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This commit is contained in:
Sanjana Rajan 2019-01-24 10:16:36 +01:00
parent 2b17ffba84
commit 96eca0c281
9 changed files with 189 additions and 74 deletions
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2
bower.json
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@ -1,6 +1,6 @@
{
"name": "openpgp",
"version": "4.4.5",
"version": "4.4.6",
"license": "LGPL-3.0+",
"homepage": "https://openpgpjs.org/",
"authors": [

157
dist/compat/openpgp.js vendored
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@ -29663,7 +29663,7 @@ exports.default = {
* @memberof module:config
* @property {String} versionstring A version string to be included in armored messages
*/
versionstring: "OpenPGP.js v4.4.5",
versionstring: "OpenPGP.js v4.4.6",
/**
* @memberof module:config
* @property {String} commentstring A comment string to be included in armored messages
@ -35212,22 +35212,21 @@ var kdf = function () {
}();
/**
* Encrypt and wrap a session key
* Generate ECDHE ephemeral key and secret from public key
*
* @param {module:type/oid} oid Elliptic curve object identifier
* @param {module:enums.symmetric} cipher_algo Symmetric cipher to use
* @param {module:enums.hash} hash_algo Hash algorithm to use
* @param {module:type/mpi} m Value derived from session key (RFC 6637)
* @param {Uint8Array} Q Recipient public key
* @param {String} fingerprint Recipient fingerprint
* @returns {Promise<{V: BN, C: BN}>} Returns ephemeral key and encoded session key
* @returns {Promise<{V: Uint8Array, Z: Uint8Array}>} Returns public part of ephemeral key and generated ephemeral secret
* @async
*/
var encrypt = function () {
var _ref2 = (0, _asyncToGenerator3.default)( /*#__PURE__*/_regenerator2.default.mark(function _callee2(oid, cipher_algo, hash_algo, m, Q, fingerprint) {
var curve, param, v, S, Z, C;
var genPublicEphemeralKey = function () {
var _ref2 = (0, _asyncToGenerator3.default)( /*#__PURE__*/_regenerator2.default.mark(function _callee2(oid, cipher_algo, hash_algo, Q, fingerprint) {
var curve, param, v, S, V, Z;
return _regenerator2.default.wrap(function _callee2$(_context2) {
while (1) {
switch (_context2.prev = _context2.next) {
@ -35244,16 +35243,13 @@ var encrypt = function () {
Q = curve.keyFromPublic(Q);
S = v.derive(Q);
_context2.next = 10;
V = new Uint8Array(v.getPublic());
_context2.next = 11;
return kdf(hash_algo, S, _cipher2.default[cipher_algo].keySize, param);
case 10:
case 11:
Z = _context2.sent;
C = _aes_kw2.default.wrap(Z, m.toString());
return _context2.abrupt('return', {
V: new _bn2.default(v.getPublic()),
C: C
});
return _context2.abrupt('return', { V: V, Z: Z });
case 13:
case 'end':
@ -35263,57 +35259,140 @@ var encrypt = function () {
}, _callee2, this);
}));
return function encrypt(_x5, _x6, _x7, _x8, _x9, _x10) {
return function genPublicEphemeralKey(_x5, _x6, _x7, _x8, _x9) {
return _ref2.apply(this, arguments);
};
}();
/**
* Encrypt and wrap a session key
*
* @param {module:type/oid} oid Elliptic curve object identifier
* @param {module:enums.symmetric} cipher_algo Symmetric cipher to use
* @param {module:enums.hash} hash_algo Hash algorithm to use
* @param {module:type/mpi} m Value derived from session key (RFC 6637)
* @param {Uint8Array} Q Recipient public key
* @param {String} fingerprint Recipient fingerprint
* @returns {Promise<{V: BN, C: BN}>} Returns public part of ephemeral key and encoded session key
* @async
*/
var encrypt = function () {
var _ref3 = (0, _asyncToGenerator3.default)( /*#__PURE__*/_regenerator2.default.mark(function _callee3(oid, cipher_algo, hash_algo, m, Q, fingerprint) {
var _ref4, V, Z;
return _regenerator2.default.wrap(function _callee3$(_context3) {
while (1) {
