hmac check on rsa decrypt
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@ -10,7 +10,9 @@ function ConstantsService() {
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AesCbc128_HmacSha256_B64: 1,
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AesCbc256_HmacSha256_B64: 2,
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Rsa2048_OaepSha256_B64: 3,
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Rsa2048_OaepSha1_B64: 4
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Rsa2048_OaepSha1_B64: 4,
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Rsa2048_OaepSha256_HmacSha256_B64: 5,
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Rsa2048_OaepSha1_HmacSha256_B64: 6
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}
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};
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};
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@ -427,7 +427,7 @@ function initCryptoService(constantsService) {
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var iv = forge.util.encode64(ivBytes);
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var ctBytes = cipher.output.getBytes();
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var ct = forge.util.encode64(ctBytes);
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var mac = !key.macKey ? null : computeMac(ctBytes, ivBytes, key.macKey, true);
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var mac = !key.macKey ? null : computeMac(ivBytes + ctBytes, key.macKey, true);
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var cs = new CipherString(key.encType, iv, ct, mac);
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deferred.resolve(cs);
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@ -473,7 +473,7 @@ function initCryptoService(constantsService) {
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if (key.macKey && cipherString.mac) {
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var macBytes = forge.util.decode64(cipherString.mac);
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var computedMacBytes = computeMac(ctBytes, ivBytes, key.macKey, false);
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var computedMacBytes = computeMac(ivBytes + ctBytes, key.macKey, false);
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if (!macsEqual(key.macKey, computedMacBytes, macBytes)) {
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console.error('MAC failed.');
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deferred.reject('MAC failed.');
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@ -503,38 +503,64 @@ function initCryptoService(constantsService) {
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CryptoService.prototype.rsaDecrypt = function (encValue) {
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var headerPieces = encValue.split('.'),
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encType,
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encPiece;
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encPieces;
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if (headerPieces.length === 1) {
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encType = constantsService.encType.Rsa2048_OaepSha256_B64;
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encPiece = headerPieces[0];
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encPieces = [headerPieces[0]];
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}
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else if (headerPieces.length === 2) {
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try {
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encType = parseInt(headerPieces[0]);
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encPiece = headerPieces[1];
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encPieces = headerPieces[1].split('|');
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}
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catch (e) { }
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}
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var padding = null;
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if (encType === constantsService.encType.Rsa2048_OaepSha256_B64) {
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padding = {
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name: 'RSA-OAEP',
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hash: { name: 'SHA-256' }
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}
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}
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else if (encType === constantsService.encType.Rsa2048_OaepSha1_B64) {
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padding = {
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name: 'RSA-OAEP',
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hash: { name: 'SHA-1' }
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}
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}
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else {
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throw 'encType unavailable.';
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switch (encType) {
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case constantsService.encType.Rsa2048_OaepSha256_B64:
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case constantsService.encType.Rsa2048_OaepSha1_B64:
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if (encPieces.length !== 1) {
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throw 'Invalid cipher format.';
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}
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break;
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case constantsService.encType.Rsa2048_OaepSha256_HmacSha256_B64:
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case constantsService.encType.Rsa2048_OaepSha1_HmacSha256_B64:
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if (encPieces.length !== 2) {
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throw 'Invalid cipher format.';
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}
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break;
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default:
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throw 'encType unavailable.';
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}
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return this.getPrivateKey().then(function (privateKeyBytes) {
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var padding = null;
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switch (encType) {
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case constantsService.encType.Rsa2048_OaepSha256_B64:
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case constantsService.encType.Rsa2048_OaepSha256_HmacSha256_B64:
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padding = {
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name: 'RSA-OAEP',
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hash: { name: 'SHA-256' }
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}
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break;
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case constantsService.encType.Rsa2048_OaepSha1_B64:
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case constantsService.encType.Rsa2048_OaepSha1_HmacSha256_B64:
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padding = {
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name: 'RSA-OAEP',
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hash: { name: 'SHA-1' }
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}
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break;
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default:
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throw 'encType unavailable.';
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}
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var key = null,
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self = this;
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return self.getEncKey().then(function (encKey) {
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key = encKey;
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return self.getPrivateKey();
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}).then(function (privateKeyBytes) {
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if (!privateKeyBytes) {
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throw 'No private key.';
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}
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@ -545,12 +571,21 @@ function initCryptoService(constantsService) {
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return window.crypto.subtle.importKey('pkcs8', privateKeyBytes, padding, false, ['decrypt']);
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}).then(function (privateKey) {
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if (!encPiece) {
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throw 'encPiece unavailable.';
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if (!encPieces || !encPieces.length) {
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throw 'encPieces unavailable.';
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}
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var ctBytes = fromB64ToBuffer(encPiece);
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return window.crypto.subtle.decrypt({ name: padding.name }, privateKey, ctBytes);
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if (key && key.macKey && encPieces.length > 1) {
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var ctBytes = forge.util.decode64(encPieces[0]);
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var macBytes = forge.util.decode64(encPieces[1]);
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var computedMacBytes = computeMac(ctBytes, key.macKey, false);
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if (!macsEqual(key.macKey, macBytes, computedMacBytes)) {
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throw 'MAC failed.';
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}
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}
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var ctBuff = fromB64ToBuffer(encPieces[0]);
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return window.crypto.subtle.decrypt({ name: padding.name }, privateKey, ctBuff);
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}, function () {
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throw 'Cannot import privateKey.';
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}).then(function (decBytes) {
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@ -561,10 +596,10 @@ function initCryptoService(constantsService) {
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});
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};
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function computeMac(ct, iv, macKey, b64Output) {
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function computeMac(dataBytes, macKey, b64Output) {
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var hmac = forge.hmac.create();
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hmac.start('sha256', macKey);
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hmac.update(iv + ct);
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hmac.update(dataBytes);
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var mac = hmac.digest();
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return b64Output ? forge.util.encode64(mac.getBytes()) : mac.getBytes();
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}
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