Provide standard and secure cryptographic algorithms for NodeJS. Support MD5, SHA-1, SHA-256, RC4, Rabbit, AES, DES, PBKDF2, HMAC, OFB, CFB, CTR, CBC, Base64
TypeScript definitions for sasl-scram-sha-1
PBKDF2 with HMAC (with SHA-1, SHA-256, SHA-384 or SHA-512) as the PRF function for Node.js and browsers.
TypeScript definitions for @xmpp/sasl-scram-sha-1
Simple and fast API for effective cross platform cryptography with minimal extra size. Uses SHA-1 and Curve25519.
WebAssembly port of SHA-1
Calculates a SHA-1 for given data
Following googlecode project crypto-js, provide standard and secure cryptographic algorithms for NodeJS. Support MD5, SHA-1, SHA-256, RC4, Rabbit, AES, DES, PBKDF2, HMAC, OFB, CFB, CTR, CBC, Base64
SHA-1 adapter for WebAssembly and JS implementations
Calculates a SHA-1 for given data
Lightning fast hash functions for browsers and Node.js using hand-tuned WebAssembly binaries (MD4, MD5, SHA-1, SHA-2, SHA-3, Keccak, BLAKE2, BLAKE3, PBKDF2, Argon2, bcrypt, scrypt, Adler-32, CRC32, CRC32C, RIPEMD-160, HMAC, xxHash, SM3, Whirlpool)
Calculates a SHA-1 of a given blob
SHA-1 implementation in JavaScript, support nodejs and browser(String/Buffer).
Thin SHA-1/256/384/512 hashing helper that wraps Node's `crypto.createHash` in a typed class.
Lightning fast hash functions for browsers and Node.js using hand-tuned WebAssembly binaries (MD4, MD5, SHA-1, SHA-2, SHA-3, Keccak, BLAKE2, BLAKE3, PBKDF2, Argon2, bcrypt, scrypt, Adler-32, CRC32, CRC32C, RIPEMD-160, HMAC, xxHash, SM3, Whirlpool)
SHA-1 hash function. This crate is deprecated! Use the sha1 crate instead.
secure hash algorithm 1
A linter for keyrings
`rs_sha1` is a Rust implementation of the SHA-1 cryptographic hash algorithm, part of the larger `rs_shield` project. This package provides SHA-1 hashing functionality in a standalone manner, ideal for when only SHA-1 is required. Alternatively, for those seeking a comprehensive set of cryptographic functions, this same algorithm is included within the broader `rs_shield` library bundle. The focus of `rs_sha1` and the larger project is on performance, safety, and openness, with a commitment to ongoing maintenance and enhancement.
SHA-1 hash function with collision detection and mitigation
This project is a pure Rust implementation of three widely used cryptographic hash algorithms: SHA-1, SHA-256, and SHA-512. These algorithms are implemented from scratch, without relying on external libraries for the core hashing logic.
High-performance X.509 certificate scanner and extractor for binary files
Sequoia's reimplementation of the GnuPG interface
Bergshamra — Pure Rust XML Security library (XML-DSig, XML-Enc, C14N)
XML Canonicalization (C14N) for Bergshamra XML Security library
Core types and constants for the Bergshamra XML Security library
Cryptographic algorithm implementations for Bergshamra XML Security library
A cryptographic hash function faster than MD5, SHA-1, SHA-2, and SHA-3 for 64-bit systems.
This gem sets the digested value before validation and validates uniqueness of the digested value.
A rails plugin to set the digested value before validation and validate uniqueness.
BLAKE2b is a cryptographic hash function faster than MD5, SHA-1, SHA-2, and SHA-3 for 64-bit systems.
This implementation conforms to RFC 2898, and has been tested using the test vectors in Appendix B of RFC 3962. Note, however, that while those specifications use HMAC-SHA-1, this implementation defaults to HMAC-SHA-256. (SHA-256 provides a longer bit length. In addition, NIST has stated that SHA-1 should be phased out due to concerns over recent cryptanalytic attacks.)
Generate UUID(rfc4122) version 3(based on md5) or version 5(based on sha-1).
Visit the github PR using the Commit SHA-1
This implementation conforms to RFC 2898, and has been tested using the test vectors in Appendix B of RFC 3962. Note, however, that while those specifications use HMAC-SHA-1, this implementation defaults to HMAC-SHA-256. (SHA-256 provides a longer bit length. In addition, NIST has stated that SHA-1 should be phased out due to concerns over recent cryptanalytic attacks.)
Compute MD5, SHA-1, SHA-256, SHA-512, and CRC32 checksums for strings and files. HMAC-SHA256 and HMAC-SHA512 with timing-safe verification. File checksums use streaming reads for constant memory usage. Supports generic dispatch via digest/file_digest, multi-algorithm single-pass computation, multi-file hashing, file comparison, and verification.
A String subclass to simplify handling of: 1. Binary data, including HEX encoding and Bin64 encoding. 2. Encryption such as RSA, AES, and digest methods such as SHA and MD5.
The corelib project is an ActionScript 3 Library that contains a number of classes and utilities for working with ActionScript 3. These include classes for MD5 and SHA 1 hashing, Image encoders, and JSON serialization as well as general String, Number and Date APIs.
The corelib project is an ActionScript 3 Library that contains a number of classes and utilities for working with ActionScript 3. These include classes for MD5 and SHA 1 hashing, Image encoders, and JSON serialization as well as general String, Number and Date APIs.
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