staticrypt/index.html

<!doctype html>
<html>
<head>
    <meta charset="utf-8">
    <title>StatiCrypt: Password protect static HTML</title>
    <meta name="description" content="">
    <meta name="viewport" content="width=device-width, initial-scale=1">
    <link rel="stylesheet"
          type="text/css"
          href="https://maxcdn.bootstrapcdn.com/bootstrap/3.3.7/css/bootstrap.min.css"
          integrity="sha384-BVYiiSIFeK1dGmJRAkycuHAHRg32OmUcww7on3RYdg4Va+PmSTsz/K68vbdEjh4u"
          crossorigin="anonymous">
    <style>
        a.no-style {
            color: inherit;
            text-decoration: inherit;
        }

        body {
            font-size: 16px;
        }

        label.no-style {
            font-weight: normal;
        }
    </style>
</head>

<body>
<div class="container">
    <div class="row">
        <div class="col-xs-12">
            <h1>
                StatiCrypt
                <div class="pull-right">
                    <iframe src="https://ghbtns.com/github-btn.html?user=robinmoisson&repo=staticrypt&type=star&size=large"
                            frameborder="0" scrolling="0" width="80px" height="30px"></iframe>
                    <iframe src="https://ghbtns.com/github-btn.html?user=robinmoisson&repo=staticrypt&type=fork&size=large"
                            frameborder="0" scrolling="0" width="80px" height="30px"></iframe>
                </div>
                <br>
                <small>Password protect a static HTML page</small>
            </h1>
            <p>
                StatiCrypt uses AES-256 with WebCrypto to encrypt your html string with your long password, in your browser (client side).
            </p>
            <p>
                Download your encrypted string in a HTML page with a password prompt you can upload anywhere (see <a
                    target="_blank" href="example/encrypted/example.html">example</a>).
            </p>
            <p>
                The tool is also available as <a href="https://npmjs.com/package/staticrypt">a CLI on NPM</a> and is <a
                    href="https://github.com/robinmoisson/staticrypt">open source on GitHub</a>.
            </p>
            <br>

            <h4>
                <a class="no-style" id="toggle-concept" href="#">
                    <span id="toggle-concept-sign">►</span> HOW IT WORKS
                </a>
            </h4>
            <div id="concept" class="hidden">
                <p>
                    <b class="text-danger">Disclaimer</b> if you are an at-risk activist, or have extra sensitive
                    banking data, you should probably use something else!
                </p>
                <p>
                    StatiCrypt generates a static, password protected page that can be decrypted in-browser:
                    just send or upload the generated page to a place serving static content (github pages, for example)
                    and you're done: the javascript will prompt users for password, decrypt the page and load your HTML.
                </p>
                <p>
                    The page is encrypted with AES-256 in CBC mode (see why this mode is appropriate for StatiCrypt in
                    <a href="https://github.com/robinmoisson/staticrypt/issues/19">#19</a>). The password is hashed with
                    PBKDF2 (599k iterations with SHA-256, plus 1k with SHA-1 for legacy reasons (see
                    <a href="https://github.com/robinmoisson/staticrypt/issues/159">#159</a>), for the added
                    <a href="https://cheatsheetseries.owasp.org/cheatsheets/Password_Storage_Cheat_Sheet.html#pbkdf2">recommended
                        total</a> of 600k) and used to encrypt the page.
                </p>
                <p>
                    It basically encrypts your page and puts everything with a user-friendly way to use a password
                    in the new file. AES-256 is state of the art but <b>brute-force/dictionary attacks would be easy to
                    do at a really fast pace: use a long, unusual password!</b>
                    <br/> => To be safe, we recommend 16+ alphanum characters, and using a password manager like the
                    open-source <a href="http://bitwarden.com">Bitwarden</a>.
                </p>
                <p>
                    Feel free to contribute or report any thought to the
                    <a href="https://github.com/robinmoisson/staticrypt">GitHub project</a>.
                </p>
            </div>
            <br>
        </div>
    </div>
    <div class="row">
        <div class="col-xs-12">
            <form id="encrypt_form">
                <div class="form-group">
                    <label for="passphrase">Password</label>
                    <input type="password" class="form-control" id="passphrase"
                           placeholder="Password (choose a long one!)">
                </div>

                <div class="form-group">
                    <label for="unencrypted_html">HTML/string to encrypt</label>
                    <textarea class="form-control"
                              id="unencrypted_html"
                              placeholder="<html><head>..."
                              rows="5"></textarea>
                </div>

                <div class="form-group">
                    <label class="no-style">
                        <input type="checkbox" id="remember" checked>
                        Add "Remember me" checkbox (append <code>#staticrypt_logout</code> to your URL to logout)
                        <small>
                            <abbr class="text-muted"
                                  title="The password will be stored in clear text in the browser's localStorage upon entry by the user. See &quot;More options&quot; to set the expiration (default: none)">
                                (?)
                            </abbr>
                        </small>
                    </label>
                </div>

                <p>
                    <a href="#" id="toggle-extra-option">+ More options</a>
                </p>
                <div id="extra-options" class="hidden">
                    <div class="form-group">
                        <label for="template_title">Page title</label>
                        <input type="text" class="form-control" id="template_title" placeholder="Default: 'Protected Page'">
                    </div>

                    <div class="form-group">
                        <label for="template_instructions">Instructions to display the user</label>
                        <textarea class="form-control" id="template_instructions" placeholder="Default: nothing."></textarea>
                    </div>