switch (_context3.prev = _context3.next) {
case 0:
_context3.next = 2;
return genPublicEphemeralKey(oid, cipher_algo, hash_algo, Q, fingerprint);
case 2:
_ref4 = _context3.sent;
V = _ref4.V;
Z = _ref4.Z;
return _context3.abrupt('return', {
V: new _bn2.default(V),
C: _aes_kw2.default.wrap(Z, m.toString())
});
case 6:
case 'end':
return _context3.stop();
}
}
}, _callee3, this);
}));
return function encrypt(_x10, _x11, _x12, _x13, _x14, _x15) {
return _ref3.apply(this, arguments);
};
}();
/**
* Generate ECDHE secret from private key and public part of ephemeral key
*
* @param {module:type/oid} oid Elliptic curve object identifier
* @param {module:enums.symmetric} cipher_algo Symmetric cipher to use
* @param {module:enums.hash} hash_algo Hash algorithm to use
* @param {Uint8Array} V Public part of ephemeral key
* @param {Uint8Array} d Recipient private key
* @param {String} fingerprint Recipient fingerprint
* @returns {Promise<Uint8Array>} Generated ephemeral secret
* @async
*/
var genPrivateEphemeralKey = function () {
var _ref5 = (0, _asyncToGenerator3.default)( /*#__PURE__*/_regenerator2.default.mark(function _callee4(oid, cipher_algo, hash_algo, V, d, fingerprint) {
var curve, param, S;
return _regenerator2.default.wrap(function _callee4$(_context4) {
while (1) {
switch (_context4.prev = _context4.next) {
case 0:
curve = new _curves2.default(oid);
param = buildEcdhParam(_enums2.default.publicKey.ecdh, oid, cipher_algo, hash_algo, fingerprint);
cipher_algo = _enums2.default.read(_enums2.default.symmetric, cipher_algo);
V = curve.keyFromPublic(V);
d = curve.keyFromPrivate(d);
S = d.derive(V);
return _context4.abrupt('return', kdf(hash_algo, S, _cipher2.default[cipher_algo].keySize, param));
case 7:
case 'end':
return _context4.stop();
}
}
}, _callee4, this);
}));
return function genPrivateEphemeralKey(_x16, _x17, _x18, _x19, _x20, _x21) {
return _ref5.apply(this, arguments);
};
}();
/**
* Decrypt and unwrap the value derived from session key
*
* @param {module:type/oid} oid Elliptic curve object identifier
* @param {module:enums.symmetric} cipher_algo Symmetric cipher to use
* @param {module:enums.hash} hash_algo Hash algorithm to use
* @param {BN} V Public part of ephemeral key
* @param {Uint8Array} V Public part of ephemeral key
* @param {Uint8Array} C Encrypted and wrapped value derived from session key
* @param {Uint8Array} d Recipient private key
* @param {String} fingerprint Recipient fingerprint
* @returns {Promise<Uint8Array>} Value derived from session
* @returns {Promise<BN>} Value derived from session
* @async
*/
var decrypt = function () {
var _ref3 = (0, _asyncToGenerator3.default)( /*#__PURE__*/_regenerator2.default.mark(function _callee3(oid, cipher_algo, hash_algo, V, C, d, fingerprint) {
var curve, param, S, Z;
return _regenerator2.default.wrap(function _callee3$(_context3) {
var _ref6 = (0, _asyncToGenerator3.default)( /*#__PURE__*/_regenerator2.default.mark(function _callee5(oid, cipher_algo, hash_algo, V, C, d, fingerprint) {
var Z;
return _regenerator2.default.wrap(function _callee5$(_context5) {
while (1) {
switch (_context3.prev = _context3.next) {
switch (_context5.prev = _context5.next) {
case 0:
curve = new _curves2.default(oid);
param = buildEcdhParam(_enums2.default.publicKey.ecdh, oid, cipher_algo, hash_algo, fingerprint);
_context5.next = 2;
return genPrivateEphemeralKey(oid, cipher_algo, hash_algo, V, d, fingerprint);
cipher_algo = _enums2.default.read(_enums2.default.symmetric, cipher_algo);
V = curve.keyFromPublic(V);
d = curve.keyFromPrivate(d);
S = d.derive(V);
_context3.next = 8;
return kdf(hash_algo, S, _cipher2.default[cipher_algo].keySize, param);
case 2:
Z = _context5.sent;
return _context5.abrupt('return', new _bn2.default(_aes_kw2.default.unwrap(Z, C)));
