v1.1.1: code layout and organization
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669
lib/ecdsacsr.js
669
lib/ecdsacsr.js
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@ -6,251 +6,26 @@ var crypto = require('crypto');
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// prime256v1 (ANSI X9.62 named elliptic curve)
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var OBJ_ID_EC = '06 08 2A8648CE3D030107'.replace(/\s+/g, '').toLowerCase();
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var ECDSACSR = {};
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var ECDSA = {};
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var DER = {};
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var PEM = {};
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var ASN1;
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var Hex = {};
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var AB = {};
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//
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// A dumbed-down, minimal ASN.1 packer
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// CSR - the main event
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//
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// Almost every ASN.1 type that's important for CSR
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// can be represented generically with only a few rules.
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function ASN1(/*type, hexstrings...*/) {
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var args = Array.prototype.slice.call(arguments);
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var typ = args.shift();
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var str = args.join('').replace(/\s+/g, '').toLowerCase();
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var len = (str.length/2);
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var lenlen = 0;
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var hex = typ;
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// We can't have an odd number of hex chars
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if (len !== Math.round(len)) {
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throw new Error("invalid hex");
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}
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// The first byte of any ASN.1 sequence is the type (Sequence, Integer, etc)
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// The second byte is either the size of the value, or the size of its size
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// 1. If the second byte is < 0x80 (128) it is considered the size
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// 2. If it is > 0x80 then it describes the number of bytes of the size
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// ex: 0x82 means the next 2 bytes describe the size of the value
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// 3. The special case of exactly 0x80 is "indefinite" length (to end-of-file)
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if (len > 127) {
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lenlen += 1;
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while (len > 255) {
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lenlen += 1;
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len = len >> 8;
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}
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}
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if (lenlen) { hex += numToHex(0x80 + lenlen); }
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return hex + numToHex(str.length/2) + str;
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}
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// The Integer type has some special rules
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ASN1.UInt = function UINT() {
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var str = Array.prototype.slice.call(arguments).join('');
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var first = parseInt(str.slice(0, 2), 16);
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// If the first byte is 0x80 or greater, the number is considered negative
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// Therefore we add a '00' prefix if the 0x80 bit is set
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if (0x80 & first) { str = '00' + str; }
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return ASN1('02', str);
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ECDSACSR.create = function createEcCsr(keypem, domains) {
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var pemblock = PEM.parseBlock(keypem);
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var ecpub = PEM.parseEcPubkey(pemblock.der);
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var request = ECDSACSR.request(ecpub, domains);
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return AB.fromHex(ECDSACSR.sign(keypem, request));
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};
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// The Bit String type also has a special rule
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ASN1.BitStr = function BITSTR() {
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var str = Array.prototype.slice.call(arguments).join('');
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// '00' is a mask of how many bits of the next byte to ignore
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return ASN1('03', '00' + str);
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};
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function fromBase64(b64) {
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var buf;
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var ab;
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if ('undefined' === typeof atob) {
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buf = Buffer.from(b64, 'base64');
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return buf.buffer.slice(buf.byteOffset, buf.byteOffset + buf.byteLength);
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}
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buf = atob(b64);
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ab = new ArrayBuffer(buf.length);
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ab = new Uint8Array(ab);
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buf.split('').forEach(function (ch, i) {
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ab[i] = ch.charCodeAt(0);
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});
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return ab.buffer;
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}
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function parsePem(pem) {
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var typ;
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var pub;
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var crv;
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var der = fromBase64(pem.split(/\n/).filter(function (line, i) {
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if (0 === i) {
