simplito / elliptic-php
Fast elliptic curve cryptography
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Dependents: 264
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Open Issues: 10
Requires
- ext-gmp: *
- simplito/bn-php: ~1.1.0
Requires (Dev)
- phpbench/phpbench: @dev
- phpunit/phpunit: *
README
Information
This library is a PHP port of elliptic, a great JavaScript ECC library.
- Supported curve types: Short Weierstrass, Montgomery, Edwards, Twisted Edwards.
- Curve 'presets':
secp256k1
,p192
,p224
,p256
,p384
,p521
,curve25519
,ed25519
.
This software is licensed under the MIT License.
Projects which use Fast ECC PHP library: PrivMX WebMail, ...
Benchmarks
+------------------------+----------------+--------+-----+------+
| subject | mode | rstdev | its | revs |
+------------------------+----------------+--------+-----+------+
| elliptic#genKeyPair | 323.682ops/s | 2.72% | 5 | 50 |
| mdanter#genKeyPair | 13.794ops/s | 3.18% | 5 | 50 |
+------------------------+----------------+--------+-----+------+
| elliptic#sign | 307.228ops/s | 3.82% | 5 | 50 |
| mdanter#sign | 14.118ops/s | 2.12% | 5 | 50 |
+------------------------+----------------+--------+-----+------+
| elliptic#verify | 93.913ops/s | 5.93% | 5 | 50 |
| mdanter#verify | 6.859ops/s | 2.95% | 5 | 50 |
+------------------------+----------------+--------+-----+------+
| elliptic#dh | 135.166ops/s | 1.67% | 5 | 50 |
| mdanter#dh | 14.302ops/s | 0.89% | 5 | 50 |
+------------------------+----------------+--------+-----+------+
| elliptic#EdDSASign | 296.756ops/s | 1.09% | 5 | 50 |
+------------------------+----------------+--------+-----+------+
| elliptic#EdDSAVerify | 67.481ops/s | 2.76% | 5 | 50 |
+------------------------+----------------+--------+-----+------+
Installation
You can install this library via Composer:
composer require simplito/elliptic-php
Implementation details
ECDSA is using deterministic k
value generation as per RFC6979. Most of
the curve operations are performed on non-affine coordinates (either projective
or extended), various windowing techniques are used for different cases.
NOTE: curve25519
could not be used for ECDSA, use ed25519
instead.
All operations are performed in reduction context using bn-php.
API
ECDSA
<?php use Elliptic\EC; // Create and initialize EC context // (better do it once and reuse it) $ec = new EC('secp256k1'); // Generate keys $key = $ec->genKeyPair(); // Sign message (can be hex sequence or array) $msg = 'ab4c3451'; $signature = $key->sign($msg); // Export DER encoded signature to hex string $derSign = $signature->toDER('hex'); // Verify signature echo "Verified: " . (($key->verify($msg, $derSign) == TRUE) ? "true" : "false") . "\n"; // CHECK WITH NO PRIVATE KEY // Public key as '04 + x + y' $pub = "049a1eedae838f2f8ad94597dc4368899ecc751342b464862da80c280d841875ab4607fb6ce14100e71dd7648dd6b417c7872a6ff1ff29195dabd99f15eff023e5"; // Signature MUST be either: // 1) hex-string of DER-encoded signature; or // 2) DER-encoded signature as byte array; or // 3) object with two hex-string properties (r and s) // case 1 $sig = '30450220233f8bab3f5df09e3d02f45914b0b519d2c04d13ac6964495623806a015df1cd022100c0c279c989b79885b3cc0f117643317bc59414bfb581f38e03557b8532f06603'; // case 2 $sig = [48,69,2,32,35,63,139,171,63,93,240,158,61,2,244,89,20,176,181,25,210,192,77,19,172,105,100,73,86,35,128,106,1,93,241,205,2,33,0,192,194,121,201,137,183,152,133,179,204,15,17,118,67,49,123,197,148,20,191,181,129,243,142,3,85,123,133,50,240,102,3]; // case 3 $sig = ['r' => '233f8bab3f5df09e3d02f45914b0b519d2c04d13ac6964495623806a015df1cd', 's' => 'c0c279c989b79885b3cc0f117643317bc59414bfb581f38e03557b8532f06603']; // Import public key $key = $ec->keyFromPublic($pub, 'hex'); // Verify signature echo "Verified: " . (($key->verify($msg, $sig) == TRUE) ? "true" : "false") . "\n";
