pdf.js/test/unit/crypto_spec.js
Jonas Jenwald 36881e3770 Ensure that all import and require statements, in the entire code-base, have a .js file extension
In order to eventually get rid of SystemJS and start using native `import`s instead, we'll need to provide "complete" file identifiers since otherwise there'll be MIME type errors when attempting to use `import`.
2020-01-04 13:01:43 +01:00

803 lines
32 KiB
JavaScript

/* Copyright 2017 Mozilla Foundation
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
import {
AES128Cipher,
AES256Cipher,
ARCFourCipher,
calculateMD5,
calculateSHA256,
calculateSHA384,
calculateSHA512,
CipherTransformFactory,
PDF17,
PDF20,
} from "../../src/core/crypto.js";
import { Dict, Name } from "../../src/core/primitives.js";
import {
PasswordException,
PasswordResponses,
stringToBytes,
} from "../../src/shared/util.js";
describe("crypto", function() {
function hex2binary(s) {
var digits = "0123456789ABCDEF";
s = s.toUpperCase();
var n = s.length >> 1,
i,
j;
var result = new Uint8Array(n);
for (i = 0, j = 0; i < n; ++i) {
var d1 = s.charAt(j++);
var d2 = s.charAt(j++);
var value = (digits.indexOf(d1) << 4) | digits.indexOf(d2);
result[i] = value;
}
return result;
}
// RFC 1321, A.5 Test suite
describe("calculateMD5", function() {
it("should pass RFC 1321 test #1", function() {
var input, result, expected;
input = stringToBytes("");
result = calculateMD5(input, 0, input.length);
expected = hex2binary("d41d8cd98f00b204e9800998ecf8427e");
expect(result).toEqual(expected);
});
it("should pass RFC 1321 test #2", function() {
var input, result, expected;
input = stringToBytes("a");
result = calculateMD5(input, 0, input.length);
expected = hex2binary("0cc175b9c0f1b6a831c399e269772661");
expect(result).toEqual(expected);
});
it("should pass RFC 1321 test #3", function() {
var input, result, expected;
input = stringToBytes("abc");
result = calculateMD5(input, 0, input.length);
expected = hex2binary("900150983cd24fb0d6963f7d28e17f72");
expect(result).toEqual(expected);
});
it("should pass RFC 1321 test #4", function() {
var input, result, expected;
input = stringToBytes("message digest");
result = calculateMD5(input, 0, input.length);
expected = hex2binary("f96b697d7cb7938d525a2f31aaf161d0");
expect(result).toEqual(expected);
});
it("should pass RFC 1321 test #5", function() {
var input, result, expected;
input = stringToBytes("abcdefghijklmnopqrstuvwxyz");
result = calculateMD5(input, 0, input.length);
expected = hex2binary("c3fcd3d76192e4007dfb496cca67e13b");
expect(result).toEqual(expected);
});
it("should pass RFC 1321 test #6", function() {
var input, result, expected;
input = stringToBytes(
"ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789"
);
result = calculateMD5(input, 0, input.length);
expected = hex2binary("d174ab98d277d9f5a5611c2c9f419d9f");
expect(result).toEqual(expected);
});
it("should pass RFC 1321 test #7", function() {
var input, result, expected;
input = stringToBytes(
"123456789012345678901234567890123456789012345678" +
"90123456789012345678901234567890"
);
result = calculateMD5(input, 0, input.length);
expected = hex2binary("57edf4a22be3c955ac49da2e2107b67a");
expect(result).toEqual(expected);
});
});
// http://www.freemedialibrary.com/index.php/RC4_test_vectors are used