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if (/ PUBLIC /.test(line)) {
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pub = true;
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} else if (/ PRIVATE /.test(line)) {
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pub = false;
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}
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if (/ EC/.test(line)) {
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typ = 'EC';
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}
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}
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return !/---/.test(line);
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}).join(''));
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if (!typ || 'EC' === typ) {
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var hex = toHex(der).toLowerCase();
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if (-1 !== hex.indexOf(OBJ_ID_EC)) {
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typ = 'EC';
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crv = 'P-256';
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} else {
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// TODO more than just P-256
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console.warn("unsupported ec curve");
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}
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}
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return { typ: typ, pub: pub, der: der, crv: crv };
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}
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function toHex(ab) {
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var hex = [];
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var u8 = new Uint8Array(ab);
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var size = u8.byteLength;
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var i;
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var h;
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for (i = 0; i < size; i += 1) {
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h = u8[i].toString(16);
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if (2 === h.length) {
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hex.push(h);
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} else {
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hex.push('0' + h);
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}
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}
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return hex.join('');
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}
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function fromHex(hex) {
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if ('undefined' !== typeof Buffer) {
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return Buffer.from(hex, 'hex');
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}
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var ab = new ArrayBuffer(hex.length/2);
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var i;
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var j;
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ab = new Uint8Array(ab);
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for (i = 0, j = 0; i < (hex.length/2); i += 1) {
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ab[i] = parseInt(hex.slice(j, j+1), 16);
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j += 2;
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}
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return ab.buffer;
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}
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function readEcPubkey(der) {
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// the key is the last 520 bits of both the private key and the public key
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// he 3 bits prior identify the key as
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var x, y;
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var compressed;
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var keylen = 32;
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var offset = 64;
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var headerSize = 4;
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var header = toHex(der.slice(der.byteLength - (offset + headerSize), der.byteLength - offset));
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if ('03420004' !== header) {
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offset = 32;
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header = toHex(der.slice(der.byteLength - (offset + headerSize), der.byteLength - offset));
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if ('03420002' !== header) {
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throw new Error("not a valid EC P-256 key (expected 0x0342004 or 0x0342002 as pub key preamble, but found " + header + ")");
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}
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}
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// The one good thing that came from the b***kchain hysteria: good EC documentation
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// https://davidederosa.com/basic-blockchain-programming/elliptic-curve-keys/
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compressed = ('2' === header[header.byteLength -1]);
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x = der.slice(der.byteLength - offset, (der.byteLength - offset) + keylen);
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if (!compressed) {
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y = der.slice(der.byteLength - keylen, der.byteLength);
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}
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return {
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x: x
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, y: y || null
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};
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}
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function formatAsPem(str) {
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var finalString = '';
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while (str.length > 0) {
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finalString += str.substring(0, 64) + '\n';
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str = str.substring(64);
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}
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return finalString;
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}
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function toBase64(der) {
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if ('undefined' === typeof btoa) {
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return Buffer.from(der).toString('base64');
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}
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var chs = [];
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der.forEach(function (b) {
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chs.push(String.fromCharCode(b));
