@acryl/ts-lib-crypto
v1.1.5
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This library contains all algorithm implementations like signature verification and protocol entries like address used in Acryl.
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ts-lib-crypto
The acryl protocol is a set of rules named consensus by which nodes reach an agreement on the network, and format which nodes use to communicate with each other. It based on several well described hash and crypto algorithms and has predefined set of entries to operate on network. This library contains all algorithm implementations like signature verification and protocol entries like address used in acryl protocol. Also it contains utility methods and format converters to help 3rd party developers.
Agenda
- Installation
- Import styles
- Inputs
- Outputs
- Seed generation
- Keys and address
- Signatures
- Hashing
- Random
- Base encoding\decoding
- Messaging
- Encryption
- Seed encryption
- Utils
- Constants
- Interface
- More examples
Installation
npm install @acryl/ts-lib-crypto
Import styles
The is several ways of doing things when using ts-lib-crypto. You can import functions strait-forward:
import { address } from '@acryl/ts-lib-crypto'
address('my secret seed') // 3ETFsZEgwWZKshGbP67BPv9gy9zo2QybR5o
Or you can use a crypto constructor function:
import { crypto } from '@acryl/ts-lib-crypto'
const { address } = crypto()
address('my secret seed') // 3ETFsZEgwWZKshGbP67BPv9gy9zo2QybR5o
The second approach gives you more flexibility, using this approach you are able to embed the seed and use all seed-dependant functions without seed parameter:
import { crypto } from '@acryl/ts-lib-crypto'
const { address } = crypto({seed: 'my secret seed'})
address() // 3ETFsZEgwWZKshGbP67BPv9gy9zo2QybR5o
Inputs
ts-lib-crypto is even more flexible. Any function argument that represents binary data or seed could be passed in several ways. Let's take a look on the following example:
import { address } from '@acryl/ts-lib-crypto'
const seedString = 'uncle push human bus echo drastic garden joke sand warfare sentence fossil title color combine'
const seedBytesAsArray = [117, 110, 99, 108, 101, 32, 112, 117, 115, 104, 32, 104, 117, 109, 97, 110, 32, 98, 117, 115, 32, 101, 99, 104, 111, 32, 100, 114, 97, 115, 116, 105, 99, 32, 103, 97, 114, 100, 101, 110, 32, 106, 111, 107, 101, 32, 115, 97, 110, 100, 32, 119, 97, 114, 102, 97, 114, 101, 32, 115, 101, 110, 116, 101, 110, 99, 101, 32, 102, 111, 115, 115, 105, 108, 32, 116, 105, 116, 108, 101, 32, 99, 111, 108, 111, 114, 32, 99, 111, 109, 98, 105, 110, 101]
const seedBytesAsUintArray = Uint8Array.from(seedBytesAsArray)
address(seedString) // 3EHt9NerduyUBYP4qnf3FtnuNUeNfw22Lo9
address(seedBytesAsArray) // 3EHt9NerduyUBYP4qnf3FtnuNUeNfw22Lo9
address(seedBytesAsUintArray) // 3EHt9NerduyUBYP4qnf3FtnuNUeNfw22Lo9
As you can see seed parameter is treated the same way for number[] or Uint8Array. When you pass binary data is could be represented as number[] or Uint8Array or even base58:
import { address, randomSeed, sha256 } from '@acryl/ts-lib-crypto'
const seed = randomSeed() // uncle push human bus echo drastic garden joke sand warfare sentence fossil title color combine
const addressBase58 = address(seed) // 3EHt9NerduyUBYP4qnf3FtnuNUeNfw22Lo9
sha256(addressBase58) // Uint8Array [ 6, 139, 119, 185, 194, 139, 93, 170, 127, 39, 2, 117, 59, 54, 95, 218, 194, 229, 43, 222, 195, 19, 69, 186, 33, 48, 133, 134, 56, 205, 87, 76 ]
Here we got sha256 hash from address bytes represented as base58 (3EHt9NerduyUBYP4qnf3FtnuNUeNfw22Lo9). Be aware that sha256 value is not based on "3EHt9NerduyUBYP4qnf3FtnuNUeNfw22Lo9" string itself, this value was treated as a binary data and base58Decode was applied.
Outputs
As you've noticed from the previous section address() output is base58 string like:
// 3PAP3wkgbGjdd1FuBLn9ajXvo6edBMCa115
By default functions from the following list output base58 string as a result, no matter what import-style you choose:
keyPair
publicKey
privateKey
address
sharedKey
signBytes
If you prefer binary output, you can alter this behaviour and make those functions to return UInt8Array instead.
