Posts Tagged ‘CDN’

What is inode and how to find out which directory is eating up all your filesystem inodes on Linux, Increase inode count on a ext3 ext4 and ufs filesystems

Tuesday, August 20th, 2019

what-is-inode-find-out-which-filesystem-or-directory-eating-up-all-your-system-inodes-linux_inode_diagram

If you're a system administrator of multiple Linux servers used for Web serving delivery / Mail server sysadmin, Database admin or any High amount of Drives Data Storage used for backup servers infra, Data Repository administrator such as Linux hosted Samba / CIFS shares, etc. or using some Linux Hosting Provider to host your website or any other UNIX like Infrastructure servers that demands a storage of high number of files under a Directory  you might end up with the common filesystem inode depletion issues ( Maximum Inode number for a filesystem is predefined, limited and depending on the filesystem configured size).

In case a directory stored files end up exceding the amount of possible addressable inodes could prevent any data to be further assiged and stored on the Filesystem.

When a device runs out of inodes, new files cannot be created on the device, even though there may be plenty free space available and the first time it happened to me very long time ago I was completely puzzled how this is possible as I was not aware of Inodes existence  …

Reaching maximum inodes number (e.g. inode depletion), often happens on Busy Mail servers (receivng tons of SPAM email messages) or Content Delivery Network (CDN – Website Image caching servers) which contain many small files on EXT3 or EXT4 Journalled filesystems. File systems (such as Btrfs, JFS or XFS) escape this limitation with extents or dynamic inode allocation, which can 'grow' the file system or increase the number of inodes.

 

Hence ending being out of inodes could cause various oddities on how stored data behaves or communicated to other connected microservices and could lead to random application disruptions and odd results costing you many hours of various debugging to find the root cause of inodes (index nodes) being out of order.

In below article, I will try to give an overall explanation on what is an I-Node on a filesystem, how inodes of FS unit could be seen, how to diagnose a possible inode poblem – e.g.  see the maximum amount of inodes available per filesystem and how to prepare (format) a new filesystem with incrsed set of maximum inodes.

 

What are filesystem i-nodes?

 

This is a data structure in a Unix-style file system that describes a file-system object such as a file or a directory.
The data structure described in the inodes might vary slightly depending on the filesystem but usually on EXT3 / EXT4 Linux filesystems each inode stores the index to block that contains attributes and disk block location(s) of the object's data.
– Yes for those who are not aware on how a filesystem is structured on *nix it does allocate all stored data in logical separeted structures called data blocks. Each file stored on a local filesystem has a file descriptor, there are virtual unit structures file tables and each of the inodes that are a reference number has a own data structure (inode table).

Inodes / "Index" are slightly unusual on file system structure that stored the access information of files as a flat array on the disk, with all the hierarchical directory information living aside from this as explained by Unix creator and pioneer- Dennis Ritchie (passed away few years ago).

what-is-inode-very-simplified-explanation-diagram-data

Simplified explanation on file descriptors, file table and inode, table on a common Linux filesystem

Here is another description on what is I-node, given by Ken Thompson (another Unix pioneer and father of Unix) and Denis Ritchie, described in their paper published in 1978:

"    As mentioned in Section 3.2 above, a directory entry contains only a name for the associated file and a pointer to the file itself. This pointer is an integer called the i-number (for index number) of the file. When the file is accessed, its i-number is used as an index into a system table (the i-list) stored in a known part of the device on which the directory resides. The entry found thereby (the file's i-node) contains the description of the file:…
    — The UNIX Time-Sharing System, The Bell System Technical Journal, 1978  "


 

What is typical content of inode and how I-nodes play with rest of Filesystem units?


The inode is just a reference index to a data block (unit) that contains File-system object attributes. It may include metadata information such as (times of last change, access, modification), as well as owner and permission data.

 

On a Linux / Unix filesystem, directories are lists of names assigned to inodes. A directory contains an entry for itself, its parent, and each of its children.

Structure-of-inode-table-on-Linux-Filesystem-diagram

 

Structure of inode table-on Linux Filesystem diagram (picture source GeeksForGeeks.org)

  • Information about files(data) are sometimes called metadata. So you can even say it in another way, "An inode is metadata of the data."
  •  Inode : Its a complex data-structure that contains all the necessary information to specify a file. It includes the memory layout of the file on disk, file permissions, access time, number of different links to the file etc.
  •  Global File table : It contains information that is global to the kernel e.g. the byte offset in the file where the user's next read/write will start and the access rights allowed to the opening process.
  • Process file descriptor table : maintained by the kernel, that in turn indexes into a system-wide table of files opened by all processes, called the file table .

