260 lines
8.5 KiB
JavaScript
260 lines
8.5 KiB
JavaScript
/*!
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* rsa-compat
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* Copyright(c) 2016 AJ ONeal <aj@daplie.com> https://daplie.com
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* Apache-2.0 OR MIT (and hence also MPL 2.0)
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*/
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'use strict';
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require('buffer-v6-polyfill');
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var RSA = {};
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var NOBJ = {};
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function create(deps) {
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var crypto = require('crypto');
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deps = deps || {};
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deps.NOBJ = {};
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deps.RSA = RSA;
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try {
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RSA._URSA = require('ursa');
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} catch(e) {
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// ignore
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}
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RSA.utils = require('./lib/key-utils.js');
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RSA.utils.toWebsafeBase64 = function (b64) {
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return b64.replace(/[+]/g, "-").replace(/\//g, "_").replace(/=/g,"");
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};
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RSA.utils._forgeBytesToBuf = function (bytes) {
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var forge = require("node-forge");
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return new Buffer(forge.util.bytesToHex(bytes), "hex");
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};
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RSA._internal = require('./lib/node');//.create(deps);
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RSA._thumbprintInput = function (n, e) {
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// #L147 const rsaThumbprintTemplate = `{"e":"%s","kty":"RSA","n":"%s"}`
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return new Buffer('{"e":"'+ e + '","kty":"RSA","n":"'+ n +'"}', 'ascii');
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};
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RSA.thumbprint = function (keypair) {
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var publicKeyJwk = RSA.exportPublicJwk(keypair);
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if (!publicKeyJwk.e || !publicKeyJwk.n) {
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throw new Error("You must provide an RSA jwk with 'e' and 'n' (the public components)");
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}
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var input = RSA._thumbprintInput(publicKeyJwk.n, publicKeyJwk.e);
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console.log('thumbprint input', input.toString('ascii'));
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var base64Digest = crypto.createHash('sha256').update(input).digest('base64');
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return RSA.utils.toWebsafeBase64(base64Digest);
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};
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RSA.generateKeypair = function (length, exponent, options, cb) {
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if (!RSA._URSA && /arm|mips/i.test(require('os').arch) && !RSA._SLOW_WARN) {
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console.warn("================================================================");
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console.warn(" WARNING");
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console.warn("================================================================");
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console.warn("");
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console.warn("WARNING: You are generating an RSA key using pure JavaScript on");
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console.warn(" a VERY SLOW cpu. This could take DOZENS of minutes!");
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console.warn("");
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console.warn(" We recommend installing a C compiler and 'ursa'");
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console.warn("");
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console.warn("EXAMPLE:");
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console.warn("");
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console.warn(" sudo apt-get install build-essential && npm install ursa");
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console.warn("");
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console.warn("================================================================");
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RSA._SLOW_WARN = true;
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}
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var keypair = {
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privateKeyPem: undefined
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, publicKeyPem: undefined
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, privateKeyJwk: undefined
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, publicKeyJwk: undefined
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, _ursa: undefined
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, _forge: undefined
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};
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options = options || NOBJ;
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RSA._internal.generateKeypair(length, exponent, options, function (err, keys) {
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if (false !== options.jwk || options.thumbprint) {
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keypair.privateKeyJwk = RSA._internal.exportPrivateJwk(keys);
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if (options.public) {
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keypair.publicKeyJwk = RSA._internal.exportPublicJwk(keys);
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}
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}
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if (options.pem) {
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keypair.privateKeyPem = RSA._internal.exportPrivatePem(keys);
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if (options.public) {
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keypair.publicKeyPem = RSA._internal.exportPublicPem(keys);
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}
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}
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if (options.thumprint) {
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keypair.thumbprint = RSA.thumbprint(keypair);
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}
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if (options.internal) {
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//keypair._ursa = undefined;
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//keypair._forge = undefined;
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keypair._ursa = keys._ursa;
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keypair._forge = keys._forge;
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}
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cb(null, keypair);
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return;
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});
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};
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RSA.import = function (keypair/*, options*/) {
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keypair = RSA._internal.import(keypair, { internal: true });
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keypair = RSA._internal.importForge(keypair, { internal: true });
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//options = options || NOBJ; // ignore
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if (keypair.privateKeyJwk || keypair.privateKeyPem || keypair._ursa || keypair._forge) {
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keypair.privateKeyJwk = RSA._internal.exportPrivateJwk(keypair, { internal: true });
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//keypair.privateKeyPem = RSA._internal.exportPrivatePem(keypair, { internal: true });
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return keypair;
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}
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if (keypair.publicKeyJwk || keypair.publicKeyPem || keypair._ursaPublic || keypair._forgePublic) {
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keypair.publicKeyJwk = RSA._internal.exportPublicJwk(keypair, { internal: true });
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//keypair.publicKeyPem = RSA._internal.exportPublicPem(keypair, { internal: true });
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return keypair;
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}
