174 lines
6.1 KiB
Mathematica
174 lines
6.1 KiB
Mathematica
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/*
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Password Encryptor
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Copyright 2013 Thinstuff Technologies GmbH, Author: Dorian Johnson
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This Source Code Form is subject to the terms of the Mozilla Public License, v. 2.0.
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If a copy of the MPL was not distributed with this file, You can obtain one at http://mozilla.org/MPL/2.0/.
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*/
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/* We try to use CommonCrypto as much as possible. PBKDF2 was added to CommonCrypto in iOS 5, so use OpenSSL only as a fallback to do PBKDF2 on pre iOS 5 systems. */
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#import "Encryptor.h"
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#import <CommonCrypto/CommonKeyDerivation.h>
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#import <CommonCrypto/CommonCryptor.h>
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#import <CommonCrypto/CommonDigest.h>
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#import <openssl/evp.h> // For PBKDF2 on < 5.0
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#include <fcntl.h>
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#pragma mark -
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@interface Encryptor (Private)
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- (NSData*)randomInitializationVector;
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@end
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@implementation Encryptor
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@synthesize plaintextPassword=_plaintext_password;
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- (id)initWithPassword:(NSString*)plaintext_password
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{
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if (plaintext_password == nil)
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return nil;
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if ( !(self = [super init]) )
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return nil;
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_plaintext_password = [plaintext_password retain];
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const char* plaintext_password_data = [plaintext_password length] ? [plaintext_password UTF8String] : " ";
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if (!plaintext_password_data || !strlen(plaintext_password_data))
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[NSException raise:NSInternalInconsistencyException format:@"%s: plaintext password data is zero length!", __func__];
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uint8_t* derived_key = calloc(1, TSXEncryptorPBKDF2KeySize);
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if (CCKeyDerivationPBKDF != NULL)
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{
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int rounds = CCCalibratePBKDF(kCCPBKDF2, strlen(plaintext_password_data), TSXEncryptorPBKDF2SaltLen, kCCPRFHmacAlgSHA1, TSXEncryptorPBKDF2KeySize, 100);
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int ret = CCKeyDerivationPBKDF(kCCPBKDF2, plaintext_password_data, strlen(plaintext_password_data)-1, (const uint8_t*)TSXEncryptorPBKDF2Salt, TSXEncryptorPBKDF2SaltLen, kCCPRFHmacAlgSHA1, rounds, derived_key, TSXEncryptorPBKDF2KeySize);
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//NSLog(@"CCKeyDerivationPBKDF ret = %d; key: %@", ret, [NSData dataWithBytesNoCopy:derived_key length:TWEncryptorPBKDF2KeySize freeWhenDone:NO]);
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if (ret)
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{
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NSLog(@"%s: CCKeyDerivationPBKDF ret == %d, indicating some sort of failure.", __func__, ret);
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[self autorelease];
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return nil;
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}
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}
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else
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{
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// iOS 4.x or earlier -- use OpenSSL
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unsigned long ret = PKCS5_PBKDF2_HMAC_SHA1(plaintext_password_data, (int)strlen(plaintext_password_data)-1, (const unsigned char*)TSXEncryptorPBKDF2Salt, TSXEncryptorPBKDF2SaltLen, TSXEncryptorPBKDF2Rounds, TSXEncryptorPBKDF2KeySize, derived_key);
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//NSLog(@"PKCS5_PBKDF2_HMAC_SHA1 ret = %lu; key: %@", ret, [NSData dataWithBytesNoCopy:derived_key length:TWEncryptorPBKDF2KeySize freeWhenDone:NO]);
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if (ret != 1)
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{
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NSLog(@"%s: PKCS5_PBKDF2_HMAC_SHA1 ret == %lu, indicating some sort of failure.", __func__, ret);
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[self release];
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return nil;
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}
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}
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_encryption_key = [[NSData alloc] initWithBytesNoCopy:derived_key length:TSXEncryptorPBKDF2KeySize freeWhenDone:YES];
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return self;
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}
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#pragma mark -
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#pragma mark Encrypting/Decrypting data
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- (NSData*)encryptData:(NSData*)plaintext_data
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{
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if (![plaintext_data length])
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return nil;
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NSData* iv = [self randomInitializationVector];