The inode number indexes a table of inodes in a known location on the device. From the inode number, the kernel's file system driver can access the inode contents, including the location of the file – thus allowing access to the file.

  •     Inodes do not contain its hardlink names, only other file metadata.
  •     Unix directories are lists of association structures, each of which contains one filename and one inode number.
  •     The file system driver must search a directory looking for a particular filename and then convert the filename to the correct corresponding inode number.

The operating system kernel's in-memory representation of this data is called struct inode in Linux. Systems derived from BSD use the term vnode, with the v of vnode referring to the kernel's virtual file system layer.


But enough technical specifics, lets get into some practical experience on managing Filesystem inodes.
 

Listing inodes on a Fileystem


Lets say we wan to to list an inode number reference ID for the Linux kernel (files):

 

root@linux: # ls -i /boot/vmlinuz-*
 3055760 /boot/vmlinuz-3.2.0-4-amd64   26091901 /boot/vmlinuz-4.9.0-7-amd64
 3055719 /boot/vmlinuz-4.19.0-5-amd64  26095807 /boot/vmlinuz-4.9.0-8-amd64


To list an inode of all files in the kernel specific boot directory /boot:

 

root@linux: # ls -id /boot/
26091521 /boot/


Listing inodes for all files stored in a directory is also done by adding the -i ls command flag:

Note the the '-1' flag was added to to show files in 1 column without info for ownership permissions

 

root@linux:/# ls -1i /boot/
26091782 config-3.2.0-4-amd64
 3055716 config-4.19.0-5-amd64
26091900 config-4.9.0-7-amd64
26095806 config-4.9.0-8-amd64
26091525 grub/
 3055848 initrd.img-3.2.0-4-amd64
 3055644 initrd.img-4.19.0-5-amd64
26091902 initrd.img-4.9.0-7-amd64
 3055657 initrd.img-4.9.0-8-amd64
26091756 System.map-3.2.0-4-amd64
 3055703 System.map-4.19.0-5-amd64
26091899 System.map-4.9.0-7-amd64
26095805 System.map-4.9.0-8-amd64
 3055760 vmlinuz-3.2.0-4-amd64
 3055719 vmlinuz-4.19.0-5-amd64
26091901 vmlinuz-4.9.0-7-amd64
26095807 vmlinuz-4.9.0-8-amd64

 

To get more information about Linux directory, file, such as blocks used by file-unit, Last Access, Modify and Change times, current External Symbolic or Static links for filesystem object:
 

root@linux:/ # stat /etc/
  File: /etc/
  Size: 16384         Blocks: 32         IO Block: 4096   catalog
Device: 801h/2049d    Inode: 6365185     Links: 231
Access: (0755/drwxr-xr-x)  Uid: (    0/    root)   Gid: (    0/    root)
Access: 2019-08-20 06:29:39.946498435 +0300
Modify: 2019-08-14 13:53:51.382564330 +0300
Change: 2019-08-14 13:53:51.382564330 +0300
 Birth: –

 

Within a POSIX system (Linux-es) and *BSD are more or less such, a file has the following attributes[9] which may be retrieved by the stat system call:

   – Device ID (this identifies the device containing the file; that is, the scope of uniqueness of the serial number).
    File serial numbers.
    – The file mode which determines the file type and how the file's owner, its group, and others can access the file.
    – A link count telling how many hard links point to the inode.
    – The User ID of the file's owner.
    – The Group ID of the file.
    – The device ID of the file if it is a device file.
    – The size of the file in bytes.
    – Timestamps telling when the inode itself was last modified (ctime, inode change time), the file content last modified (mtime, modification time), and last accessed (atime, access time).
    – The preferred I/O block size.
    – The number of blocks allocated to this file.

