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gecko/services/sync/tests/unit/test_crypto_crypt.js
Edward Lee 58b70d2360 Bug 573668 - Register appinfo with correct OS for tests 
Register a fake AppInfo with correct OS if it doesn't exist yet. Just use Svc.Crypto instead of trying to dynamically pick the contract id. Name the head files so they load in appinfo -> helper -> http order.

--HG--
rename : services/sync/tests/unit/bookmark_setup.js => services/sync/tests/unit/head_appinfo.js
rename : services/sync/tests/unit/head_first.js => services/sync/tests/unit/head_helpers.js
2010-06-22 00:20:31 -07:00

159 lines
5.1 KiB
JavaScript
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Cu.import("resource://services-sync/util.js");
function run_test() {
let cryptoSvc = Svc.Crypto;
// First, do a normal run with expected usage... Generate a random key and
// iv, encrypt and decrypt a string.
var iv = cryptoSvc.generateRandomIV();
do_check_eq(iv.length, 24);
var key = cryptoSvc.generateRandomKey();
do_check_eq(key.length, 44);
var mySecret = "bacon is a vegetable";
var cipherText = cryptoSvc.encrypt(mySecret, key, iv);
do_check_eq(cipherText.length, 44);
var clearText = cryptoSvc.decrypt(cipherText, key, iv);
do_check_eq(clearText.length, 20);
// Did the text survive the encryption round-trip?
do_check_eq(clearText, mySecret);
do_check_neq(cipherText, mySecret); // just to be explicit
// Do some more tests with a fixed key/iv, to check for reproducable results.
cryptoSvc.algorithm = Ci.IWeaveCrypto.AES_128_CBC;
key = "St1tFCor7vQEJNug/465dQ==";
iv = "oLjkfrLIOnK2bDRvW4kXYA==";
// Test small input sizes
mySecret = "";
cipherText = cryptoSvc.encrypt(mySecret, key, iv);
clearText = cryptoSvc.decrypt(cipherText, key, iv);
do_check_eq(cipherText, "OGQjp6mK1a3fs9k9Ml4L3w==");
do_check_eq(clearText, mySecret);
mySecret = "x";
cipherText = cryptoSvc.encrypt(mySecret, key, iv);
clearText = cryptoSvc.decrypt(cipherText, key, iv);
do_check_eq(cipherText, "96iMl4vhOxFUW/lVHHzVqg==");
do_check_eq(clearText, mySecret);
mySecret = "xx";
cipherText = cryptoSvc.encrypt(mySecret, key, iv);
clearText = cryptoSvc.decrypt(cipherText, key, iv);
do_check_eq(cipherText, "olpPbETRYROCSqFWcH2SWg==");
do_check_eq(clearText, mySecret);
mySecret = "xxx";
cipherText = cryptoSvc.encrypt(mySecret, key, iv);
clearText = cryptoSvc.decrypt(cipherText, key, iv);
do_check_eq(cipherText, "rRbpHGyVSZizLX/x43Wm+Q==");
do_check_eq(clearText, mySecret);
mySecret = "xxxx";
cipherText = cryptoSvc.encrypt(mySecret, key, iv);
clearText = cryptoSvc.decrypt(cipherText, key, iv);
do_check_eq(cipherText, "HeC7miVGDcpxae9RmiIKAw==");
do_check_eq(clearText, mySecret);
// Test non-ascii input
// ("testuser1" using similar-looking glyphs)
mySecret = String.fromCharCode(355, 277, 349, 357, 533, 537, 101, 345, 185);
cipherText = cryptoSvc.encrypt(mySecret, key, iv);
clearText = cryptoSvc.decrypt(cipherText, key, iv);
do_check_eq(cipherText, "Pj4ixByXoH3SU3JkOXaEKPgwRAWplAWFLQZkpJd5Kr4=");
do_check_eq(clearText, mySecret);
// Tests input spanning a block boundary (AES block size is 16 bytes)
mySecret = "123456789012345";
cipherText = cryptoSvc.encrypt(mySecret, key, iv);
clearText = cryptoSvc.decrypt(cipherText, key, iv);
do_check_eq(cipherText, "e6c5hwphe45/3VN/M0bMUA==");
do_check_eq(clearText, mySecret);
mySecret = "1234567890123456";
cipherText = cryptoSvc.encrypt(mySecret, key, iv);
clearText = cryptoSvc.decrypt(cipherText, key, iv);
do_check_eq(cipherText, "V6aaOZw8pWlYkoIHNkhsP1JOIQF87E2vTUvBUQnyV04=");
do_check_eq(clearText, mySecret);
mySecret = "12345678901234567";
cipherText = cryptoSvc.encrypt(mySecret, key, iv);
clearText = cryptoSvc.decrypt(cipherText, key, iv);
do_check_eq(cipherText, "V6aaOZw8pWlYkoIHNkhsP5GvxWJ9+GIAS6lXw+5fHTI=");
do_check_eq(clearText, mySecret);
// Test with 192 bit key.
cryptoSvc.algorithm = Ci.IWeaveCrypto.AES_192_CBC;
key = "iz35tuIMq4/H+IYw2KTgow==";
iv = "TJYrvva2KxvkM8hvOIvWp3xgjTXgq5Ss";
mySecret = "i like pie";
cipherText = cryptoSvc.encrypt(mySecret, key, iv);
clearText = cryptoSvc.decrypt(cipherText, key, iv);
do_check_eq(cipherText, "DLGx8BWqSCLGG7i/xwvvxg==");
do_check_eq(clearText, mySecret);
// Test with 256 bit key.
cryptoSvc.algorithm = Ci.IWeaveCrypto.AES_256_CBC;
key = "c5hG3YG+NC61FFy8NOHQak1ZhMEWO79bwiAfar2euzI=";
iv = "gsgLRDaxWvIfKt75RjuvFWERt83FFsY2A0TW+0b2iVk=";
mySecret = "i like pie";
cipherText = cryptoSvc.encrypt(mySecret, key, iv);
clearText = cryptoSvc.decrypt(cipherText, key, iv);
do_check_eq(cipherText, "o+ADtdMd8ubzNWurS6jt0Q==");
do_check_eq(clearText, mySecret);
// Test with bogus inputs
cryptoSvc.algorithm = Ci.IWeaveCrypto.AES_128_CBC;
key = "St1tFCor7vQEJNug/465dQ==";
iv = "oLjkfrLIOnK2bDRvW4kXYA==";
mySecret = "does thunder read testcases?";
cipherText = cryptoSvc.encrypt(mySecret, key, iv);
do_check_eq(cipherText, "T6fik9Ros+DB2ablH9zZ8FWZ0xm/szSwJjIHZu7sjPs=");
var badkey = "badkeybadkeybadkeybadk==";
var badiv = "badivbadivbadivbadivbad==";
var badcipher = "crapinputcrapinputcrapinputcrapinputcrapinp=";
var failure;
try {
failure = false;
clearText = cryptoSvc.decrypt(cipherText, badkey, iv);
} catch (e) {
failure = true;
}
do_check_true(failure);
try {
failure = false;
clearText = cryptoSvc.decrypt(cipherText, key, badiv);
} catch (e) {
failure = true;
}
do_check_true(failure);
try {
failure = false;
clearText = cryptoSvc.decrypt(cipherText, badkey, badiv);
} catch (e) {
failure = true;
}
do_check_true(failure);
try {
failure = false;
clearText = cryptoSvc.decrypt(badcipher, key, iv);
} catch (e) {
failure = true;
}
do_check_true(failure);
}
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