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NSMutableData* encrypted_data = [NSMutableData dataWithLength:[iv length] + [plaintext_data length] + TSXEncryptorBlockCipherBlockSize];
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[encrypted_data replaceBytesInRange:NSMakeRange(0, [iv length]) withBytes:[iv bytes]];
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size_t data_out_moved = 0;
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int ret = CCCrypt(kCCEncrypt, TSXEncryptorBlockCipherAlgo, TSXEncryptorBlockCipherOptions, [_encryption_key bytes], TSXEncryptorBlockCipherKeySize, [iv bytes], [plaintext_data bytes], [plaintext_data length], [encrypted_data mutableBytes]+[iv length], [encrypted_data length]-[iv length], &data_out_moved);
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switch (ret)
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{
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case kCCSuccess:
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[encrypted_data setLength:[iv length] + data_out_moved];
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return encrypted_data;
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default:
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NSLog(@"%s: uncaught error, ret CCCryptorStatus = %d (plaintext len = %lu; buffer size = %lu)", __func__, ret, (unsigned long)[plaintext_data length], (unsigned long)([encrypted_data length]-[iv length]));
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return nil;
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}
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return nil;
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}
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- (NSData*)decryptData:(NSData*)encrypted_data
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{
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if ([encrypted_data length] <= TSXEncryptorBlockCipherBlockSize)
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return nil;
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NSMutableData* plaintext_data = [NSMutableData dataWithLength:[encrypted_data length] + TSXEncryptorBlockCipherBlockSize];
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size_t data_out_moved = 0;
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int ret = CCCrypt(kCCDecrypt, TSXEncryptorBlockCipherAlgo, TSXEncryptorBlockCipherOptions, [_encryption_key bytes], TSXEncryptorBlockCipherKeySize, [encrypted_data bytes], [encrypted_data bytes] + TSXEncryptorBlockCipherBlockSize, [encrypted_data length] - TSXEncryptorBlockCipherBlockSize, [plaintext_data mutableBytes], [plaintext_data length], &data_out_moved);
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switch (ret)
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{
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case kCCSuccess:
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[plaintext_data setLength:data_out_moved];
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return plaintext_data;
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case kCCBufferTooSmall: // Our output buffer is big enough to decrypt valid data. This return code indicates malformed data.
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case kCCAlignmentError: // Shouldn't get this, since we're using padding.
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case kCCDecodeError: // Wrong key.
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return nil;
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default:
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NSLog(@"%s: uncaught error, ret CCCryptorStatus = %d (encrypted data len = %lu; buffer size = %lu; dom = %lu)", __func__, ret, (unsigned long)[encrypted_data length], (unsigned long)[plaintext_data length], data_out_moved);
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return nil;
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}
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return nil;
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}
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- (NSData*)encryptString:(NSString*)plaintext_string
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{
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return [self encryptData:[plaintext_string dataUsingEncoding:NSUTF8StringEncoding]];
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}
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- (NSString*)decryptString:(NSData*)encrypted_string
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{
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return [[[NSString alloc] initWithData:[self decryptData:encrypted_string] encoding:NSUTF8StringEncoding] autorelease];
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}
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- (NSData*)randomInitializationVector
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{
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NSMutableData* iv = [NSMutableData dataWithLength:TSXEncryptorBlockCipherBlockSize];
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int fd;
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if ( (fd = open("/dev/urandom", O_RDONLY)) < 0)
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return nil;
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NSInteger bytes_needed = [iv length];
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char* p = [iv mutableBytes];
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while (bytes_needed)
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{
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long bytes_read = read(fd, p, bytes_needed);
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if (bytes_read < 0)
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continue;
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p += bytes_read;
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bytes_needed -= bytes_read;
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}
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close(fd);
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return iv;
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}
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@end
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