Options for performance improvements on very big Filesystems and high IOWAIT












3















I have a Ubuntu 16.04 Backup Server with 8x10TB HDD via a SATA 3.0 Backplane. The 8 Harddisks are assembled to a RAID6, an EXT4 Filesystem is in use. This Filesystem stores a huge amount of small files with very many SEEK operations but low IO throughput. In fact there are many small files from different servers which get snappshotted via rsnapshot every day (multiple INODES direct to the same files. I have a very poor performance since the file system (60TB net) exceeded 50% usage. At the moment, the usage is at 75% and a



du -sch /backup-root/


takes several days(!). The machine has 8 Cores and 16G of RAM. The RAM is totally utilized by the OS Filesystem Cache, 7 of 8 cores always idle because of IOWAIT.



Filesystem volume name:   <none>
Last mounted on: /
Filesystem UUID: 5af205b0-d622-41dd-990e-b4d660c12bd9
Filesystem magic number: 0xEF53
Filesystem revision #: 1 (dynamic)
Filesystem features: has_journal ext_attr dir_index filetype needs_recovery extent 64bit flex_bg sparse_super large_file huge_file uninit_bg dir_nlink extra_isize
Filesystem flags: signed_directory_hash
Default mount options: user_xattr acl
Filesystem state: clean
Errors behavior: Continue
Filesystem OS type: Linux
Inode count: 912203776
Block count: 14595257856
Reserved block count: 0
Free blocks: 4916228709
Free inodes: 793935052
First block: 0
Block size: 4096
Fragment size: 4096
Group descriptor size: 64
Blocks per group: 32768
Fragments per group: 32768
Inodes per group: 2048
Inode blocks per group: 128
RAID stride: 128
RAID stripe width: 768
Flex block group size: 16
Filesystem created: Wed May 31 21:47:22 2017
Last mount time: Sat Apr 14 18:48:25 2018
Last write time: Sat Apr 14 18:48:18 2018
Mount count: 9
Maximum mount count: -1
Last checked: Wed May 31 21:47:22 2017
Check interval: 0 (<none>)
Lifetime writes: 152 TB
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: 513933330
Default directory hash: half_md4
Directory Hash Seed: 5e822939-cb86-40b2-85bf-bf5844f82922
Journal backup: inode blocks
Journal features: journal_incompat_revoke journal_64bit
Journal size: 128M
Journal length: 32768
Journal sequence: 0x00c0b9d5
Journal start: 30179


I'm lacking experience with this kind of filesystem usage. What options do I have to tune this. What filesystem would perform better with this scenario? Are there any options to involve RAM for other caching options than the OS-build-in one?



How do You handle very large amounts of small files on large RAID assemblies?



Thanks,
Sebastian










share|improve this question







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  • Faster disks, preferably SSD. As much RAM as possible for read caching. 16GiB isn't even in the same planet as enough RAM. Get LOTS of it, even 512GiB or more. And of course don't use RAID 6.

    – Michael Hampton
    6 hours ago













  • Thanks for your reply. I'm aware of the SSD option, but this makes the difference between a 7000$ Server or a 70000$ Server for backing up data. The RAM hint is a good one, but I fear that I will only get a virgin-like filesystem performance if I totally avoid DISK IO for SEEK operations which means at 60TB net. capacity a 60TB RAM cache, doesn't it? I avoided other Filesystems than EXT2/3/4 in the past, but now I am totally open for options in this direction, if they will help. :)

    – t2m
    5 hours ago











  • What's your recommendation for a RAID6 replacement at this disk configuration?

    – t2m
    5 hours ago
















3















I have a Ubuntu 16.04 Backup Server with 8x10TB HDD via a SATA 3.0 Backplane. The 8 Harddisks are assembled to a RAID6, an EXT4 Filesystem is in use. This Filesystem stores a huge amount of small files with very many SEEK operations but low IO throughput. In fact there are many small files from different servers which get snappshotted via rsnapshot every day (multiple INODES direct to the same files. I have a very poor performance since the file system (60TB net) exceeded 50% usage. At the moment, the usage is at 75% and a



du -sch /backup-root/


takes several days(!). The machine has 8 Cores and 16G of RAM. The RAM is totally utilized by the OS Filesystem Cache, 7 of 8 cores always idle because of IOWAIT.