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});
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return btoa(chs.join(''));
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}
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function csrEcSig(r, s) {
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return [
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ASN1('30'
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// 1.2.840.10045.4.3.2 ecdsaWithSHA256
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// (ANSI X9.62 ECDSA algorithm with SHA256)
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, ASN1('06', '2A 86 48 CE 3D 04 03 02')
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)
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, ASN1.BitStr(
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ASN1('30'
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, ASN1.UInt(toHex(r))
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, ASN1.UInt(toHex(s))
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)
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)
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].join('');
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}
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function strToHex(str) {
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var escstr = encodeURIComponent(str);
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// replaces any uri escape sequence, such as %0A,
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// with binary escape, such as 0x0A
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var binstr = escstr.replace(/%([0-9A-F]{2})/g, function(match, p1) {
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return String.fromCharCode('0x' + p1);
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});
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return binstr.split('').map(function (b) {
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var h = b.charCodeAt(0).toString(16);
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if (2 === h.length) { return h; }
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return '0' + h;
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}).join('');
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}
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function numToHex(d) {
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d = d.toString(16);
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if (d.length % 2) {
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return '0' + d;
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}
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return d;
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}
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function fromHex(hex) {
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if ('undefined' !== typeof Buffer) {
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return Buffer.from(hex, 'hex');
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}
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var ab = new ArrayBuffer(hex.length/2);
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var i;
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var j;
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ab = new Uint8Array(ab);
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for (i = 0, j = 0; i < (hex.length/2); i += 1) {
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ab[i] = parseInt(hex.slice(j, j+1), 16);
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j += 2;
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}
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return ab.buffer;
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}
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function createCsrBodyEc(domains, xy) {
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ECDSACSR.request = function createCsrBodyEc(xy, domains) {
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var publen = xy.x.byteLength;
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var compression = '04';
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var hxy = '';
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@ -265,64 +40,89 @@ function createCsrBodyEc(domains, xy) {
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// I haven't learned yet, and I'm not sure if it's allowed at all
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compression = '02';
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}
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hxy += toHex(xy.x);
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if (xy.y) {
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hxy += toHex(xy.y);
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}
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hxy += Hex.fromAB(xy.x);
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if (xy.y) { hxy += Hex.fromAB(xy.y); }
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var version = ASN1.UInt('00');
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var subject = ASN1('30'
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, ASN1('31'
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, ASN1('30'
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// object id (commonName)
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, ASN1('06', '55 04 03')
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, ASN1('0C', strToHex(domains[0])))));
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var pubkey = ASN1('30'
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// Sorry for the mess, but it is what it is
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return ASN1('30'
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// Version (0)
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, ASN1.UInt('00')
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// CN / Subject
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, ASN1('30'
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// 1.2.840.10045.2.1 ecPublicKey
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// (ANSI X9.62 public key type)
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, ASN1('06', '2A 86 48 CE 3D 02 01')
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// 1.2.840.10045.3.1.7 prime256v1
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// (ANSI X9.62 named elliptic curve)
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, ASN1('06', '2A 86 48 CE 3D 03 01 07')
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)
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, ASN1.BitStr(compression + hxy));
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var altnames = ASN1('A0'
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, ASN1('30'
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// (extensionRequest (PKCS #9 via CRMF))
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, ASN1('06', '2A 86 48 86 F7 0D 01 09 0E')
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, ASN1('31'
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, ASN1('30'
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// object id (commonName)