 

Getting more extensive information on a mounted filesystem


Most Linuxes have the tune2fs installed by default (in debian Linux this is through e2fsprogs) package, with it one can get a very good indepth information on a mounted filesystem, lets say about the ( / ) root FS.
 

root@linux:~# tune2fs -l /dev/sda1
tune2fs 1.44.5 (15-Dec-2018)
Filesystem volume name:   <none>
Last mounted on:          /
Filesystem UUID:          abe6f5b9-42cb-48b6-ae0a-5dda350bc322
Filesystem magic number:  0xEF53
Filesystem revision #:    1 (dynamic)
Filesystem features:      has_journal ext_attr resize_inode dir_index filetype needs_recovery sparse_super large_file
Filesystem flags:         signed_directory_hash
Default mount options:    (none)
Filesystem state:         clean
Errors behavior:          Continue
Filesystem OS type:       Linux
Inode count:              30162944
Block count:              120648960
Reserved block count:     6032448
Free blocks:              13830683
Free inodes:              26575654
First block:              0
Block size:               4096
Fragment size:            4096
Reserved GDT blocks:      995
Blocks per group:         32768
Fragments per group:      32768
Inodes per group:         8192
Inode blocks per group:   512
Filesystem created:       Thu Sep  6 21:44:22 2012
Last mount time:          Sat Jul 20 11:33:38 2019
Last write time:          Sat Jul 20 11:33:28 2019
Mount count:              6
Maximum mount count:      22
Last checked:             Fri May 10 18:32:27 2019
Check interval:           15552000 (6 months)
Next check after:         Wed Nov  6 17:32:27 2019
Lifetime writes:          338 GB
Reserved blocks uid:      0 (user root)
Reserved blocks gid:      0 (group root)
First inode:              11
Inode size:              256
Required extra isize:     28
Desired extra isize:      28
Journal inode:            8
First orphan inode:       21554129
Default directory hash:   half_md4
Directory Hash Seed:      d54c5a90-bc2d-4e22-8889-568d3fd8d54f
Journal backup:           inode blocks


Important note to make here is file's inode number stays the same when it is moved to another directory on the same device, or when the disk is defragmented which may change its physical location. This also implies that completely conforming inode behavior is impossible to implement with many non-Unix file systems, such as FAT and its descendants, which don't have a way of storing this invariance when both a file's directory entry and its data are moved around. Also one inode could point to a file and a copy of the file or even a file and a symlink could point to the same inode, below is example:

$ ls -l -i /usr/bin/perl*
266327 -rwxr-xr-x 2 root root 10376 Mar 18  2013 /usr/bin/perl
266327 -rwxr-xr-x 2 root root 10376 Mar 18  2013 /usr/bin/perl5.14.2

A good to know is inodes are always unique values, so you can't have the same inode number duplicated. If a directory is damaged, only the names of the things are lost and the inodes become the so called “orphan”, e.g.  inodes without names but luckily this is recoverable. As the theory behind inodes is quite complicated and is complicated to explain here, I warmly recommend you read Ian Dallen's Unix / Linux / Filesystems – directories inodes hardlinks tutorial – which is among the best academic Tutorials explaining various specifics about inodes online.

 

How to Get inodes per mounted filesystem

 

root@linux:/home/hipo# df -i
Filesystem       Inodes  IUsed   IFree IUse% Mounted on

 

dev             2041439     481   2040958   1% /dev
tmpfs            2046359     976   2045383   1% /run
tmpfs            2046359       4   2046355   1% /dev/shm
tmpfs            2046359       6   2046353   1% /run/lock
tmpfs            2046359      17   2046342   1% /sys/fs/cgroup
/dev/sdb5        1221600    2562   1219038   1% /usr/var/lib/mysql
/dev/sdb6        6111232  747460   5363772  13% /var/www/htdocs
/dev/sdc1      122093568 3083005 119010563   3% /mnt/backups
tmpfs            2046359      13   2046346   1% /run/user/1000


As you see in above output Inodes reported for each of mounted filesystems has a specific number. In above output IFree on every mounted FS locally on Physical installed OS Linux is good.


Here is an example on how to recognize a depleted Inodes on a OpenXen Virtual Machine with attached Virtual Hard disks.

linux:~# df -i
Filesystem         Inodes     IUsed      IFree     IUse%   Mounted on
/dev/xvda         2080768    2080768     0      100%    /
tmpfs             92187      3          92184   1%     /lib/init/rw
varrun            92187      38          92149   1%    /var/run
varlock            92187      4          92183   1%    /var/lock
udev              92187     4404        87783   5%    /dev
tmpfs             92187       1         92186   1%    /dev/shm

 

Finding files with a certain inode


At some cases if you want to check all the copy files of a certain file that have the same i-node pointer it is useful to find them all by their shared inode this is possible with simple find (below example is for /usr/bin/perl binary sharing same inode as perl5.28.1:

 

ls -i /usr/bin/perl
23798851 /usr/bin/perl*

 

 find /usr/bin -inum 435308 -print
/usr/bin/perl5.28.1
/usr/bin/perl

 

Find directory that has a large number of files in it?