                    <div class="form-group">
                        <label for="template_placeholder">Passphrase input placeholder</label>
                        <input type="text" class="form-control" id="template_placeholder"
                               placeholder="Default: 'Passphrase'">
                    </div>

                    <div class="form-group">
                        <label for="template_remember">"Remember me" checkbox label</label>
                        <input type="text" class="form-control" id="template_remember" placeholder="Default: 'Remember me'">
                    </div>

                    <div class="form-group">
                        <label for="remember_in_days">"Remember me" expiration in days</label>
                        <input type="number"
                               class="form-control"
                               id="remember_in_days"
                               step="any"
                               placeholder="Default: 0 (no expiration)">
                        <small class="form-text text-muted">
                            After this many days, the user will have to enter the passphrase again. Leave empty or set
                            to 0 for no expiration.
                        </small>
                    </div>

                    <div class="form-group">
                        <label for="template_button">Decrypt button label</label>
                        <input type="text" class="form-control" id="template_button" placeholder="Default: 'DECRYPT'">
                    </div>
                </div>

                <button class="btn btn-primary pull-right" type="submit">Generate passphrase protected HTML</button>
            </form>
        </div>
    </div>

    <div class="row mb-5">
        <div class="col-xs-12">
            <h2>Encrypted HTML</h2>
            <p><a class="btn btn-success download"
                  download="encrypted.html"
                  id="download-link"
                  disabled="disabled">Download html file with password prompt</a></p>
            <pre id="encrypted_html_display">
Your encrypted string</pre>
        </div>
    </div>
</div>

<script src="https://cdn.ckeditor.com/4.7.0/standard/ckeditor.js"></script>

<script id="cryptoEngine">
    window.cryptoEngine = ((function(){
  const exports = {};
  const { subtle } = crypto;

const IV_BITS = 16 * 8;
const HEX_BITS = 4;
const ENCRYPTION_ALGO = "AES-CBC";

/**
 * Translates between utf8 encoded hexadecimal strings
 * and Uint8Array bytes.
 */
const HexEncoder = {
    /**
     * hex string -> bytes
     * @param {string} hexString
     * @returns {Uint8Array}
     */
    parse: function (hexString) {
        if (hexString.length % 2 !== 0) throw "Invalid hexString";
        const arrayBuffer = new Uint8Array(hexString.length / 2);

        for (let i = 0; i < hexString.length; i += 2) {
            const byteValue = parseInt(hexString.substring(i, i + 2), 16);
            if (isNaN(byteValue)) {
                throw "Invalid hexString";
            }
            arrayBuffer[i / 2] = byteValue;
        }
        return arrayBuffer;
    },

    /**
     * bytes -> hex string
     * @param {Uint8Array} bytes
     * @returns {string}
     */
    stringify: function (bytes) {
        const hexBytes = [];

        for (let i = 0; i < bytes.length; ++i) {
            let byteString = bytes[i].toString(16);
            if (byteString.length < 2) {
                byteString = "0" + byteString;
            }
            hexBytes.push(byteString);
        }
        return hexBytes.join("");
    },
};

/**
 * Translates between utf8 strings and Uint8Array bytes.
 */
const UTF8Encoder = {
    parse: function (str) {
        return new TextEncoder().encode(str);
    },

    stringify: function (bytes) {
        return new TextDecoder().decode(bytes);
    },
};

/**
 * Salt and encrypt a msg with a password.
 */
async function encrypt(msg, hashedPassphrase) {
    // Must be 16 bytes, unpredictable, and preferably cryptographically random. However, it need not be secret.
    // https://developer.mozilla.org/en-US/docs/Web/API/SubtleCrypto/encrypt#parameters
    const iv = crypto.getRandomValues(new Uint8Array(IV_BITS / 8));

    const key = await subtle.importKey(
        "raw",
        HexEncoder.parse(hashedPassphrase),
        ENCRYPTION_ALGO,
        false,
        ["encrypt"]
    );

    const encrypted = await subtle.encrypt(
        {
            name: ENCRYPTION_ALGO,
            iv: iv,
        },
        key,
        UTF8Encoder.parse(msg)
    );

    // iv will be 32 hex characters, we prepend it to the ciphertext for use in decryption
    return HexEncoder.stringify(iv) + HexEncoder.stringify(new Uint8Array(encrypted));
}
exports.encrypt = encrypt;

/**
 * Decrypt a salted msg using a password.
 *
 * @param {string} encryptedMsg
 * @param {string} hashedPassphrase
 * @returns {Promise<string>}
 */
async function decrypt(encryptedMsg, hashedPassphrase) {
    const ivLength = IV_BITS / HEX_BITS;
    const iv = HexEncoder.parse(encryptedMsg.substring(0, ivLength));
    const encrypted = encryptedMsg.substring(ivLength);

    const key = await subtle.importKey(
        "raw",
        HexEncoder.parse(hashedPassphrase),
        ENCRYPTION_ALGO,
        false,
        ["decrypt"]
    );

    const outBuffer = await subtle.decrypt(
        {
            name: ENCRYPTION_ALGO,
            iv: iv,
        },
        key,
        HexEncoder.parse(encrypted)
    );

    return UTF8Encoder.stringify(new Uint8Array(outBuffer));
}
exports.decrypt = decrypt;