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throw new Error('found neither private nor public keypair in any supported format');
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};
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RSA._ursaGenerateSig = function (keypair, sha256Buf) {
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var sig = keypair._ursa.sign('sha256', sha256Buf);
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var sig64 = RSA.utils.toWebsafeBase64(sig.toString('base64'));
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return sig64;
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};
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RSA._forgeGenerateSig = function (keypair, sha256Buf) {
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var forge = require('node-forge');
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var bufF = forge.util.createBuffer(sha256Buf.toString('binary'), 'binary');
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var md = {
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algorithm: 'sha256'
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, blockLength: 64
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, digestLength: 20
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, digest: function () {
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return bufF;
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}
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};
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var sigF = keypair._forge.sign(md);
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var sig64 = RSA.utils.toWebsafeBase64(
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new Buffer(forge.util.bytesToHex(sigF), "hex").toString('base64')
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);
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return sig64;
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};
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RSA.signJws = RSA.generateJws = RSA.generateSignatureJws = RSA.generateSignatureJwk =
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function (keypair, payload, nonce) {
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keypair = RSA._internal.import(keypair);
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keypair = RSA._internal.importForge(keypair);
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keypair.publicKeyJwk = RSA.exportPublicJwk(keypair);
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// Compute JWS signature
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var protectedHeader = "";
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if (nonce) {
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protectedHeader = JSON.stringify({nonce: nonce});
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}
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var protected64 = RSA.utils.toWebsafeBase64(new Buffer(protectedHeader).toString('base64'));
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var payload64 = RSA.utils.toWebsafeBase64(payload.toString('base64'));
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var raw = protected64 + "." + payload64;
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var sha256Buf = crypto.createHash('sha256').update(raw).digest();
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var sig64;
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if (RSA._URSA) {
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sig64 = RSA._ursaGenerateSig(keypair, sha256Buf);
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} else {
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sig64 = RSA._forgeGenerateSig(keypair, sha256Buf);
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}
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return {
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header: {
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alg: "RS256"
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, jwk: keypair.publicKeyJwk
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}
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, protected: protected64
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, payload: payload64
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, signature: sig64
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};
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};
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//
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// Generate CSR
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//
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RSA._generateCsrForge = function (keypair, names) {
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var forge = require('node-forge');
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keypair = RSA._internal.importForge(keypair);
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// Create and sign the CSR
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var csr = forge.pki.createCertificationRequest();
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csr.publicKey = keypair._forgePublic;
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// TODO should the commonName be shift()ed off so that it isn't also in altNames?
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// http://stackoverflow.com/questions/5935369/ssl-how-do-common-names-cn-and-subject-alternative-names-san-work-together
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csr.setSubject([{ name: 'commonName', value: names[0] }]);
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var sans = names.map(function (name) {
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return { type: 2, value: name };
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});
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csr.setAttributes([{
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name: 'extensionRequest',
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extensions: [{name: 'subjectAltName', altNames: sans}]
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}]);
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// TODO wrap with node crypto (as done for signature)
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csr.sign(keypair._forge, forge.md.sha256.create());
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return csr;
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};
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RSA.generateCsrAsn1 = function (keypair, names) {
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var forge = require('node-forge');
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var csr = RSA._generateCsrForge(keypair, names);
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var asn1 = forge.pki.certificationRequestToAsn1(csr);
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return RSA.utils._forgeBytesToBuf(asn1);
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};
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RSA.generateCsrPem = function (keypair, names) {
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var forge = require('node-forge');
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var csr = RSA._generateCsrForge(keypair, names);
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return forge.pki.certificationRequestToPem(csr);
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};
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RSA.generateCsrDer = function (keypair, names) {
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var forge = require('node-forge');
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var csr = RSA._generateCsrForge(keypair, names);
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var asn1 = forge.pki.certificationRequestToAsn1(csr);
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var der = forge.asn1.toDer(asn1);
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return RSA.utils._forgeBytesToBuf(der);
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};
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RSA.generateCsrDerWeb64 =RSA.generateCsrWeb64 = function (keypair, names) {
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var buf = RSA.generateCsrDer(keypair, names);
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var b64 = buf.toString('base64');
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var web64 = RSA.utils.toWebsafeBase64(b64);
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return web64;
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};
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RSA.exportPrivateKey = RSA._internal.exportPrivatePem;
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RSA.exportPublicKey = RSA._internal.exportPublicPem;
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RSA.exportPrivatePem = RSA._internal.exportPrivatePem;
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RSA.exportPublicPem = RSA._internal.exportPublicPem;
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RSA.exportPrivateJwk = RSA._internal.exportPrivateJwk;
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RSA.exportPublicJwk = RSA._internal.exportPublicJwk;
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return RSA;
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}
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module.exports.RSA = create(/*require('./lib/node')*/);
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//module.exports.RSA.create = create;
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