EdDSA
<?php use Elliptic\EdDSA; // Create and initialize EdDSA context // (better do it once and reuse it) $ec = new EdDSA('ed25519'); // Create key pair from secret $key = $ec->keyFromSecret('61233ca4590acd'); // hex string or array of bytes // Sign message (can be hex sequence or array) $msg = 'ab4c3451'; $signature = $key->sign($msg)->toHex(); // Verify signature echo "Verified: " . (($key->verify($msg, $signature) == TRUE) ? "true" : "false") . "\n"; // CHECK WITH NO PRIVATE KEY // Import public key $pub = '2763d01c334250d3e2dda459e5e3f949f667c6bbf0a35012c77ad40b00f0374d'; $key = $ec->keyFromPublic($pub, 'hex'); // Verify signature $signature = '93899915C2919181A3D244AAAC032CE78EF76D2FFC0355D4BE2C70F48202EBC5F2BB0541D236182F55B11AC6346B524150695E5DE1FEA570786E1CC1F7999404'; echo "Verified: " . (($key->verify($msg, $signature) == TRUE) ? "true" : "false") . "\n";
ECDH
<?php use Elliptic\EC; $ec = new EC('curve25519'); // Generate keys $key1 = $ec->genKeyPair(); $key2 = $ec->genKeyPair(); $shared1 = $key1->derive($key2->getPublic()); $shared2 = $key2->derive($key1->getPublic()); echo "Both shared secrets are BN instances\n"; echo $shared1->toString(16) . "\n"; echo $shared2->toString(16) . "\n";
NOTE: .derive()
returns a BN instance. The resulting hex string is not zero-padded to constant size. Note that when interoperating with other libraries or using the result in a hash function.
Using EC directly
Use case examples:
Computing public key from private
use Elliptic\EC; $ec = new EC('secp256k1'); $priv_hex = "751ce088f64404e5889bf7e9e5c280b200b2dc158461e96b921df39a1dbc6635"; $pub_hex = "03a319a1d10a91ada9a01ab121b81ae5f14580083a976e74945cdb014a4a52bae6"; $priv = $ec->keyFromPrivate($priv_hex); if ($pub_hex == $priv->getPublic(true, "hex")) { echo "Success\n"; } else { echo "Fail\n"; }
Verifying Bitcoin Message Signature
use Elliptic\EC; use StephenHill\Base58; // see: https://en.bitcoin.it/wiki/List_of_address_prefixes const MainNetId = "\x00"; const TestNetId = "\x6F"; const PrefixNetIdMap = [ "1" => MainNetId, "m" => TestNetId ]; function pubKeyAddress($pubkey, $netid = MainNetId) { $b58 = new Base58(); $pubenc = hex2bin($pubkey->encode("hex", true)); $pubhash = $netid . hash('ripemd160', hash('sha256', $pubenc, true), true); $checksum = substr( hash('sha256', hash('sha256', $pubhash, true), true), 0, 4); return $b58->encode($pubhash . $checksum); } function verifySignature($message, $signature, $address) { $signbin = base64_decode($signature); $signarr = [ "r" => bin2hex(substr($signbin, 1, 32)), "s" => bin2hex(substr($signbin, 33, 32)) ]; $nv = ord(substr($signbin, 0, 1)) - 27; if ($nv != ($nv & 7)) return false; $recid = ($nv & 3); $compressed = ($nv & 4) != 0; $msglen = strlen($message); $hash = hash('sha256', hash('sha256', "\x18Bitcoin Signed Message:\n" . chr($msglen) . $message, true)); $ec = new EC('secp256k1'); $pub = $ec->recoverPubKey($hash, $signarr, $recid); $result = pubKeyAddress($pub, PrefixNetIdMap[$address[0]]); return $result == $address; } $message = "I like signatures"; $signature = "H/zugYITIQTk8ZFWeXkbGCV2MzvMtbh+CnKBctbM9tP2UCb1B4LdyWFQuTZKxLdIDgP8Vsvl+0AEkBlY1HoyVw8="; $address = "mxQadqtYQXYeUsSqdMdJxZwkzxbd2tuMdc"; if (verifySignature($message, $signature, $address)) { echo "Success\n"; } else { echo "Fail\n"; }
