212 lines
8.3 KiB
JavaScript
212 lines
8.3 KiB
JavaScript
/*
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This is where the magic happens
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*/
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var WidevineCrypto = {};
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(function() {
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// The public 2048-bit RSA key Widevine uses for Chrome devices in L3, on Windows
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WidevineCrypto.chromeRSAPublicKey =
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`-----BEGIN PUBLIC KEY-----
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MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAtdHcRBiDWWxdJyKDLTPO9OTapumVnW+9g6k3RSflM0CESFEufZUJGC73UKe9e+u789HVZT04pB5or3WB0XOx
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aOibJklLBkd7Yfn1OndVrenMKTE1F4/6jg5rmwyv4qFQ1u8M/ThZUrAgb8pTmKfb9vrv1V8AApwVzcQg3s48eESnKjBU99Vk8alPTjPSfOgoTDluGxQONWiwCaMwftNs
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YrOzlde+V3UOb5FVzPcrOmaERfyujV3h4sHGRbTCsqYVwMalO7hmNmtemwt0xBuf5Juia7t1scuJypQ8lI1iEsB+JZVo3Uovfa9nNX0gl5TAq1tAh6M55/ttpWAirWHv
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CQIDAQAB
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-----END PUBLIC KEY-----`;
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// The private 2048-bit RSA key Widevine uses for authenticating Chrome devices in L3, on Windows
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// Extracted by applying some mathematical tricks to Arxan's white-box algorithm
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WidevineCrypto.chromeRSAPrivateKey =
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`-----BEGIN PRIVATE KEY-----
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MIIEvQIBADANBgkqhkiG9w0BAQEFAASCBKcwggSjAgEAAoIBAQC10dxEGINZbF0nIoMtM8705Nqm6ZWdb72DqTdFJ+UzQIRIUS59lQkYLvdQp71767vz0dVlPTikHmiv
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dYHRc7Fo6JsmSUsGR3th+fU6d1Wt6cwpMTUXj/qODmubDK/ioVDW7wz9OFlSsCBvylOYp9v2+u/VXwACnBXNxCDezjx4RKcqMFT31WTxqU9OM9J86ChMOW4bFA41aLAJ
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ozB+02xis7OV175XdQ5vkVXM9ys6ZoRF/K6NXeHiwcZFtMKyphXAxqU7uGY2a16bC3TEG5/km6Jru3Wxy4nKlDyUjWISwH4llWjdSi99r2c1fSCXlMCrW0CHoznn+22l
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YCKtYe8JAgMBAAECggEAGOPDJvFCHd43PFG9qlTyylR/2CSWzigLRfhGsClfd24oDaxLVHav+YcIZRqpVkr1flGlyEeittjQ1OAdptoTGbzp7EpRQmlLqyRoHRpT+MxO
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Hf91+KVFk+fGdEG+3CPgKKQt34Y0uByTPCpy2i10b7F3Xnq0Sicq1vG33DhYT9A/DRIjYr8Y0AVovq0VDjWqA1FW5OO9p7vky6e+PDMjSHucQ+uaLzVZSc7vWOh0tH5M
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0GVk17YpBiB/iTpw4zBUIcaneQX3eaIfSCDHK0SCD6IRF7kl+uORzvWqiWlGzpdG2B96uyP4hd3WoPcZntM79PKm4dAotdgmalbueFJfpwKBgQDUy0EyA9Fq0aPF4LID
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HqDPduIm4hEAZf6sQLd8Fe6ywM4p9KOEVx7YPaFxQHFSgIiWXswildPJl8Cg5cM2EyMU1tdn5xaR4VIDk8e2JEDfhPtaWskpJp2rU2wHvAXOeAES7UFMrkhKVqqVOdbo
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IhlLdcYp5KxiJ3mwINSSO94ShwKBgQDavJvF+c8AINfCaMocUX0knXz+xCwdP430GoPQCHa1rUj5bZ3qn3XMwSWa57J4x3pVhYmgJv4jpEK+LBULFezNLV5N4C7vH63a
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Zo4OF7IUedFBS5B508yAq7RiPhN2VOC8LRdDh5oqnFufjafF82y9d+/czCrVIG43D+KO2j4F7wKBgDg/HZWF0tYEYeDNGuCeOO19xBt5B/tt+lo3pQhkl7qiIhyO8KXr
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jVilOcZAvXOMTA5LMnQ13ExeE2m0MdxaRJyeiUOKnrmisFYHuvNXM9qhQPtKIgABmA2QOG728SX5LHd/RRJqwur7a42UQ00Krlr235F1Q2eSfaTjmKyqrHGDAoGAOTrd
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2ueoZFUzfnciYlRj1L+r45B6JlDpmDOTx0tfm9sx26j1h1yfWqoyZ5w1kupGNLgSsSdimPqyR8WK3/KlmW1EXkXIoeH8/8aTZlaGzlqtCFN4ApgKyqOiN44cU3qTrkhx
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7MY+7OUqB83tVpqBGfWWeYOltUud6qQqV8v8LFsCgYEAnOq+Ls83CaHIWCjpVfiWC+R7mqW+ql1OGtoaajtA4AzhXzX8HIXpYjupPBlXlQ1FFfPem6jwa1UTZf8CpIb8
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pPULAN9ZRrxG8V+bvkZWVREPTZj7xPCwPaZHNKoAmi3Dbv7S5SEYDbBX/NyPCLE4sj/AgTPbUsUtaiw5TvrPsFE=
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-----END PRIVATE KEY-----`;
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WidevineCrypto.initializeKeys = async function()
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{
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// load the device RSA keys for various purposes
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this.publicKeyEncrypt = await crypto.subtle.importKey('spki', PEM2Binary(this.chromeRSAPublicKey), {name: 'RSA-OAEP', hash: { name: 'SHA-1' },}, true, ['encrypt']);
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this.publicKeyVerify = await crypto.subtle.importKey('spki', PEM2Binary(this.chromeRSAPublicKey), {name: 'RSA-PSS', hash: { name: 'SHA-1' },}, true, ['verify']);
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this.privateKeyDecrypt = await crypto.subtle.importKey('pkcs8', PEM2Binary(this.chromeRSAPrivateKey), {name: 'RSA-OAEP', hash: { name: 'SHA-1' },}, true, ['decrypt']);
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var isRSAGood = await isRSAConsistent(this.publicKeyEncrypt, this.privateKeyDecrypt);
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if (!isRSAGood)
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{
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throw "Can't verify RSA keys consistency; This means the public key does not match the private key!";
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}
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this.keysInitialized = true;
