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Can anyone identify the encryption method from these pairs: string -> encrypted string

010147  -> ff 64 34 67 73 1f 45 d8 8b 07 0a 0b d0 08 c7 e2
010304  -> ff 64 34 67 73 1f 45 d8 8b 61 b8 7a 2d 9a 56 1a
025738  -> ff 64 34 67 73 1f 4b c9 6a 33 24 77 95 a9 f3 36
036183  -> ff 64 34 67 73 1f 76 32 3a ff 48 4c 30 93 40 46
054731  -> ff 64 34 67 73 1f 55 60 e2 c5 ad c6 f0 ac e2 fa
100333  -> ff 64 34 67 73 1f 45 d8 8b 41 5b b4 7a be 5e 31 81 8f b0 98
100318  -> ff 64 34 67 73 1f 45 d8 8b 41 5b b6 b0 9f ea 6d d5 d2 e0 4c
102132  -> ff 64 34 67 73 1f 45 d8 8b 7e 84 0b 19 b0 0b 93 45 7c 46 f3
102224  -> ff 64 34 67 73 1f 45 d8 8b 7e 88 e5 b9 20 6d 98 54 82 d5 29
103931  -> ff 64 34 67 73 1f 45 d8 8b 61 97 6c d6 b7 b8 b3 21 99 6a fd
1111111 -> ff 64 34 67 73 1f 45 df 19 07 47 23 d7 de 70 49 77 f1 99 3a
178535  -> ff 64 34 67 73 1f 45 dd ee 33 d6 90 34 69 d2 39 dc 18 cb bf
211281  -> ff 64 34 67 73 1f 4B CD 86 BD EA C4 10 DC 09 94 23 B4 A5 0C
229524  -> ff 64 34 67 73 1f 4b cc 1e 64 fa 02 ec 36 18 8b a2 cc 5c 42 
290931  -> ff 64 34 67 73 1f 4B C5 06 A4 21 3A 08 08 FD 91 59 5F A6 B3
313146  -> ff 64 34 67 73 1f 76 78 bd 92 e1 7b c9 fa fa cf 48 8f 48 58
313158  -> ff 64 34 67 73 1f 76 78 bd 92 e1 74 26 1c 3c e3 1f db 74 31 
313159  -> ff 64 34 67 73 1f 76 78 bd 92 e1 74 26 5b 0a fa 20 5c 86 a7 
313160  -> ff 64 34 67 73 1f 76 78 bd 92 e1 75 b5 da 37 1b 98 16 01 36
313167  -> ff 64 34 67 73 1f 76 78 bd 92 e1 75 b2 1c 0c fe af c7 ef a3
313169  -> ff 64 34 67 73 1f 76 78 bd 92 e1 75 b3 02 d8 35 f9 6e d0 b8
313170  -> ff 64 34 67 73 1f 76 78 bd 92 e1 76 2a 7c cf e7 92 3f fa a1
313171  -> ff 64 34 67 73 1f 76 78 bd 92 e1 76 2a 61 26 b0 d9 2b 34 70
313172  -> ff 64 34 67 73 1f 76 78 bd 92 e1 76 2a 1e 6a c6 58 78 72 1d
313173  -> ff 64 34 67 73 1f 76 78 bd 92 e1 76 2a 42 45 cc 5d a2 27 3f
313175  -> ff 64 34 67 73 1f 76 78 bd 92 e1 76 25 36 75 e5 04 1e 78 93
313176  -> ff 64 34 67 73 1f 76 78 bd 92 e1 76 25 4f 6b 83 d1 4a 4f 4e
313179  -> ff 64 34 67 73 1f 76 78 bd 92 e1 76 28 88 f0 08 40 1d 8c d9
3136355 -> ff 64 34 67 73 1f 76 78 bd 92 e2 87 34 8c c3 e0 49 2b d3 db
313736  -> ff 64 34 67 73 1f 76 78 bd 92 e4 11 3e 30 d0 f3 1c d7 83 ba
313748  -> ff 64 34 67 73 1f 76 78 bd 92 e4 0a fb 34 11 32 bd 8c b4 f6
3137712 -> ff 64 34 67 73 1f 76 78 bd 92 e4 1d e2 21 b2 aa 81 af 0a b7
313797  -> ff 64 34 67 73 1f 76 78 bd 92 e4 5c f9 93 c5 af e0 37 e0 0c
3454162 -> ff 64 34 67 73 1f 76 30 91 0e 01 ea e0 de 14 fd de d6 3e 08
3455221 -> ff 64 34 67 73 1f 76 30 91 0e 07 0b 4d e4 fd d3 1a 19 5a ed
364106  -> ff 64 34 67 73 1f 76 32 39 a3 3a dd a2 9b 57 4b 43 ee 62 f6
415252  -> ff 64 34 67 73 1f 53 3B 92 7F 88 6A 36 CA 02 6F 27 C9 25 C7 
421320  -> ff 64 34 67 73 1f 53 36 26 40 b7 e3 4c ec 05 00 86 6b c1 69 
433565  -> ff 64 34 67 73 1f 53 39 7F A3 5C A6 CC FA FB C5 B5 49 61 FD
433568  -> ff 64 34 67 73 1f 53 39 7F A3 5C A6 C1 03 3A D2 6F A9 65 C8 
4449962 -> ff 64 34 67 73 1f 53 3c db 47 f6 fa e1 e1 93 f3 14 5f 47 59
522204  -> ff 64 34 67 73 1f 55 7f 1e e5 e8 fe 51 e0 6a 7b 89 e2 b5 80
530521  -> ff 64 34 67 73 1f 55 7e bb 47 63 ec 90 89 af 4d 79 67 ef 94
562038  -> ff 64 34 67 73 1f 55 73 8f 33 40 09 b7 b6 80 32 37 8f ab 3d 
600601  -> ff 64 34 67 73 1f 5e bf 61 1b b1 73 39 85 89 4b 1d e5 77 ba
6204100 -> ff 64 34 67 73 1f 5e b1 c4 e4 38 b4 b9 a4 57 cd d5 93 98 95
664545  -> ff 64 34 67 73 1f 5e b5 ff 44 bf 4a 73 5a e1 80 8a 09 79 d4
706093  -> ff 64 34 67 73 1f 5d b1 3b bb 7a ad 58 cf d0 a2 39 13 62 c4
9451    -> ff 64 34 67 73 1f 20 41 46 54 9f 5e 67 0a a5 f4
9477    -> ff 64 34 67 73 1f 20 41 46 3f 45 ef 6e c0 8f 79
948     -> ff 64 34 67 73 1f 20 41 7d cd 1f d9 6d 2e da 6e
990532  -> ff 64 34 67 73 1f 20 74 40 c5 85 9f 97 0d 82 de 41 0b f0 10