/**
 * Salt and hash the passphrase so it can be stored in localStorage without opening a password reuse vulnerability.
 *
 * @param {string} passphrase
 * @param {string} salt
 * @returns {Promise<string>}
 */
async function hashPassphrase(passphrase, salt) {
    // we hash the passphrase in multiple steps, each adding more iterations. This is because we used to allow less
    // iterations, so for backward compatibility reasons, we need to support going from that to more iterations.
    let hashedPassphrase = await hashLegacyRound(passphrase, salt);

    hashedPassphrase = await hashSecondRound(hashedPassphrase, salt);

    return hashThirdRound(hashedPassphrase, salt);
}
exports.hashPassphrase = hashPassphrase;

/**
 * This hashes the passphrase with 1k iterations. This is a low number, we need this function to support backwards
 * compatibility.
 *
 * @param {string} passphrase
 * @param {string} salt
 * @returns {Promise<string>}
 */
function hashLegacyRound(passphrase, salt) {
    return pbkdf2(passphrase, salt, 1000, "SHA-1");
}
exports.hashLegacyRound = hashLegacyRound;

/**
 * Add a second round of iterations. This is because we used to use 1k, so for backwards compatibility with
 * remember-me/autodecrypt links, we need to support going from that to more iterations.
 *
 * @param hashedPassphrase
 * @param salt
 * @returns {Promise<string>}
 */
function hashSecondRound(hashedPassphrase, salt) {
    return pbkdf2(hashedPassphrase, salt, 14000, "SHA-256");
}
exports.hashSecondRound = hashSecondRound;

/**
 * Add a third round of iterations to bring total number to 600k. This is because we used to use 1k, then 15k, so for
 * backwards compatibility with remember-me/autodecrypt links, we need to support going from that to more iterations.
 *
 * @param hashedPassphrase
 * @param salt
 * @returns {Promise<string>}
 */
function hashThirdRound(hashedPassphrase, salt) {
    return pbkdf2(hashedPassphrase, salt, 585000, "SHA-256");
}
exports.hashThirdRound = hashThirdRound;

/**
 * Salt and hash the passphrase so it can be stored in localStorage without opening a password reuse vulnerability.
 *
 * @param {string} passphrase
 * @param {string} salt
 * @param {int} iterations
 * @param {string} hashAlgorithm
 * @returns {Promise<string>}
 */
async function pbkdf2(passphrase, salt, iterations, hashAlgorithm) {
    const key = await subtle.importKey(
        "raw",
        UTF8Encoder.parse(passphrase),
        "PBKDF2",
        false,
        ["deriveBits"]
    );

    const keyBytes = await subtle.deriveBits(
        {
            name: "PBKDF2",
            hash: hashAlgorithm,
            iterations,
            salt: UTF8Encoder.parse(salt),
        },
        key,
        256
    );

    return HexEncoder.stringify(new Uint8Array(keyBytes));
}

function generateRandomSalt() {
    const bytes = crypto.getRandomValues(new Uint8Array(128 / 8));

    return HexEncoder.stringify(new Uint8Array(bytes));
}
exports.generateRandomSalt = generateRandomSalt;

async function signMessage(hashedPassphrase, message) {
    const key = await subtle.importKey(
        "raw",
        HexEncoder.parse(hashedPassphrase),
        {
            name: "HMAC",
            hash: "SHA-256",
        },
        false,
        ["sign"]
    );
    const signature = await subtle.sign("HMAC", key, UTF8Encoder.parse(message));

    return HexEncoder.stringify(new Uint8Array(signature));
}
exports.signMessage = signMessage;


function getRandomAlphanum() {
    const possibleCharacters = "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789";

    let byteArray;
    let parsedInt;

    // Keep generating new random bytes until we get a value that falls
    // within a range that can be evenly divided by possibleCharacters.length
    do {
        byteArray = crypto.getRandomValues(new Uint8Array(1));
        // extract the lowest byte to get an int from 0 to 255 (probably unnecessary, since we're only generating 1 byte)
        parsedInt = byteArray[0] & 0xff;
    } while (parsedInt >= 256 - (256 % possibleCharacters.length));

    // Take the modulo of the parsed integer to get a random number between 0 and totalLength - 1
    const randomIndex = parsedInt % possibleCharacters.length;

    return possibleCharacters[randomIndex];
}

/**
 * Generate a random string of a given length.
 *
 * @param {int} length
 * @returns {string}
 */
function generateRandomString(length) {
    let randomString = '';

    for (let i = 0; i < length; i++) {
        randomString += getRandomAlphanum();
    }

    return randomString;
}
exports.generateRandomString = generateRandomString;


  return exports;
})())
</script>

<script id="codec">
    window.codec = ((function(){
  const exports = {};
  /**
 * Initialize the codec with the provided cryptoEngine - this return functions to encode and decode messages.
 *
 * @param cryptoEngine - the engine to use for encryption / decryption
 */
function init(cryptoEngine) {
  const exports = {};

  /**
   * Top-level function for encoding a message.
   * Includes password hashing, encryption, and signing.
   *
   * @param {string} msg
   * @param {string} password
   * @param {string} salt
   *
   * @returns {string} The encoded text
   */
  async function encode(msg, password, salt) {
    const hashedPassphrase = await cryptoEngine.hashPassphrase(password, salt);


    const encrypted = await cryptoEngine.encrypt(msg, hashedPassphrase);
    // we use the hashed password in the HMAC because this is effectively what will be used a password (so we can store
    // it in localStorage safely, we don't use the clear text password)
    const hmac = await cryptoEngine.signMessage(hashedPassphrase, encrypted);

    return hmac + encrypted;
  }
  exports.encode = encode;