case 8:
Z = _context3.sent;
return _context3.abrupt('return', new _bn2.default(_aes_kw2.default.unwrap(Z, C)));
case 10:
case 4:
case 'end':
return _context3.stop();
return _context5.stop();
}
}
}, _callee3, this);
}, _callee5, this);
}));
return function decrypt(_x11, _x12, _x13, _x14, _x15, _x16, _x17) {
return _ref3.apply(this, arguments);
return function decrypt(_x22, _x23, _x24, _x25, _x26, _x27, _x28) {
return _ref6.apply(this, arguments);
};
}();
@ -35384,7 +35463,7 @@ function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { de
function buildEcdhParam(public_algo, oid, cipher_algo, hash_algo, fingerprint) {
var kdf_params = new _kdf_params2.default([hash_algo, cipher_algo]);
return _util2.default.concatUint8Array([oid.write(), new Uint8Array([public_algo]), kdf_params.write(), _util2.default.str_to_Uint8Array("Anonymous Sender "), fingerprint.subarray(0, 20)]);
}exports.default = { encrypt: encrypt, decrypt: decrypt };
}exports.default = { encrypt: encrypt, decrypt: decrypt, genPublicEphemeralKey: genPublicEphemeralKey, genPrivateEphemeralKey: genPrivateEphemeralKey };
},{"../../../enums":376,"../../../type/kdf_params":410,"../../../util":415,"../../aes_kw":343,"../../cipher":349,"../../hash":355,"./curves":363,"babel-runtime/helpers/asyncToGenerator":33,"babel-runtime/regenerator":41,"bn.js":42}],365:[function(_dereq_,module,exports){
'use strict';

4
dist/compat/openpgp.min.js vendored
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2
dist/compat/openpgp.worker.min.js vendored
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@ -1,2 +1,2 @@
/*! OpenPGP.js v4.4.5 - 2019-01-15 - this is LGPL licensed code, see LICENSE/our website https://openpgpjs.org/ for more information. */
/*! OpenPGP.js v4.4.6 - 2019-01-24 - this is LGPL licensed code, see LICENSE/our website https://openpgpjs.org/ for more information. */
!function(){return function e(n,r,t){function o(a,f){if(!r[a]){if(!n[a]){var u="function"==typeof require&&require;if(!f&&u)return u(a,!0);if(i)return i(a,!0);var c=new Error("Cannot find module '"+a+"'");throw c.code="MODULE_NOT_FOUND",c}var s=r[a]={exports:{}};n[a][0].call(s.exports,function(e){return o(n[a][1][e]||e)},s,s.exports,e,n,r,t)}return r[a].exports}for(var i="function"==typeof require&&require,a=0;a<t.length;a++)o(t[a]);return o}}()({1:[function(e,n,r){self.window=self,importScripts("openpgp.min.js");var t=window.openpgp,o=[],i=6e4;function a(e){self.postMessage(e,t.util.getTransferables(e.data,!0))}t.crypto.random.randomBuffer.init(i,function(){return o.length||self.postMessage({event:"request-seed",amount:i}),new Promise(function(e){o.push(e)})}),self.onmessage=function(e){var n,r=e.data||{};switch(r.event){case"configure":n=r.config,Object.keys(n).forEach(function(e){t.config[e]=n[e]});break;case"seed-random":!function(e){e instanceof Uint8Array||(e=new Uint8Array(e));t.crypto.random.randomBuffer.set(e)}(r.buf);var i=o;o=[];for(var f=0;f<i.length;f++)i[f]();break;default:!function(e,n,r){if("function"!=typeof t[n])return void a({id:e,event:"method-return",err:"Unknown Worker Event"});r=t.packet.clone.parseClonedPackets(r,n),t.util.restoreStreams(r),t[n](r).then(function(n){a({id:e,event:"method-return",data:t.packet.clone.clonePackets(n)})}).catch(function(n){t.util.print_debug_error(n),a({id:e,event:"method-return",err:n.message,stack:n.stack})})}(r.id,r.event,r.options||{})}}},{}]},{},[1]);

78
dist/openpgp.js vendored
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@ -23761,7 +23761,7 @@ exports.default = {
* @memberof module:config
* @property {String} versionstring A version string to be included in armored messages
*/
versionstring: "OpenPGP.js v4.4.5",
versionstring: "OpenPGP.js v4.4.6",