When using inline import style:
// You can use [/bytes] module when importing functions to set output to UInt8Array
import { address } from '@acryl/ts-lib-crypto/bytes'
address('uncle push human bus echo drastic garden joke sand warfare sentence fossil title color combine')
// => Uint8Array [ 1, 65, 81, 11, 84, 156, 131, 61, 5, 74, 107, 139, 210, 126, 45, 77, 131, 33, 228, 210, 166, 164, 176, 121, 140, 24 ]
When using crypto constructor function:
import { crypto } from '@acryl/ts-lib-crypto'
const { address } = crypto({ output: 'Bytes' })
address('uncle push human bus echo drastic garden joke sand warfare sentence fossil title color combine')
// => Uint8Array [ 1, 65, 81, 11, 84, 156, 131, 61, 5, 74, 107, 139, 210, 126, 45, 77, 131, 33, 228, 210, 166, 164, 176, 121, 140, 24 ]
Seed generation
The seed is a set of words or bytes that private and public keys are generated from. The usual Acryl seed looks like:
uncle push human bus echo drastic garden joke sand warfare sentence fossil title color combine
There are couple ways to generate seed:
const handWrittenSeedString = 'uncle push human bus echo drastic garden joke sand warfare sentence fossil title color combine'
const handWrittenSeedBytes = [117, 110, 99, 108, 101, 32, 112, 117, 115, 104, 32, 104, 117, 109, 97, 110, 32, 98, 117, 115, 32, 101, 99, 104, 111, 32, 100, 114, 97, 115, 116, 105, 99, 32, 103, 97, 114, 100, 101, 110, 32, 106, 111, 107, 101, 32, 115, 97, 110, 100, 32, 119, 97, 114, 102, 97, 114, 101, 32, 115, 101, 110, 116, 101, 110, 99, 101, 32, 102, 111, 115, 115, 105, 108, 32, 116, 105, 116, 108, 101, 32, 99, 111, 108, 111, 114, 32, 99, 111, 109, 98, 105, 110, 101]
Or if you need seed with nonce:
import { seedWithNonce, randomSeed, address } from '@acryl/ts-lib-crypto'
const nonce = 1
const seedphrase = randomSeed() // uncle push human bus echo drastic garden joke sand warfare sentence fossil title color combine
const seed = seedWithNonce(seedphrase, nonce)
//Now you can use seed as usual
address(seed)
Seed could be any string or number[] or Uint8Array or ISeedWithNonce.
There is also a way to generate seed-phrase using ts-lib-crypto described in the next section.
randomSeed
import { randomSeed } from '@acryl/ts-lib-crypto'
randomSeed() //uncle push human bus echo drastic garden joke sand warfare sentence fossil title color combine
You can also specify seed-phrase size:
randomSeed(3) //uncle push human
The default seed size is 15 words.
seedWordsList
If you want to get all the valid seed words that official acryl-client generates seed-phrase from, use seedWordsList the 2048 word array.
import { seedWordsList } from '@acryl/ts-lib-crypto'
console.log(seedWordsList) // [ 'abandon','ability','able', ... 2045 more items ]
Keys and address
publicKey
You could get public key either from raw seed-phrase or seed with nonce:
import { publicKey, seedWithNonce } from '@acryl/ts-lib-crypto'
const seed = 'uncle push human bus echo drastic garden joke sand warfare sentence fossil title color combine'
publicKey(seed) // 4KxUVD9NtyRJjU3BCvPgJSttoJX7cb3DMdDTNucLN121
publicKey(seedWithNonce(seed, 0)) // 4KxUVD9NtyRJjU3BCvPgJSttoJX7cb3DMdDTNucLN121
Or even from private key, it's usefull in some cases:
import { publicKey, privateKey, seedWithNonce } from '@acryl/ts-lib-crypto'
const seed = 'uncle push human bus echo drastic garden joke sand warfare sentence fossil title color combine'
const pk = privateKey(seed)
publicKey({ privateKey: pk }) // 4KxUVD9NtyRJjU3BCvPgJSttoJX7cb3DMdDTNucLN121
privateKey
Same with private key:
import { privateKey, seedWithNonce } from '@acryl/ts-lib-crypto'
const seed = 'uncle push human bus echo drastic garden joke sand warfare sentence fossil title color combine'
privateKey(seed) // 6zFSymZAoaua3gtJPbAUwM584tRETdKYdEG9BeEnZaGW
privateKey(seedWithNonce(seed, 99)) // 2dZ72j6j8hptaMGgyKAa8EhW59hWRZcjdB7ovWHsYvQK
keyPair
You could also obtain a keyPair:
import { keyPair } from '@acryl/ts-lib-crypto'
const seed = 'uncle push human bus echo drastic garden joke sand warfare sentence fossil title color combine'
keyPair(seed)
// => {
// publicKey: '4KxUVD9NtyRJjU3BCvPgJSttoJX7cb3DMdDTNucLN121',
// privateKey: '6zFSymZAoaua3gtJPbAUwM584tRETdKYdEG9BeEnZaGW'
// }
address
You can create an address for Mainnet:
import { address } from '@acryl/ts-lib-crypto'
const seed = 'uncle push human bus echo drastic garden joke sand warfare sentence fossil title color combine'
address(seed) // 3EHt9NerduyUBYP4qnf3FtnuNUeNfw22Lo9
or Testnet:
address(seed, 'K') // 3JKGBDjqX1n6wiiTi2rNSk3dEmgx6z8jDP9
alternatively You could use TEST_NET_CHAIN_ID constant instead of K literal like this:
import { address, TEST_NET_CHAIN_ID } from '@acryl/ts-lib-crypto'
const seed = 'uncle push human bus echo drastic garden joke sand warfare sentence fossil title color combine'
address(seed, TEST_NET_CHAIN_ID) // 3JKGBDjqX1n6wiiTi2rNSk3dEmgx6z8jDP9
There are several more useful constants, you can check them in [constants] section.
