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api.js
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api.js
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var cryptico = (function() {
var my = {};
aes.Init();
var base64Chars = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/';
my.b256to64 = function(t) {
var a, c, n;
var r = '', l = 0, s = 0;
var tl = t.length;
for (n = 0; n < tl; n++)
{
c = t.charCodeAt(n);
if (s == 0)
{
r += base64Chars.charAt((c >> 2) & 63);
a = (c & 3) << 4;
}
else if (s == 1)
{
r += base64Chars.charAt((a | (c >> 4) & 15));
a = (c & 15) << 2;
}
else if (s == 2)
{
r += base64Chars.charAt(a | ((c >> 6) & 3));
l += 1;
r += base64Chars.charAt(c & 63);
}
l += 1;
s += 1;
if (s == 3) s = 0;
}
if (s > 0)
{
r += base64Chars.charAt(a);
l += 1;
r += '=';
l += 1;
}
if (s == 1)
{
r += '=';
}
return r;
}
my.b64to256 = function(t)
{
var c, n;
var r = '', s = 0, a = 0;
var tl = t.length;
for (n = 0; n < tl; n++)
{
c = base64Chars.indexOf(t.charAt(n));
if (c >= 0)
{
if (s) r += String.fromCharCode(a | (c >> (6 - s)) & 255);
s = (s + 2) & 7;
a = (c << s) & 255;
}
}
return r;
}
my.b16to64 = function(h) {
var i;
var c;
var ret = "";
if(h.length % 2 == 1)
{
h = "0" + h;
}
for (i = 0; i + 3 <= h.length; i += 3)
{
c = parseInt(h.substring(i, i + 3), 16);
ret += base64Chars.charAt(c >> 6) + base64Chars.charAt(c & 63);
}
if (i + 1 == h.length)
{
c = parseInt(h.substring(i, i + 1), 16);
ret += base64Chars.charAt(c << 2);
}
else if (i + 2 == h.length)
{
c = parseInt(h.substring(i, i + 2), 16);
ret += base64Chars.charAt(c >> 2) + base64Chars.charAt((c & 3) << 4);
}
while ((ret.length & 3) > 0) ret += "=";
return ret;
}
my.b64to16 = function(s) {
var ret = "";
var i;
var k = 0;
var slop;
for (i = 0; i < s.length; ++i)
{
if (s.charAt(i) == "=") break;
v = base64Chars.indexOf(s.charAt(i));
if (v < 0) continue;
if (k == 0)
{
ret += int2char(v >> 2);
slop = v & 3;
k = 1;
}
else if (k == 1)
{
ret += int2char((slop << 2) | (v >> 4));
slop = v & 0xf;
k = 2;
}
else if (k == 2)
{
ret += int2char(slop);
ret += int2char(v >> 2);
slop = v & 3;
k = 3;
}
else
{
ret += int2char((slop << 2) | (v >> 4));
ret += int2char(v & 0xf);
k = 0;
}
}
if (k == 1) ret += int2char(slop << 2);
return ret;
}
// Converts a string to a byte array.
my.string2bytes = function(string)
{
var bytes = new Array();
for(var i = 0; i < string.length; i++)
{
bytes.push(string.charCodeAt(i));
}
return bytes;
}
// Converts a byte array to a string.
my.bytes2string = function(bytes)
{
var string = "";
for(var i = 0; i < bytes.length; i++)
{
string += String.fromCharCode(bytes[i]);
}
return string;
}
// Returns a XOR b, where a and b are 16-byte byte arrays.
my.blockXOR = function(a, b)
{
var xor = new Array(16);
for(var i = 0; i < 16; i++)
{
xor[i] = a[i] ^ b[i];
}
return xor;
}
// Returns a 16-byte initialization vector.
my.blockIV = function()
{
var r = new SecureRandom();
var IV = new Array(16);
r.nextBytes(IV);
return IV;
}
// Returns a copy of bytes with zeros appended to the end
// so that the (length of bytes) % 16 == 0.
my.pad16 = function(bytes)
{
var newBytes = bytes.slice(0);
var padding = (16 - (bytes.length % 16)) % 16;
for(i = bytes.length; i < bytes.length + padding; i++)
{
newBytes.push(0);
}
return newBytes;
}
// Removes trailing zeros from a byte array.
my.depad = function(bytes)
{
var newBytes = bytes.slice(0);
while(newBytes[newBytes.length - 1] == 0)
{
newBytes = newBytes.slice(0, newBytes.length - 1);
}
return newBytes;
}
// AES CBC Encryption.