/**
* @memberof module:config
* @property {String} commentstring A comment string to be included in armored messages
@ -28023,6 +28023,29 @@ async function kdf(hash_algo, X, length, param) {
return digest.subarray(0, length);
}
/**
* Generate ECDHE ephemeral key and secret from public key
*
* @param {module:type/oid} oid Elliptic curve object identifier
* @param {module:enums.symmetric} cipher_algo Symmetric cipher to use
* @param {module:enums.hash} hash_algo Hash algorithm to use
* @param {Uint8Array} Q Recipient public key
* @param {String} fingerprint Recipient fingerprint
* @returns {Promise<{V: Uint8Array, Z: Uint8Array}>} Returns public part of ephemeral key and generated ephemeral secret
* @async
*/
async function genPublicEphemeralKey(oid, cipher_algo, hash_algo, Q, fingerprint) {
const curve = new _curves2.default(oid);
const param = buildEcdhParam(_enums2.default.publicKey.ecdh, oid, cipher_algo, hash_algo, fingerprint);
cipher_algo = _enums2.default.read(_enums2.default.symmetric, cipher_algo);
const v = await curve.genKeyPair();
Q = curve.keyFromPublic(Q);
const S = v.derive(Q);
const V = new Uint8Array(v.getPublic());
const Z = await kdf(hash_algo, S, _cipher2.default[cipher_algo].keySize, param);
return { V, Z };
}
/**
* Encrypt and wrap a session key
*
@ -28032,22 +28055,41 @@ async function kdf(hash_algo, X, length, param) {
* @param {module:type/mpi} m Value derived from session key (RFC 6637)
* @param {Uint8Array} Q Recipient public key
* @param {String} fingerprint Recipient fingerprint
* @returns {Promise<{V: BN, C: BN}>} Returns ephemeral key and encoded session key
* @returns {Promise<{V: BN, C: BN}>} Returns public part of ephemeral key and encoded session key
* @async
*/
async function encrypt(oid, cipher_algo, hash_algo, m, Q, fingerprint) {
var _ref = await genPublicEphemeralKey(oid, cipher_algo, hash_algo, Q, fingerprint);
const V = _ref.V,
Z = _ref.Z;
return {
V: new _bn2.default(V),
C: _aes_kw2.default.wrap(Z, m.toString())
};
}
/**
* Generate ECDHE secret from private key and public part of ephemeral key
*
* @param {module:type/oid} oid Elliptic curve object identifier
* @param {module:enums.symmetric} cipher_algo Symmetric cipher to use
* @param {module:enums.hash} hash_algo Hash algorithm to use
* @param {Uint8Array} V Public part of ephemeral key
* @param {Uint8Array} d Recipient private key
* @param {String} fingerprint Recipient fingerprint
* @returns {Promise<Uint8Array>} Generated ephemeral secret
* @async
*/
async function genPrivateEphemeralKey(oid, cipher_algo, hash_algo, V, d, fingerprint) {
const curve = new _curves2.default(oid);
const param = buildEcdhParam(_enums2.default.publicKey.ecdh, oid, cipher_algo, hash_algo, fingerprint);
cipher_algo = _enums2.default.read(_enums2.default.symmetric, cipher_algo);
const v = await curve.genKeyPair();
Q = curve.keyFromPublic(Q);
const S = v.derive(Q);
const Z = await kdf(hash_algo, S, _cipher2.default[cipher_algo].keySize, param);
const C = _aes_kw2.default.wrap(Z, m.toString());
return {
V: new _bn2.default(v.getPublic()),
C: C
};
V = curve.keyFromPublic(V);
d = curve.keyFromPrivate(d);
const S = d.derive(V);
return kdf(hash_algo, S, _cipher2.default[cipher_algo].keySize, param);
}
/**
@ -28056,25 +28098,19 @@ async function encrypt(oid, cipher_algo, hash_algo, m, Q, fingerprint) {
* @param {module:type/oid} oid Elliptic curve object identifier
* @param {module:enums.symmetric} cipher_algo Symmetric cipher to use
* @param {module:enums.hash} hash_algo Hash algorithm to use
* @param {BN} V Public part of ephemeral key
* @param {Uint8Array} V Public part of ephemeral key
* @param {Uint8Array} C Encrypted and wrapped value derived from session key
* @param {Uint8Array} d Recipient private key
