x509.all.js
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;(function () {
'use strict';
var Enc = window.Encoding = {};
// To Base64
Enc.bufToBase64 = function(u8) {
var bin = '';
u8.forEach(function(i) {
bin += String.fromCharCode(i);
});
return btoa(bin);
};
Enc.strToBase64 = function(str) {
return btoa(Enc.strToBin(str));
};
// From Base64
function _base64ToBin(b64) {
return atob(Enc.urlBase64ToBase64(b64));
}
Enc._base64ToBin = _base64ToBin;
Enc.base64ToBuf = function(b64) {
return Enc.binToBuf(_base64ToBin(b64));
};
Enc.base64ToStr = function(b64) {
return Enc.binToStr(_base64ToBin(b64));
};
// URL Safe Base64
Enc.urlBase64ToBase64 = function(u64) {
var r = u64 % 4;
if (2 === r) {
u64 += '==';
} else if (3 === r) {
u64 += '=';
}
return u64.replace(/-/g, '+').replace(/_/g, '/');
};
Enc.base64ToUrlBase64 = function(b64) {
return b64
.replace(/\+/g, '-')
.replace(/\//g, '_')
.replace(/=/g, '');
};
Enc.bufToUrlBase64 = function(buf) {
return Enc.base64ToUrlBase64(Enc.bufToBase64(buf));
};
Enc.strToUrlBase64 = function(str) {
return Enc.bufToUrlBase64(Enc.strToBuf(str));
};
// To Hex
Enc.bufToHex = function(u8) {
var hex = [];
var i, h;
var len = u8.byteLength || u8.length;
for (i = 0; i < len; i += 1) {
h = u8[i].toString(16);
if (2 !== h.length) {
h = '0' + h;
}
hex.push(h);
}
return hex.join('').toLowerCase();
};
Enc.numToHex = function(d) {
d = d.toString(16); // .padStart(2, '0');
if (d.length % 2) {
return '0' + d;
}
return d;
};
Enc.strToHex = function(str) {
return Enc._binToHex(Enc.strToBin(str));
};
Enc._binToHex = function(bin) {
return bin
.split('')
.map(function(ch) {
var h = ch.charCodeAt(0).toString(16);
if (2 !== h.length) {
h = '0' + h;
}
return h;
})
.join('');
};
// From Hex
Enc.hexToBuf = function(hex) {
var arr = [];
hex.match(/.{2}/g).forEach(function(h) {
arr.push(parseInt(h, 16));
});
return 'undefined' !== typeof Uint8Array ? new Uint8Array(arr) : arr;
};
Enc.hexToStr = function(hex) {
return Enc.binToStr(_hexToBin(hex));
};
function _hexToBin(hex) {
return hex.replace(/([0-9A-F]{2})/gi, function(_, p1) {
return String.fromCharCode('0x' + p1);
});
}
Enc._hexToBin = _hexToBin;
// to Binary String
Enc.bufToBin = function(buf) {
var bin = '';
// cannot use .map() because Uint8Array would return only 0s
buf.forEach(function(ch) {
bin += String.fromCharCode(ch);
});
return bin;
};
Enc.strToBin = function(str) {
// Note: TextEncoder might be faster (or it might be slower, I don't know),
// but it doesn't solve the double-utf8 problem and MS Edge still has users without it
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(_, p1) {
return String.fromCharCode('0x' + p1);
});
return binstr;
};
// to Buffer
Enc.binToBuf = function(bin) {
var arr = bin.split('').map(function(ch) {
return ch.charCodeAt(0);
});
return 'undefined' !== typeof Uint8Array ? new Uint8Array(arr) : arr;
};
Enc.strToBuf = function(str) {
return Enc.binToBuf(Enc.strToBin(str));
};
// to Unicode String
Enc.binToStr = function(binstr) {
var escstr = binstr.replace(/(.)/g, function(m, p) {
