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I'm using SQLite 3.7.2 on Windows. My database is used to store log data which gets generated 24/7. The schema is basically:


The log_message.process_id field maps to process.id, thus associating each log message with the process it originates from.

Now, sooner or later the database becomes too large and I'd like to drop the oldest entries (those with the lowest log_message.id values) until the database fell to a given size again (say, 1GB). To do so, I'm currently doing

PRAGMA page_count;
PRAGMA page_size;

after each few log messages to get the size of the database. If it exceeds my limit, I just remove a fraction (right now: 100 messages) of the log messages like this:

DELETE FROM log_message WHERE id IN (SELECT id FROM log_message LIMIT 100);

The latter DELETE statement removes all unreferenced entries from the process table. I repeat this process until the file size is acceptable again.

This suffers from at least two issues:

  1. The approach of removing 100 log messages is quite random; I made that number up based on a few experiments. I'd like to know the number of entries I have to remove in advance.
  2. The repeated VACUUM calls can take up quite some time (the SQLite home page says that VACUUM can take up to half a second per MB on Linux, I guess it's not going to be any faster on Windows).

Does anybody have other suggestions on how to do this?

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I'm not familiar with sqlite, but just a random thought: if vacuum command shrinks the db file, you might want to NOT use it. Just delete some records and let the the new records fill the space. This could be more efficient than shrinking and expanding the file constantly. –  zespri May 13 '11 at 4:21
@zespri: Yes, it's true that re-using the space of deleted entries would be more efficient. However, in my case I really need to make sure that the database file does not exceed a certain limit, so I do want to shrink the database file. –  Frerich Raabe May 13 '11 at 4:58
well you just can make sure that it never grows past the limit, because you clean it before the limit hit. –  zespri May 13 '11 at 5:01

4 Answers 4

up vote 2 down vote accepted

when you have a "right-sized" database then count the number of log_message rows.


Store this number.

When you want shrink the file issue the count command again. Calculate the difference, delete that number of rows from your database, then VACCUM.

This can only be approximate but it will get you to near 1GB pretty quick. If you are still over you can go back to the 100 rows at a time method.

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Or define a target reduction size < 1GB, 900MB, say, and reduce to that, so you're near enough 100% certain you're below the limit. –  Mike Woodhouse May 13 '11 at 9:22
Accepting this since I went for this approach (for quite some time at least, until our requirements changed, ahem). It was too pragmatic to ignore. –  Frerich Raabe Apr 30 '12 at 19:00
CREATE TABLE log_messages (
  integer id primary key, -- no autoincrement here
  datetime event_time,    -- for last id retrieval
  char(248) message       -- fixed field size

Let's assume and integer field is 4 bytes long, a datetime field is also 4 byes long, and each character is one byte long. Then each record is 256 bytes long, and your space limit is 1Kb. 4 records.

Initialize the table with consecutive ids

1 | 2011-05-01 23:00:01 | null
2 | 2011-05-01 23:00:01 | null
3 | 2011-05-01 23:00:01 | null
4 | 2011-05-01 23:00:01 | null

When your program start you run a query like:

SELECT id FROM log_messages ORDER BY event_time DESC LIMIT 1

The result of this query is 4, now you add 1, since the maximum number of records is also 4, 4 + 1 = 1, that's the id of the record you need to update.

UPDATE log_message SET message = "new message", event_time = NOW() WHERE id = 1

For the next record, you simply add 1 to the latest id you have in memory.

Hope you get the idea.

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If you have required rights to FS, the best way, I think, would be to create a new log db and apply rotation of some kind to db files (deleting the oldest).

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Hm, yes - I could create a second database file, inserting all entries from the original databsae (most recent first) until the file size hits a certain threshold. However, this requires additional disk space while the second (smaller) copy is created - and I suspect it may not scale very nicely either. –  Frerich Raabe May 13 '11 at 5:00
No, do it another way. First, define maximum size which all log database files can use. Let it be 10 Mb. Now define number or rotating files, say 2, thus max file size is 10/2 = 5 Mb. Start with first file, fill it until it reaches 5 Mb, rename it ('log' -> 'log1'). Create new 'log'. Then it filled, delete 'log1', and rename current log again. –  Petr Abdulin May 13 '11 at 6:23
Yes, that would be one solution. However, it might require some chagnes in my code which queries the database, since there are suddenly two database files to consider. The number of rotating files would be even larger if I decided not to drop half of the database each time the limit is hit but rather just 10% (in which case I need up to ten database files at a time). –  Frerich Raabe May 13 '11 at 7:54
Changes is required only if you constantly connected to db, otherwise rotating (and file size checking) could be implemented in one single function like CheckSizeAndRotate(log_name, max_rotate, max_size, template_log), which checks current log file size, rotates if necessary, and creates new db (can be implemented by copying some 'template_log' db file). Other code always connects to same file, and knows nothing about files rotation. –  Petr Abdulin May 13 '11 at 8:28

Divide the given maximum file size by the page size (as given by PRAGMA page_size) to get the maximum number of pages which the database may allocate. Set this value using PRAGMA max_page_count.

By doing this, INSERT statements will yield an SQLITE_FULL error whenever the maximum size is hit. Whenever this happens, do your DELETE routine to discard the oldest entries. After doing this, you can issue INSERT again until the database is full again. And so on.

This doesn't trim the database down to a given size, but doing that is quite inefficient anyway. Instead, it's better to impose a maximum size which must not be exceeded and then keep the database file at that size, so that SQlite can re-use the allocated disk space instead of having to grow or shrink the file.

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