Filesystem volume name:   <none>
Last mounted on: /
Filesystem UUID: 5af205b0-d622-41dd-990e-b4d660c12bd9
Filesystem magic number: 0xEF53
Filesystem revision #: 1 (dynamic)
Filesystem features: has_journal ext_attr dir_index filetype needs_recovery extent 64bit flex_bg sparse_super large_file huge_file uninit_bg dir_nlink extra_isize
Filesystem flags: signed_directory_hash
Default mount options: user_xattr acl
Filesystem state: clean
Errors behavior: Continue
Filesystem OS type: Linux
Inode count: 912203776
Block count: 14595257856
Reserved block count: 0
Free blocks: 4916228709
Free inodes: 793935052
First block: 0
Block size: 4096
Fragment size: 4096
Group descriptor size: 64
Blocks per group: 32768
Fragments per group: 32768
Inodes per group: 2048
Inode blocks per group: 128
RAID stride: 128
RAID stripe width: 768
Flex block group size: 16
Filesystem created: Wed May 31 21:47:22 2017
Last mount time: Sat Apr 14 18:48:25 2018
Last write time: Sat Apr 14 18:48:18 2018
Mount count: 9
Maximum mount count: -1
Last checked: Wed May 31 21:47:22 2017
Check interval: 0 (<none>)
Lifetime writes: 152 TB
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: 513933330
Default directory hash: half_md4
Directory Hash Seed: 5e822939-cb86-40b2-85bf-bf5844f82922
Journal backup: inode blocks
Journal features: journal_incompat_revoke journal_64bit
Journal size: 128M
Journal length: 32768
Journal sequence: 0x00c0b9d5
Journal start: 30179


I'm lacking experience with this kind of filesystem usage. What options do I have to tune this. What filesystem would perform better with this scenario? Are there any options to involve RAM for other caching options than the OS-build-in one?



How do You handle very large amounts of small files on large RAID assemblies?



Thanks,
Sebastian










share|improve this question







New contributor




t2m is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.





















  • Faster disks, preferably SSD. As much RAM as possible for read caching. 16GiB isn't even in the same planet as enough RAM. Get LOTS of it, even 512GiB or more. And of course don't use RAID 6.

    – Michael Hampton
    6 hours ago













  • Thanks for your reply. I'm aware of the SSD option, but this makes the difference between a 7000$ Server or a 70000$ Server for backing up data. The RAM hint is a good one, but I fear that I will only get a virgin-like filesystem performance if I totally avoid DISK IO for SEEK operations which means at 60TB net. capacity a 60TB RAM cache, doesn't it? I avoided other Filesystems than EXT2/3/4 in the past, but now I am totally open for options in this direction, if they will help. :)

    – t2m
    5 hours ago











  • What's your recommendation for a RAID6 replacement at this disk configuration?

    – t2m
    5 hours ago














3












3








3








I have a Ubuntu 16.04 Backup Server with 8x10TB HDD via a SATA 3.0 Backplane. The 8 Harddisks are assembled to a RAID6, an EXT4 Filesystem is in use. This Filesystem stores a huge amount of small files with very many SEEK operations but low IO throughput. In fact there are many small files from different servers which get snappshotted via rsnapshot every day (multiple INODES direct to the same files. I have a very poor performance since the file system (60TB net) exceeded 50% usage. At the moment, the usage is at 75% and a



du -sch /backup-root/


takes several days(!). The machine has 8 Cores and 16G of RAM. The RAM is totally utilized by the OS Filesystem Cache, 7 of 8 cores always idle because of IOWAIT.



