Category: Security

Jack Vamvas shows how we can use the default trace with SQL Server to find security-related events:

Question: There were some recent user security changes on a SQL Server login user account. Is there a way to grab this information – via the default trace? I haven’t got a dedicated Extended events monitor set up – so I’m relying on the default trace . Management want to understand the details related to this security change. 
 
Answer: It is possible to report on security changes administered on SQL Server via the default trace. In fact – it’s excellent – except if the default trace configuration is set up to rollover the files.

Read on to see how.

Grant Fritchey is sick of SQL injection:

Instead, let’s talk about some of the common vectors of SQL Injection. Obviously, building and executing strings is the biggest issue. Appropriate use of parameters will do more to the fix the problem than almost any other step. However, it’s also enhanced by bad code on the front-end which doesn’t appropriately clean the data, inappropriate error handling, bad security, bad data isolation, and more.

The keys to the attack are to get back a few bits of information, usually in error messages in the case of a normal attack, or, through the use of the WAITFOR command in a blind attack (for more detail, I’m talking about this stuff at the PASS Summit). Getting error messages with information about the database makes it easier for me to hack your system (if I was evil). Knowing that I have a SQL Injection vector through the WAITFOR command helps me target appropriate systems (if I was evil).

For the most part, SQL injection isn’t a SQL problem—it’s an application problem (save for the case when you generate dynamic SQL and concatenate in input parameters). SQL Server-based solutions will only do a little bit; fixing the app code is the best answer.

Randolph West has some ideas about how to remove some of the pain of changing your hashing algorithm for passwords:

Let’s assume that you have inherited a database which stores passwords in cleartext in a column called Password. This is not a good scenario. For one thing, it is a temptation to access information we wouldn’t normally have access to, by using that person’s credentials. For another, due to a human trait called “using a computer,” people reuse passwords all the time. I do it myself and I’m writing a post about security (out of 1,089 items in my 1Password vault, 82 items contain reused passwords).

Randolph has a few ideas, but there’s one which I put into place a long time ago: automatic migration. A system was MD5 (it was a while ago) and I changed it to a better password-hashing algorithm. If the existing user record had a binary the length of an MD5 hash, I’d perform the lookup (to ensure that this was the correct user) and then re-hash using my new algorithm, which had a longer binary length. Over time, people migrated to the new system without any issue. Eventually, when the set of remaining users was small enough, we took more active measures. It wasn’t quite as good as the ideal of forcing resets on everyone, but that was deemed as going overboard for our user base.