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I'm developing an application that on one side produces a code with certain information about a purchase, wich includes a credit information. For example, you could buy a given number of minutes to spend in a public PC on a cybercafe, and you receive a ticket with a number/code with that ammount of minutes, which is then decoded and processed by the PC blocking software in the public PC.
The full length of that information (including date of purchase, an ID, and so on) is about 12 bytes. I need to secure that data, obviously, as much as i need to make it unalterable. I don't have experience on cryptography but have been reading a lot the last few days, so i came up with an scheme in which i encrypt the data using Twofish in CFB mode (to keep the ciphertext small), and add a 4 bytes long IV, randomly generated. I realize it's a short IV, but the reasoning behind is that an attacker should grab an apparently ridiculous ammount of tickets to become a thread with an IV of 65535 variations.
The problem i see (let alone the ones i miss) is that i also need to authenticate the code, since in CFB mode, a small change in the ciphertext produces just a small change in the plaintext, so anybody could change, for instance, its ticket's credit by just changing an A for a B.
So, first question is: is there any obvious problem in using the CRC16 of the plaintext as IV, and add it (unencrypted) to the encrypted code to use it both for authentication and IV? I repeat i'm not in cryptography, but it 'feels' odd to put some information about the plaintext unencrypted along with the cyphertext. But is just the gut feeling.
Or, instead, should i use a stream cipher? Which one could make a big change (/mess up) the plaintext from a small change in ciphertext. Is this related to the error propagation property in the cipher mode of operation?

Some guide, please?
Thanks a lot.
By the way, if that matters, im using mcrypt on PHP.

I must add that the other end of the app, the one that reads the ticket, is not (and cannot be) online. Sorry for that ommision.

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I would rather hand out random numbers and have the client PC:s ask a license server for the purchase information associated with that random number. –  Albin Sunnanbo Feb 24 '12 at 21:43
    
Thanks Albin. This whole scheme is derived from the fact that the other end of the app (the one exemplified with the public PC) is not online. I thik i took for granted that it was implied. I'm sorry for that. I'll edit. –  tebastian Feb 24 '12 at 21:46
    
It's pointless to use an IV that is derived from the plain text. The whole point of an IV is to produce different cipher texts from the same plain text. –  erickson Feb 24 '12 at 21:59
    
That's right erickson. Right and straight like a slap in the back of my head. My scrambled head. Thanks a lot. So cannot use any hash as IV. Can i avoid the use of the hash by means of a different encryption method? Or should i add the hash AND the IV to the code, which i'd rather avoid doing? –  tebastian Feb 24 '12 at 22:07
    
There are cipher modes like EAX and CCM that provide integrity and privacy, but they are probably too bulky to use for a code that a user can easily type. What if you just give them an HMAC, and let them enter the message itself? Like they input the date, ID, and time limit, plus a verification code. If the code matches their input, they are good to go. –  erickson Feb 24 '12 at 22:20

2 Answers 2

It sounds like what you are looking for is either an HMAC or, if you cannot secure the client PCs, a digital signature, not encryption.

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Thanks Andrew. Am i wrong assuming that in that case i still need to send the information as well as the HMAC? I mean, is your advice to replace the CRC16 part of my scheme, only? If so, it seems that the length of the ticket would become impractical. If i'm wrong, sorry, please clarify me. –  tebastian Feb 24 '12 at 21:56
    
Yes, it will require more bits to do this securely. You can have secure tickets, short tickets, or disconnected verification: pick two. –  Andrew Mar 2 '12 at 18:02

I would add some salt and produce an MD5 hash, delivered right with the plaintext

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Thanks Eduardo. MD5 hash seems too long for my needs, and maybe (hopefully) an overkill. The ticket would become impractical. Anyway, my conceptual concern remains the same about adding unencrypted information about the plaintext, even realizing that an MD5 is a lot less information than a CRC16. –  tebastian Feb 24 '12 at 21:51
    
You have to be careful using a hash like that because an attacker could easily append some more data to the end of the message and update the hash to match. The format of the message would have to have some sort of "end of message" marker or be of fixed length for this approach to be secure. –  Andrew Feb 24 '12 at 21:52
    
You could take a substring from the hash. Although .... I am not an encryption expert and hope this is not really bad advice! –  Eduardo Feb 24 '12 at 21:53
    
The substring of the hash seems reasonable to me. Though i think it has the same flaw as the crc16. ie: only 65536 variations, which could be less than desirable with big ammounts of data being secured. Since this is not the case (or doesn't seems to be), it could work as well. –  tebastian Feb 24 '12 at 22:00
    
Andrew, the data i'm using is in fact strongly formatted. For instance, it has a field of 10 bits for the credit, another of 5 for the day, 4 for the month, etc. So it woudn't be a problem if the attack consist in adding information to match the hash. Am i right? –  tebastian Feb 24 '12 at 22:02

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