DiceLock-x 8.0.0.1 for Linux is the cryptographic architecture that ensures that ciphertext it’s not just encrypted but also randomized.
DiceLock cipher architecture presents two main configurations:
– Dicelock Digested, and
– Dicelock Indexed.
DiceLock encryption architecture improves symmetric ciphers like block cipher as Advanced Encryption Standard, Camellia, Serpent, Twofish (128, 192 and 256 bit key lengths) with different block cipher operation modes (like CBC, CFB, OFB and XTS) and stream ciphers as HC 128, HC 256, Rabbit, Salsa 20/20, Sosemanuk and others.
DiceLock (both configurations) makes use of the following random number tests: Frequency Test, Block Frequency Test, Cumulative Sum Forward Test, Cumulative Sum Reverse Test, Runs Test, Longest Run Of Ones Test, Rank Test, Universal Test, Approximate Entropy Test, Serial Test and Discrete Fourier Transform Test.
Additionally DiceLock Digested configuration makes use currently of following hash digest algorithms: Sha 1, Sha 224, Sha 256, Sha 384, Sha 512, Ripemd 128, Ripemd 160, Ripemd 256, Ripemd 320, Md2, Md4 and Md5.
Previous version DiceLock-x 7.0.0.1 for Linux incorporated XTS-AES (XEX-based tweaked-codebook mode with ciphertext stealing XTS block cipher operation mode algorithm) for Advanced Encryption Algorithm (AES) for 128 and 256 bit symmetric keys.
New version DiceLock-x 8.0.0.1 for Linux has made significant improvements:
- added block encryption ciphers like Camellia, Serpent and Twofish with all accepted key lengths of 128, 192 and 256 bits,
- added stream ciphers like Rabbit, Salsa 20/20 with 128 and 256 bit key lengths, and general Sosemanuk, as well as Sosemanuk with 128 and 256 bit key lengths,
- added old hash algorithms like Message Digest 2, Message Digest 4 and Message Digest 5,
- modified DiceLockIndexed and DiceLockDigested classes to be used with encryption ciphers that does not make use of initialization vector (IV),
- created DiceLockIVDigested and DiceLockIVIndexed classes to be used with encryption ciphers that makes use of initialization vector (IV),
- extended DiceLockXTSDigested and DiceLockXTSIndexed classes to be use with newly added Camellia, Serpent and Twofish block ciphers and all three key lengths (128, 192 and 256 bit key lengths),
- added old encryption ciphers like DEA (Data Encryption Algorithm), TDEA (Triple Data Encryption Algorithm), and ARC4 (alleged RC4) for compatibillity reasons.
As the new version DiceLock-x 8.0.0.1 for Linux is developed, all individual components must be tested and verified, and in this article we verify Cipher-block chaining CBC class (computing Cipher-block chaining CBC block cipher algorithm).
At the bottom of the post you can find C++ source code being used to perform this test.
Verified DiceLock-x 8.0.0.1 for Linux
Verification components:
– Block cipher operation mode encryption algorithm: CBC_Mode class
– CBC crypto padding algorithm: ANSI_X_923 class
– Block cipher encryption algorithm: AES256 class
– Test set : GFSbox
– Bit stream memory management: PhysicalCryptoRandomStream class (memory pages kept in RAM, not swapped to file)
Memory characteristic used in this test:
PhysicalCryptoRandomStream class makes use of AWE (Address Windowing Extensions) that uses physical nonpaged memory, so memory is not swapped to hard disk.
In order to use PhysicalCryptoRandomStream class, which works with AWE it requires that “Lock Pages In Memory” Windows security setting policy permission must be granted in “Local Policy Settings” to the account executing the program, and in some versions the program must have “Run this program as an administrator” “Privilege Level” option checked.
CBC_Mode class block cipher operation mode is executed with ANSI_X_923 class crypto padding algorithm. Encrypted text length is set to 256 and it does match expected ciphertext first 128 bits, remaining 128 bits corresponding to crypto pad data are shown in italic.