To get an overall number of inodes allocated by a certain directory, lets say /usr /var

 

root@linux:/var# du -s –inodes /usr /var
566931    /usr
56020    /var/

To get a list of directories use by inode for a directory with its main contained sub-directories sorted from 1 till highest number use:
 

du -s –inodes * 2>/dev/null |sort -g

 

Usually running out of inodes means there is a directory / fs mounts that has too many (small files) that are depleting the max count of possible inodes.

The most simple way to list directories and number of files in them on the server root directory is with a small bash shell loop like so:
 

for i in /*; do echo $i; find $i |wc -l; done


Another way to identify the exact directory that is most likely the bottleneck for the inode depletion in a sorted by file count, human readable form:
 

find / -xdev -printf '%h\n' | sort | uniq -c | sort -k 1 -n


This will dump a list of every directory on the root (/) filesystem prefixed with the number of files (and subdirectories) in that directory. Thus the directory with the largest number of files will be at the bottom.

 

The -xdev switch is used to instruct find to narrow it's search to only the device where you're initiating the search (any other sub-mounted NAS / NFS filesystems from a different device will be omited).

 

Print top 10 subdirectories with Highest Inode Usage

 

Once identifed the largest number of files directories that is perhaps the issue, to further get a list of Top subdirectories in it with highest amount of inodes used, use below cmd:

 

for i in `ls -1A`; do echo "`find $i | sort -u | wc -l` $i"; done | sort -rn | head -10

 

To list more than 10 of the top inodes used dirs change the head -10 to whatever num needed.

N.B. ! Be very cautious when running above 2 find commands on a very large filesystems as it will be I/O Excessive and in filesystems that has some failing blocks this could create further problems.

To omit putting a high I/O load on a production filesystem, it is possible to also use du + very complex regular expression:
 

cd /backup
du –inodes -S | sort -rh | sed -n         '1,50{/^.\{71\}/s/^\(.\{30\}\).*\(.\{37\}\)$/\1…\2/;p}'


Results returned are from top to bottom.

 

How to Increase the amount of Inodes count on a new created volume EXT4 filesystem

Some FS-es XFS, JFS do have an auto-increase inode feature in case if their is physical space, whether otheres such as reiserfs does not have inodes at all but still have a field reported when queried for errors. But the classical Linux ext3 / ext4 does not have a way to increase the inode number on a live filesystem. Instead the way to do it there is to prepare a brand new filesystem on a Disk / NAS / attached storage.

The number of inodes at format-time of the block storage can be as high as 4 billion inodes. Before you create the new FS, you have to partition the new the block storage as ext4 with lets say parted command (or nullify the content of an with dd to clean up any previous existing data on a volume if there was already existing data:
 

parted /dev/sda


dd if=/dev/zero of=/dev/path/to/volume


  then format it with this additional parameter:

 

mkfs.ext4 -N 3000000000 /dev/path/to/volume

 

Here in above example the newly created filesystem of EXT4 type will be created with 3 Billion inodes !, for setting a higher number on older ext3 filesystem max inode count mkfs.ext3 could be used instead.

Bear in mind that 3 Billion number is a too high number and if you plan to have some large number of files / directories / links structures just raise it up to your pre-planning requirements for FS. In most cases it will be rarely anyone that want to have this number higher than 1 or 2 billion of inodes.

On FreeBSD / NetBSD / OpenBSD setting inode maximum number for a UFS / UFS2 (which is current default FreeBSD FS), this could be done via newfs filesystem creation command after the disk has been labeled with disklabel:

 

freebsd# newfs -i 1024 /dev/ada0s1d

 

Increase the Max Count of Inodes for a /tmp filesystem

 

Sometimes on some machines it is necessery to have ability to store very high number of small files (e.g. have a very large number of inodes) on a temporary filesystem kept in memory. For example some web applications served by Web Server Apache + PHP, Nginx + Perl-FastCGI are written in a bad manner so they kept tons of temporary files in /tmp, leading to issues with exceeded amount of inodes.
If that's the case to temporary work around you can increase the count of Inodes for /tmp to a very high number like 2 billions using:

 

mount -o remount,nr_inodes=<bignum> /tmp

To make the change permanent on next boot if needed don't forget to put the nr_inodes=whatever_bignum as a mount option for the temporary fs to /etc/fstab

Eventually, if you face this issues it is best to immediately track which application produced the mess and ask the developer to fix his messed up programs architecture.

