On 27.02.2020 10:33, Dave Chinner wrote: > On Wed, Feb 26, 2020 at 11:05:23PM +0300, Kirill Tkhai wrote: >> On 26.02.2020 18:55, Christoph Hellwig wrote: >>> On Wed, Feb 26, 2020 at 04:41:16PM +0300, Kirill Tkhai wrote: >>>> This adds a support of physical hint for fallocate2() syscall. >>>> In case of @physical argument is set for ext4_fallocate(), >>>> we try to allocate blocks only from [@phisical, @physical + len] >>>> range, while other blocks are not used. >>> >>> Sorry, but this is a complete bullshit interface. Userspace has >>> absolutely no business even thinking of physical placement. If you >>> want to align allocations to physical block granularity boundaries >>> that is the file systems job, not the applications job. >> >> Why? There are two contradictory actions that filesystem can't do at the same time: >> >> 1)place files on a distance from each other to minimize number of extents >> on possible future growth; > > Speculative EOF preallocation at delayed allocation reservation time > provides this. > >> 2)place small files in the same big block of block device. > > Delayed allocation during writeback packs files smaller than the > stripe unit of the filesystem tightly. > > So, yes, we do both of these things at the same time in XFS, and > have for the past 10 years. > >> At initial allocation time you never know, which file will stop grow in some future, >> i.e. which file is suitable for compaction. This knowledge becomes available some time later. >> Say, if a file has not been changed for a month, it is suitable for compaction with >> another files like it. >> >> If at allocation time you can determine a file, which won't grow in the future, don't be afraid, >> and just share your algorithm here. >> >> In Virtuozzo we tried to compact ext4 with existing kernel interface: >> >> https://github.com/dmonakhov/e2fsprogs/blob/e4defrag2/misc/e4defrag2.c >> >> But it does not work well in many situations, and the main problem is blocks allocation >> in desired place is not possible. Block allocator can't behave excellent for everything. >> >> If this interface bad, can you suggest another interface to make block allocator to know >> the behavior expected from him in this specific case? > > Write once, long term data: > > fcntl(fd, F_SET_RW_HINT, RWH_WRITE_LIFE_EXTREME); > > That will allow the the storage stack to group all data with the > same hint together, both in software and in hardware. This is interesting option, but it only applicable before write is made. And it's only applicable on your own applications. My usecase is defragmentation of containers, where any applications may run. Most of applications never care whether long or short-term data they write. Maybe, we can make fallocate() care about F_SET_RW_HINT? Say, if RWH_WRITE_LIFE_EXTREME is set, fallocate() tries to allocate space around another inodes with the same hint. E.g., we have 1Mb discard granuality on block device and two files in different block device clusters: one is 4Kb of length, another's size is 1Mb-4Kb. The biggest file is situated on the start of block device cluster: [ 1Mb cluster0 ][ 1Mb cluster1 ] [****BIG_FILE****|free 4Kb][small_file|free 1Mb-4Kb] defrag util wants to move small file into free space in cluster0. To do that it opens BIG_FILE and sets F_SET_RW_HINT for its inode. Then it opens tmp file, sets the hint and calls fallocate(): fd1 = open("BIG_FILE", O_RDONLY); ioctl(fd1, F_SET_RW_HINT, RWH_WRITE_LIFE_EXTREME); fd2 = open("donor", O_WRONLY|O_TMPFILE|O_CREAT); ioctl(fd2, F_SET_RW_HINT, RWH_WRITE_LIFE_EXTREME); fallocate(fd2, 0, 0, 4Kb); // firstly seeks a space around files with RWH_WRITE_LIFE_EXTREME hint How about this? Kirill