describe("ARCFourCipher", function() {
it("should pass test #1", function() {
var key, input, result, expected, cipher;
key = hex2binary("0123456789abcdef");
input = hex2binary("0123456789abcdef");
cipher = new ARCFourCipher(key);
result = cipher.encryptBlock(input);
expected = hex2binary("75b7878099e0c596");
expect(result).toEqual(expected);
});
it("should pass test #2", function() {
var key, input, result, expected, cipher;
key = hex2binary("0123456789abcdef");
input = hex2binary("0000000000000000");
cipher = new ARCFourCipher(key);
result = cipher.encryptBlock(input);
expected = hex2binary("7494c2e7104b0879");
expect(result).toEqual(expected);
});
it("should pass test #3", function() {
var key, input, result, expected, cipher;
key = hex2binary("0000000000000000");
input = hex2binary("0000000000000000");
cipher = new ARCFourCipher(key);
result = cipher.encryptBlock(input);
expected = hex2binary("de188941a3375d3a");
expect(result).toEqual(expected);
});
it("should pass test #4", function() {
var key, input, result, expected, cipher;
key = hex2binary("ef012345");
input = hex2binary("00000000000000000000");
cipher = new ARCFourCipher(key);
result = cipher.encryptBlock(input);
expected = hex2binary("d6a141a7ec3c38dfbd61");
expect(result).toEqual(expected);
});
it("should pass test #5", function() {
var key, input, result, expected, cipher;
key = hex2binary("0123456789abcdef");
input = hex2binary(
"010101010101010101010101010101010101010101010101010" +
"10101010101010101010101010101010101010101010101010101010101010101010" +
"10101010101010101010101010101010101010101010101010101010101010101010" +
"10101010101010101010101010101010101010101010101010101010101010101010" +
"10101010101010101010101010101010101010101010101010101010101010101010" +
"10101010101010101010101010101010101010101010101010101010101010101010" +
"10101010101010101010101010101010101010101010101010101010101010101010" +
"10101010101010101010101010101010101010101010101010101010101010101010" +
"10101010101010101010101010101010101010101010101010101010101010101010" +
"10101010101010101010101010101010101010101010101010101010101010101010" +
"10101010101010101010101010101010101010101010101010101010101010101010" +
"10101010101010101010101010101010101010101010101010101010101010101010" +
"10101010101010101010101010101010101010101010101010101010101010101010" +
"10101010101010101010101010101010101010101010101010101010101010101010" +
"10101010101010101010101010101010101010101010101010101010101010101010" +
"101010101010101010101"
);
cipher = new ARCFourCipher(key);
result = cipher.encryptBlock(input);
expected = hex2binary(
"7595c3e6114a09780c4ad452338e1ffd9a1be9498f813d76" +
"533449b6778dcad8c78a8d2ba9ac66085d0e53d59c26c2d1c490c1ebbe0ce66d1b6b" +
"1b13b6b919b847c25a91447a95e75e4ef16779cde8bf0a95850e32af9689444fd377" +
"108f98fdcbd4e726567500990bcc7e0ca3c4aaa304a387d20f3b8fbbcd42a1bd311d" +
"7a4303dda5ab078896ae80c18b0af66dff319616eb784e495ad2ce90d7f772a81747" +
"b65f62093b1e0db9e5ba532fafec47508323e671327df9444432cb7367cec82f5d44" +
"c0d00b67d650a075cd4b70dedd77eb9b10231b6b5b741347396d62897421d43df9b4" +
"2e446e358e9c11a9b2184ecbef0cd8e7a877ef968f1390ec9b3d35a5585cb009290e" +
"2fcde7b5ec66d9084be44055a619d9dd7fc3166f9487f7cb272912426445998514c1" +