* @param {String} fingerprint Recipient fingerprint
* @returns {Promise<Uint8Array>} Value derived from session
* @returns {Promise<BN>} Value derived from session
* @async
*/
async function decrypt(oid, cipher_algo, hash_algo, V, C, d, fingerprint) {
const curve = new _curves2.default(oid);
const param = buildEcdhParam(_enums2.default.publicKey.ecdh, oid, cipher_algo, hash_algo, fingerprint);
cipher_algo = _enums2.default.read(_enums2.default.symmetric, cipher_algo);
V = curve.keyFromPublic(V);
d = curve.keyFromPrivate(d);
const S = d.derive(V);
const Z = await kdf(hash_algo, S, _cipher2.default[cipher_algo].keySize, param);
const Z = await genPrivateEphemeralKey(oid, cipher_algo, hash_algo, V, d, fingerprint);
return new _bn2.default(_aes_kw2.default.unwrap(Z, C));
}
exports.default = { encrypt, decrypt };
exports.default = { encrypt, decrypt, genPublicEphemeralKey, genPrivateEphemeralKey };
},{"../../../enums":115,"../../../type/kdf_params":149,"../../../util":154,"../../aes_kw":82,"../../cipher":88,"../../hash":94,"./curves":102,"bn.js":17}],104:[function(require,module,exports){
'use strict';

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dist/openpgp.min.js vendored
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2
dist/openpgp.worker.min.js vendored
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@ -1,2 +1,2 @@
/*! OpenPGP.js v4.4.5 - 2019-01-15 - this is LGPL licensed code, see LICENSE/our website https://openpgpjs.org/ for more information. */
/*! OpenPGP.js v4.4.6 - 2019-01-24 - this is LGPL licensed code, see LICENSE/our website https://openpgpjs.org/ for more information. */
!function(){return function e(n,r,t){function o(a,f){if(!r[a]){if(!n[a]){var u="function"==typeof require&&require;if(!f&&u)return u(a,!0);if(i)return i(a,!0);var c=new Error("Cannot find module '"+a+"'");throw c.code="MODULE_NOT_FOUND",c}var s=r[a]={exports:{}};n[a][0].call(s.exports,function(e){return o(n[a][1][e]||e)},s,s.exports,e,n,r,t)}return r[a].exports}for(var i="function"==typeof require&&require,a=0;a<t.length;a++)o(t[a]);return o}}()({1:[function(e,n,r){self.window=self,importScripts("openpgp.min.js");var t=window.openpgp,o=[],i=6e4;function a(e){self.postMessage(e,t.util.getTransferables(e.data,!0))}t.crypto.random.randomBuffer.init(i,function(){return o.length||self.postMessage({event:"request-seed",amount:i}),new Promise(function(e){o.push(e)})}),self.onmessage=function(e){var n,r=e.data||{};switch(r.event){case"configure":n=r.config,Object.keys(n).forEach(function(e){t.config[e]=n[e]});break;case"seed-random":!function(e){e instanceof Uint8Array||(e=new Uint8Array(e));t.crypto.random.randomBuffer.set(e)}(r.buf);var i=o;o=[];for(var f=0;f<i.length;f++)i[f]();break;default:!function(e,n,r){if("function"!=typeof t[n])return void a({id:e,event:"method-return",err:"Unknown Worker Event"});r=t.packet.clone.parseClonedPackets(r,n),t.util.restoreStreams(r),t[n](r).then(function(n){a({id:e,event:"method-return",data:t.packet.clone.clonePackets(n)})}).catch(function(n){t.util.print_debug_error(n),a({id:e,event:"method-return",err:n.message,stack:n.stack})})}(r.id,r.event,r.options||{})}}},{}]},{},[1]);

2
npm-shrinkwrap.json generated
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@ -1,6 +1,6 @@
{
"name": "openpgp",
"version": "4.4.5",
"version": "4.4.6",
"lockfileVersion": 1,
"requires": true,
"dependencies": {

2
package.json
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@ -1,7 +1,7 @@
{
"name": "openpgp",
"description": "OpenPGP.js is a Javascript implementation of the OpenPGP protocol. This is defined in RFC 4880.",
"version": "4.4.5",
"version": "4.4.6",
"license": "LGPL-3.0+",
"homepage": "https://openpgpjs.org/",
"engines": {