With the ever increasing threat of cyber crime, more and more companies are looking to keep data secure on internal and removable storage devices. Unfortunately there is no one solution that fits all. The Military have their own requirements as do financial institutions as do personal users. But what types of encryption are there? below we list the encryption levels what they mean and products we sell that has them.
Probably one of the most common standards. The Federal Information Processing Standard 140-2 (FIPS 140-2) is a U.S. and Canadian co-sponsored security standard for hardware and software products. FIPS 140-2 provides stringent third-party assurance of security claims for product sold in the United States and Canada. Products that are sold into the US Federal Government are required to complete FIPS 140-2 validation if they use cryptography in security systems that process sensitive but unclassified information. FIPS 140-2 is gaining worldwide recognition as an important benchmark for encryption products of all kinds and is being reviewed by ISO to become an international standard. What is the difference between FIPS compliant and FIPS validated? There is a substantial difference between claiming your product is FIPS 140-2 compliant versus FIPS 140-2 validated.
- FIPS Compliant refers to a product that has incorporated within its design another company’s cryptographic module that went through the FIPS validation process. It does not hold as much weight as being able to claim FIPS 140-2 Validation.
- FIPS Validated means the vendor has gone through the entire FIPS 140-2 evaluation process and has a certificate of their own issued by the government.
What does FIPS 140-2 cover?
FIPS 140-2 covers products using cryptography for secure remote management, data encryption, digital signatures, information protection. FIPS140-2 also requires features that show evidence of tampering, including tamper-evident coatings or seals that must be broken to attain physical access to the plaintext cryptographic keys and critical security parameters (CSPs) within the module, or pick-resistant locks on covers or doors to protect against unauthorised physical access.
What is the difference between FIPS 140-2 and FIPS 197?
FIPS 197 certification looks at the hardware encryption algorithms used to protect the data. FIPS 140-2 is the next, more advanced level of certification. FIPS 140-2 includes a rigorous analysis of the product’s physical properties. So, with a FIPS 140-2 certified USB Flash Drive the tamper-proof design of the circuit board has been approved, as well as the data encryption.
What is AES encryption?
In 2001, the Advanced Encryption Standard, or AES encryption algorithm as it is commonly referred to, was accepted as the industry standard for secure data encryption by the U.S. National Institute of Standards and Technology (NIST) in 2001. Developed by Vincent Rijmen and Joan Daemen, it is also called the RijnDael cipher (a cipher being a code which is used to hide the true message being sent). This method is now used world-wide, in both hardware and software alike. AES encryption presents higher security than previous encryption standards as changing just one bit, whether in the key or textblock, results in an incomprehensible cipherblock. What this means to you and I, is that it prevents someone from working out the code by simply substituting one byte at a time and seeing what changes this makes to the message. This is actually one of the main reasons for developing a new encryption standard, as these ‘brute force’ attacks were relatively successful in cracking previous encryption algorithms. Modern AES encryption uses 128, 192 or 256-bit keys. As we might expect, the higher the number of bits in the key, the more possible key combinations there are and therefore the harder the code is to crack. So why doesn’t everyone just use AES-256? Well, there is a trade-off between the speed at which your equipment can encrypt/decrypt information, the cost of the equipment which supports the increasing standards and the level of security risk that the information carries. For most people, it is probably more cost-effective to use the lower-bit AES encryption options.
IS AES Secure enough?
While this makes it seem like AES-256 is the best option for everyone, it should be noted that not even AES-128 has ever been cracked by brute force. In fact, AES-128 is still used by governments to encrypt data up to ‘Secret’ level. Only ‘Top Secret’ information is required to be encrypted with a minimum standard of AES-192. Though there have been successful attacks on AES, their success was due to exploiting weaknesses in the implementation of the standard rather than a weakness in the standard itself. In short, if AES-128 is used by governments and military installations to encrypt ‘Secret’ classified information, it’s probably secure enough to keep your sales information safe from your average hacker. Furthermore, it has been calculated that it would take 1 billion billion years for a super-computer to crack the AES-128 algorithm using brute force. And how many hackers have access to a super-computer?
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