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}
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WidevineCrypto.decryptContentKey = async function(licenseRequest, licenseResponse)
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{
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licenseRequest = SignedMessage.read(new Pbf(licenseRequest));
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licenseResponse = SignedMessage.read(new Pbf(licenseResponse));
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if (licenseRequest.type != SignedMessage.MessageType.LICENSE_REQUEST.value) return;
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license = License.read(new Pbf(licenseResponse.msg));
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if (!this.keysInitialized) await this.initializeKeys();
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// make sure the signature in the license request validates under the private key
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var signatureVerified = await window.crypto.subtle.verify({name: "RSA-PSS", saltLength: 20,}, this.publicKeyVerify,
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licenseRequest.signature, licenseRequest.msg)
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if (!signatureVerified)
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{
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console.log("Can't verify license request signature; either the platform is wrong or the key has changed!");
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return null;
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}
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// decrypt the session key
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var sessionKey = await crypto.subtle.decrypt({name: "RSA-OAEP"}, this.privateKeyDecrypt, licenseResponse.session_key);
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// calculate context_enc
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var encoder = new TextEncoder();
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var keySize = 128;
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var context_enc = concatBuffers([[0x01], encoder.encode("ENCRYPTION"), [0x00], licenseRequest.msg, intToBuffer(keySize)]);
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// calculate encrypt_key using CMAC
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var encryptKey = wordToByteArray(
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CryptoJS.CMAC(arrayToWordArray(new Uint8Array(sessionKey)),
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arrayToWordArray(new Uint8Array(context_enc))).words);
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// iterate the keys we got to find those we want to decrypt (the content key(s))
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var contentKeys = []
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for (currentKey of license.key)
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{
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if (currentKey.type != License.KeyContainer.KeyType.CONTENT.value) continue;
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var keyId = currentKey.id;
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var keyData = currentKey.key.slice(0, 16);
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var keyIv = currentKey.iv.slice(0, 16);
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// finally decrypt the content key
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var decryptedKey = wordToByteArray(
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CryptoJS.AES.decrypt({ ciphertext: arrayToWordArray(keyData) }, arrayToWordArray(encryptKey), { iv: arrayToWordArray(keyIv) }).words);
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contentKeys.push(decryptedKey);
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console.log("WidevineDecryptor: Found key: " + toHexString(decryptedKey) + " (KID=" + toHexString(keyId) + ")");
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}
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return contentKeys[0];
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}
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//
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// Helper functions
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//
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async function isRSAConsistent(publicKey, privateKey)
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{
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// See if the data is correctly decrypted after encryption
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var testData = new Uint8Array([0x41, 0x42, 0x43, 0x44]);
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var encryptedData = await crypto.subtle.encrypt({name: "RSA-OAEP"}, publicKey, testData);
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var testDecryptedData = await crypto.subtle.decrypt({name: "RSA-OAEP"}, privateKey, encryptedData);
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return areBuffersEqual(testData, testDecryptedData);
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}
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function areBuffersEqual(buf1, buf2)
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{
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if (buf1.byteLength != buf2.byteLength) return false;
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var dv1 = new Int8Array(buf1);