  /**
   * Top-level function for decoding a message.
   * Includes signature check and decryption.
   *
   * @param {string} signedMsg
   * @param {string} hashedPassphrase
   * @param {string} salt
   * @param {int} backwardCompatibleAttempt
   * @param {string} originalPassphrase
   *
   * @returns {Object} {success: true, decoded: string} | {success: false, message: string}
   */
  async function decode(
      signedMsg,
      hashedPassphrase,
      salt,
      backwardCompatibleAttempt = 0,
      originalPassphrase = ''
  ) {
    const encryptedHMAC = signedMsg.substring(0, 64);
    const encryptedMsg = signedMsg.substring(64);
    const decryptedHMAC = await cryptoEngine.signMessage(hashedPassphrase, encryptedMsg);

    if (decryptedHMAC !== encryptedHMAC) {
      // we have been raising the number of iterations in the hashing algorithm multiple times, so to support the old
      // remember-me/autodecrypt links we need to try bringing the old hashes up to speed.
      originalPassphrase = originalPassphrase || hashedPassphrase;
      if (backwardCompatibleAttempt === 0) {
        const updatedHashedPassphrase = await cryptoEngine.hashThirdRound(originalPassphrase, salt);

        return decode(signedMsg, updatedHashedPassphrase, salt, backwardCompatibleAttempt + 1, originalPassphrase);
      }
      if (backwardCompatibleAttempt === 1) {
        let updatedHashedPassphrase = await cryptoEngine.hashSecondRound(originalPassphrase, salt);
        updatedHashedPassphrase = await cryptoEngine.hashThirdRound(updatedHashedPassphrase, salt);

        return decode(signedMsg, updatedHashedPassphrase, salt, backwardCompatibleAttempt + 1, originalPassphrase);
      }

      return { success: false, message: "Signature mismatch" };
    }

    return {
      success: true,
      decoded: await cryptoEngine.decrypt(encryptedMsg, hashedPassphrase),
    };
  }
  exports.decode = decode;

  return exports;
}
exports.init = init;

  return exports;
})())
</script>

<script id="formater">
    window.formater = ((function(){
  const exports = {};
  /**
 * Replace the variable in template tags, between '/*[|variable|]* /0' (without the space in '* /0', ommiting it would
 * break this comment), with the provided data.
 *
 * This weird format is so that we have something that doesn't break JS parser in the template files (it understands it
 * as '0'), so we can still use auto-formatting.
 *
 * @param {string} templateString
 * @param {Object} data
 *
 * @returns string
 */
function renderTemplate(templateString, data) {
    return templateString.replace(/\/\*\[\|\s*(\w+)\s*\|]\*\/0/g, function (_, key) {
        if (!data || data[key] === undefined) {
            return key;
        }

        if (typeof data[key] === 'object') {
            return JSON.stringify(data[key]);
        }

        return data[key];
    });
}
exports.renderTemplate = renderTemplate;


  return exports;
})())
</script>

<script id="staticrypt">
    window.staticrypt = ((function(){
  const exports = {};
  const cryptoEngine = ((function(){
  const exports = {};
  const { subtle } = crypto;

const IV_BITS = 16 * 8;
const HEX_BITS = 4;
const ENCRYPTION_ALGO = "AES-CBC";

/**
 * Translates between utf8 encoded hexadecimal strings
 * and Uint8Array bytes.
 */
const HexEncoder = {
    /**
     * hex string -> bytes
     * @param {string} hexString
     * @returns {Uint8Array}
     */
    parse: function (hexString) {
        if (hexString.length % 2 !== 0) throw "Invalid hexString";
        const arrayBuffer = new Uint8Array(hexString.length / 2);

        for (let i = 0; i < hexString.length; i += 2) {
            const byteValue = parseInt(hexString.substring(i, i + 2), 16);
            if (isNaN(byteValue)) {
                throw "Invalid hexString";
            }
            arrayBuffer[i / 2] = byteValue;
        }
        return arrayBuffer;
    },

    /**
     * bytes -> hex string
     * @param {Uint8Array} bytes
     * @returns {string}
     */
    stringify: function (bytes) {
        const hexBytes = [];

        for (let i = 0; i < bytes.length; ++i) {
            let byteString = bytes[i].toString(16);
            if (byteString.length < 2) {
                byteString = "0" + byteString;
            }
            hexBytes.push(byteString);
        }
        return hexBytes.join("");
    },
};

/**
 * Translates between utf8 strings and Uint8Array bytes.
 */
const UTF8Encoder = {
    parse: function (str) {
        return new TextEncoder().encode(str);
    },

    stringify: function (bytes) {
        return new TextDecoder().decode(bytes);
    },
};

/**
 * Salt and encrypt a msg with a password.
 */
async function encrypt(msg, hashedPassphrase) {
    // Must be 16 bytes, unpredictable, and preferably cryptographically random. However, it need not be secret.
    // https://developer.mozilla.org/en-US/docs/Web/API/SubtleCrypto/encrypt#parameters
    const iv = crypto.getRandomValues(new Uint8Array(IV_BITS / 8));

    const key = await subtle.importKey(
        "raw",
        HexEncoder.parse(hashedPassphrase),
        ENCRYPTION_ALGO,
        false,
        ["encrypt"]
    );

    const encrypted = await subtle.encrypt(
        {
            name: ENCRYPTION_ALGO,
            iv: iv,
        },
        key,
        UTF8Encoder.parse(msg)
    );