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, ASN1('06', '55 04 03')
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, ASN1('0C', Hex.fromString(domains[0])))))
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// EC P-256 Public Key
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, ASN1('30'
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, ASN1('30'
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// 1.2.840.10045.2.1 ecPublicKey
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// (ANSI X9.62 public key type)
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, ASN1('06', '2A 86 48 CE 3D 02 01')
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// 1.2.840.10045.3.1.7 prime256v1
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// (ANSI X9.62 named elliptic curve)
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, ASN1('06', '2A 86 48 CE 3D 03 01 07')
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)
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, ASN1.BitStr(compression + hxy))
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// CSR Extension Subject Alternative Names
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, ASN1('A0'
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, ASN1('30'
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// (extensionRequest (PKCS #9 via CRMF))
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, ASN1('06', '2A 86 48 86 F7 0D 01 09 0E')
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, ASN1('31'
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, ASN1('30'
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// (subjectAltName (X.509 extension))
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, ASN1('06', '55 1D 11')
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, ASN1('04'
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, ASN1('30', domains.map(function (d) {
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return ASN1('82', strToHex(d));
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}).join(''))))))));
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var body = ASN1('30'
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// #0 Total 3
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, version
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// Subject
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// #1 Total 2+11+n
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, subject
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// P-256 Public Key
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// #2 Total 2+25+xy
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, pubkey
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// Altnames
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// #3 Total 2+28+n
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, altnames
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, ASN1('30'
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// (subjectAltName (X.509 extension))
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, ASN1('06', '55 1D 11')
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, ASN1('04'
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, ASN1('30', domains.map(function (d) {
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return ASN1('82', Hex.fromString(d));
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}).join(''))))))))
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);
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};
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return body;
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}
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ECDSACSR.sign = function csrEcSig(keypem, request) {
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var sig = ECDSA.sign(keypem, AB.fromHex(request));
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var rLen = sig.r.byteLength;
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var rc = '';
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var sLen = sig.s.byteLength;
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var sc = '';
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// https://gist.github.com/codermapuche/da4f96cdb6d5ff53b7ebc156ec46a10a
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function signEc(keypem, ab) {
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if (0x80 & new Uint8Array(sig.r)[0]) { rc = '00'; rLen += 1; }
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if (0x80 & new Uint8Array(sig.s)[0]) { sc = '00'; sLen += 1; }
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return ASN1('30'
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// The Full CSR Request Body
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, request
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// The Signature Type
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, ASN1('30'
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// 1.2.840.10045.4.3.2 ecdsaWithSHA256
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// (ANSI X9.62 ECDSA algorithm with SHA256)
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, ASN1('06', '2A 86 48 CE 3D 04 03 02')
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)
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// The Signature, embedded in a Bit Stream
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, ASN1.BitStr(
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// As far as I can tell this is a completely separate ASN.1 structure
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// that just so happens to be embedded in a Bit String of another ASN.1
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ASN1('30'
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, ASN1.UInt(Hex.fromAB(sig.r))
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, ASN1.UInt(Hex.fromAB(sig.s))))
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);
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};
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//
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// ECDSA
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//
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// Took some tips from https://gist.github.com/codermapuche/da4f96cdb6d5ff53b7ebc156ec46a10a
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ECDSA.sign = function signEc(keypem, ab) {
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// Signer is a stream
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var sign = crypto.createSign('SHA256');
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sign.write(new Uint8Array(ab));
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@ -355,63 +155,26 @@ function signEc(keypem, ab) {
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if (0 === r[0]) { r = r.slice(1); }
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return { raw: sig.buffer, r: r.buffer, s: s.buffer };
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}
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};
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function createEcCsr(domains, keypem, ecpub) {
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// TODO get pub from priv