var code = p
.charCodeAt(0)
.toString(16)
.toUpperCase();
if (code.length < 2) {
code = '0' + code;
}
return '%' + code;
});
return decodeURIComponent(escstr);
};
Enc.bufToStr = function(buf) {
return Enc.binToStr(Enc.bufToBin(buf));
};
// Base64 + Hex
Enc.base64ToHex = function(b64) {
return Enc.bufToHex(Enc.base64ToBuf(b64));
};
Enc.hexToBase64 = function(hex) {
return btoa(Enc._hexToBin(hex));
};
}());
;(function () {
'use strict';
var ASN1 = window.ASN1 = {};
var Enc = window.Encoding;
// Copyright 2018 AJ ONeal. All rights reserved
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
//
// Parser
//
// Although I've only seen 9 max in https certificates themselves,
// but each domain list could have up to 100
ASN1.ELOOPN = 102;
ASN1.ELOOP =
'uASN1.js Error: iterated over ' +
ASN1.ELOOPN +
'+ elements (probably a malformed file)';
// I've seen https certificates go 29 deep
ASN1.EDEEPN = 60;
ASN1.EDEEP =
'uASN1.js Error: element nested ' +
ASN1.EDEEPN +
'+ layers deep (probably a malformed file)';
// Container Types are Sequence 0x30, Container Array? (0xA0, 0xA1)
// Value Types are Boolean 0x01, Integer 0x02, Null 0x05, Object ID 0x06, String 0x0C, 0x16, 0x13, 0x1e Value Array? (0x82)
// Bit String (0x03) and Octet String (0x04) may be values or containers
// Sometimes Bit String is used as a container (RSA Pub Spki)
ASN1.CTYPES = [0x30, 0x31, 0xa0, 0xa1];
ASN1.VTYPES = [0x01, 0x02, 0x05, 0x06, 0x0c, 0x82];
ASN1.parseVerbose = function parseAsn1Helper(buf, opts) {
if (!opts) {
opts = {};
}
//var ws = ' ';
function parseAsn1(buf, depth, eager) {
if (depth.length >= ASN1.EDEEPN) {
throw new Error(ASN1.EDEEP);
}
var index = 2; // we know, at minimum, data starts after type (0) and lengthSize (1)
var asn1 = { type: buf[0], lengthSize: 0, length: buf[1] };
var child;
var iters = 0;
var adjust = 0;
var adjustedLen;
// Determine how many bytes the length uses, and what it is
if (0x80 & asn1.length) {
asn1.lengthSize = 0x7f & asn1.length;
// I think that buf->hex->int solves the problem of Endianness... not sure
asn1.length = parseInt(
Enc.bufToHex(buf.slice(index, index + asn1.lengthSize)),
16
);
index += asn1.lengthSize;
}
// High-order bit Integers have a leading 0x00 to signify that they are positive.
// Bit Streams use the first byte to signify padding, which x.509 doesn't use.
if (0x00 === buf[index] && (0x02 === asn1.type || 0x03 === asn1.type)) {
// However, 0x00 on its own is a valid number
if (asn1.length > 1) {
index += 1;
adjust = -1;
}
}
adjustedLen = asn1.length + adjust;
//console.warn(depth.join(ws) + '0x' + Enc.numToHex(asn1.type), index, 'len:', asn1.length, asn1);
function parseChildren(eager) {
asn1.children = [];
//console.warn('1 len:', (2 + asn1.lengthSize + asn1.length), 'idx:', index, 'clen:', 0);
while (
iters < ASN1.ELOOPN &&
index < 2 + asn1.length + asn1.lengthSize
) {
iters += 1;
depth.length += 1;
child = parseAsn1(
buf.slice(index, index + adjustedLen),
depth,
eager
);
depth.length -= 1;
// The numbers don't match up exactly and I don't remember why...