    // iv will be 32 hex characters, we prepend it to the ciphertext for use in decryption
    return HexEncoder.stringify(iv) + HexEncoder.stringify(new Uint8Array(encrypted));
}
exports.encrypt = encrypt;

/**
 * Decrypt a salted msg using a password.
 *
 * @param {string} encryptedMsg
 * @param {string} hashedPassphrase
 * @returns {Promise<string>}
 */
async function decrypt(encryptedMsg, hashedPassphrase) {
    const ivLength = IV_BITS / HEX_BITS;
    const iv = HexEncoder.parse(encryptedMsg.substring(0, ivLength));
    const encrypted = encryptedMsg.substring(ivLength);

    const key = await subtle.importKey(
        "raw",
        HexEncoder.parse(hashedPassphrase),
        ENCRYPTION_ALGO,
        false,
        ["decrypt"]
    );

    const outBuffer = await subtle.decrypt(
        {
            name: ENCRYPTION_ALGO,
            iv: iv,
        },
        key,
        HexEncoder.parse(encrypted)
    );

    return UTF8Encoder.stringify(new Uint8Array(outBuffer));
}
exports.decrypt = decrypt;

/**
 * Salt and hash the passphrase so it can be stored in localStorage without opening a password reuse vulnerability.
 *
 * @param {string} passphrase
 * @param {string} salt
 * @returns {Promise<string>}
 */
async function hashPassphrase(passphrase, salt) {
    // we hash the passphrase in multiple steps, each adding more iterations. This is because we used to allow less
    // iterations, so for backward compatibility reasons, we need to support going from that to more iterations.
    let hashedPassphrase = await hashLegacyRound(passphrase, salt);

    hashedPassphrase = await hashSecondRound(hashedPassphrase, salt);

    return hashThirdRound(hashedPassphrase, salt);
}
exports.hashPassphrase = hashPassphrase;

/**
 * This hashes the passphrase with 1k iterations. This is a low number, we need this function to support backwards
 * compatibility.
 *
 * @param {string} passphrase
 * @param {string} salt
 * @returns {Promise<string>}
 */
function hashLegacyRound(passphrase, salt) {
    return pbkdf2(passphrase, salt, 1000, "SHA-1");
}
exports.hashLegacyRound = hashLegacyRound;

/**
 * Add a second round of iterations. This is because we used to use 1k, so for backwards compatibility with
 * remember-me/autodecrypt links, we need to support going from that to more iterations.
 *
 * @param hashedPassphrase
 * @param salt
 * @returns {Promise<string>}
 */
function hashSecondRound(hashedPassphrase, salt) {
    return pbkdf2(hashedPassphrase, salt, 14000, "SHA-256");
}
exports.hashSecondRound = hashSecondRound;

/**
 * Add a third round of iterations to bring total number to 600k. This is because we used to use 1k, then 15k, so for
 * backwards compatibility with remember-me/autodecrypt links, we need to support going from that to more iterations.
 *
 * @param hashedPassphrase
 * @param salt
 * @returns {Promise<string>}
 */
function hashThirdRound(hashedPassphrase, salt) {
    return pbkdf2(hashedPassphrase, salt, 585000, "SHA-256");
}
exports.hashThirdRound = hashThirdRound;

/**
 * Salt and hash the passphrase so it can be stored in localStorage without opening a password reuse vulnerability.
 *
 * @param {string} passphrase
 * @param {string} salt
 * @param {int} iterations
 * @param {string} hashAlgorithm
 * @returns {Promise<string>}
 */
async function pbkdf2(passphrase, salt, iterations, hashAlgorithm) {
    const key = await subtle.importKey(
        "raw",
        UTF8Encoder.parse(passphrase),
        "PBKDF2",
        false,
        ["deriveBits"]
    );

    const keyBytes = await subtle.deriveBits(
        {
            name: "PBKDF2",
            hash: hashAlgorithm,
            iterations,
            salt: UTF8Encoder.parse(salt),
        },
        key,
        256
    );

    return HexEncoder.stringify(new Uint8Array(keyBytes));
}

function generateRandomSalt() {
    const bytes = crypto.getRandomValues(new Uint8Array(128 / 8));

    return HexEncoder.stringify(new Uint8Array(bytes));
}
exports.generateRandomSalt = generateRandomSalt;

async function signMessage(hashedPassphrase, message) {
    const key = await subtle.importKey(
        "raw",
        HexEncoder.parse(hashedPassphrase),
        {
            name: "HMAC",
            hash: "SHA-256",
        },
        false,
        ["sign"]
    );
    const signature = await subtle.sign("HMAC", key, UTF8Encoder.parse(message));

    return HexEncoder.stringify(new Uint8Array(signature));
}
exports.signMessage = signMessage;


function getRandomAlphanum() {
    const possibleCharacters = "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789";

    let byteArray;
    let parsedInt;