Filesystem volume name:   <none>
Last mounted on: /
Filesystem UUID: 5af205b0-d622-41dd-990e-b4d660c12bd9
Filesystem magic number: 0xEF53
Filesystem revision #: 1 (dynamic)
Filesystem features: has_journal ext_attr dir_index filetype needs_recovery extent 64bit flex_bg sparse_super large_file huge_file uninit_bg dir_nlink extra_isize
Filesystem flags: signed_directory_hash
Default mount options: user_xattr acl
Filesystem state: clean
Errors behavior: Continue
Filesystem OS type: Linux
Inode count: 912203776
Block count: 14595257856
Reserved block count: 0
Free blocks: 4916228709
Free inodes: 793935052
First block: 0
Block size: 4096
Fragment size: 4096
Group descriptor size: 64
Blocks per group: 32768
Fragments per group: 32768
Inodes per group: 2048
Inode blocks per group: 128
RAID stride: 128
RAID stripe width: 768
Flex block group size: 16
Filesystem created: Wed May 31 21:47:22 2017
Last mount time: Sat Apr 14 18:48:25 2018
Last write time: Sat Apr 14 18:48:18 2018
Mount count: 9
Maximum mount count: -1
Last checked: Wed May 31 21:47:22 2017
Check interval: 0 (<none>)
Lifetime writes: 152 TB
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: 513933330
Default directory hash: half_md4
Directory Hash Seed: 5e822939-cb86-40b2-85bf-bf5844f82922
Journal backup: inode blocks
Journal features: journal_incompat_revoke journal_64bit
Journal size: 128M
Journal length: 32768
Journal sequence: 0x00c0b9d5
Journal start: 30179


I'm lacking experience with this kind of filesystem usage. What options do I have to tune this. What filesystem would perform better with this scenario? Are there any options to involve RAM for other caching options than the OS-build-in one?



How do You handle very large amounts of small files on large RAID assemblies?



Thanks,
Sebastian










share|improve this question







New contributor




t2m is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.












I have a Ubuntu 16.04 Backup Server with 8x10TB HDD via a SATA 3.0 Backplane. The 8 Harddisks are assembled to a RAID6, an EXT4 Filesystem is in use. This Filesystem stores a huge amount of small files with very many SEEK operations but low IO throughput. In fact there are many small files from different servers which get snappshotted via rsnapshot every day (multiple INODES direct to the same files. I have a very poor performance since the file system (60TB net) exceeded 50% usage. At the moment, the usage is at 75% and a



du -sch /backup-root/


takes several days(!). The machine has 8 Cores and 16G of RAM. The RAM is totally utilized by the OS Filesystem Cache, 7 of 8 cores always idle because of IOWAIT.



Filesystem volume name:   <none>
Last mounted on: /
Filesystem UUID: 5af205b0-d622-41dd-990e-b4d660c12bd9
Filesystem magic number: 0xEF53
Filesystem revision #: 1 (dynamic)
Filesystem features: has_journal ext_attr dir_index filetype needs_recovery extent 64bit flex_bg sparse_super large_file huge_file uninit_bg dir_nlink extra_isize
Filesystem flags: signed_directory_hash
Default mount options: user_xattr acl
Filesystem state: clean
Errors behavior: Continue
Filesystem OS type: Linux
Inode count: 912203776
Block count: 14595257856
Reserved block count: 0
Free blocks: 4916228709
Free inodes: 793935052
First block: 0
Block size: 4096
Fragment size: 4096
Group descriptor size: 64
Blocks per group: 32768
Fragments per group: 32768
Inodes per group: 2048
Inode blocks per group: 128
RAID stride: 128
RAID stripe width: 768
Flex block group size: 16
Filesystem created: Wed May 31 21:47:22 2017
Last mount time: Sat Apr 14 18:48:25 2018
Last write time: Sat Apr 14 18:48:18 2018
Mount count: 9
Maximum mount count: -1
Last checked: Wed May 31 21:47:22 2017
Check interval: 0 (<none>)
Lifetime writes: 152 TB
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: 513933330
Default directory hash: half_md4
Directory Hash Seed: 5e822939-cb86-40b2-85bf-bf5844f82922
Journal backup: inode blocks
Journal features: journal_incompat_revoke journal_64bit
Journal size: 128M
Journal length: 32768
Journal sequence: 0x00c0b9d5
Journal start: 30179


I'm lacking experience with this kind of filesystem usage. What options do I have to tune this. What filesystem would perform better with this scenario? Are there any options to involve RAM for other caching options than the OS-build-in one?