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//
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// DER
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//
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var csrBody = createCsrBodyEc(domains, ecpub);
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var sig = signEc(keypem, fromHex(csrBody));
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var rLen = sig.r.byteLength;
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var rc = '';
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var sLen = sig.s.byteLength;
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var sc = '';
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if (0x80 & new Uint8Array(sig.r)[0]) { rc = '00'; rLen += 1; }
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if (0x80 & new Uint8Array(sig.s)[0]) { sc = '00'; sLen += 1; }
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var csrSig = csrEcSig(sig.r, sig.s);
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/*
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console.log('sig:', sig.raw.byteLength, toHex(sig.raw));
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console.log('r:', sig.r.byteLength, toHex(sig.r));
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console.log('s:', sig.s.byteLength, toHex(sig.s));
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console.log('csr sig:', csrSig.length / 2, csrSig);
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console.log('csrBodyLen + csrSigLen', numToHex(len));
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*/
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return fromHex(ASN1('30', csrBody, csrSig));
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}
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function createEcCsrPem(domains, keypem) {
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var pemblock = parsePem(keypem);
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var ecpub = readEcPubkey(pemblock.der);
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var ab = createEcCsr(domains, keypem, ecpub);
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var pem = formatAsPem(toBase64(ab));
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DER.toCSR = function createEcCsrPem(der) {
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var pem = PEM._format(AB.toBase64(der));
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return '-----BEGIN CERTIFICATE REQUEST-----\n' + pem + '-----END CERTIFICATE REQUEST-----';
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}
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};
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// Taken from Unibabel
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// https://git.coolaj86.com/coolaj86/unibabel.js#readme
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// https://coolaj86.com/articles/base64-unicode-utf-8-javascript-and-you/
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function utf8ToUint8Array(str) {
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var escstr = encodeURIComponent(str);
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// replaces any uri escape sequence, such as %0A,
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// with binary escape, such as 0x0A
|
||||
var binstr = escstr.replace(/%([0-9A-F]{2})/g, function(match, p1) {
|
||||
return String.fromCharCode('0x' + p1);
|
||||
});
|
||||
var buf = new Uint8Array(binstr.length);
|
||||
binstr.split('').forEach(function (ch, i) {
|
||||
buf[i] = ch.charCodeAt(0);
|
||||
});
|
||||
//
|
||||
// PEM
|
||||
//
|
||||
|
||||
return buf;
|
||||
}
|
||||
|
||||
function ensurePem(key) {
|
||||
// Just for error checking
|
||||
PEM.from = function ensurePem(key) {
|
||||
if (!key) { throw new Error("no private key given"); }
|
||||
// whether PEM or DER, convert to Uint8Array
|
||||
if ('string' === typeof key) { key = utf8ToUint8Array(key); }
|
||||
if ('string' === typeof key) { key = AB.utf8ToUint8Array(key); }
|
||||
|
||||
// for consistency
|
||||
if (key instanceof Buffer) { key = new Uint8Array(key.buffer.slice(key.byteOffset, key.byteOffset + key.byteLength)); }
|
||||
|
@ -434,7 +197,7 @@ function ensurePem(key) {
|
|||
|
||||
// if DER, convert to PEM
|
||||
if ((0x30 === key[0]) && (0x80 & key[1])) {
|
||||
key = toBase64(key);
|
||||
key = AB.toBase64(key);
|
||||
}
|
||||
key = [].map.call(key, function (i) {
|
||||
return String.fromCharCode(i);
|
||||
|
@ -448,7 +211,224 @@ function ensurePem(key) {
|
|||
throw new Error("key does not appear to be in PEM formt (does not begin with either '-' or 'M'),"
|
||||
+ " nor DER format (does not begin with 0x308X)");
|
||||
}
|
||||
}
|
||||
};
|
||||
|
||||
PEM.parseBlock = function parsePem(pem) {
|
||||
var typ;
|
||||
var pub;
|
||||
var crv;
|
||||
var der = AB.fromBase64(pem.split(/\n/).filter(function (line, i) {
|
||||
if (0 === i) {
|
||||
if (/ PUBLIC /.test(line)) {
|
||||
pub = true;
|
||||
} else if (/ PRIVATE /.test(line)) {
|
||||
pub = false;
|
||||
}
|
||||
if (/ EC/.test(line)) {
|
||||
typ = 'EC';
|
||||
}
|
||||
}
|
||||
return !/---/.test(line);
|
||||
}).join(''));
|
||||
|
||||
if (!typ || 'EC' === typ) {
|
||||
var hex = Hex.fromAB(der).toLowerCase();
|
||||
if (-1 !== hex.indexOf(OBJ_ID_EC)) {
|
||||
typ = 'EC';
|
||||
crv = 'P-256';
|
||||
} else {
|
||||
// TODO support P-384 as well (but probably nothing else)
|
||||
console.warn("unsupported ec curve");
|
||||
}
|
||||
}
|
||||
|
||||
return { typ: typ, pub: pub, der: der, crv: crv };
|
||||
};
|
||||
|
||||
PEM._format = function formatAsPem(str) {
|
||||
var finalString = '';
|
||||
|
||||
while (str.length > 0) {
|
||||
finalString += str.substring(0, 64) + '\n';
|
||||
str = str.substring(64);
|
||||
}
|
||||
return finalString;
|
||||
};
|
||||
|
||||
PEM.parseEcPubkey = function readEcPubkey(der) {
|
||||
// the key is the last 520 bits of both the private key and the public key
|
||||
// he 3 bits prior identify the key as
|
||||
var x, y;
|
||||
var compressed;
|
||||
var keylen = 32;
|
||||
var offset = 64;
|
||||
var headerSize = 4;
|
||||
var header = Hex.fromAB(der.slice(der.byteLength - (offset + headerSize), der.byteLength - offset));
|
||||
|
||||
if ('03420004' !== header) {
|
||||
offset = 32;
|
||||
header = Hex.fromAB(der.slice(der.byteLength - (offset + headerSize), der.byteLength - offset));
|
||||
if ('03420002' !== header) {
|
||||
throw new Error("not a valid EC P-256 key (expected 0x0342004 or 0x0342002 as pub key preamble, but found " + header + ")");
|
||||
}
|
||||
}
|
||||
|
||||
// The one good thing that came from the b***kchain hysteria: good EC documentation
|
||||
// https://davidederosa.com/basic-blockchain-programming/elliptic-curve-keys/
|
||||
compressed = ('2' === header[header.byteLength -1]);
|
||||
x = der.slice(der.byteLength - offset, (der.byteLength - offset) + keylen);
|
||||
if (!compressed) {
|
||||
y = der.slice(der.byteLength - keylen, der.byteLength);
|
||||
}
|
||||
|
||||
return {
|
||||
x: x
|
||||
, y: y || null
|
||||
};
|
||||
};
|
||||
|
||||
//
|
||||
// A dumbed-down, minimal ASN.1 packer
|
||||
//
|
||||
|
||||
// Almost every ASN.1 type that's important for CSR
|
||||
// can be represented generically with only a few rules.
