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239 lines
7.0 KiB
Markdown
239 lines
7.0 KiB
Markdown
# Elliptic [![Build Status](https://secure.travis-ci.org/indutny/elliptic.png)](http://travis-ci.org/indutny/elliptic) [![Coverage Status](https://coveralls.io/repos/indutny/elliptic/badge.svg?branch=master&service=github)](https://coveralls.io/github/indutny/elliptic?branch=master) [![Code Climate](https://codeclimate.com/github/indutny/elliptic/badges/gpa.svg)](https://codeclimate.com/github/indutny/elliptic)
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[![Saucelabs Test Status](https://saucelabs.com/browser-matrix/gh-indutny-elliptic.svg)](https://saucelabs.com/u/gh-indutny-elliptic)
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Fast elliptic-curve cryptography in a plain javascript implementation.
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NOTE: Please take a look at http://safecurves.cr.yp.to/ before choosing a curve
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for your cryptography operations.
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## Incentive
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ECC is much slower than regular RSA cryptography, the JS implementations are
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even more slower.
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## Benchmarks
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```bash
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$ node benchmarks/index.js
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Benchmarking: sign
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elliptic#sign x 262 ops/sec ±0.51% (177 runs sampled)
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eccjs#sign x 55.91 ops/sec ±0.90% (144 runs sampled)
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------------------------
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Fastest is elliptic#sign
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========================
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Benchmarking: verify
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elliptic#verify x 113 ops/sec ±0.50% (166 runs sampled)
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eccjs#verify x 48.56 ops/sec ±0.36% (125 runs sampled)
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------------------------
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Fastest is elliptic#verify
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========================
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Benchmarking: gen
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elliptic#gen x 294 ops/sec ±0.43% (176 runs sampled)
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eccjs#gen x 62.25 ops/sec ±0.63% (129 runs sampled)
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------------------------
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Fastest is elliptic#gen
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========================
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Benchmarking: ecdh
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elliptic#ecdh x 136 ops/sec ±0.85% (156 runs sampled)
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------------------------
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Fastest is elliptic#ecdh
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========================
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```
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## API
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### ECDSA
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```javascript
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var EC = require('elliptic').ec;
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// Create and initialize EC context
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// (better do it once and reuse it)
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var ec = new EC('secp256k1');
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// Generate keys
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var key = ec.genKeyPair();
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// Sign the message's hash (input must be an array, or a hex-string)
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var msgHash = [ 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 ];
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var signature = key.sign(msgHash);
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// Export DER encoded signature in Array
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var derSign = signature.toDER();
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// Verify signature
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console.log(key.verify(msgHash, derSign));
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// CHECK WITH NO PRIVATE KEY
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var pubPoint = key.getPublic();
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var x = pubPoint.getX();
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var y = pubPoint.getY();
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// Public Key MUST be either:
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// 1) '04' + hex string of x + hex string of y; or
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// 2) object with two hex string properties (x and y); or
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// 3) object with two buffer properties (x and y)
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var pub = pubPoint.encode('hex'); // case 1
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var pub = { x: x.toString('hex'), y: y.toString('hex') }; // case 2
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var pub = { x: x.toBuffer(), y: y.toBuffer() }; // case 3
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var pub = { x: x.toArrayLike(Buffer), y: y.toArrayLike(Buffer) }; // case 3
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// Import public key
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var key = ec.keyFromPublic(pub, 'hex');
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// Signature MUST be either:
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// 1) DER-encoded signature as hex-string; or
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// 2) DER-encoded signature as buffer; or
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// 3) object with two hex-string properties (r and s); or
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// 4) object with two buffer properties (r and s)
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var signature = '3046022100...'; // case 1
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var signature = new Buffer('...'); // case 2
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var signature = { r: 'b1fc...', s: '9c42...' }; // case 3
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// Verify signature
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console.log(key.verify(msgHash, signature));
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```
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### EdDSA
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```javascript
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var EdDSA = require('elliptic').eddsa;
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// Create and initialize EdDSA context
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// (better do it once and reuse it)
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var ec = new EdDSA('ed25519');
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// Create key pair from secret
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var key = ec.keyFromSecret('693e3c...'); // hex string, array or Buffer
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// Sign the message's hash (input must be an array, or a hex-string)
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var msgHash = [ 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 ];