// probably something with adjustedLen or some such, but the tests pass
index += 2 + child.lengthSize + child.length;
//console.warn('2 len:', (2 + asn1.lengthSize + asn1.length), 'idx:', index, 'clen:', (2 + child.lengthSize + child.length));
if (index > 2 + asn1.lengthSize + asn1.length) {
if (!eager) {
console.error(JSON.stringify(asn1, ASN1._replacer, 2));
}
throw new Error(
'Parse error: child value length (' +
child.length +
') is greater than remaining parent length (' +
(asn1.length - index) +
' = ' +
asn1.length +
' - ' +
index +
')'
);
}
asn1.children.push(child);
//console.warn(depth.join(ws) + '0x' + Enc.numToHex(asn1.type), index, 'len:', asn1.length, asn1);
}
if (index !== 2 + asn1.lengthSize + asn1.length) {
//console.warn('index:', index, 'length:', (2 + asn1.lengthSize + asn1.length));
throw new Error('premature end-of-file');
}
if (iters >= ASN1.ELOOPN) {
throw new Error(ASN1.ELOOP);
}
delete asn1.value;
return asn1;
}
// Recurse into types that are _always_ containers
if (-1 !== ASN1.CTYPES.indexOf(asn1.type)) {
return parseChildren(eager);
}
// Return types that are _always_ values
asn1.value = buf.slice(index, index + adjustedLen);
if (opts.json) {
asn1.value = Enc.bufToHex(asn1.value);
}
if (-1 !== ASN1.VTYPES.indexOf(asn1.type)) {
return asn1;
}
// For ambigious / unknown types, recurse and return on failure
// (and return child array size to zero)
try {
return parseChildren(true);
} catch (e) {
asn1.children.length = 0;
return asn1;
}
}
var asn1 = parseAsn1(buf, []);
var len = buf.byteLength || buf.length;
if (len !== 2 + asn1.lengthSize + asn1.length) {
throw new Error(
'Length of buffer does not match length of ASN.1 sequence.'
);
}
return asn1;
};
ASN1._toArray = function toArray(next, opts) {
var typ = opts.json ? Enc.numToHex(next.type) : next.type;
var val = next.value;
if (val) {
if ('string' !== typeof val && opts.json) {
val = Enc.bufToHex(val);
}
return [typ, val];
}
return [
typ,
next.children.map(function(child) {
return toArray(child, opts);
})
];
};
ASN1.parse = function(opts) {
var opts2 = { json: false !== opts.json };
var verbose = ASN1.parseVerbose(opts.der, opts2);
if (opts.verbose) {
return verbose;
}
return ASN1._toArray(verbose, opts2);
};
ASN1._replacer = function(k, v) {
if ('type' === k) {
return '0x' + Enc.numToHex(v);
}
if (v && 'value' === k) {
return '0x' + Enc.bufToHex(v.data || v);
}
return v;
};
//
// Packer
//
// Almost every ASN.1 type that's important for CSR
// can be represented generically with only a few rules.
function Any(/*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;
if ('number' === typeof hex) {
hex = Enc.numToHex(hex);
}
// 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 += Enc.numToHex(0x80 + lenlen);
}
return hex + Enc.numToHex(str.length / 2) + str;
}
ASN1.Any = Any;
// 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 Any('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 Any('03', '00' + str);
};
ASN1._toArray = function toArray(next, opts) {
var typ = opts.json ? Enc.numToHex(next.type) : next.type;
var val = next.value;
if (val) {
if ('string' !== typeof val && opts.json) {
val = Enc.bufToHex(val);
}
return [typ, val];
}
return [
typ,
next.children.map(function(child) {
return toArray(child, opts);
})
];
};
ASN1._pack = function(arr) {
var typ = arr[0];
if ('number' === typeof arr[0]) {
typ = Enc.numToHex(arr[0]);
}
var str = '';
if (Array.isArray(arr[1])) {
arr[1].forEach(function(a) {
str += ASN1._pack(a);
});
} else if ('string' === typeof arr[1]) {
str = arr[1];
} else if (arr[1].byteLength) {
str = Enc.bufToHex(arr[1]);
} else {
throw new Error('unexpected array');
}
if ('03' === typ) {
return ASN1.BitStr(str);
} else if ('02' === typ) {
return ASN1.UInt(str);
} else {
return Any(typ, str);
}
};
// TODO should this return a buffer?
