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Crypto primitives for libp2p in JavaScript
This repo contains the JavaScript implementation of the crypto primitives needed for libp2p. This is based on this go implementation.
- Install
- Usage
- API
- Contribute
- License
npm install --save libp2p-cryptoconst crypto = require('libp2p-crypto')
crypto.generateKeyPair('RSA', 2048, (err, key) => {
})Exposes an interface to the Keyed-Hash Message Authentication Code (HMAC) as defined in U.S. Federal Information Processing Standards Publication 198. An HMAC is a cryptographic hash that uses a key to sign a message. The receiver verifies the hash by recomputing it using the same key.
hash: Stringsecret: Buffercallback: Function
data: Buffercallback: Function
Expoes an interface to AES encryption (formerly Rijndael), as defined in U.S. Federal Information Processing Standards Publication 197.
This uses CTR mode.
key: BufferThe key, if length16thenAES 128is used. For length32,AES 256is used.iv: BufferMust have length16.callback: Function
data: Buffercallback: Function
data: Buffercallback: Function
Depending on the environment this is either an instance of node-webcrypto-ossl or the result of window.crypto.
The generateKeyPair, marshalPublicKey, and
marshalPrivateKey functions accept a string type argument.
Currently the 'RSA' and 'ed25519' types are supported, although ed25519 keys support only signing and
verification of messages. For encryption / decryption support, RSA keys should be used.
Installing the libp2p-crypto-secp256k1 module adds support for the
'secp256k1' type, which supports ECDSA signatures using the secp256k1 elliptic curve popularized by Bitcoin. This module
is not installed by default, and should be explicitly depended on if your project requires secp256k1 support.
type: String, see Supported Key Types above.bits: NumberMinimum of 1024callback: Function
Generates a keypair of the given type and bitsize.
curve: String, one of'P-256','P-384','P-521'is currently supportedcallback: Function
Generates an ephemeral public key and returns a function that will compute the shared secret key.
Focuses only on ECDH now, but can be made more general in the future.
Calls back with an object of the form
{
key: Buffer,
genSharedKey: Function
}cipherType: String, one of'AES-128','AES-256','Blowfish'hashType: String, one of'SHA1',SHA256,SHA512secret: Buffercallback: Function
Generates a set of keys for each party by stretching the shared key.
Calls back with an object of the form
{
k1: {
iv: Buffer,
cipherKey: Buffer,
macKey: Buffer
},
k2: {
iv: Buffer,
cipherKey: Buffer,
macKey: Buffer
}
}key: keys.rsa.RsaPublicKey | keys.ed25519.Ed25519PublicKey | require('libp2p-crypto-secp256k1').Secp256k1PublicKeytype: String, see Supported Key Types above.
Converts a public key object into a protobuf serialized public key.
buf: Buffer
Converts a protobuf serialized public key into its representative object.
key: keys.rsa.RsaPrivateKey | keys.ed25519.Ed25519PrivateKey | require('libp2p-crypto-secp256k1').Secp256k1PrivateKeytype: String, see Supported Key Types above.
Converts a private key object into a protobuf serialized private key.
buf: Buffercallback: Function
Converts a protobuf serialized private key into its representative object.
number: Number
Generates a Buffer with length number populated by random bytes.
Feel free to join in. All welcome. Open an issue!
This repository falls under the IPFS Code of Conduct.