Signatures
signBytes
To sign arbitrary bytes or usually transaction bytes you should use the signBytes function. Here is sign with seed example:
import { signBytes } from '@acryl/ts-lib-crypto'
const bytes = [117, 110, 99, 108, 101]
const seed = 'uncle push human bus echo drastic garden joke sand warfare sentence fossil title color combine'
signBytes(seed, bytes) // 3JSskcaZVTuGzNSnWtMMRV2Zja3J1RJ8d1ff6CxqXocMaZdgooKnMHVtBmngt226ZXEyAQ4hxfphjZroArPSZKGC
Also you can use private key to sign bytes:
import { signBytes, privateKey } from '@acryl/ts-lib-crypto'
const bytes = [117, 110, 99, 108, 101]
const seed = 'uncle push human bus echo drastic garden joke sand warfare sentence fossil title color combine'
const key = privateKey(seed)
signBytes({ privateKey: key }, bytes) // B4ViRpS6wZ73hhTtP4hhrfV46rR3uoUn7jgsH5yfkKMpbJUxMmu48jf3QSdibRkQBN7Tkx9jReKDq1Rmp9acxPG
Remember that you can use base58 strings when it's about binary data, so you can represent bytes as base58 too:
signBytes({ privateKey: key }, 'Fk1sjwdPSwZ4bPwvpCGPH6')
You can learn more about it in the outputs section.
verifySignature
Verifying signature is a way to proof what particular bytes was signed with a particular private key or seed which correspond to public key that we are checking against:
import { signBytes, verifySignature, keyPair } from '@acryl/ts-lib-crypto'
//Signature roundtrip
const bytes = [117, 110, 99, 108, 101]
const seed = 'uncle push human bus echo drastic garden joke sand warfare sentence fossil title color combine'
const keys = keyPair(seed)
const signature = signBytes(keys, bytes)
verifySignature(keys.publicKey, bytes, signature) // true
Hashing
There are three hashing algorithms available in ts-lib-crypto.