Verifying Ethereum Signature
use Elliptic\EC; use kornrunner\Keccak; function pubKeyToAddress($pubkey) { return "0x" . substr(Keccak::hash(substr(hex2bin($pubkey->encode("hex")), 1), 256), 24); } function verifySignature($message, $signature, $address) { $msglen = strlen($message); $hash = Keccak::hash("\x19Ethereum Signed Message:\n{$msglen}{$message}", 256); $sign = ["r" => substr($signature, 2, 64), "s" => substr($signature, 66, 64)]; $recid = ord(hex2bin(substr($signature, 130, 2))) - 27; if ($recid != ($recid & 1)) return false; $ec = new EC('secp256k1'); $pubkey = $ec->recoverPubKey($hash, $sign, $recid); return $address == pubKeyToAddress($pubkey); } $address = "0x5a214a45585b336a776b62a3a61dbafd39f9fa2a"; $message = "I like signatures"; // signature returned by eth.sign(address, message) $signature = "0xacb175089543ac060ed48c3e25ada5ffeed6f008da9eaca3806e4acb707b9481401409ae1f5f9f290f54f29684e7bac1d79b2964e0edcb7f083bacd5fc48882e1b"; if (verifySignature($message, $signature, $address)) { echo "Success\n"; } else { echo "Fail\n"; }
ECDH (secret based, base58 format)
For usage in ed25519 oriented platforms like e.g. BigChainDB who use base58 encoded public / private keys.
use Elliptic\EdDSA; use StephenHill\Base58; $mnemonic = "scheme spot photo card baby mountain device kick cradle pact join borrow"; $secret = hash_pbkdf2('sha512', $mnemonic, 'mnemonic', 2048); $ec = new EdDSA('ed25519'); $kp = $ec->keyFromSecret($secret); assert($secret == $kp->getSecret('hex')); echo "Secret: " . $kp->getSecret('hex') . PHP_EOL; echo "Private: " . $kp->priv()->toString('hex') . PHP_EOL; echo "Public: " . $kp->getPublic('hex') . PHP_EOL; $b58 = new Base58(); echo PHP_EOL; echo "B58 Private: " . $b58->encode(hex2bin($kp->priv()->toString('hex'))) . PHP_EOL; echo "B58 Public: " . $b58->encode(hex2bin($kp->getPublic('hex'))) . PHP_EOL;
BIP32 Public Parent Key -> Public Child Key derivation example
<?php use Elliptic\EC; use BN\BN; $ec = new EC('secp256k1'); // See: http://bip32.org using Derive From BIP32 Key // xpub661MyMwAqRbcFtXgS5sYJABqqG9YLmC4Q1Rdap9gSE8NqtwybGhePY2gZ29ESFjqJoCu1Rupje8YtGqsefD265TMg7usUDFdp6W1EGMcet8 $c_par = "873dff81c02f525623fd1fe5167eac3a55a049de3d314bb42ee227ffed37d508"; $K_par = "0339a36013301597daef41fbe593a02cc513d0b55527ec2df1050e2e8ff49c85c2"; // Derived public child key // Derivation path Simple: m/i // Keypair index i: 2018 // xpub68Gmy5EVb2Begkah8BxugKchT5SExW5p9gEHBLnEvYSuwVppt2TzD3WTjxNk14R8pmHbz3MHB9n75M2zNYgkJUCwV9pYwU9Z21Awj7Cr5U9 $expected_c_child = "a7470737ffde1458292e19e838534f400ad3c0f72e12f08eff79dee4fce11bed"; $expected_K_child = "0376499d06f9e9df71d7ee08d13a91337fa2b92182d4afcddf917b8d9983eb4615"; $i = 2018; $I_key = hex2bin($c_par); $I_data = hex2bin($K_par) . pack("N", $i); $I = hash_hmac("sha512", $I_data, $I_key); $I_L = substr($I, 0, 64); $I_R = substr($I, 64, 64); $c_i = $I_R; $K_par_point = $ec->curve->decodePoint($K_par, "hex"); $I_L_point = $ec->g->mul(new BN($I_L, 16)); $K_i = $K_par_point->add($I_L_point); $K_i = $K_i->encodeCompressed("hex"); if ($expected_c_child == $c_i && $expected_K_child == $K_i) { echo "Success!\n"; } else { echo "Failure!\n"; }