Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

We have a MySQL table with about 3.5 million IP entries.

The structure:

  `uid` int(11) NOT NULL auto_increment,
  `pid` int(11) NOT NULL,
  `startipnum` int(12) unsigned NOT NULL,
  `endipnum` int(12) unsigned NOT NULL,
  `locid` int(11) NOT NULL,
  PRIMARY KEY  (`uid`),
  KEY `startipnum` (`startipnum`),
  KEY `endipnum` (`endipnum`)

The problem: A query takes more than 3 seconds.

SELECT uid FROM `geoip_blocks` WHERE 1406658569 BETWEEN geoip_blocks.startipnum AND geoip_blocks.endipnum LIMIT 1

- about 3 seconds

SELECT uid FROM `geoip_blocks` WHERE startipnum < 1406658569 and endipnum > 1406658569 limit 1

- no gain, about 3 seconds

How can this be improved?

share|improve this question
up vote 1 down vote accepted

The solution to this is to grab a BTREE/ISAM library and use that (like BerkelyDB). Using ISAM this is a trivial task.

Using ISAM, you would set your start key to the number, do a "Find Next", (to find the block GREATER or equal to your number), and if it wasn't equal, you'd "findPrevious" and check that block. 3-4 disk hits, shazam, done in a blink.

Well, it's A solution.

The problem that is happening here is that SQL, without a "sufficiently smart optimizer", does horrible on this kind of query.

For example, your query:

SELECT uid FROM `geoip_blocks` WHERE startipnum < 1406658569 and endipnum > 1406658569 limit 1

It's going to "look at" ALL of the rows that are "less than" 1406658569. ALL of them, then it's going to scan them looking for ALL of the rows that match the 2nd criteria.

With a 3.5m row table, assuming "average" (i.e. it hits the middle), welcome to a 1.75m row table scan. Even worse, and index table scan. Ideally MySQl will "give up" and "just" table scan, as it's faster.

Clearly, this is not what you want.

@Andomar's solution is basically forcing you to "block" to data space, via the "network" criteria. Effectively breaking your table in to 255 pieces. So, instead of scanning 1.75m rows, you get to scan 6800 rows, a marked improvement at a cost of you breaking your blocks up on the network boundary.

There is nothing wrong with range queries in SQL.

SELECT * FROM table WHERE id between X and Y

is a, typically, fast query, as the optimizer can readily delimit the range of rows using the index.

But, that's not your query, because you are not ranging you main ID in this case (startipnum).

If you "know" that your block sizes are within a certain range (i.e. none of your blocks, EVER, have more than, say, 1000 ips), then you can block your query by adding "WHERE startipnum between {ipnum - 1000} and {ipnum + 1000}". That's not really different than the network blocking that was proposed, but here you don't have to maintain it as much. Of course, you can learn this with:

SELECT max(endipnum - startipnum) FROM table

to get an idea what your largest range is.

Another option, which I've seen, have never used, but is actually, well, perfect for this, is to look at MySql's Spatial Extensions, since that's what this really is.

This is designed more for GIS applications, but you ARE searching for something in ranges, and that's a lot of what GIS apps do. So, that may well be a solution for you as well.

share|improve this answer

Your startip and endip should be a combined index. Mysql can't utilize multiple indexes on the same table in one query.

I'm not sure about the syntax, but something like

KEY (startipnum, endipnum)

share|improve this answer
Unfortunately this does not have an impact. Queries still last a few seconds. – Alex Nov 11 '09 at 12:08
Run an EXPLAIN on the query and give us the result. Make sure your indexes are up to date with an ANALYZE or OPTIMIZE. – jishi Nov 11 '09 at 12:25

It looks like you're trying to find the range that an IP address belongs to. The problem is that MySQL can't make the best use of an index for the BETWEEN operation. Indexes work better with an = operation.

One way you can add an = operation to your query is by adding the network part of the address to the table. For your example:

numeric 1406658569
ip address
class A with 8 bit network part
network part = 83

With an index on (networkpart, startipnum, endipnum, uid) a query like this will become very fast:

SELECT  uid 
FROM    `geoip_blocks` 
WHERE   networkpart = 83
        AND 1406658569 BETWEEN startipnum AND endipnum

In case one geoip block spans multiple network classes, you'd have to split it in one row per network class.

share|improve this answer
I've never had problem with between-operations with a combined index. With your example, it would only use the index for networkpart, meaning it will have to make a table scan on the temporary table either way. That might be a problem since an A-class network is 16 million possible addresses. Even if you only got C-style blocks, that leaves you with atleast 65k rows to scan. – jishi Nov 11 '09 at 15:20
The index I proposed has four columns. My idea was that MySQL can filter on networkpart, then startipnum, and then index scan the rest. An index on (a,b) cannot be used to do the bold part in WHERE a < 1 and 1 < b, because b is independent of a. – Andomar Nov 11 '09 at 15:36
Ah, sorry, missed your index spec. – jishi Nov 11 '09 at 17:59

Based on information from your question I am assuming that what you are doing is an implementation of the GeoIP® product from MaxMind®. I downloaded the free version of the GeoIP® data, loaded it into a MySQL database and did a couple of quick experiments.

With an index on startipnum the query execution time ranged from 0.15 to 0.25 seconds. Creating a composite index on startipnum and endipnum did not change the query performance. This leads me to believe that your performance issues are due to insufficient hardware, improper MySQL tuning, or both. The server I ran my tests on had 8G of RAM which is considerably more than would be needed to get this same performance as the index file was only 28M.

My recommendation is one of the two following options.

  1. Spend some time tuning your MySQL server. The MySQL online documentation would be a reasonable starting point. An internet search will turn up a large volume of books, forums, articles, etc. if the MySQL documentation is not sufficient.
  2. If my assumption is correct that you are using the GeoIP® product, then a second option would be to use the binary file format provided by MaxMind®. The custom file format has been optimized for speed, memory usages, and database size. APIs to access the data are provided for a number of languages.

As an aside, the two queries you presented are not equivalent. The between operator is inclusive. The second query would need to use <= >= operators to be equivalent to the query which used the between operator.

share|improve this answer
How would that improve things? – jishi Nov 11 '09 at 17:58

Maybe you would like to have a look at partitioning the table. This feature has been available since MySQL 5.1 - hence you do not specify which version you are using, this might not work for you if you are stuck with an older version.

As the possible value range for IP addresses is known - at least for IPv4 - you could break down the table into multiple partitions of equal size (or maybe even not equal if your data is not evenly distributed). With that MySQL could very easily skip large parts of the table, speeding up the scan if it is still required.

See MySQL manual on partitioning for the available options and syntax.

share|improve this answer

Thanks for all your comments, I really appreciate it.

For now we ended up using a caching mechanism and we have reduced that expensive queries.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.