blake2b
import { blake2b } from '@acryl/ts-lib-crypto'
const bytesArray = [117, 110, 99, 108, 101]
const bytesUint = Uint8Array.from([117, 110, 99, 108, 101])
const bytesBase58 = 'EFRr9cp'
blake2b(bytesArray)
blake2b(bytesUint)
blake2b(bytesBase58)
// => Uint8Array [ 122, 38, 241, 102, 100, 244, 136, 193, 182, 216, 40, 209, 223, 115, 125, 100, 77, 23, 86, 139, 154, 86, 87, 11, 106, 207, 185, 65, 75, 94, 194, 110 ]
keccak
import { keccak } from '@acryl/ts-lib-crypto'
const bytesArray = [117, 110, 99, 108, 101]
const bytesUint = Uint8Array.from([117, 110, 99, 108, 101])
const bytesBase58 = 'EFRr9cp'
keccak(bytesArray)
keccak(bytesUint)
keccak(bytesBase58)
// => Uint8Array [ 68, 157, 118, 188, 157, 237, 99, 78, 103, 42, 49, 205, 100, 63, 64, 230, 255, 158, 205, 7, 64, 216, 86, 193, 117, 174, 161, 81, 99, 13, 80, 156 ]
sha256
import { sha256 } from '@acryl/ts-lib-crypto'
const bytesArray = [117, 110, 99, 108, 101]
const bytesUint = Uint8Array.from([117, 110, 99, 108, 101])
const bytesBase58 = 'EFRr9cp'
sha256(bytesArray)
sha256(bytesUint)
sha256(bytesBase58)
// => Uint8Array [ 49, 7, 234, 3, 1, 162, 120, 148, 162, 18, 190, 81, 199, 107, 124, 91, 148, 168, 112, 11, 106, 206, 0, 36, 252, 2, 60, 241, 230, 133, 85, 141 ]
Random
There is several ways to get random values in ts-lib-crypto. To get an Uint8Array of random values simply use:
randomBytes
import { randomBytes } from '@acryl/ts-lib-crypto'
randomBytes(3) // Uint8Array [ 109, 155, 152 ]
If you want more control over the values format you could use:
random
import { random } from '@acryl/ts-lib-crypto'
const length = 3
random(length, 'Array8') // [ 19, 172, 130 ]
random(length, 'Array16') // [ 61736, 48261, 38395 ]
random(length, 'Array32') // [ 406628961, 307686833, 2604847943 ]
random(length, 'Buffer') // <Buffer db ff fb>
random(length, 'Uint8Array') // Uint8Array [ 137, 85, 212 ]
random(length, 'Uint16Array') // Uint16Array [ 35881, 51653, 55967 ]
random(length, 'Uint32Array') // Uint32Array [ 698646076, 2957331816, 2073997581 ]
Base encoding\decoding
import { base16Encode, base16Decode, base58Encode, base58Decode, base64Encode, base64Decode, randomBytes } from '@acryl/ts-lib-crypto'
const bytes = randomBytes(32)
// Base16 same as Hex
const base16String = base16Encode(bytes) // 2059ec5d9ed640b75722ec6a2ff76890e523ea4624887549db761d678ba8f899
const bytesFromBase16 = base16Decode(base16String)
// Base58
const base58String = base58Encode(bytes) // 3BHaM9Q5HhUobQ5oZAqjdkE9HRpmqMx4XLq3GXTMD5tU
const bytesFromBase58 = base58Decode(base58String)
// Base64
const base64String = base64Encode(bytes) // IFnsXZ7WQLdXIuxqL/dokOUj6kYkiHVJ23YdZ4uo+Jk=
const bytesFromBase64 = base64Decode(base64String)
Messaging
These methods implement acryl messaging protocol
- sharedKey
- messageDecrypt
- messageEncrypt
import { sharedKey, messageEncrypt, messageDecrypt, keyPair } from '@acryl/ts-lib-crypto'
const bobKeyPair = keyPair('Bob')
const aliceKeyPair = keyPair('Alice')
const msg = 'hello world'
// Alice derives shared key and encrypts message
const sharedKeyA = sharedKey(aliceKeyPair.privateKey, bobKeyPair.publicKey, 'acryl')
const encrypted = messageEncrypt(sharedKeyA, msg)
// Bob decrypts message derives shared key and decrypts message
const sharedKeyB = sharedKey(aliceKeyPair.privateKey, bobKeyPair.publicKey, 'acryl')
const decrypted = messageDecrypt(sharedKeyB, encrypted)
Encryption
This is low level functionality where you have to generate key and iv yourself
aesEncrypt
Encrypt bytes using AES algorithm.
import { aesEncrypt, randomBytes } from '@acryl/ts-lib-crypto'
const data = Uint8Arraty.from([1,2,3])
const mode = 'CBC' // Possible modes are 'CBC' | 'CFB' | 'CTR' | 'OFB' | 'ECB' | 'GCM'
const key = randomBytes(32)
const iv = randomBytes(32)
const encrypted = aesEncrypt(data, key, mode, iv)
aesDecrypt
Decrypt bytes using AES algorithm
const decrypted = aesDecrypt(encrypted, key, mode, iv)
Seed encryption
These functions implements seed encryption protocol used in DexClient and WavesKeeper
import { encryptSeed, decryptSeed } from '@acryl/ts-lib-crypto'
const seed = 'some secret seed phrase i use'
const encrypted = encryptSeed(seed, 'secure password')
const decrypted = decryptSeed(encryptSeed, 'secure password')
Utils
Utility functions designed to help 3rd party developers working with js binary types like Uint8Array and Buffer.
split
You can use split for splitting bytes to sub arrays.
