Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I wish to understand the way kernel works when a user/app tries to create a file in a directorty.

The background - We have a java applicaiton which consumes messages over JMS, processes it and then writes the XML to an outbound queue+a local directory. Yesterday we obeserved unsual delays in writing to the directory. On 'ls|wc -l' we found >300,000 files in there. Did a quick strace on the process and found it full of mutex calls (More than 3/4 calls in the strace were mutex).

So i thought that new file creation is taking time becasue the system has to every time check certain things (e.g name of files to make sure that the new file with a specific name can be created) amongst 300,000 files and then create a file.

I cleared the directory and the applicaiton resumed to normal service levels.

My questions

  1. Was my analysis correct (It seems cuz the app started working fine after a clear down)?
  2. More imporatant, how does the kernel work when you try to creat a new file in directory.
  3. Can the abnormal number of mutex calls be attributed to the high number of files in the directory?

Many thanks J

share|improve this question
1  
The kernel doesn't create files. The File System creates files. What does "cuz" mean? Please use English for the non-English readers. –  S.Lott Aug 5 '10 at 11:25

3 Answers 3

up vote 3 down vote accepted

Please read about the Linux Filesystem, i-nodes and d-nodes.

http://en.wikipedia.org/wiki/Inode_pointer_structure

The file system is organized into fixed-sized blocks. If your directory is relatively small, it fits in the direct blocks and things are fast. If your directory is not too big, it fits in the direct blocks and some indirect blocks, and is still reasonably fast. If your directory becomes too big, it spills into double indirect blocks and becomes slow.

Actual sizes depend on file system and kernel configuration.

Rule of thumb is to keep the directory under 12 blocks, depending on your block size. Many systems use 8K blocks; a fast directory is under 98,304 bytes.

A file entry is something like 16*4 bytes in size (IIRC), so plan on no more than 1500 files per directory as a practical upper limit.

share|improve this answer
2  
The mutux lock you see in the kernel is because when it creates a new file it needs to check to see if it's writing over an existing file or not. For this to be safe nothing else can be changing the contents of the directory while it checks. If several processes are creating files in the same directory and the directory is sufficiently large all the create operations will become serialised, potentially very slow if the whole directory isn't held in memory. See the logic in do_last in fs/namei.c in the kernel source. –  stsquad Aug 5 '10 at 13:32
    
@S Lott - Thanks for the link and information. I think i have more clear picture of the way it works (I hope) @stsquad - That pretty much explains why I was getting such a high number of mutex calls in my strace - Thanks mate. –  joesatch Aug 5 '10 at 15:38

Directories with large numbers of entries are often slow - how slow depends on the underlying filesystem.

The common solution is to create a hierarchy of directories, so each dir only has a few hundred entries.

share|improve this answer
    
yep - thats one of the solution i could go for. Thnks for you answer. –  joesatch Aug 5 '10 at 15:39

Mutex system calls are a result of the application (probably something in the JVM or the Java libraries) making mutex calls.

Synchronisation internal to the kernel you will not see via strace, as this only examines system calls themselves.

A directory with lots of files should not become inefficient if you are using a filesystem which uses directory indexes; most now do (ext3 does optionally but it's normally enabled nowadays).

Non-indexed directories (like those used on the bad old filesystems - ext2, vfat etc) get really bad with lots of files, and you'll see the "open" system call taking a lot longer.

share|improve this answer

Your Answer

 
discard

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.