How do You handle very large amounts of small files on large RAID assemblies?



Thanks,
Sebastian







ubuntu-16.04 ext4 performance-tuning






share|improve this question







New contributor




t2m is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
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share|improve this question







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Check out our Code of Conduct.









share|improve this question




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asked 6 hours ago









t2mt2m

161




161




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New contributor





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Check out our Code of Conduct.






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Check out our Code of Conduct.













  • Faster disks, preferably SSD. As much RAM as possible for read caching. 16GiB isn't even in the same planet as enough RAM. Get LOTS of it, even 512GiB or more. And of course don't use RAID 6.

    – Michael Hampton
    6 hours ago













  • Thanks for your reply. I'm aware of the SSD option, but this makes the difference between a 7000$ Server or a 70000$ Server for backing up data. The RAM hint is a good one, but I fear that I will only get a virgin-like filesystem performance if I totally avoid DISK IO for SEEK operations which means at 60TB net. capacity a 60TB RAM cache, doesn't it? I avoided other Filesystems than EXT2/3/4 in the past, but now I am totally open for options in this direction, if they will help. :)

    – t2m
    5 hours ago











  • What's your recommendation for a RAID6 replacement at this disk configuration?

    – t2m
    5 hours ago



















  • Faster disks, preferably SSD. As much RAM as possible for read caching. 16GiB isn't even in the same planet as enough RAM. Get LOTS of it, even 512GiB or more. And of course don't use RAID 6.

    – Michael Hampton
    6 hours ago













  • Thanks for your reply. I'm aware of the SSD option, but this makes the difference between a 7000$ Server or a 70000$ Server for backing up data. The RAM hint is a good one, but I fear that I will only get a virgin-like filesystem performance if I totally avoid DISK IO for SEEK operations which means at 60TB net. capacity a 60TB RAM cache, doesn't it? I avoided other Filesystems than EXT2/3/4 in the past, but now I am totally open for options in this direction, if they will help. :)

    – t2m
    5 hours ago











  • What's your recommendation for a RAID6 replacement at this disk configuration?

    – t2m
    5 hours ago

















Faster disks, preferably SSD. As much RAM as possible for read caching. 16GiB isn't even in the same planet as enough RAM. Get LOTS of it, even 512GiB or more. And of course don't use RAID 6.

– Michael Hampton
6 hours ago







Faster disks, preferably SSD. As much RAM as possible for read caching. 16GiB isn't even in the same planet as enough RAM. Get LOTS of it, even 512GiB or more. And of course don't use RAID 6.

– Michael Hampton
6 hours ago















Thanks for your reply. I'm aware of the SSD option, but this makes the difference between a 7000$ Server or a 70000$ Server for backing up data. The RAM hint is a good one, but I fear that I will only get a virgin-like filesystem performance if I totally avoid DISK IO for SEEK operations which means at 60TB net. capacity a 60TB RAM cache, doesn't it? I avoided other Filesystems than EXT2/3/4 in the past, but now I am totally open for options in this direction, if they will help. :)

– t2m
5 hours ago





Thanks for your reply. I'm aware of the SSD option, but this makes the difference between a 7000$ Server or a 70000$ Server for backing up data. The RAM hint is a good one, but I fear that I will only get a virgin-like filesystem performance if I totally avoid DISK IO for SEEK operations which means at 60TB net. capacity a 60TB RAM cache, doesn't it? I avoided other Filesystems than EXT2/3/4 in the past, but now I am totally open for options in this direction, if they will help. :)

– t2m
5 hours ago













What's your recommendation for a RAID6 replacement at this disk configuration?

– t2m
5 hours ago





What's your recommendation for a RAID6 replacement at this disk configuration?