ASN1.pack = function(asn1, opts) {
if (!opts) {
opts = {};
}
if (!Array.isArray(asn1)) {
asn1 = ASN1._toArray(asn1, { json: true });
}
var result = ASN1._pack(asn1);
if (opts.json) {
return result;
}
return Enc.hexToBuf(result);
};
}());
;(function () {
'use strict';
var X509 = window.X509 = {};
var ASN1 = window.ASN1;
var Enc = window.Encoding;
// 1.2.840.10045.3.1.7
// prime256v1 (ANSI X9.62 named elliptic curve)
var OBJ_ID_EC = '06 08 2A8648CE3D030107'.replace(/\s+/g, '').toLowerCase();
// 1.3.132.0.34
// secp384r1 (SECG (Certicom) named elliptic curve)
var OBJ_ID_EC_384 = '06 05 2B81040022'.replace(/\s+/g, '').toLowerCase();
X509.parsePkcs1 = function parseRsaPkcs1(asn1, jwk) {
if (!jwk) {
jwk = {};
}
// might be a buffer
if (asn1.byteLength) {
asn1 = ASN1.parse({ der: asn1, verbose: true, json: false });
}
if (
!asn1.children.every(function(el) {
return 0x02 === el.type;
})
) {
throw new Error(
'not an RSA PKCS#1 public or private key (not all ints)'
);
}
if (2 === asn1.children.length) {
jwk.n = Enc.bufToUrlBase64(asn1.children[0].value);
jwk.e = Enc.bufToUrlBase64(asn1.children[1].value);
jwk.kty = 'RSA';
} else if (asn1.children.length >= 9) {
// the standard allows for "otherPrimeInfos", hence at least 9
jwk.n = Enc.bufToUrlBase64(asn1.children[1].value);
jwk.e = Enc.bufToUrlBase64(asn1.children[2].value);
jwk.d = Enc.bufToUrlBase64(asn1.children[3].value);
jwk.p = Enc.bufToUrlBase64(asn1.children[4].value);
jwk.q = Enc.bufToUrlBase64(asn1.children[5].value);
jwk.dp = Enc.bufToUrlBase64(asn1.children[6].value);
jwk.dq = Enc.bufToUrlBase64(asn1.children[7].value);
jwk.qi = Enc.bufToUrlBase64(asn1.children[8].value);
jwk.kty = 'RSA';
} else {
throw new Error(
'not an RSA PKCS#1 public or private key (wrong number of ints)'
);
}
return jwk;
};
X509.parseSec1 = function parseEcOnlyPrivkey(u8, jwk) {
var index = 7;
var len = 32;
var olen = OBJ_ID_EC.length / 2;
if ('P-384' === jwk.crv) {
olen = OBJ_ID_EC_384.length / 2;
index = 8;
len = 48;
}
if (len !== u8[index - 1]) {
throw new Error('Unexpected bitlength ' + len);
}
// private part is d
var d = u8.slice(index, index + len);
// compression bit index
var ci = index + len + 2 + olen + 2 + 3;
var c = u8[ci];
var x, y;
if (0x04 === c) {
y = u8.slice(ci + 1 + len, ci + 1 + len + len);
} else if (0x02 !== c) {
throw new Error('not a supported EC private key');
}
x = u8.slice(ci + 1, ci + 1 + len);
return {
kty: jwk.kty || 'EC',
crv: jwk.crv || 'P-256',
d: Enc.bufToUrlBase64(d),
//, dh: Enc.bufToHex(d)
x: Enc.bufToUrlBase64(x),
//, xh: Enc.bufToHex(x)
y: Enc.bufToUrlBase64(y)
//, yh: Enc.bufToHex(y)
};