|
||||
ASN1 = function ASN1(/*type, hexstrings...*/) {
|
||||
var args = Array.prototype.slice.call(arguments);
|
||||
var typ = args.shift();
|
||||
var str = args.join('').replace(/\s+/g, '').toLowerCase();
|
||||
var len = (str.length/2);
|
||||
var lenlen = 0;
|
||||
var hex = typ;
|
||||
|
||||
// We can't have an odd number of hex chars
|
||||
if (len !== Math.round(len)) {
|
||||
throw new Error("invalid hex");
|
||||
}
|
||||
|
||||
// The first byte of any ASN.1 sequence is the type (Sequence, Integer, etc)
|
||||
// The second byte is either the size of the value, or the size of its size
|
||||
|
||||
// 1. If the second byte is < 0x80 (128) it is considered the size
|
||||
// 2. If it is > 0x80 then it describes the number of bytes of the size
|
||||
// ex: 0x82 means the next 2 bytes describe the size of the value
|
||||
// 3. The special case of exactly 0x80 is "indefinite" length (to end-of-file)
|
||||
|
||||
if (len > 127) {
|
||||
lenlen += 1;
|
||||
while (len > 255) {
|
||||
lenlen += 1;
|
||||
len = len >> 8;
|
||||
}
|
||||
}
|
||||
|
||||
if (lenlen) { hex += Hex.fromInt(0x80 + lenlen); }
|
||||
return hex + Hex.fromInt(str.length/2) + str;
|
||||
};
|
||||
|
||||
// The Integer type has some special rules
|
||||
ASN1.UInt = function UINT() {
|
||||
var str = Array.prototype.slice.call(arguments).join('');
|
||||
var first = parseInt(str.slice(0, 2), 16);
|
||||
|
||||
// If the first byte is 0x80 or greater, the number is considered negative
|
||||
// Therefore we add a '00' prefix if the 0x80 bit is set
|
||||
if (0x80 & first) { str = '00' + str; }
|
||||
|
||||
return ASN1('02', str);
|
||||
};
|
||||
|
||||
// The Bit String type also has a special rule
|
||||
ASN1.BitStr = function BITSTR() {
|
||||
var str = Array.prototype.slice.call(arguments).join('');
|
||||
// '00' is a mask of how many bits of the next byte to ignore
|
||||
return ASN1('03', '00' + str);
|
||||
};
|
||||
|
||||
//
|
||||
// Hex, Base64, Buffer, String
|
||||
//
|
||||
|
||||
Hex.fromAB = function toHex(ab) {
|
||||
var hex = [];
|
||||
var u8 = new Uint8Array(ab);
|
||||
var size = u8.byteLength;
|
||||
var i;
|
||||
var h;
|
||||
for (i = 0; i < size; i += 1) {
|
||||
h = u8[i].toString(16);
|
||||
if (2 === h.length) {
|
||||
hex.push(h);
|
||||
} else {
|
||||
hex.push('0' + h);
|
||||
}
|
||||
}
|
||||
return hex.join('');
|
||||
};
|
||||
|
||||
Hex.fromString = function strToHex(str) {
|
||||
var escstr = encodeURIComponent(str);
|
||||
// replaces any uri escape sequence, such as %0A,
|
||||
// with binary escape, such as 0x0A
|
||||
var binstr = escstr.replace(/%([0-9A-F]{2})/g, function(match, p1) {