– t2m
5 hours ago










2 Answers
2






active

oldest

votes


















2














I have a similar (albeit smaller) setup, with 12x 2TB disks in a RAID6 array, used for the very same purpose (rsnapshot backup server).



First, it is perfectly normal for du -hs to take so much time on such a large, and used, filesystem. This is especially true due to the -h option, which cause considerable and bursty CPU load in addition to the obvious IO load.



Your slowness is due to the filesystem metadata being located in very distant (in LBA terms) blocks, causing many seeks. As a normal 7.2K RPM disks provide about ~100 IOPS, you can see how hours, if not days, are needed to load all metadata.



Something you can try to (non-destructively) ameliorate the situation:




  • be sure to not having mlocate/slocate indexing your /backup-root/ (you can use the prunefs facility to avoid that), or metadata cache trashing will severly impair your backup time;

  • for the same reason, avoid running du on /backup-root/. If needed, your du only on the specific subfolder interested;

  • lower vfs_cache_pressure from the default value (100) to a more conservative one (10 or 20). This will instruct the kernel to prefer metadata caching, rather than data caching; this should, in turn, speed up the rsnapshot/rsync discovery phase;

  • you can try adding a writethrough metadata caching device, for example via lvmcache or bcache. This metadata device should obviously be an SSD;

  • increase your available RAM.

  • as you are using ext4, be aware of inode allocation issues (read here for an example). This is not directly correlated to performance, but it is an important factor when having so many files on an ext-based filesystem.


Other things you can try - but there are destructive operations:




  • use XFS with both -ftype and finobt option set;

  • use ZFS on Linux (ZoL) with compressed ARC and primarycache=metadata setting (and, maybe, an L2ARC for read-only cache).






share|improve this answer
























  • Thank you very much for this reply. As you've might have expected, I've got something to read now. The vfs_cache_pressure option is very interesting. I've played around with the caches for some minutes now and I think, the System became a bit more responsive (directory listings, autocomplete, etc..). I'll check the other points as well and give a feedback. Thanks again.

    – t2m
    4 hours ago



















1














RAID6 does not help you much in this case, something like ZFS might enable much faster metadata and directory access while keeping speeds about the same.






share|improve this answer























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    2 Answers
    2






    active

    oldest

    votes








    2 Answers
    2






    active

    oldest

    votes









    active

    oldest

    votes






    active

    oldest

    votes









    2














    I have a similar (albeit smaller) setup, with 12x 2TB disks in a RAID6 array, used for the very same purpose (rsnapshot backup server).



    First, it is perfectly normal for du -hs to take so much time on such a large, and used, filesystem. This is especially true due to the -h option, which cause considerable and bursty CPU load in addition to the obvious IO load.



    Your slowness is due to the filesystem metadata being located in very distant (in LBA terms) blocks, causing many seeks. As a normal 7.2K RPM disks provide about ~100 IOPS, you can see how hours, if not days, are needed to load all metadata.



    Something you can try to (non-destructively) ameliorate the situation:




    • be sure to not having mlocate/slocate indexing your /backup-root/ (you can use the prunefs facility to avoid that), or metadata cache trashing will severly impair your backup time;

    • for the same reason, avoid running du on /backup-root/. If needed, your du only on the specific subfolder interested;

    • lower vfs_cache_pressure from the default value (100) to a more conservative one (10 or 20). This will instruct the kernel to prefer metadata caching, rather than data caching; this should, in turn, speed up the rsnapshot/rsync discovery phase;

    • you can try adding a writethrough metadata caching device, for example via lvmcache or bcache. This metadata device should obviously be an SSD;

    • increase your available RAM.

    • as you are using ext4, be aware of inode allocation issues (read here for an example). This is not directly correlated to performance, but it is an important factor when having so many files on an ext-based filesystem.