};
X509.parsePkcs8 = function(u8, jwk) {
try {
return X509.parseRsaPkcs8(u8, jwk);
} catch (e) {
return X509.parseEcPkcs8(u8, jwk);
}
};
X509.parseEcPkcs8 = function parseEcPkcs8(u8, jwk) {
var index = 24 + OBJ_ID_EC.length / 2;
var len = 32;
if ('P-384' === jwk.crv) {
index = 24 + OBJ_ID_EC_384.length / 2 + 2;
len = 48;
}
if (0x04 !== u8[index]) {
throw new Error('privkey not found');
}
var d = u8.slice(index + 2, index + 2 + len);
var ci = index + 2 + len + 5;
var xi = ci + 1;
var x = u8.slice(xi, xi + len);
var yi = xi + len;
var y;
if (0x04 === u8[ci]) {
y = u8.slice(yi, yi + len);
} else if (0x02 !== u8[ci]) {
throw new Error('invalid compression bit (expected 0x04 or 0x02)');
}
return {
kty: jwk.kty || 'EC',
crv: jwk.crv || 'P-256',
d: Enc.bufToUrlBase64(d),
//, dh: Enc.bufToHex(d)
x: Enc.bufToUrlBase64(x),
//, xh: Enc.bufToHex(x)
y: Enc.bufToUrlBase64(y)
//, yh: Enc.bufToHex(y)
};
};
X509.parseRsaPkcs8 = function parseRsaPkcs8(asn1, jwk) {
if (!jwk) {
jwk = {};
}
// might be a buffer
if (asn1.byteLength) {
asn1 = ASN1.parse({ der: asn1, verbose: true, json: false });
}
if (
2 === asn1.children.length &&
0x03 === asn1.children[1].type // && 2 === asn1.children[1].children.length
) {
asn1 = asn1.children[1].children[0];
jwk.n = Enc.bufToUrlBase64(asn1.children[0].value);
jwk.e = Enc.bufToUrlBase64(asn1.children[1].value);
jwk.kty = 'RSA';
} else if (
3 === asn1.children.length &&
0x04 === asn1.children[2].type &&
0x30 === asn1.children[2].children[0].type &&
0x02 === asn1.children[2].children[0].children[0].type
) {
asn1 = asn1.children[2].children[0];
jwk.n = Enc.bufToUrlBase64(asn1.children[1].value);
jwk.e = Enc.bufToUrlBase64(asn1.children[2].value);
jwk.d = Enc.bufToUrlBase64(asn1.children[3].value);
jwk.p = Enc.bufToUrlBase64(asn1.children[4].value);
jwk.q = Enc.bufToUrlBase64(asn1.children[5].value);
jwk.dp = Enc.bufToUrlBase64(asn1.children[6].value);
jwk.dq = Enc.bufToUrlBase64(asn1.children[7].value);
jwk.qi = Enc.bufToUrlBase64(asn1.children[8].value);
jwk.kty = 'RSA';
} else {
throw new Error(
'not an RSA PKCS#8 public or private key (wrong format)'
);
}
return jwk;
};
X509.parseSpki = function(buf, jwk) {
try {
return X509.parseRsaPkcs8(buf, jwk);
} catch (e) {
return X509.parseEcSpki(buf, jwk);
}
};
X509.parseEcSpki = function(u8, jwk) {
var ci = 16 + OBJ_ID_EC.length / 2;
var len = 32;
if ('P-384' === jwk.crv) {
ci = 16 + OBJ_ID_EC_384.length / 2;
len = 48;
}
var c = u8[ci];
var xi = ci + 1;
var x = u8.slice(xi, xi + len);
var yi = xi + len;
var y;
if (0x04 === c) {
y = u8.slice(yi, yi + len);
} else if (0x02 !== c) {
