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Package detail

c32check

stacks-network297.5kMIT2.0.0TypeScript support: included

Crockford base-32 checksum encoding

blockchain, id, auth, authentication, bitcoin, blockchain auth, blockchain authentication, blockchainid, blockchain id, bitcoin auth, bitcoin authentication, bitcoin login, blockchain login, authorization, login, signin, sso, crypto, cryptography, token, blockstack, blockstack auth, profile, identity, ethereum

readme

c32check

Crockford base-32 encoding library with 4-byte checksum.

This library is meant for generating and decoding addresses on the Stacks blockchain.

How it works

Each c32check string encodes a 1-byte version and a 4-byte checksum. When decoded as a hex string, the wire format looks like this:

0      1                             n+1             n+5
|------|-----------------------------|---------------|
version     n-byte hex payload          4-byte hash

If version is the version byte (a 1-byte number) and payload is the raw bytes (e.g. as a string), then the checksum is calculated as follows:

checksum = sha256(sha256(version + payload)).substring(0,4)

In other words, the checksum is the first four bytes of the double-sha256 of the bytestring concatenation of the version and payload. This is similar to base58check encoding, for example.

c32 Addresses

The Stacks blockchain uses c32-encoded public key hashes as addresses. Specifically, a c32check address is a c32check-encoded ripemd160 hash.

Examples

> c32 = require('c32check')
{ c32encode: [Function: c32encode],
  c32decode: [Function: c32decode],
  c32checkEncode: [Function: c32checkEncode],
  c32checkDecode: [Function: c32checkDecode],
  c32address: [Function: c32address],
  c32addressDecode: [Function: c32addressDecode],
  versions:
   { mainnet: { p2pkh: 22, p2sh: 20 },
     testnet: { p2pkh: 26, p2sh: 21 } },
  c32ToB58: [Function: c32ToB58],
  b58ToC32: [Function: b58ToC32] }

c32encode, c32decode

> c32check.c32encode(Buffer.from('hello world').toString('hex'))
'38CNP6RVS0EXQQ4V34'
> c32check.c32decode('38CNP6RVS0EXQQ4V34')
'68656c6c6f20776f726c64'
> Buffer.from('68656c6c6f20776f726c64', 'hex').toString()
'hello world'

c32checkEncode, c32checkDecode

> version = 12
12
> c32check.c32checkEncode(version, Buffer.from('hello world').toString('hex'))
'CD1JPRV3F41VPYWKCCGRMASC8'
> c32check.c32checkDecode('CD1JPRV3F41VPYWKCCGRMASC8')
[ 12, '68656c6c6f20776f726c64' ]
> Buffer.from('68656c6c6f20776f726c64', 'hex').toString()
'hello world'

c32address, c32addressDecode

Note: These methods only work on ripemd160 hashes

> hash160 = 'a46ff88886c2ef9762d970b4d2c63678835bd39d'
'a46ff88886c2ef9762d970b4d2c63678835bd39d'
> version = c32check.versions.mainnet.p2pkh
22
> c32check.c32address(version, hash160)
'SP2J6ZY48GV1EZ5V2V5RB9MP66SW86PYKKNRV9EJ7'
> c32check.c32addressDecode('SP2J6ZY48GV1EZ5V2V5RB9MP66SW86PYKKNRV9EJ7')
[ 22, 'a46ff88886c2ef9762d970b4d2c63678835bd39d' ]

c32ToB58, b58ToC32

Note: Common address versions are converted between c32check and base58check seamlessly, in order to accommodate Stacks addresses.

> b58addr = '16EMaNw3pkn3v6f2BgnSSs53zAKH4Q8YJg'
'16EMaNw3pkn3v6f2BgnSSs53zAKH4Q8YJg'
> c32check.b58ToC32(b58addr)
'SPWNYDJ3STG7XH7ERWXMV6MQ7Q6EATWVY5Q1QMP8'
> c32check.c32ToB58('SPWNYDJ3STG7XH7ERWXMV6MQ7Q6EATWVY5Q1QMP8')
'16EMaNw3pkn3v6f2BgnSSs53zAKH4Q8YJg'
> b58addr = '3D2oetdNuZUqQHPJmcMDDHYoqkyNVsFk9r'
'3D2oetdNuZUqQHPJmcMDDHYoqkyNVsFk9r'
> c32check.b58ToC32(b58addr)
'SM1Y6EXF21RZ9739DFTEQKB1H044BMM0XVCM4A4NY'
> c32check.c32ToB58('SM1Y6EXF21RZ9739DFTEQKB1H044BMM0XVCM4A4NY')
'3D2oetdNuZUqQHPJmcMDDHYoqkyNVsFk9r'