A lightweight wallet implementation. At the moment it supports key creation and conversion between various formats.
It is complemented by the following packages:
- ethereumjs-tx to sign transactions
- ethereumjs-icap to manipulate ICAP addresses
- store.js to use browser storage
Motivations are:
- be lightweight
- work in a browser
- use a single, maintained version of crypto library (and that should be in line with
ethereumjs-util
andethereumjs-tx
) - support import/export between various wallet formats
- support BIP32 HD keys
Features not supported:
- signing transactions
- managing storage (neither in node.js or the browser)
For information about the Wallet's API, please go to ./docs/classes/wallet.md.
You can import the Wallet
class like this
Node.js / ES5:
const { Wallet } = require('ethereumjs-wallet')
ESM / TypeScript:
import { Wallet } from 'ethereumjs-wallet'
Importing various third party wallets is possible through the thirdparty
submodule:
Node.js / ES5:
const { thirdparty } = require('ethereumjs-wallet')
ESM / TypeScript:
import { thirdparty } from 'ethereumjs-wallet'
Please go to ./docs/README.md for more info.
To use BIP32 HD wallets, first include the hdkey
submodule:
Node.js / ES5:
const { hdkey } = require('ethereumjs-wallet')
ESM / TypeScript:
import { hdkey } from 'ethereumjs-wallet'
Please go to ./docs/classes/ethereumhdkey.md for more info.
Provider Engine is
not very actively maintained
and support has been removed along v1.0.0
release, see
issue #115 for context.
You can use the the old src/provider-engine.ts
code (see associated PR) as some boilerplate
for your own integration if needed.
The options
is an optional object hash, where all the serialization parameters can be fine tuned:
- uuid - UUID. One is randomly generated.
- salt - Random salt for the
kdf
. Size must match the requirements of the KDF (key derivation function). Random number generated viacrypto.getRandomBytes
if nothing is supplied. - iv - Initialization vector for the
cipher
. Size must match the requirements of the cipher. Random number generated viacrypto.getRandomBytes
if nothing is supplied. - kdf - The key derivation function, see below.
- dklen - Derived key length. For certain
cipher
settings, this must match the block sizes of those. - cipher - The cipher to use. Names must match those of supported by
OpenSSL
, e.g.aes-128-ctr
oraes-128-cbc
.
Depending on the kdf
selected, the following options are available too.
For pbkdf2
:
c
- Number of iterations. Defaults to 262144.prf
- The only supported (and default) value ishmac-sha256
. So no point changing it.
For scrypt
:
n
- Iteration count. Defaults to 262144.r
- Block size for the underlying hash. Defaults to 8.p
- Parallelization factor. Defaults to 1.
The following settings are favoured by the Go Ethereum implementation and we default to the same:
kdf
:scrypt
dklen
:32
n
:262144
r
:8
p
:1
cipher
:aes-128-ctr
See our organizational documentation for an introduction to EthereumJS
as well as information on current standards and best practices.
If you want to join for work or do improvements on the libraries have a look at our contribution guidelines.
MIT License
Copyright (C) 2016 Alex Beregszaszi