throw new Error('not a supported EC private key');
}
return {
kty: jwk.kty || 'EC',
crv: jwk.crv || 'P-256',
x: Enc.bufToUrlBase64(x),
//, xh: Enc.bufToHex(x)
y: Enc.bufToUrlBase64(y)
//, yh: Enc.bufToHex(y)
};
};
X509.parsePkix = X509.parseSpki;
// TODO look for ECDSA as well
X509._parseRsa = function(asn1) {
// accepting der for compatability with other usages
if (asn1.byteLength) {
asn1 = ASN1.parse({ der: asn1, verbose: true, json: false });
}
var meta = { kty: 'RSA', format: 'pkcs1', public: true };
//meta.asn1 = ASN1.parse(u8);
if (
asn1.children.every(function(el) {
return 0x02 === el.type;
})
) {
if (2 === asn1.children.length) {
// rsa pkcs1 public
//return meta;
} else if (asn1.children.length >= 9) {
// the standard allows for "otherPrimeInfos", hence at least 9
meta.public = false;
// rsa pkcs1 private
//return meta;
} else {
throw new Error(
'not an RSA PKCS#1 public or private key (wrong number of ints)'
);
}
} else {
meta.format = 'pkcs8';
}
var jwk = { kty: 'RSA', n: null, e: null };
if ('pkcs1' === meta.format) {
return X509.parsePkcs1(asn1, jwk);
} else {
return X509.parsePkcs8(asn1, jwk);
}
};
// 1.2.840.10045.3.1.7
// prime256v1 (ANSI X9.62 named elliptic curve)
var OBJ_ID_EC = '06 08 2A8648CE3D030107'.replace(/\s+/g, '').toLowerCase();
// 1.3.132.0.34
// secp384r1 (SECG (Certicom) named elliptic curve)
var OBJ_ID_EC_384 = '06 05 2B81040022'.replace(/\s+/g, '').toLowerCase();
// 1.2.840.10045.2.1
// ecPublicKey (ANSI X9.62 public key type)
var OBJ_ID_EC_PUB = '06 07 2A8648CE3D0201'.replace(/\s+/g, '').toLowerCase();
var Asn1 = ASN1.Any;
var UInt = ASN1.UInt;
var BitStr = ASN1.BitStr;
X509.packPkcs1 = function(jwk) {
var n = UInt(Enc.base64ToHex(jwk.n));
var e = UInt(Enc.base64ToHex(jwk.e));
if (!jwk.d) {
return Enc.hexToBuf(Asn1('30', n, e));
}
return Enc.hexToBuf(
Asn1(
'30',
UInt('00'),
n,
e,
UInt(Enc.base64ToHex(jwk.d)),
UInt(Enc.base64ToHex(jwk.p)),
UInt(Enc.base64ToHex(jwk.q)),
UInt(Enc.base64ToHex(jwk.dp)),
UInt(Enc.base64ToHex(jwk.dq)),
UInt(Enc.base64ToHex(jwk.qi))
)
);
};
X509.packSec1 = function(jwk) {
var d = Enc.base64ToHex(jwk.d);
var x = Enc.base64ToHex(jwk.x);
var y = Enc.base64ToHex(jwk.y);
var objId = 'P-256' === jwk.crv ? OBJ_ID_EC : OBJ_ID_EC_384;
return Enc.hexToBuf(
Asn1(
'30',
UInt('01'),
Asn1('04', d),
Asn1('A0', objId),
Asn1('A1', BitStr('04' + x + y))
)
);
};
/**
* take a private jwk and creates a der from it
* @param {*} jwk
*/
X509.packPkcs8 = function(jwk) {
if (/RSA/.test(jwk.kty)) {
return X509.packPkcs8Rsa(jwk);
}
return X509.packPkcs8Ec(jwk);
};
X509.packPkcs8Ec = function(jwk) {
var d = Enc.base64ToHex(jwk.d);