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var signature = key.sign(msgHash).toHex();
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// Verify signature
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console.log(key.verify(msgHash, signature));
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// CHECK WITH NO PRIVATE KEY
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// Import public key
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var pub = '0a1af638...';
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var key = ec.keyFromPublic(pub, 'hex');
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// Verify signature
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var signature = '70bed1...';
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console.log(key.verify(msgHash, signature));
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```
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### ECDH
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```javascript
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var EC = require('elliptic').ec;
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var ec = new EC('curve25519');
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// Generate keys
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var key1 = ec.genKeyPair();
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var key2 = ec.genKeyPair();
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var shared1 = key1.derive(key2.getPublic());
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var shared2 = key2.derive(key1.getPublic());
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console.log('Both shared secrets are BN instances');
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console.log(shared1.toString(16));
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console.log(shared2.toString(16));
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```
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three and more members:
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```javascript
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var EC = require('elliptic').ec;
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var ec = new EC('curve25519');
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var A = ec.genKeyPair();
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var B = ec.genKeyPair();
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var C = ec.genKeyPair();
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var AB = A.getPublic().mul(B.getPrivate())
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var BC = B.getPublic().mul(C.getPrivate())
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var CA = C.getPublic().mul(A.getPrivate())
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var ABC = AB.mul(C.getPrivate())
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var BCA = BC.mul(A.getPrivate())
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var CAB = CA.mul(B.getPrivate())
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console.log(ABC.getX().toString(16))
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console.log(BCA.getX().toString(16))
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console.log(CAB.getX().toString(16))
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```
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NOTE: `.derive()` returns a [BN][1] instance.
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## Supported curves
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Elliptic.js support following curve types:
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* Short Weierstrass
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* Montgomery
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* Edwards
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* Twisted Edwards
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Following curve 'presets' are embedded into the library:
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* `secp256k1`
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* `p192`
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* `p224`
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* `p256`
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* `p384`
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* `p521`
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* `curve25519`
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* `ed25519`
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NOTE: That `curve25519` could not be used for ECDSA, use `ed25519` instead.
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### Implementation details
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ECDSA is using deterministic `k` value generation as per [RFC6979][0]. Most of
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the curve operations are performed on non-affine coordinates (either projective
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or extended), various windowing techniques are used for different cases.
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All operations are performed in reduction context using [bn.js][1], hashing is
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provided by [hash.js][2]
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### Related projects
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* [eccrypto][3]: isomorphic implementation of ECDSA, ECDH and ECIES for both
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browserify and node (uses `elliptic` for browser and [secp256k1-node][4] for
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node)
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#### LICENSE
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This software is licensed under the MIT License.
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Copyright Fedor Indutny, 2014.
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Permission is hereby granted, free of charge, to any person obtaining a
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copy of this software and associated documentation files (the
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"Software"), to deal in the Software without restriction, including
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without limitation the rights to use, copy, modify, merge, publish,
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distribute, sublicense, and/or sell copies of the Software, and to permit
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persons to whom the Software is furnished to do so, subject to the
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following conditions:
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The above copyright notice and this permission notice shall be included
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in all copies or substantial portions of the Software.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
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OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
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MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN
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NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
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DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
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OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
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USE OR OTHER DEALINGS IN THE SOFTWARE.
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[0]: http://tools.ietf.org/html/rfc6979
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[1]: https://github.com/indutny/bn.js
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[2]: https://github.com/indutny/hash.js
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[3]: https://github.com/bitchan/eccrypto
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[4]: https://github.com/wanderer/secp256k1-node
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