"5d53a18c864ce3a2b7555793988126520eacf2e3066e230c91bee4dd5304f5fd0405" +
"b35bd99c73135d3d9bc335ee049ef69b3867bf2d7bd1eaa595d8bfc0066ff8d31509" +
"eb0c6caa006c807a623ef84c3d33c195d23ee320c40de0558157c822d4b8c569d849" +
"aed59d4e0fd7f379586b4b7ff684ed6a189f7486d49b9c4bad9ba24b96abf924372c" +
"8a8fffb10d55354900a77a3db5f205e1b99fcd8660863a159ad4abe40fa48934163d" +
"dde542a6585540fd683cbfd8c00f12129a284deacc4cdefe58be7137541c047126c8" +
"d49e2755ab181ab7e940b0c0"
);
expect(result).toEqual(expected);
});
it("should pass test #6", function() {
var key, input, result, expected, cipher;
key = hex2binary("fb029e3031323334");
input = hex2binary(
"aaaa0300000008004500004e661a00008011be640a0001220af" +
"fffff00890089003a000080a601100001000000000000204543454a4548454346434" +
"550464545494546464343414341434143414341414100002000011bd0b604"
);
cipher = new ARCFourCipher(key);
result = cipher.encryptBlock(input);
expected = hex2binary(
"f69c5806bd6ce84626bcbefb9474650aad1f7909b0f64d5f" +
"58a503a258b7ed22eb0ea64930d3a056a55742fcce141d485f8aa836dea18df42c53" +
"80805ad0c61a5d6f58f41040b24b7d1a693856ed0d4398e7aee3bf0e2a2ca8f7"
);
expect(result).toEqual(expected);
});
it("should pass test #7", function() {
var key, input, result, expected, cipher;
key = hex2binary("0123456789abcdef");
input = hex2binary(
"123456789abcdef0123456789abcdef0123456789abcdef012345678"
);
cipher = new ARCFourCipher(key);
result = cipher.encryptBlock(input);
expected = hex2binary(
"66a0949f8af7d6891f7f832ba833c00c892ebe30143ce28740011ecf"
);
expect(result).toEqual(expected);
});
});
describe("calculateSHA256", function() {
it("should properly hash abc", function() {
var input, result, expected;
input = stringToBytes("abc");
result = calculateSHA256(input, 0, input.length);
expected = hex2binary(
"BA7816BF8F01CFEA414140DE5DAE2223B00361A396177A9CB410FF61F20015AD"
);
expect(result).toEqual(expected);
});
it("should properly hash a multiblock input", function() {
var input, result, expected;
input = stringToBytes(
"abcdbcdecdefdefgefghfghighijhijkijkljklmklmnlmnomnopnopq"
);
result = calculateSHA256(input, 0, input.length);
expected = hex2binary(
"248D6A61D20638B8E5C026930C3E6039A33CE45964FF2167F6ECEDD419DB06C1"
);
expect(result).toEqual(expected);
});
});
describe("calculateSHA384", function() {
it("should properly hash abc", function() {
var input, result, expected;
input = stringToBytes("abc");
result = calculateSHA384(input, 0, input.length);
expected = hex2binary(
"CB00753F45A35E8BB5A03D699AC65007272C32AB0EDED163" +
"1A8B605A43FF5BED8086072BA1E7CC2358BAECA134C825A7"
);
expect(result).toEqual(expected);
});
it("should properly hash a multiblock input", function() {
var input, result, expected;
input = stringToBytes(
"abcdefghbcdefghicdefghijdefghijkefghijklfghijklm" +
"ghijklmnhijklmnoijklmnopjklmnopqklmnopqrlmnopqrs" +
"mnopqrstnopqrstu"
);
result = calculateSHA384(input, 0, input.length);
expected = hex2binary(
"09330C33F71147E83D192FC782CD1B4753111B173B3B05D2" +
"2FA08086E3B0F712FCC7C71A557E2DB966C3E9FA91746039"
);
expect(result).toEqual(expected);
});
});
describe("calculateSHA512", function() {
it("should properly hash abc", function() {
var input, result, expected;
input = stringToBytes("abc");
result = calculateSHA512(input, 0, input.length);
expected = hex2binary(