var x = Enc.base64ToHex(jwk.x);
var y = Enc.base64ToHex(jwk.y);
var objId = 'P-256' === jwk.crv ? OBJ_ID_EC : OBJ_ID_EC_384;
return Enc.hexToBuf(
Asn1(
'30',
UInt('00'),
Asn1('30', OBJ_ID_EC_PUB, objId),
Asn1(
'04',
Asn1(
'30',
UInt('01'),
Asn1('04', d),
Asn1('A1', BitStr('04' + x + y))
)
)
)
);
};
X509.packPkcs8Rsa = function(jwk) {
if (!jwk.d) {
// Public RSA
return Enc.hexToBuf(
Asn1(
'30',
Asn1('30', Asn1('06', '2a864886f70d010101'), Asn1('05')),
BitStr(
Asn1(
'30',
UInt(Enc.base64ToHex(jwk.n)),
UInt(Enc.base64ToHex(jwk.e))
)
)
)
);
}
// Private RSA
return Enc.hexToBuf(
Asn1(
'30',
UInt('00'),
Asn1('30', Asn1('06', '2a864886f70d010101'), Asn1('05')),
Asn1(
'04',
Asn1(
'30',
UInt('00'),
UInt(Enc.base64ToHex(jwk.n)),
UInt(Enc.base64ToHex(jwk.e)),
UInt(Enc.base64ToHex(jwk.d)),
UInt(Enc.base64ToHex(jwk.p)),
UInt(Enc.base64ToHex(jwk.q)),
UInt(Enc.base64ToHex(jwk.dp)),
UInt(Enc.base64ToHex(jwk.dq)),
UInt(Enc.base64ToHex(jwk.qi))
)
)
)
);
};
X509.packSpkiEc = function(jwk) {
var x = Enc.base64ToHex(jwk.x);
var y = Enc.base64ToHex(jwk.y);
var objId = 'P-256' === jwk.crv ? OBJ_ID_EC : OBJ_ID_EC_384;
return Enc.hexToBuf(
Asn1('30', Asn1('30', OBJ_ID_EC_PUB, objId), BitStr('04' + x + y))
);
};
X509.packSpki = function(jwk) {
if (/RSA/i.test(jwk.kty)) {
return X509.packPkcs8Rsa(jwk);
}
return X509.packSpkiEc(jwk);
};
X509.packPkix = X509.packSpki;
X509.packCsrRsaPublicKey = function(jwk) {
// Sequence the key
var n = UInt(Enc.base64ToHex(jwk.n));
var e = UInt(Enc.base64ToHex(jwk.e));
var asn1pub = Asn1('30', n, e);
// Add the CSR pub key header
return Asn1(
'30',
Asn1('30', Asn1('06', '2a864886f70d010101'), Asn1('05')),
BitStr(asn1pub)
);
};
X509.packCsrEcPublicKey = function(jwk) {
var ecOid = X509._oids[jwk.crv];
if (!ecOid) {
throw new Error(
"Unsupported namedCurve '" +
jwk.crv +
"'. Supported types are " +
Object.keys(X509._oids)
);
}
var cmp = '04'; // 04 == x+y, 02 == x-only
var hxy = '';
// Placeholder. I'm not even sure if compression should be supported.
if (!jwk.y) {
cmp = '02';
}
hxy += Enc.base64ToHex(jwk.x);
if (jwk.y) {
hxy += Enc.base64ToHex(jwk.y);
}
// 1.2.840.10045.2.1 ecPublicKey
return Asn1(
'30',
Asn1('30', Asn1('06', '2a8648ce3d0201'), Asn1('06', ecOid)),
BitStr(cmp + hxy)
);
};
X509._oids = {
// 1.2.840.10045.3.1.7 prime256v1
// (ANSI X9.62 named elliptic curve) (06 08 - 2A 86 48 CE 3D 03 01 07)
'P-256': '2a8648ce3d030107',
// 1.3.132.0.34 P-384 (06 05 - 2B 81 04 00 22)
// (SEC 2 recommended EC domain secp256r1)
'P-384': '2b81040022'
// 1.3.132.0.35 P-521 (06 05 - 2B 81 04 00 23)
// (SEC 2 alternate P-521)
//, 'P-521': '2B 81 04 00 23'
};
}());