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var dv2 = new Int8Array(buf2);
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for (var i = 0 ; i != buf1.byteLength ; i++)
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{
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if (dv1[i] != dv2[i]) return false;
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}
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return true;
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}
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function concatBuffers(arrays)
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{
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// Get the total length of all arrays.
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let length = 0;
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arrays.forEach(item => {
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length += item.length;
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});
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// Create a new array with total length and merge all source arrays.
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let mergedArray = new Uint8Array(length);
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let offset = 0;
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arrays.forEach(item => {
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mergedArray.set(new Uint8Array(item), offset);
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offset += item.length;
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});
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return mergedArray;
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}
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// CryptoJS format to byte array
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function wordToByteArray(wordArray)
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{
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var byteArray = [], word, i, j;
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for (i = 0; i < wordArray.length; ++i) {
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word = wordArray[i];
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for (j = 3; j >= 0; --j) {
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byteArray.push((word >> 8 * j) & 0xFF);
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}
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}
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return byteArray;
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}
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// byte array to CryptoJS format
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function arrayToWordArray(u8Array)
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{
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var words = [], i = 0, len = u8Array.length;
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while (i < len) {
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words.push(
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(u8Array[i++] << 24) |
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(u8Array[i++] << 16) |
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(u8Array[i++] << 8) |
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(u8Array[i++])
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);
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}
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return {
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sigBytes: len,
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words: words
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};
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}
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const toHexString = bytes => bytes.reduce((str, byte) => str + byte.toString(16).padStart(2, '0'), '');
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const intToBuffer = num =>
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{
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let b = new ArrayBuffer(4);
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new DataView(b).setUint32(0, num);
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return Array.from(new Uint8Array(b));
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}
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function PEM2Binary(pem)
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{
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var encoded = '';
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var lines = pem.split('\n');
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for (var i = 0; i < lines.length; i++) {
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if (lines[i].indexOf('-----') < 0) {
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encoded += lines[i];
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}
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}
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var byteStr = atob(encoded);
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var bytes = new Uint8Array(byteStr.length);
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for (var i = 0; i < byteStr.length; i++) {
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bytes[i] = byteStr.charCodeAt(i);
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}
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return bytes.buffer;
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}
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}()); |