"DDAF35A193617ABACC417349AE20413112E6FA4E89A97EA2" +
"0A9EEEE64B55D39A2192992A274FC1A836BA3C23A3FEEBBD" +
"454D4423643CE80E2A9AC94FA54CA49F"
);
expect(result).toEqual(expected);
});
it("should properly hash a multiblock input", function() {
var input, result, expected;
input = stringToBytes(
"abcdefghbcdefghicdefghijdefghijkefghijklfghijklm" +
"ghijklmnhijklmnoijklmnopjklmnopqklmnopqrlmnopqrs" +
"mnopqrstnopqrstu"
);
result = calculateSHA512(input, 0, input.length);
expected = hex2binary(
"8E959B75DAE313DA8CF4F72814FC143F8F7779C6EB9F7FA1" +
"7299AEADB6889018501D289E4900F7E4331B99DEC4B5433A" +
"C7D329EEB6DD26545E96E55B874BE909"
);
expect(result).toEqual(expected);
});
});
describe("AES128", function() {
describe("Encryption", function() {
it("should be able to encrypt a block", function() {
var input, key, result, expected, iv, cipher;
input = hex2binary("00112233445566778899aabbccddeeff");
key = hex2binary("000102030405060708090a0b0c0d0e0f");
iv = hex2binary("00000000000000000000000000000000");
cipher = new AES128Cipher(key);
result = cipher.encrypt(input, iv);
expected = hex2binary("69c4e0d86a7b0430d8cdb78070b4c55a");
expect(result).toEqual(expected);
});
});
describe("Decryption", function() {
it("should be able to decrypt a block with IV in stream", function() {
var input, key, result, expected, cipher;
input = hex2binary(
"0000000000000000000000000000000069c4e0d86a7b0430d" +
"8cdb78070b4c55a"
);
key = hex2binary("000102030405060708090a0b0c0d0e0f");
cipher = new AES128Cipher(key);
result = cipher.decryptBlock(input);
expected = hex2binary("00112233445566778899aabbccddeeff");
expect(result).toEqual(expected);
});
});
});
describe("AES256", function() {
describe("Encryption", function() {
it("should be able to encrypt a block", function() {
var input, key, result, expected, iv, cipher;
input = hex2binary("00112233445566778899aabbccddeeff");
key = hex2binary(
"000102030405060708090a0b0c0d0e0f101112131415161718" +
"191a1b1c1d1e1f"
);
iv = hex2binary("00000000000000000000000000000000");
cipher = new AES256Cipher(key);
result = cipher.encrypt(input, iv);
expected = hex2binary("8ea2b7ca516745bfeafc49904b496089");
expect(result).toEqual(expected);
});
});
describe("Decryption", function() {
it("should be able to decrypt a block with specified iv", function() {
var input, key, result, expected, cipher, iv;
input = hex2binary("8ea2b7ca516745bfeafc49904b496089");
key = hex2binary(
"000102030405060708090a0b0c0d0e0f101112131415161718" +
"191a1b1c1d1e1f"
);
iv = hex2binary("00000000000000000000000000000000");
cipher = new AES256Cipher(key);
result = cipher.decryptBlock(input, false, iv);
expected = hex2binary("00112233445566778899aabbccddeeff");
expect(result).toEqual(expected);
});
it("should be able to decrypt a block with IV in stream", function() {
var input, key, result, expected, cipher;
input = hex2binary(
"000000000000000000000000000000008ea2b7ca516745bf" +
"eafc49904b496089"
);
key = hex2binary(
"000102030405060708090a0b0c0d0e0f101112131415161718" +
"191a1b1c1d1e1f"
);
cipher = new AES256Cipher(key);
result = cipher.decryptBlock(input, false);
expected = hex2binary("00112233445566778899aabbccddeeff");
expect(result).toEqual(expected);
});
});
});
describe("PDF17Algorithm", function() {
it("should correctly check a user key", function() {
