Triple DES: DES « Security « Java.,. decrypt, or generate a key. The second argument is the name of a file. from which the key is read or to which it is. Triple DES: DES « Security « Java. Home; Java; 2D Graphics GUI; 3D; Advanced Graphics; Ant; Apache Common; Chart.,. decrypt, or generate a key. The second argument is the name of a file. from which the key is read or to which it is written for -g. The -e and.d arguments cause the program to read from standard input and encrypt.
-->Definition
Creates an instance of a cryptographic object to perform the TripleDES algorithm.
Overloads
Create() | Creates an instance of a cryptographic object to perform the TripleDES algorithm. |
Create(String) | Creates an instance of a cryptographic object to perform the specified implementation of the TripleDES algorithm. |
Creates an instance of a cryptographic object to perform the TripleDES algorithm.
Returns
An instance of a cryptographic object.
Examples
The following code example shows how to create and use a TripleDES object to encrypt and decrypt data in a file.
The following code example shows how to create and use a TripleDES object to encrypt and decrypt data in memory.
Remarks
Creates a new instance of the TripleDES class.
See also
Creates an instance of a cryptographic object to perform the specified implementation of the TripleDES algorithm.
Parameters
- str
- String
![Triple des key length Triple des key length](/uploads/1/2/6/0/126068751/190788216.png)
The name of the specific implementation of TripleDES to use.
Returns
An instance of a cryptographic object.
Examples
The following code example shows how to create and use a TripleDES object to encrypt and decrypt data in a file.
The following code example shows how to create and use a TripleDES object to encrypt and decrypt data in memory.
See also
Applies to
- Cryptography Tutorial
- Cryptography Useful Resources
- Selected Reading
The Data Encryption Standard (DES) is a symmetric-key block cipher published by the National Institute of Standards and Technology (NIST).
![Key Key](/uploads/1/2/6/0/126068751/831131481.gif)
DES is an implementation of a Feistel Cipher. It uses 16 round Feistel structure. The block size is 64-bit. Though, key length is 64-bit, DES has an effective key length of 56 bits, since 8 of the 64 bits of the key are not used by the encryption algorithm (function as check bits only). General Structure of DES is depicted in the following illustration −
Since DES is based on the Feistel Cipher, all that is required to specify DES is −
- Round function
- Key schedule
- Any additional processing − Initial and final permutation
Initial and Final Permutation
The initial and final permutations are straight Permutation boxes (P-boxes) that are inverses of each other. They have no cryptography significance in DES. The initial and final permutations are shown as follows −
Round Function
The heart of this cipher is the DES function, f. The DES function applies a 48-bit key to the rightmost 32 bits to produce a 32-bit output.
- Expansion Permutation Box − Since right input is 32-bit and round key is a 48-bit, we first need to expand right input to 48 bits. Permutation logic is graphically depicted in the following illustration −
- The graphically depicted permutation logic is generally described as table in DES specification illustrated as shown −
- XOR (Whitener). − After the expansion permutation, DES does XOR operation on the expanded right section and the round key. The round key is used only in this operation.
- Substitution Boxes. − The S-boxes carry out the real mixing (confusion). DES uses 8 S-boxes, each with a 6-bit input and a 4-bit output. Refer the following illustration −
- The S-box rule is illustrated below −
- There are a total of eight S-box tables. The output of all eight s-boxes is then combined in to 32 bit section.
- Straight Permutation − The 32 bit output of S-boxes is then subjected to the straight permutation with rule shown in the following illustration:
Key Generation
Triple Des Key Generator Online Sims 1
The round-key generator creates sixteen 48-bit keys out of a 56-bit cipher key. The process of key generation is depicted in the following illustration −
The logic for Parity drop, shifting, and Compression P-box is given in the DES description.
DES Analysis
The DES satisfies both the desired properties of block cipher. These two properties make cipher very strong.
- Avalanche effect − A small change in plaintext results in the very great change in the ciphertext.
- Completeness − Each bit of ciphertext depends on many bits of plaintext.
During the last few years, cryptanalysis have found some weaknesses in DES when key selected are weak keys. These keys shall be avoided.
Triple Des Key Generator
DES has proved to be a very well designed block cipher. There have been no significant cryptanalytic attacks on DES other than exhaustive key search.