 

Conclusion

 

It was explained on the very common issue of having maximum amount of inodes on a filesystem depleted and the unpleasent consequences of inability to create new files on living FS.
Then a general overview was given on what is inode on a Linux / Unix filesystem, what is typical content of inode, how inode addressing is handled on a FS. Further was explained how to get basic information about available inodes on a filesystem, how to get a filename/s based on inode number (with find), the well known way to determine inode number of a directory or file (with ls) and get more extensive information on a FS on inodes with tune2fs.
Also was explained how to identify directories containing multitudes of files in order to determine a sub-directories that is consuming most of the inodes on a filesystem. Finally it was explained very raughly how to prepare an ext4 filesystem from scratch with predefined number to inodes to much higher than the usual defaults by mkfs.ext3 / mkfs.ext4 and *bsds newfs as well as how to raise the number of inodes of /tmp tmpfs temporary RAM filesystem.

How to disable nginx static requests access.log logging

Monday, March 5th, 2012

NGINX logo Static Content Serving Stop logging

One of the companies, where I'm employed runs nginx as a CDN (Content Delivery Network) server.
Actually nginx, today has become like a standard for delivering tremendous amounts of static content to clients.
The nginx, server load has recently increased with the number of requests, we have much more site visitors now.
Just recently I've noticed the log files are growing to enormous sizes and in reality this log files are not used at all.
As I've used disabling of web server logging as a way to improve Apache server performance in past time, I thought of implying the same little "trick" to improve the hardware utilization on the nginx server as well.

To disable logging, I proceeded and edit the /usr/local/nginx/conf/nginx.conf file, commenting inside every occurance of:

access_log /usr/local/nginx/logs/access.log main;

to

#access_log /usr/local/nginx/logs/access.log main;

Next, to load the new nginx.conf settings I did a restart:

nginx:~# killall -9 nginx; sleep 1; /etc/init.d/nginx start

I expected, this should be enough to disable completely access.log, browser request logins. Unfortunately /usr/local/nginx/logs/access.log was still displaying growing with:

nginx:~# tail -f /usr/local/nginx/logs/access.log

After a bit thorough reading of nginx.conf config rules, I've noticed there is a config directive:

access_log off;

Therefore to succesfully disable logging I had to edit config occurance of:

access_log /usr/local/nginx/logs/access.log main

to

After a bit thorough reading of nginx.conf config rules, I've noticed there is a config directive:

access_log off;

Therefore to succesfully disable logging I had to edit config occurance of:

access_log /usr/local/nginx/logs/access.log main

to

access_log /usr/local/nginx/logs/access.log main
access_log off;

Finally to load the new settings, which thanksfully this time worked, I did nginx restart:

nginx:~# killall -9 nginx; sleep 1; /etc/init.d/nginx start

And hooray! Thanks God, now nginx logging is disabled!

As a result, as expected the load avarage on the server reduced a bit 🙂

W3 total Cache a nice wordpress “all in one” wordpress Caching plugin

Friday, September 23rd, 2011

w3 total cache logo wordpress speed up w3tc

In my recent question of looking for best ways to optimize my wordpress blog, as well as other wordpress based websites, I’m managing I’ve come across a great plugin called W3 Total Cache or W3TC as it’s widely known among wordpress geeks.

The full caching wordpress solution in face of W3TC is already actively deployed among many major wordpress powered websites, to name a few:
stevesouders.com, mattcutts.com, mashable.com

I gave a try W3 Total Cache and was amazed about the rich caching functionality it provides. Having the W3TC plugin installed adds a whole menu on the left wordpress admin panel reading Performance , clicking on it shows a menu with thorough choices on numerous things which deal with the running of wordpress on the server.
Here is a screenshot on the menus W3 Total Cache provides:

w3 total cache whole wordpress caching pages and sql solution

The plugin has support for html caching, sql caching, CDN, CSS and Javascript compress & minify etc.
To test the plugin adequately I disabled HyperCache and Db Cache . My observations is that with W3TC wordpress renders php and the overall user experience and download times in wordpress are better. Therefore I’ll probably use only W3 Total Cache as a cacher for wordpress installs.
Besides that I had some issues on some wordpress based websites with the Db Cache SQL caching.
On these websites after enabling Db Cache, suddenly page edditing of the created existing pages started returning empty pages. This could be due to the fact that these wordpress based websites was customly tailered and many code was wiped out, however it could also be a Db Cache bug. So to conclude W3TC is the perfect solution for wordpress caching 😉