var password, userValidation, userPassword, alg, result;
alg = new PDF17();
password = new Uint8Array([117, 115, 101, 114]);
userValidation = new Uint8Array([117, 169, 4, 32, 159, 101, 22, 220]);
// prettier-ignore
userPassword = new Uint8Array([131, 242, 143, 160, 87, 2, 138, 134, 79,
253, 189, 173, 224, 73, 144, 241, 190, 81,
197, 15, 249, 105, 145, 151, 15, 194, 65,
3, 1, 126, 187, 221]);
result = alg.checkUserPassword(password, userValidation, userPassword);
expect(result).toEqual(true);
});
it("should correctly check an owner key", function() {
var password, ownerValidation, ownerPassword, alg, result, uBytes;
alg = new PDF17();
password = new Uint8Array([111, 119, 110, 101, 114]);
ownerValidation = new Uint8Array([243, 118, 71, 153, 128, 17, 101, 62]);
// prettier-ignore
ownerPassword = new Uint8Array([60, 98, 137, 35, 51, 101, 200, 152, 210,
178, 226, 228, 134, 205, 163, 24, 204,
126, 177, 36, 106, 50, 36, 125, 210, 172,
171, 120, 222, 108, 139, 115]);
// prettier-ignore
uBytes = new Uint8Array([131, 242, 143, 160, 87, 2, 138, 134, 79, 253,
189, 173, 224, 73, 144, 241, 190, 81, 197, 15,
249, 105, 145, 151, 15, 194, 65, 3, 1, 126, 187,
221, 117, 169, 4, 32, 159, 101, 22, 220, 168,
94, 215, 192, 100, 38, 188, 40]);
result = alg.checkOwnerPassword(
password,
ownerValidation,
uBytes,
ownerPassword
);
expect(result).toEqual(true);
});
it("should generate a file encryption key from the user key", function() {
var password, userKeySalt, expected, alg, result, userEncryption;
alg = new PDF17();
password = new Uint8Array([117, 115, 101, 114]);
userKeySalt = new Uint8Array([168, 94, 215, 192, 100, 38, 188, 40]);
// prettier-ignore
userEncryption = new Uint8Array([35, 150, 195, 169, 245, 51, 51, 255,
158, 158, 33, 242, 231, 75, 125, 190,
25, 126, 172, 114, 195, 244, 137, 245,
234, 165, 42, 74, 60, 38, 17, 17]);
result = alg.getUserKey(password, userKeySalt, userEncryption);
// prettier-ignore
expected = new Uint8Array([63, 114, 136, 209, 87, 61, 12, 30, 249, 1,
186, 144, 254, 248, 163, 153, 151, 51, 133,
10, 80, 152, 206, 15, 72, 187, 231, 33, 224,
239, 13, 213]);
expect(result).toEqual(expected);
});
it("should generate a file encryption key from the owner key", function() {
var password, ownerKeySalt, expected, alg, result, ownerEncryption;
var uBytes;
alg = new PDF17();
password = new Uint8Array([111, 119, 110, 101, 114]);
ownerKeySalt = new Uint8Array([200, 245, 242, 12, 218, 123, 24, 120]);
// prettier-ignore
ownerEncryption = new Uint8Array([213, 202, 14, 189, 110, 76, 70, 191, 6,
195, 10, 190, 157, 100, 144, 85, 8, 62,
123, 178, 156, 229, 50, 40, 229, 216,
54, 222, 34, 38, 106, 223]);
// prettier-ignore
uBytes = new Uint8Array([131, 242, 143, 160, 87, 2, 138, 134, 79, 253,
189, 173, 224, 73, 144, 241, 190, 81, 197, 15,
249, 105, 145, 151, 15, 194, 65, 3, 1, 126, 187,
221, 117, 169, 4, 32, 159, 101, 22, 220, 168,
94, 215, 192, 100, 38, 188, 40]);
result = alg.getOwnerKey(password, ownerKeySalt, uBytes, ownerEncryption);
// prettier-ignore
expected = new Uint8Array([63, 114, 136, 209, 87, 61, 12, 30, 249, 1,
186, 144, 254, 248, 163, 153, 151, 51, 133,
10, 80, 152, 206, 15, 72, 187, 231, 33, 224,
239, 13, 213]);
expect(result).toEqual(expected);
});
});
describe("PDF20Algorithm", function() {
it("should correctly check a user key", function() {
