PHP Extension
PHP Extension
secp256k1 Key Generation and Keccak-256
See more ECC Examples
Starting in v11.0.0, Chilkat supports both secp256k1 key generation and Keccak-256 directly. These algorithms are typically used for Bitcoin and Ethereum.Chilkat PHP Extension Downloads
<?php
include("chilkat.php");
$success = false;
// This example requires the Chilkat API to have been previously unlocked.
// See Global Unlock Sample for sample code.
// Create a Fortuna PRNG and seed it with system entropy.
// This will be our source of random data for generating the ECDSA private key.
$fortuna = new CkPrng();
$entropy = $fortuna->getEntropy(32,'base64');
$success = $fortuna->AddEntropy($entropy,'base64');
$ecc = new CkEcc();
// Generate a random ECDSA private key on the secp256k1 curve.
$privKey = new CkPrivateKey();
$success = $ecc->GenKey('secp256k1',$fortuna,$privKey);
if ($success == false) {
print $ecc->lastErrorText() . "\n";
exit;
}
print 'Successfully generated a sec256k1 key.' . "\n";
// Show how to compute the Keccak-256 hash in a few ways.
$sb = new CkStringBuilder();
$sb->Append('hello');
print 'keccak-256: ' . $sb->getHash('keccak-256','hex_lower','utf-8') . "\n";
// Output:
// keccak-256: 1c8aff950685c2ed4bc3174f3472287b56d9517b9c948127319a09a7a36deac8
// To keccak-256 hash binary data
$bd = new CkBinData();
$bd->AppendEncoded('00010203040506','hex');
print 'keccak-256: ' . $bd->getHash('keccak-256','hex_lower') . "\n";
// Output:
// keccak-256: 801560412425120fa609be232d6fa71c7f64f42aee7977267687dcc0a2f5aa63
?>