    // Keep generating new random bytes until we get a value that falls
    // within a range that can be evenly divided by possibleCharacters.length
    do {
        byteArray = crypto.getRandomValues(new Uint8Array(1));
        // extract the lowest byte to get an int from 0 to 255 (probably unnecessary, since we're only generating 1 byte)
        parsedInt = byteArray[0] & 0xff;
    } while (parsedInt >= 256 - (256 % possibleCharacters.length));

    // Take the modulo of the parsed integer to get a random number between 0 and totalLength - 1
    const randomIndex = parsedInt % possibleCharacters.length;

    return possibleCharacters[randomIndex];
}

/**
 * Generate a random string of a given length.
 *
 * @param {int} length
 * @returns {string}
 */
function generateRandomString(length) {
    let randomString = '';

    for (let i = 0; i < length; i++) {
        randomString += getRandomAlphanum();
    }

    return randomString;
}
exports.generateRandomString = generateRandomString;


  return exports;
})())
const codec = ((function(){
  const exports = {};
  /**
 * Initialize the codec with the provided cryptoEngine - this return functions to encode and decode messages.
 *
 * @param cryptoEngine - the engine to use for encryption / decryption
 */
function init(cryptoEngine) {
  const exports = {};

  /**
   * Top-level function for encoding a message.
   * Includes password hashing, encryption, and signing.
   *
   * @param {string} msg
   * @param {string} password
   * @param {string} salt
   *
   * @returns {string} The encoded text
   */
  async function encode(msg, password, salt) {
    const hashedPassphrase = await cryptoEngine.hashPassphrase(password, salt);


    const encrypted = await cryptoEngine.encrypt(msg, hashedPassphrase);
    // we use the hashed password in the HMAC because this is effectively what will be used a password (so we can store
    // it in localStorage safely, we don't use the clear text password)
    const hmac = await cryptoEngine.signMessage(hashedPassphrase, encrypted);

    return hmac + encrypted;
  }
  exports.encode = encode;

  /**
   * Top-level function for decoding a message.
   * Includes signature check and decryption.
   *
   * @param {string} signedMsg
   * @param {string} hashedPassphrase
   * @param {string} salt
   * @param {int} backwardCompatibleAttempt
   * @param {string} originalPassphrase
   *
   * @returns {Object} {success: true, decoded: string} | {success: false, message: string}
   */
  async function decode(
      signedMsg,
      hashedPassphrase,
      salt,
      backwardCompatibleAttempt = 0,
      originalPassphrase = ''
  ) {
    const encryptedHMAC = signedMsg.substring(0, 64);
    const encryptedMsg = signedMsg.substring(64);
    const decryptedHMAC = await cryptoEngine.signMessage(hashedPassphrase, encryptedMsg);

    if (decryptedHMAC !== encryptedHMAC) {
      // we have been raising the number of iterations in the hashing algorithm multiple times, so to support the old
      // remember-me/autodecrypt links we need to try bringing the old hashes up to speed.
      originalPassphrase = originalPassphrase || hashedPassphrase;
      if (backwardCompatibleAttempt === 0) {
        const updatedHashedPassphrase = await cryptoEngine.hashThirdRound(originalPassphrase, salt);

        return decode(signedMsg, updatedHashedPassphrase, salt, backwardCompatibleAttempt + 1, originalPassphrase);
      }
      if (backwardCompatibleAttempt === 1) {
        let updatedHashedPassphrase = await cryptoEngine.hashSecondRound(originalPassphrase, salt);
        updatedHashedPassphrase = await cryptoEngine.hashThirdRound(updatedHashedPassphrase, salt);

        return decode(signedMsg, updatedHashedPassphrase, salt, backwardCompatibleAttempt + 1, originalPassphrase);
      }

      return { success: false, message: "Signature mismatch" };
    }

    return {
      success: true,
      decoded: await cryptoEngine.decrypt(encryptedMsg, hashedPassphrase),
    };
  }
  exports.decode = decode;

  return exports;
}
exports.init = init;

  return exports;
})())
const decode = codec.init(cryptoEngine).decode;


/**
 * Initialize the staticrypt module, that exposes functions callbable by the password_template.
 *
 * @param {{
 *  encryptedMsg: string,
 *  isRememberEnabled: boolean,
 *  rememberDurationInDays: number,
 *  salt: string,
 * }} staticryptConfig - object of data that is stored on the password_template at encryption time.
 *
 * @param {{
 *  rememberExpirationKey: string,
 *  rememberPassphraseKey: string,
 *  replaceHtmlCallback: function,
 *  clearLocalStorageCallback: function,
 * }} templateConfig - object of data that can be configured by a custom password_template.
 */
function init(staticryptConfig, templateConfig) {
    const exports = {};

    /**
     * Decrypt our encrypted page, replace the whole HTML.
     *
     * @param {string} hashedPassphrase
     * @returns {Promise<boolean>}
     */
    async function decryptAndReplaceHtml(hashedPassphrase) {
        const { encryptedMsg, salt } = staticryptConfig;
        const { replaceHtmlCallback } = templateConfig;

        const result = await decode(encryptedMsg, hashedPassphrase, salt);
        if (!result.success) {
            return false;
        }
        const plainHTML = result.decoded;