var password, userValidation, userPassword, alg, result;
alg = new PDF20();
password = new Uint8Array([117, 115, 101, 114]);
userValidation = new Uint8Array([83, 245, 146, 101, 198, 247, 34, 198]);
// prettier-ignore
userPassword = new Uint8Array([94, 230, 205, 75, 166, 99, 250, 76, 219,
128, 17, 85, 57, 17, 33, 164, 150, 46,
103, 176, 160, 156, 187, 233, 166, 223,
163, 253, 147, 235, 95, 184]);
result = alg.checkUserPassword(password, userValidation, userPassword);
expect(result).toEqual(true);
});
it("should correctly check an owner key", function() {
var password, ownerValidation, ownerPassword, alg, result, uBytes;
alg = new PDF20();
password = new Uint8Array([111, 119, 110, 101, 114]);
ownerValidation = new Uint8Array([142, 232, 169, 208, 202, 214, 5, 185]);
// prettier-ignore
ownerPassword = new Uint8Array([88, 232, 62, 54, 245, 26, 245, 209, 137,
123, 221, 72, 199, 49, 37, 217, 31, 74,
115, 167, 127, 158, 176, 77, 45, 163, 87,
47, 39, 90, 217, 141]);
// prettier-ignore
uBytes = new Uint8Array([94, 230, 205, 75, 166, 99, 250, 76, 219, 128,
17, 85, 57, 17, 33, 164, 150, 46, 103, 176, 160,
156, 187, 233, 166, 223, 163, 253, 147, 235, 95,
184, 83, 245, 146, 101, 198, 247, 34, 198, 191,
11, 16, 94, 237, 216, 20, 175]);
result = alg.checkOwnerPassword(
password,
ownerValidation,
uBytes,
ownerPassword
);
expect(result).toEqual(true);
});
it("should generate a file encryption key from the user key", function() {
var password, userKeySalt, expected, alg, result, userEncryption;
alg = new PDF20();
password = new Uint8Array([117, 115, 101, 114]);
userKeySalt = new Uint8Array([191, 11, 16, 94, 237, 216, 20, 175]);
// prettier-ignore
userEncryption = new Uint8Array([121, 208, 2, 181, 230, 89, 156, 60, 253,
143, 212, 28, 84, 180, 196, 177, 173,
128, 221, 107, 46, 20, 94, 186, 135, 51,
95, 24, 20, 223, 254, 36]);
result = alg.getUserKey(password, userKeySalt, userEncryption);
// prettier-ignore
expected = new Uint8Array([42, 218, 213, 39, 73, 91, 72, 79, 67, 38, 248,
133, 18, 189, 61, 34, 107, 79, 29, 56, 59,
181, 213, 118, 113, 34, 65, 210, 87, 174, 22,
239]);
expect(result).toEqual(expected);
});
it("should generate a file encryption key from the owner key", function() {
var password, ownerKeySalt, expected, alg, result, ownerEncryption;
var uBytes;
alg = new PDF20();
password = new Uint8Array([111, 119, 110, 101, 114]);
ownerKeySalt = new Uint8Array([29, 208, 185, 46, 11, 76, 135, 149]);
// prettier-ignore
ownerEncryption = new Uint8Array([209, 73, 224, 77, 103, 155, 201, 181,
190, 68, 223, 20, 62, 90, 56, 210, 5,
240, 178, 128, 238, 124, 68, 254, 253,
244, 62, 108, 208, 135, 10, 251]);
// prettier-ignore
uBytes = new Uint8Array([94, 230, 205, 75, 166, 99, 250, 76, 219, 128,
17, 85, 57, 17, 33, 164, 150, 46, 103, 176, 160,
156, 187, 233, 166, 223, 163, 253, 147, 235, 95,
184, 83, 245, 146, 101, 198, 247, 34, 198, 191,
11, 16, 94, 237, 216, 20, 175]);
result = alg.getOwnerKey(password, ownerKeySalt, uBytes, ownerEncryption);
// prettier-ignore
expected = new Uint8Array([42, 218, 213, 39, 73, 91, 72, 79, 67, 38, 248,
133, 18, 189, 61, 34, 107, 79, 29, 56, 59,
181, 213, 118, 113, 34, 65, 210, 87, 174, 22,
239]);
expect(result).toEqual(expected);
});
});
});
describe("CipherTransformFactory", function() {