    Other things you can try - but there are destructive operations:




    • use XFS with both -ftype and finobt option set;

    • use ZFS on Linux (ZoL) with compressed ARC and primarycache=metadata setting (and, maybe, an L2ARC for read-only cache).






    share|improve this answer
























    • Thank you very much for this reply. As you've might have expected, I've got something to read now. The vfs_cache_pressure option is very interesting. I've played around with the caches for some minutes now and I think, the System became a bit more responsive (directory listings, autocomplete, etc..). I'll check the other points as well and give a feedback. Thanks again.

      – t2m
      4 hours ago
















    2














    I have a similar (albeit smaller) setup, with 12x 2TB disks in a RAID6 array, used for the very same purpose (rsnapshot backup server).



    First, it is perfectly normal for du -hs to take so much time on such a large, and used, filesystem. This is especially true due to the -h option, which cause considerable and bursty CPU load in addition to the obvious IO load.



    Your slowness is due to the filesystem metadata being located in very distant (in LBA terms) blocks, causing many seeks. As a normal 7.2K RPM disks provide about ~100 IOPS, you can see how hours, if not days, are needed to load all metadata.



    Something you can try to (non-destructively) ameliorate the situation:




    • be sure to not having mlocate/slocate indexing your /backup-root/ (you can use the prunefs facility to avoid that), or metadata cache trashing will severly impair your backup time;

    • for the same reason, avoid running du on /backup-root/. If needed, your du only on the specific subfolder interested;

    • lower vfs_cache_pressure from the default value (100) to a more conservative one (10 or 20). This will instruct the kernel to prefer metadata caching, rather than data caching; this should, in turn, speed up the rsnapshot/rsync discovery phase;

    • you can try adding a writethrough metadata caching device, for example via lvmcache or bcache. This metadata device should obviously be an SSD;

    • increase your available RAM.

    • as you are using ext4, be aware of inode allocation issues (read here for an example). This is not directly correlated to performance, but it is an important factor when having so many files on an ext-based filesystem.


    Other things you can try - but there are destructive operations:




    • use XFS with both -ftype and finobt option set;

    • use ZFS on Linux (ZoL) with compressed ARC and primarycache=metadata setting (and, maybe, an L2ARC for read-only cache).






    share|improve this answer
























    • Thank you very much for this reply. As you've might have expected, I've got something to read now. The vfs_cache_pressure option is very interesting. I've played around with the caches for some minutes now and I think, the System became a bit more responsive (directory listings, autocomplete, etc..). I'll check the other points as well and give a feedback. Thanks again.

      – t2m
      4 hours ago














    2












    2








    2







    I have a similar (albeit smaller) setup, with 12x 2TB disks in a RAID6 array, used for the very same purpose (rsnapshot backup server).



    First, it is perfectly normal for du -hs to take so much time on such a large, and used, filesystem. This is especially true due to the -h option, which cause considerable and bursty CPU load in addition to the obvious IO load.



    Your slowness is due to the filesystem metadata being located in very distant (in LBA terms) blocks, causing many seeks. As a normal 7.2K RPM disks provide about ~100 IOPS, you can see how hours, if not days, are needed to load all metadata.



    Something you can try to (non-destructively) ameliorate the situation:




    • be sure to not having mlocate/slocate indexing your /backup-root/ (you can use the prunefs facility to avoid that), or metadata cache trashing will severly impair your backup time;

    • for the same reason, avoid running du on /backup-root/. If needed, your du only on the specific subfolder interested;

    • lower vfs_cache_pressure from the default value (100) to a more conservative one (10 or 20). This will instruct the kernel to prefer metadata caching, rather than data caching; this should, in turn, speed up the rsnapshot/rsync discovery phase;

    • you can try adding a writethrough metadata caching device, for example via lvmcache or bcache. This metadata device should obviously be an SSD;

    • increase your available RAM.

    • as you are using ext4, be aware of inode allocation issues (read here for an example). This is not directly correlated to performance, but it is an important factor when having so many files on an ext-based filesystem.


    Other things you can try - but there are destructive operations:




    • use XFS with both -ftype and finobt option set;

    • use ZFS on Linux (ZoL) with compressed ARC and primarycache=metadata setting (and, maybe, an L2ARC for read-only cache).






    share|improve this answer













    I have a similar (albeit smaller) setup, with 12x 2TB disks in a RAID6 array, used for the very same purpose (rsnapshot backup server).