        // if the user configured a callback call it, otherwise just replace the whole HTML
        if (typeof replaceHtmlCallback === 'function') {
            replaceHtmlCallback(plainHTML);
        } else {
            document.write(plainHTML);
            document.close();
        }

        return true;
    }

    /**
     * Attempt to decrypt the page and replace the whole HTML.
     *
     * @param {string} password
     * @param {boolean} isRememberChecked
     *
     * @returns {Promise<{isSuccessful: boolean, hashedPassword?: string}>} - we return an object, so that if we want to
     *   expose more information in the future we can do it without breaking the password_template
     */
    async function handleDecryptionOfPage(password, isRememberChecked) {
        const { isRememberEnabled, rememberDurationInDays, salt } = staticryptConfig;
        const { rememberExpirationKey, rememberPassphraseKey } = templateConfig;

        // decrypt and replace the whole page
        const hashedPassword = await cryptoEngine.hashPassphrase(password, salt);

        const isDecryptionSuccessful = await decryptAndReplaceHtml(hashedPassword);

        if (!isDecryptionSuccessful) {
            return {
                isSuccessful: false,
                hashedPassword,
            };
        }

        // remember the hashedPassword and set its expiration if necessary
        if (isRememberEnabled && isRememberChecked) {
            window.localStorage.setItem(rememberPassphraseKey, hashedPassword);

            // set the expiration if the duration isn't 0 (meaning no expiration)
            if (rememberDurationInDays > 0) {
                window.localStorage.setItem(
                    rememberExpirationKey,
                    (new Date().getTime() + rememberDurationInDays * 24 * 60 * 60 * 1000).toString()
                );
            }
        }

        return {
            isSuccessful: true,
            hashedPassword,
        };
    }
    exports.handleDecryptionOfPage = handleDecryptionOfPage;

    /**
     * Clear localstorage from staticrypt related values
     */
    function clearLocalStorage() {
        const { clearLocalStorageCallback, rememberExpirationKey, rememberPassphraseKey } = templateConfig;

        if (typeof clearLocalStorageCallback === 'function') {
            clearLocalStorageCallback();
        } else {
            localStorage.removeItem(rememberPassphraseKey);
            localStorage.removeItem(rememberExpirationKey);
        }
    }

    async function handleDecryptOnLoad() {
        let isSuccessful = await decryptOnLoadFromUrl();

        if (!isSuccessful) {
            isSuccessful = await decryptOnLoadFromRememberMe();
        }

        return { isSuccessful };
    }
    exports.handleDecryptOnLoad = handleDecryptOnLoad;

    /**
     * Clear storage if we are logging out
     *
     * @returns {boolean} - whether we logged out
     */
    function logoutIfNeeded() {
        const logoutKey = "staticrypt_logout";

        // handle logout through query param
        const queryParams = new URLSearchParams(window.location.search);
        if (queryParams.has(logoutKey)) {
            clearLocalStorage();
            return true;
        }

        // handle logout through URL fragment
        const hash = window.location.hash.substring(1);
        if (hash.includes(logoutKey)) {
            clearLocalStorage();
            return true;
        }

        return false;
    }

    /**
     * To be called on load: check if we want to try to decrypt and replace the HTML with the decrypted content, and
     * try to do it if needed.
     *
     * @returns {Promise<boolean>} true if we derypted and replaced the whole page, false otherwise
     */
    async function decryptOnLoadFromRememberMe() {
        const { rememberDurationInDays } = staticryptConfig;
        const { rememberExpirationKey, rememberPassphraseKey } = templateConfig;

        // if we are login out, terminate
        if (logoutIfNeeded()) {
            return false;
        }

        // if there is expiration configured, check if we're not beyond the expiration
        if (rememberDurationInDays && rememberDurationInDays > 0) {
            const expiration = localStorage.getItem(rememberExpirationKey),
                isExpired = expiration && new Date().getTime() > parseInt(expiration);

            if (isExpired) {
                clearLocalStorage();
                return false;
            }
        }

        const hashedPassphrase = localStorage.getItem(rememberPassphraseKey);

        if (hashedPassphrase) {
            // try to decrypt
            const isDecryptionSuccessful = await decryptAndReplaceHtml(hashedPassphrase);

            // if the decryption is unsuccessful the password might be wrong - silently clear the saved data and let
            // the user fill the password form again
            if (!isDecryptionSuccessful) {
                clearLocalStorage();
                return false;
            }

            return true;
        }

        return false;
    }

    function decryptOnLoadFromUrl() {
        const passwordKey = "staticrypt_pwd";

        // get the password from the query param
        const queryParams = new URLSearchParams(window.location.search);
        const hashedPassphraseQuery = queryParams.get(passwordKey);

        // get the password from the url fragment
        const hashRegexMatch = window.location.hash.substring(1).match(new RegExp(passwordKey + "=(.*)"));
        const hashedPassphraseFragment = hashRegexMatch ? hashRegexMatch[1] : null;

        const hashedPassphrase = hashedPassphraseFragment || hashedPassphraseQuery;

        if (hashedPassphrase) {
            return decryptAndReplaceHtml(hashedPassphrase);
        }

        return false;
    }

    return exports;
}
exports.init = init;
  return exports;
})())
</script>

<script>
    const encode = codec.init(cryptoEngine).encode;

    // enable CKEDIRTOR
    CKEDITOR.replace('template_instructions');

    let htmlToDownload;

    /**
     * Extract js code from <script> tag and return it as a string
     *
     * @param {string} id
     * @returns {string}
     */
    function getScriptAsString(id) {
        return document.getElementById(id)
            .innerText.replace(/window\.\w+ = /, '');
    }