import { split, randomBytes } from '@acryl/ts-lib-crypto'
const bytes = randomBytes(2 + 3 + 4 + 10)
split(bytes, 2, 3, 4)
// [
// Uint8Array [195, 206],
// Uint8Array [ 10, 208, 171 ],
// Uint8Array [ 36, 18, 254, 205 ],
// Uint8Array [ 244, 232, 55, 11, 113, 47, 80, 194, 170, 216 ]
// ]
Alternatively, you can use array deconstruction syntax:
const [a, b, c, rest] = split(bytes, 2, 3, 4)
// a = Uint8Array [195, 206],
// b = Uint8Array [ 10, 208, 171 ],
// c = Uint8Array [ 36, 18, 254, 205 ],
// rest = Uint8Array [ 244, 232, 55, 11, 113, 47, 80, 194, 170, 216 ]
concat
Concat is the opposite and pretty self-explanatory:
import { concat, randomBytes } from '@acryl/ts-lib-crypto'
const bytesA = randomBytes(2)
const bytesB = randomBytes(2)
concat(bytesA, bytesB) // Uint8Array [ 36, 18, 254, 205 ]
stringToBytes
import { stringToBytes } from '@acryl/ts-lib-crypto'
stringToBytes('Acryl!') // Uint8Array [ 65, 99, 114, 121, 108, 33 ]
bytesToString
import { bytesToString } from '@acryl/ts-lib-crypto'
bytesToString([ 65, 99, 114, 121, 108, 33 ]) // Acryl!
Constants
There is several useful constants declared at ts-lib-crypto:
const PUBLIC_KEY_LENGTH = 32
const PRIVATE_KEY_LENGTH = 32
const SIGNATURE_LENGTH = 64
const ADDRESS_LENGTH = 26
const MAIN_NET_CHAIN_ID = 65 // A
const TEST_NET_CHAIN_ID = 75 // K
Interface
The full IAcrylCrypto interface can be found on the project`s github in interface.ts.
//Seeds, keys and addresses
seedWithNonce: (seed: TSeed, nonce: number) => INonceSeed
keyPair: (seed: TSeed) => TKeyPair<TBytesOrBase58>
publicKey: (seed: TSeed) => TBytesOrBase58
privateKey: (seed: TSeed) => TBytesOrBase58
address: (seedOrPublicKey: TSeed | TPublicKey<TBinaryIn>, chainId?: TChainId) => TBytesOrBase58
//Signature
signBytes: (seedOrPrivateKey: TSeed | TPrivateKey<TBinaryIn>, bytes: TBinaryIn, random?: TBinaryIn) => TDesiredOut
//Hashing
blake2b: (input: TBinaryIn) => TBytes
keccak: (input: TBinaryIn) => TBytes
sha256: (input: TBinaryIn) => TBytes
//Base encoding\decoding
base64Encode: (input: TBinaryIn) => TBase64
base64Decode: (input: TBase64) => TBytes //throws (invalid input)
base58Encode: (input: TBinaryIn) => TBase58
base58Decode: (input: TBase58) => TBytes //throws (invalid input)
base16Encode: (input: TBinaryIn) => TBase16
base16Decode: (input: TBase16) => TBytes //throws (invalid input)
//Utils
stringToBytes: (input: string) => TBytes
bytesToString: (input: TBinaryIn) => string
split: (binary: TBinaryIn, ...sizes: number[]) => TBytes[]
concat: (...binaries: TBinaryIn[]) => TBytes
//Random
random<T extends keyof TRandomTypesMap>(count: number, type: T): TRandomTypesMap[T]
randomBytes: (size: number) => TBytes
randomSeed: (wordsCount?: number) => string
//Verification
verifySignature: (publicKey: TBinaryIn, bytes: TBinaryIn, signature: TBinaryIn) => boolean
verifyPublicKey: (publicKey: TBinaryIn) => boolean
verifyAddress: (address: TBinaryIn, optional?: { chainId?: TChainId, publicKey?: TBinaryIn }) => boolean
//Messaging
sharedKey: (privateKeyFrom: TBinaryIn, publicKeyTo: TBinaryIn, prefix: TRawStringIn) => TBytesOrBase58
messageDecrypt: (sharedKey: TBinaryIn, encryptedMessage: TBinaryIn) => string
messageEncrypt: (sharedKey: TBinaryIn, message: TRawStringIn) => TBytes
//Encryption
aesEncrypt: (data: TRawStringIn, secret: TBinaryIn, mode?: AESMode, iv?: TBinaryIn) => TBytes
aesDecrypt: (encryptedData: TBinaryIn, secret: TBinaryIn, mode?: AESMode, iv?: TBinaryIn) => TBytes
More examples
Every example used in this document and many more can be found on the project`s github inside examples folder.