In PHP, I know that
mysql_real_escape is much safer than using
However, I could not find an example of a situation where
addslashes would let an SQL Injection happen.
Can anyone give some examples?
Well, here's the article you want.
Basically, the way the attack works is by getting
The general caveat from the article:
Here is an example of SQL Injection that bypasses both addslashes() and magic_quotes_gpc:
The result is that it will force the database to sleep for 10 seconds, thus delaying the query and the load of the entire page.
There are 2 patches for this vulnerability.
This is another patch that is considered to be weaker. There are cases when this maybe vulnerable to sql injection due to language encoding.
Quote marks are used to encase a variable, sql injection is about breaking out and executing code on the database. If you don't put quotes around a variable that the attacker controls, then the attacker doesn't have to "break out".
You should use parametrized queries with either PDO or ADODB. This is the most fool proof method that I know of.
Chris Shiflett clearly explains with the bellow example, That will of-course work if you try it when using GBK encoding in your database. Even I tried it, this proves, there are chances for sql injection, even though they are very less, but someone with good knowledge and capability can easily inject. Here is an Example...
Although the use of addslashes() or magic_quotes_gpc would normally be considered as somewhat secure, the use of GBK would render them near useless. The following PHP cURL script would be able to make use of the injection, I hope this will help you a bit more to understand:
mysql_real_escape_string() versus Prepared Statements clearly explains mysql_real_escape_string() isn't 100% secure.
using mysql_set_charset('GBK') to replace mysql_query("SET CHARACTER SET 'GBK'"), the mysql_real_escape_string() can be 100% secure.
As an addition for the readers of the answers here: This MySQL bug has already been fixed:)
Also, it is always good practice to use prepared statements. It is the most exploit-free way you can fire queries (and, in several use cases the most performant). And it would have saved you from this flaw.