function buildDict(map) {
var dict = new Dict();
for (var key in map) {
dict.set(key, map[key]);
}
return dict;
}
function ensurePasswordCorrect(done, dict, fileId, password) {
try {
var factory = new CipherTransformFactory(dict, fileId, password);
expect("createCipherTransform" in factory).toEqual(true);
} catch (ex) {
done.fail("Password should be accepted: " + ex);
return;
}
done();
}
function ensurePasswordNeeded(done, dict, fileId, password) {
try {
// eslint-disable-next-line no-new
new CipherTransformFactory(dict, fileId, password);
} catch (ex) {
expect(ex instanceof PasswordException).toEqual(true);
expect(ex.code).toEqual(PasswordResponses.NEED_PASSWORD);
done();
return;
}
done.fail("Password should be rejected.");
}
function ensurePasswordIncorrect(done, dict, fileId, password) {
try {
// eslint-disable-next-line no-new
new CipherTransformFactory(dict, fileId, password);
} catch (ex) {
expect(ex instanceof PasswordException).toEqual(true);
expect(ex.code).toEqual(PasswordResponses.INCORRECT_PASSWORD);
done();
return;
}
done.fail("Password should be rejected.");
}
var fileId1, fileId2, dict1, dict2;
var aes256Dict, aes256IsoDict, aes256BlankDict, aes256IsoBlankDict;
beforeAll(function(done) {
fileId1 = unescape("%F6%C6%AF%17%F3rR%8DRM%9A%80%D1%EF%DF%18");
fileId2 = unescape("%3CL_%3AD%96%AF@%9A%9D%B3%3Cx%1Cv%AC");
dict1 = buildDict({
Filter: Name.get("Standard"),
V: 2,
Length: 128,
O: unescape(
"%80%C3%04%96%91o%20sl%3A%E6%1B%13T%91%F2%0DV%12%E3%FF%5E%B" +
"B%E9VO%D8k%9A%CA%7C%5D"
),
U: unescape(
"j%0C%8D%3EY%19%00%BCjd%7D%91%BD%AA%00%18%00%00%00%00%00%00" +
"%00%00%00%00%00%00%00%00%00%00"
),
P: -1028,
R: 3,
});
dict2 = buildDict({
Filter: Name.get("Standard"),
V: 4,
Length: 128,
O: unescape(
"sF%14v.y5%27%DB%97%0A5%22%B3%E1%D4%AD%BD%9B%3C%B4%A5%89u%1" +
"5%B2Y%F1h%D9%E9%F4"
),
U: unescape(
"%93%04%89%A9%BF%8AE%A6%88%A2%DB%C2%A0%A8gn%00%00%00%00%00%" +
"00%00%00%00%00%00%00%00%00%00%00"
),
P: -1084,
R: 4,
});
aes256Dict = buildDict({
Filter: Name.get("Standard"),
V: 5,
Length: 256,
O: unescape(
"%3Cb%89%233e%C8%98%D2%B2%E2%E4%86%CD%A3%18%CC%7E%B1%24j2%2" +
"4%7D%D2%AC%ABx%DEl%8Bs%F3vG%99%80%11e%3E%C8%F5%F2%0C%DA%7B" +
"%18x"
),
U: unescape(
"%83%F2%8F%A0W%02%8A%86O%FD%BD%AD%E0I%90%F1%BEQ%C5%0F%F9i%9" +
"1%97%0F%C2A%03%01%7E%BB%DDu%A9%04%20%9Fe%16%DC%A8%5E%D7%C0" +
"d%26%BC%28"
),
OE: unescape(
"%D5%CA%0E%BDnLF%BF%06%C3%0A%BE%9Dd%90U%08%3E%7B%B2%9C%E52" +
"%28%E5%D86%DE%22%26j%DF"
),
UE: unescape(
"%23%96%C3%A9%F533%FF%9E%9E%21%F2%E7K%7D%BE%19%7E%ACr%C3%F" +
"4%89%F5%EA%A5*J%3C%26%11%11"
),
Perms: unescape("%D8%FC%844%E5e%0DB%5D%7Ff%FD%3COMM"),
P: -1084,
R: 5,
});
aes256IsoDict = buildDict({
Filter: Name.get("Standard"),
V: 5,
Length: 256,
O: unescape(
"X%E8%3E6%F5%1A%F5%D1%89%7B%DDH%C71%25%D9%1FJs%A7%7F%9E%B0M" +
"-%A3W/%27Z%D9%8D%8E%E8%A9%D0%CA%D6%05%B9%1D%D0%B9.%0BL%87%" +
"95"
),
U: unescape(
"%5E%E6%CDK%A6c%FAL%DB%80%11U9%11%21%A4%96.g%B0%A0%9C%BB%E9" +
"%A6%DF%A3%FD%93%EB_%B8S%F5%92e%C6%F7%22%C6%BF%0B%10%5E%ED%" +
"D8%14%AF"
),
OE: unescape(
"%D1I%E0Mg%9B%C9%B5%BED%DF%14%3EZ8%D2%05%F0%B2%80%EE%7CD%F" +
"E%FD%F4%3El%D0%87%0A%FB"
),
UE: unescape(
"y%D0%02%B5%E6Y%9C%3C%FD%8F%D4%1CT%B4%C4%B1%AD%80%DDk.%14%" +
"5E%BA%873_%18%14%DF%FE%24"
),
Perms: unescape("l%AD%0F%A0%EBM%86WM%3E%CB%B5%E0X%C97"),
P: -1084,
R: 6,
});