    /**
     * Register something happened - this uses a simple Supabase function to implement a counter, and allows to drop
     * google analytics. We don't store any personal data or IP.
     *
     * @param {string} action
     */
    function trackEvent(action) {
        const xhr = new XMLHttpRequest();
        xhr.open('POST', 'https://zlgpaemmniviswibzuwt.supabase.co/rest/v1/rpc/increment_analytics', true);
        xhr.setRequestHeader('Content-type', 'application/json; charset=UTF-8')
        xhr.setRequestHeader('apikey', 'eyJhbGciOiJIUzI1NiIsInR5cCI6IkpXVCJ9.eyJpc3MiOiJzdXBhYmFzZSIsInJlZiI6InpsZ3BhZW1tbml2aXN3aWJ6dXd0Iiwicm9sZSI6ImFub24iLCJpYXQiOjE2NjkxMjM0OTcsImV4cCI6MTk4NDY5OTQ5N30.wNoVDHG7F6INx-IPotMs3fL1nudfaF2qvQDgG-1PhNI')
        xhr.setRequestHeader('Authorization', 'Bearer eyJhbGciOiJIUzI1NiIsInR5cCI6IkpXVCJ9.eyJpc3MiOiJzdXBhYmFzZSIsInJlZiI6InpsZ3BhZW1tbml2aXN3aWJ6dXd0Iiwicm9sZSI6ImFub24iLCJpYXQiOjE2NjkxMjM0OTcsImV4cCI6MTk4NDY5OTQ5N30.wNoVDHG7F6INx-IPotMs3fL1nudfaF2qvQDgG-1PhNI')
        xhr.send(
            JSON.stringify({
                action_input: action
            }
        ));
    }

    /**
     * Fill the password prompt template with data provided.
     * @param data
     */
    function setFileToDownload (data) {
        const request = new XMLHttpRequest();
        request.open('GET', 'lib/password_template.html', true);
        request.onload = function () {
            const renderedTmpl = formater.renderTemplate(request.responseText, data);

            const downloadLink = document.querySelector('a.download');
            downloadLink.href = 'data:text/html,' + encodeURIComponent(renderedTmpl);
            downloadLink.removeAttribute('disabled');

            htmlToDownload = renderedTmpl;
        };
        request.send();
    }

    // register page load
    window.onload = function () {
        trackEvent('show_index');
    };

    /**
     * Handle form submission.
     */
    document.getElementById('encrypt_form').addEventListener('submit', async function (e) {
        e.preventDefault();

        trackEvent('generate_encrypted');

        // update instruction textarea value with CKEDITOR content
        // (see https://stackoverflow.com/questions/3147670/ckeditor-update-textarea)
        CKEDITOR.instances['template_instructions'].updateElement();

        const unencrypted = document.getElementById('unencrypted_html').value,
            passphrase = document.getElementById('passphrase').value;

        const salt = cryptoEngine.generateRandomSalt();
        const encryptedMsg = await encode(unencrypted, passphrase, salt);

        const templateButton = document.getElementById('template_button').value,
            templateInstructions = document.getElementById('template_instructions').value,
            isRememberEnabled = document.getElementById('remember').checked,
            templateTitle = document.getElementById('template_title').value.trim(),
            templatePlaceholder = document.getElementById('template_placeholder').value.trim(),
            rememberDurationInDays = document.getElementById('remember_in_days').value || 0,
            templateRemember = document.getElementById('template_remember').value;

        const data = {
            staticrypt_config: {
                encryptedMsg,
                isRememberEnabled,
                rememberDurationInDays,
                salt,
            },
            is_remember_enabled: JSON.stringify(isRememberEnabled),
            js_staticrypt: getScriptAsString('staticrypt'),
            template_button: templateButton ? templateButton : 'DECRYPT',
            template_instructions: templateInstructions || '',
            template_placeholder: templatePlaceholder || 'Passphrase',
            template_remember: templateRemember || 'Remember me',
            template_title: templateTitle || 'Protected Page',
        };

        document.getElementById('encrypted_html_display').textContent = encryptedMsg;

        setFileToDownload(data);
    });

    document.getElementById('toggle-extra-option')
        .addEventListener('click', function (e) {
            e.preventDefault();
            document.getElementById('extra-options').classList.toggle('hidden');
        });

    let isConceptShown = false;
    document.getElementById('toggle-concept')
        .addEventListener('click', function (e) {
            e.preventDefault();

            isConceptShown = !isConceptShown;

            document.getElementById('toggle-concept-sign').innerText = isConceptShown ? '▼' : '►';

            document.getElementById('concept').classList.toggle('hidden');
        });


    /**
     * Browser specific download code.
     */
    document.getElementById('download-link')
        .addEventListener('click', function (e) {
            // only register the click event if there is actually a generated file
            if (htmlToDownload) {
                trackEvent('download_encrypted');
            }

            const isIE = (navigator.userAgent.indexOf("MSIE") !== -1) || (!!document.documentMode === true); // >= 10
            const isEdge = navigator.userAgent.indexOf("Edge") !== -1;

            // download with MS specific feature
            if (htmlToDownload && (isIE || isEdge)) {
                e.preventDefault();
                const blobObject = new Blob([htmlToDownload]);
                window.navigator.msSaveOrOpenBlob(blobObject, 'encrypted.html');
            }

            return true;
        })
</script>

</body>
</html>