Once computed we’ve got the following results:
GFSbox, test# 1
Input plaintext: | 014730f80ac625fe84f026c60bfd547d | ||
Key: | 0000000000000000000000000000000000000000000000000000000000000000 | ||
IV: | 00000000000000000000000000000000 | ||
Expected ciphertext: | 5c9d844ed46f9885085e5d6a4f94c7d7 | ||
Computed ciphertext: | 5c9d844ed46f9885085e5d6a4f94c7d7f02011b15e8ab27d28b666e6187643c5 | OK | |
DECIPHERING | Deciphered text: | 014730f80ac625fe84f026c60bfd547d | OK |
GFSbox, test# 2
Input plaintext: | 0b24af36193ce4665f2825d7b4749c98 | ||
Key: | 0000000000000000000000000000000000000000000000000000000000000000 | ||
IV: | 00000000000000000000000000000000 | ||
Expected ciphertext: | a9ff75bd7cf6613d3731c77c3b6d0c04 | ||
Computed ciphertext: | a9ff75bd7cf6613d3731c77c3b6d0c04b542a5e2e77ce1d45757c687025542a2 | OK | |
DECIPHERING | Deciphered text: | 0b24af36193ce4665f2825d7b4749c98 | OK |
GFSbox, test# 3
Input plaintext: | 761c1fe41a18acf20d241650611d90f1 | ||
Key: | 0000000000000000000000000000000000000000000000000000000000000000 | ||
IV: | 00000000000000000000000000000000 | ||
Expected ciphertext: | 623a52fcea5d443e48d9181ab32c7421 | ||
Computed ciphertext: | 623a52fcea5d443e48d9181ab32c7421d8b4645bb22eb497b9a38a1cf574b3d9 | OK | |
DECIPHERING | Deciphered text: | 761c1fe41a18acf20d241650611d90f1 | OK |
GFSbox, test# 4
Input plaintext: | 8a560769d605868ad80d819bdba03771 | ||
Key: | 0000000000000000000000000000000000000000000000000000000000000000 | ||
IV: | 00000000000000000000000000000000 | ||
Expected ciphertext: | 38f2c7ae10612415d27ca190d27da8b4 | ||
Computed ciphertext: | 38f2c7ae10612415d27ca190d27da8b45d669241031acfc64b7d4e29842f6887 | OK | |
DECIPHERING | Deciphered text: | 8a560769d605868ad80d819bdba03771 | OK |
GFSbox, test# 5
Input plaintext: | 91fbef2d15a97816060bee1feaa49afe | ||
Key: | 0000000000000000000000000000000000000000000000000000000000000000 | ||
IV: | 00000000000000000000000000000000 | ||
Expected ciphertext: | 1bc704f1bce135ceb810341b216d7abe | ||
Computed ciphertext: | 1bc704f1bce135ceb810341b216d7abe4bb53205b3592f10146dec53078f3238 | OK | |
DECIPHERING | Deciphered text: | 91fbef2d15a97816060bee1feaa49afe | OK |
DiceLock-x 8.0.0.1 for Linux C++ source code used in this test:
– DiceLock-x 8.0.0.1 for Linux
– DiceLockCipher.h
– cryptoRandomStreams.h
– baseCryptoRandomStream.h
– baseCryptoRandomStream.cpp
– physicalCryptoRandomStream.h
– physicalCryptoRandomStream.cpp
– baseSymmetricCipher.h
– baseSymmetricCipher.cpp
– baseSymmetricStreamer.h
– baseSymmetricStreamer.cpp
– blockCipherOperationModes.h
– baseBlockCipherOperationMode_with_IV.h
– baseBlockCipherOperationMode_with_IV.cpp
– CBC_Mode.h
– CBC_Mode.cpp
– cryptoPads.h
– baseCryptoPad.h
– baseCryptoPad.cpp
– ANSI_X_923.h
– ANSI_X_923.cpp
– blockCiphers.h
– baseBlockCipher.h
– baseBlockCipher.cpp
– baseAES.h
– baseAES.cpp
– AES256.h
– AES256.cpp
So, DiceLock cipher test and analysis can go on …
DiceLock is a trademark or registered trademark of his owner where applies. DiceLock research is the research to implement Self-corrector randomisation-encryption and method, european patent EP1182777 granted 08/21/2003 and US patent US7508945 granted 03/24/2009.
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