What I found out so far: FF 64 34 67 73 1F is always there, so it's probably just padding The same set of ciphers seems to always encode the same way, so DES, AES, SHA seems to be out of the question. Zero is weird. Everything that starts with zero encodes just as if it would start with the next cipher. For example 010147 (omitting the FF 64 34 67 73 1F) encodes as 45 D8 8B ... and 100333 encodes as 45 D8 8B ... Is Lucifer a possibility? Any other Ideas?

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Do you have any decrypted data that would help you work this question out? Your encrypted data items are always 16 bytes long, which may be relevant too. –  Pete855217 Nov 19 '12 at 8:56
    
@Pete855217 - decrypted data are the numbers on the left (before the -> sign). It's basically sets of 4 - 7 numbers. The corresponding encrypted data are the numbers after the -> sign. Encrypted data is not always 16 byte long. 4,5 and (6 cipher strings that start with 0) encode to 16 bytes and other 6 and 7 cipher strings encode to 20 bytes. So it looks like 4 byte blocks. –  Bogus Hocus Nov 19 '12 at 9:56
    
This looks like a really poor encryption algorithm (like a home brew one). A strong encryption algorithm would return more or less random data. But in your samples, the more digits two numbers have in common (on the left side), the more bytes are the same in the encrypted data. This would also indicate that the numbers are encrypted digit by digit and not as a binary number. –  Codo Nov 19 '12 at 10:30
    
@Codo, - I agree with you. It looks trivial, however, just can't seem to figure it out. The first 7 Hex numbers (omitting the FF6434677314) seem to be the same for close numbers, however the other 7 seem to change radically. For example 313158 encodes to 76 78 bd 92 e1 74 26 1c 3c e3 1f db 74 31 , while 313159 encodes to 76 78 bd 92 e1 74 26 5b 0a fa 20 5c 86 a7. so the first 7 bytes are the same. but the next 7 are completely different. –  Bogus Hocus Nov 19 '12 at 10:45
    
Hi, have you ever solved this problem? –  Balázs Pozsár Apr 11 at 16:00
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