aes256BlankDict = buildDict({
Filter: Name.get("Standard"),
V: 5,
Length: 256,
O: unescape(
"%B8p%04%C3g%26%FCW%CCN%D4%16%A1%E8%950YZ%C9%9E%B1-%97%F3%F" +
"E%03%13%19ffZn%8F%F5%EB%EC%CC5sV%10e%CEl%B5%E9G%C1"
),
U: unescape(
"%83%D4zi%F1O0%961%12%CC%82%CB%CA%BF5y%FD%21%EB%E4%D1%B5%1D" +
"%D6%FA%14%F3%BE%8Fqs%EF%88%DE%E2%E8%DC%F55%E4%B8%16%C8%14%" +
"8De%1E"
),
OE: unescape(
"%8F%19%E8%D4%27%D5%07%CA%C6%A1%11%A6a%5Bt%F4%DF%0F%84%29%" +
"0F%E4%EFF7%5B%5B%11%A0%8F%17e"
),
UE: unescape(
"%81%F5%5D%B0%28%81%E4%7F_%7C%8F%85b%A0%7E%10%D0%88lx%7B%7" +
"EJ%5E%912%B6d%12%27%05%F6"
),
Perms: unescape("%86%1562%0D%AE%A2%FB%5D%3B%22%3Dq%12%B2H"),
P: -1084,
R: 5,
});
aes256IsoBlankDict = buildDict({
Filter: Name.get("Standard"),
V: 5,
Length: 256,
O: unescape(
"%F7%DB%99U%A6M%ACk%AF%CF%D7AFw%E9%C1%91%CBDgI%23R%CF%0C%15" +
"r%D74%0D%CE%E9%91@%E4%98QF%BF%88%7Ej%DE%AD%8F%F4@%C1"
),
U: unescape(
"%1A%A9%DC%918%83%93k%29%5B%117%B16%DB%E8%8E%FE%28%E5%89%D4" +
"%0E%AD%12%3B%7DN_6fez%8BG%18%05YOh%7DZH%A3Z%87%17*"
),
OE: unescape(
"%A4a%88%20h%1B%7F%CD%D5%CAc%D8R%83%E5%D6%1C%D2%98%07%984%" +
"BA%AF%1B%B4%7FQ%F8%1EU%7D"
),
UE: unescape(
"%A0%0AZU%27%1D%27%2C%0B%FE%0E%A2L%F9b%5E%A1%B9%D6v7b%B26%" +
"A9N%99%F1%A4Deq"
),
Perms: unescape("%03%F2i%07%0D%C3%F9%F2%28%80%B7%F5%DD%D1c%EB"),
P: -1084,
R: 6,
});
done();
});
afterAll(function() {
fileId1 = fileId2 = dict1 = dict2 = null;
aes256Dict = aes256IsoDict = aes256BlankDict = aes256IsoBlankDict = null;
});
describe("#ctor", function() {
describe("AES256 Revision 5", function() {
it("should accept user password", function(done) {
ensurePasswordCorrect(done, aes256Dict, fileId1, "user");
});
it("should accept owner password", function(done) {
ensurePasswordCorrect(done, aes256Dict, fileId1, "owner");
});
it("should not accept blank password", function(done) {
ensurePasswordNeeded(done, aes256Dict, fileId1);
});
it("should not accept wrong password", function(done) {
ensurePasswordIncorrect(done, aes256Dict, fileId1, "wrong");
});
it("should accept blank password", function(done) {
ensurePasswordCorrect(done, aes256BlankDict, fileId1);
});
});
describe("AES256 Revision 6", function() {
it("should accept user password", function(done) {
ensurePasswordCorrect(done, aes256IsoDict, fileId1, "user");
});
it("should accept owner password", function(done) {
ensurePasswordCorrect(done, aes256IsoDict, fileId1, "owner");
});
it("should not accept blank password", function(done) {
ensurePasswordNeeded(done, aes256IsoDict, fileId1);
});
it("should not accept wrong password", function(done) {
ensurePasswordIncorrect(done, aes256IsoDict, fileId1, "wrong");
});
it("should accept blank password", function(done) {
ensurePasswordCorrect(done, aes256IsoBlankDict, fileId1);
});
});
it("should accept user password", function(done) {
ensurePasswordCorrect(done, dict1, fileId1, "123456");
});
it("should accept owner password", function(done) {
ensurePasswordCorrect(done, dict1, fileId1, "654321");
});
it("should not accept blank password", function(done) {
ensurePasswordNeeded(done, dict1, fileId1);
});
it("should not accept wrong password", function(done) {
ensurePasswordIncorrect(done, dict1, fileId1, "wrong");
});
it("should accept blank password", function(done) {
ensurePasswordCorrect(done, dict2, fileId2);
});
});
});