|
||||
return String.fromCharCode('0x' + p1);
|
||||
});
|
||||
return binstr.split('').map(function (b) {
|
||||
var h = b.charCodeAt(0).toString(16);
|
||||
if (2 === h.length) { return h; }
|
||||
return '0' + h;
|
||||
}).join('');
|
||||
};
|
||||
|
||||
Hex.fromInt = function numToHex(d) {
|
||||
d = d.toString(16);
|
||||
if (d.length % 2) {
|
||||
return '0' + d;
|
||||
}
|
||||
return d;
|
||||
};
|
||||
|
||||
// Taken from Unibabel
|
||||
// https://git.coolaj86.com/coolaj86/unibabel.js#readme
|
||||
// https://coolaj86.com/articles/base64-unicode-utf-8-javascript-and-you/
|
||||
AB.utf8ToUint8Array = function (str) {
|
||||
var escstr = encodeURIComponent(str);
|
||||
// replaces any uri escape sequence, such as %0A,
|
||||
// with binary escape, such as 0x0A
|
||||
var binstr = escstr.replace(/%([0-9A-F]{2})/g, function(match, p1) {
|
||||
return String.fromCharCode('0x' + p1);
|
||||
});
|
||||
var buf = new Uint8Array(binstr.length);
|
||||
binstr.split('').forEach(function (ch, i) {
|
||||
buf[i] = ch.charCodeAt(0);
|
||||
});
|
||||
|
||||
return buf;
|
||||
};
|
||||
|
||||
AB.fromHex = function fromHex(hex) {
|
||||
if ('undefined' !== typeof Buffer) {
|
||||
return Buffer.from(hex, 'hex');
|
||||
}
|
||||
var ab = new ArrayBuffer(hex.length/2);
|
||||
var i;
|
||||
var j;
|
||||
ab = new Uint8Array(ab);
|
||||
for (i = 0, j = 0; i < (hex.length/2); i += 1) {
|
||||
ab[i] = parseInt(hex.slice(j, j+1), 16);
|
||||
j += 2;
|
||||
}
|
||||
return ab.buffer;
|
||||
};
|
||||
|
||||
AB.fromBase64 = function fromBase64(b64) {
|
||||
var buf = Buffer.from(b64, 'base64');
|
||||
return buf.buffer.slice(buf.byteOffset, buf.byteOffset + buf.byteLength);
|
||||
};
|
||||
|
||||
AB.toBase64 = function toBase64(der) {
|
||||
return Buffer.from(der).toString('base64');
|
||||
};
|
||||
|
||||
/*global Promise*/
|
||||
module.exports = function (opts) {
|
||||
|
@ -471,8 +451,7 @@ module.exports = function (opts) {
|
|||
})) {
|
||||
throw new Error("You must pass options.domains as utf8 strings (not punycode)");
|
||||
}
|
||||
var key = ensurePem(opts.key);
|
||||
|
||||
return createEcCsrPem(opts.domains, key);
|
||||
var key = PEM.from(opts.key);
|
||||
return DER.toCSR(ECDSACSR.create(key, opts.domains));
|
||||
});
|
||||
};
|
||||
|
|
|
@ -1,6 +1,6 @@
|
|||
{
|
||||
"name": "ecdsa-csr",
|
||||
"version": "1.1.0",
|
||||
"version": "1.1.1",
|
||||
"description": "A focused, zero-dependency library to generate a Certificate Signing Request (CSR) and sign it!",
|
||||
"main": "index.js",
|
||||
"bin": {
|
||||
|
|
Loading…
Reference in New Issue