my.encryptAESCBC = function(plaintext, key)
{
var exkey = key.slice(0);
aes.ExpandKey(exkey);
var blocks = my.string2bytes(plaintext);
blocks = my.pad16(blocks);
var encryptedBlocks = my.blockIV();
for(var i = 0; i < blocks.length/16; i++)
{
var tempBlock = blocks.slice(i * 16, i * 16 + 16);
var prevBlock = encryptedBlocks.slice((i) * 16, (i) * 16 + 16);
tempBlock = my.blockXOR(prevBlock, tempBlock);
aes.Encrypt(tempBlock, exkey);
encryptedBlocks = encryptedBlocks.concat(tempBlock);
}
var ciphertext = my.bytes2string(encryptedBlocks);
return my.b256to64(ciphertext)
}
// AES CBC Decryption.
my.decryptAESCBC = function(encryptedText, key)
{
var exkey = key.slice(0);
aes.ExpandKey(exkey);
var encryptedText = my.b64to256(encryptedText);
var encryptedBlocks = my.string2bytes(encryptedText);
var decryptedBlocks = new Array();
for(var i = 1; i < encryptedBlocks.length/16; i++)
{
var tempBlock = encryptedBlocks.slice(i * 16, i * 16 + 16);
var prevBlock = encryptedBlocks.slice((i-1) * 16, (i-1) * 16 + 16);
aes.Decrypt(tempBlock, exkey);
tempBlock = my.blockXOR(prevBlock, tempBlock);
decryptedBlocks = decryptedBlocks.concat(tempBlock);
}
decryptedBlocks = my.depad(decryptedBlocks);
return my.bytes2string(decryptedBlocks);
}
// Wraps a string to 60 characters.
my.wrap60 = function(string)
{
var outstr = "";
for(var i = 0; i < string.length; i++) {
if(i % 60 == 0 && i != 0) outstr += "\n";
outstr += string[i]; }
return outstr;
}
// Generate a random key for the AES-encrypted message.
my.generateAESKey = function()
{
var key = new Array(32);
var r = new SecureRandom();
r.nextBytes(key);
return key;
}
// Generates an RSA key from a passphrase.
my.generateRSAKey = function(passphrase, bitlength)
{
Math.seedrandom(sha256.hex(passphrase));
var rsa = new RSAKey();
rsa.generate(bitlength, "03");
return rsa;
}
// Returns the ascii-armored version of the public key.
my.publicKeyString = function(rsakey)
{
pubkey = my.b16to64(rsakey.n.toString(16));
return pubkey;
}
// Returns an MD5 sum of a publicKeyString for easier identification.
my.publicKeyID = function(publicKeyString)
{
return MD5(publicKeyString);
}
my.publicKeyFromString = function(string)
{
var N = my.b64to16(string.split("|")[0]);
var E = "03";
var rsa = new RSAKey();
rsa.setPublic(N, E);
return rsa
}
my.encrypt = function(plaintext, publickeystring, signingkey)
{
var cipherblock = "";
var aeskey = my.generateAESKey();
try
{
var publickey = my.publicKeyFromString(publickeystring);
cipherblock += my.b16to64(publickey.encrypt(my.bytes2string(aeskey))) + "?";
}
catch(err)
{
return {status: "Invalid public key"};
}
if(signingkey)
{
signString = cryptico.b16to64(signingkey.signString(plaintext, "sha256"));
plaintext += "::52cee64bb3a38f6403386519a39ac91c::";
plaintext += cryptico.publicKeyString(signingkey);
plaintext += "::52cee64bb3a38f6403386519a39ac91c::";
plaintext += signString;
}
cipherblock += my.encryptAESCBC(plaintext, aeskey);
return {status: "success", cipher: cipherblock};
}
my.decrypt = function(ciphertext, key)
{
var cipherblock = ciphertext.split("?");
var aeskey = key.decrypt(my.b64to16(cipherblock[0]));
if(aeskey == null)
{
return {status: "failure"};
}
aeskey = my.string2bytes(aeskey);
var plaintext = my.decryptAESCBC(cipherblock[1], aeskey).split("::52cee64bb3a38f6403386519a39ac91c::");
if(plaintext.length == 3)
{
var publickey = my.publicKeyFromString(plaintext[1]);
var signature = my.b64to16(plaintext[2]);
if(publickey.verifyString(plaintext[0], signature))
{
return {status: "success",
plaintext: plaintext[0],
signature: "verified",
publicKeyString: my.publicKeyString(publickey)};
}
else
{
return {status: "success",
plaintext: plaintext[0],
signature: "forged",
publicKeyString: my.publicKeyString(publickey)};
}
}
else
{
return {status: "success", plaintext: plaintext[0], signature: "unsigned"};
}
}
return my;
}());