    First, it is perfectly normal for du -hs to take so much time on such a large, and used, filesystem. This is especially true due to the -h option, which cause considerable and bursty CPU load in addition to the obvious IO load.



    Your slowness is due to the filesystem metadata being located in very distant (in LBA terms) blocks, causing many seeks. As a normal 7.2K RPM disks provide about ~100 IOPS, you can see how hours, if not days, are needed to load all metadata.



    Something you can try to (non-destructively) ameliorate the situation:




    • be sure to not having mlocate/slocate indexing your /backup-root/ (you can use the prunefs facility to avoid that), or metadata cache trashing will severly impair your backup time;

    • for the same reason, avoid running du on /backup-root/. If needed, your du only on the specific subfolder interested;

    • lower vfs_cache_pressure from the default value (100) to a more conservative one (10 or 20). This will instruct the kernel to prefer metadata caching, rather than data caching; this should, in turn, speed up the rsnapshot/rsync discovery phase;

    • you can try adding a writethrough metadata caching device, for example via lvmcache or bcache. This metadata device should obviously be an SSD;

    • increase your available RAM.

    • as you are using ext4, be aware of inode allocation issues (read here for an example). This is not directly correlated to performance, but it is an important factor when having so many files on an ext-based filesystem.


    Other things you can try - but there are destructive operations:




    • use XFS with both -ftype and finobt option set;

    • use ZFS on Linux (ZoL) with compressed ARC and primarycache=metadata setting (and, maybe, an L2ARC for read-only cache).







    share|improve this answer












    share|improve this answer



    share|improve this answer










    answered 5 hours ago









    shodanshokshodanshok

    25.3k34084




    25.3k34084













    • Thank you very much for this reply. As you've might have expected, I've got something to read now. The vfs_cache_pressure option is very interesting. I've played around with the caches for some minutes now and I think, the System became a bit more responsive (directory listings, autocomplete, etc..). I'll check the other points as well and give a feedback. Thanks again.

      – t2m
      4 hours ago



















    • Thank you very much for this reply. As you've might have expected, I've got something to read now. The vfs_cache_pressure option is very interesting. I've played around with the caches for some minutes now and I think, the System became a bit more responsive (directory listings, autocomplete, etc..). I'll check the other points as well and give a feedback. Thanks again.

      – t2m
      4 hours ago

















    Thank you very much for this reply. As you've might have expected, I've got something to read now. The vfs_cache_pressure option is very interesting. I've played around with the caches for some minutes now and I think, the System became a bit more responsive (directory listings, autocomplete, etc..). I'll check the other points as well and give a feedback. Thanks again.

    – t2m
    4 hours ago





    Thank you very much for this reply. As you've might have expected, I've got something to read now. The vfs_cache_pressure option is very interesting. I've played around with the caches for some minutes now and I think, the System became a bit more responsive (directory listings, autocomplete, etc..). I'll check the other points as well and give a feedback. Thanks again.

    – t2m
    4 hours ago













    1














    RAID6 does not help you much in this case, something like ZFS might enable much faster metadata and directory access while keeping speeds about the same.






    share|improve this answer




























      1














      RAID6 does not help you much in this case, something like ZFS might enable much faster metadata and directory access while keeping speeds about the same.






      share|improve this answer


























        1












        1








        1







        RAID6 does not help you much in this case, something like ZFS might enable much faster metadata and directory access while keeping speeds about the same.






        share|improve this answer













        RAID6 does not help you much in this case, something like ZFS might enable much faster metadata and directory access while keeping speeds about the same.







        share|improve this answer












        share|improve this answer



        share|improve this answer










        answered 1 hour ago









        John KeatesJohn Keates

        63349




        63349






















            t2m is a new contributor. Be nice, and check out our Code of Conduct.










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            t2m is a new contributor. Be nice, and check out our Code of Conduct.
















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