- 12 Apr, 2004 40 commits
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Andrew Morton authored
The filempa_nopage() logic will go into a tight loop if do_page_cache_readahead() doesn't actually start I/O against the target page. This can happen if the disk is read-congested, or if the filesystem doesn't want to read that part of the file for some reason. We will accidentally break out of the loop because (ra->mmap_miss > ra->mmap_hit + MMAP_LOTSAMISS) will eventually become true. Fix that up.
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Andrew Morton authored
Remove the hardwired pagefault readaround distance in filemap_nopage() and use the per-file readahead setting. The main reason for this is in fact laptop-mode. If you want to prevent the disk from spinning up then you want all of your application's pages to be pulled into memory in one hit. Otherwise the disk will spin up each time you use a new part of whatever application(s) you are running.
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Andrew Morton authored
From: Bart Samwel <bart@samwel.tk> Add support for the value "0" to ext3's "commit" option. When this value is given, ext3 substitutes it by the default commit interval. Introduce a constant JBD_DEFAULT_MAX_COMMIT_AGE for this.
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Andrew Morton authored
From: Bart Samwel <bart@samwel.tk> Adds /proc/sys/vm/laptop-mode: a special knob which says "this is a laptop". In this mode the kernel will attempt to avoid spinning disks up. Algorithm: the idea is to hold dirty data in memory for a long time, but to flush everything which has been accumulated if the disk happens to spin up for other reasons. - Whenever a disk request completes (read or write), schedule a timer a few seconds hence. If the timer was already pending, reset it to a few seconds hence. - When the timer expires, write back the whole world. We use sync_filesystems() for this because it will force ext3 journal commits as well. - In balance_dirty_pages(), kick off background writeback when we hit the high threshold (dirty_ratio), not when we hit the low threshold. This has the effect of causing "lumpy" writeback which is something I spent a year fixing, but in laptop mode, it is desirable. - In try_to_free_pages(), only kick pdflush if the VM is getting into distress: we want to keep scanning for clean pages, deferring writeback. - In page reclaim, avoid writing back the odd random dirty page off the LRU: only start I/O if the scanning is working harder. The effect is to perform a sync() a few seconds after all I/O has ceased. The value which was written into /proc/sys/vm/laptop-mode determines, in seconds, the delay between the final I/O and the flush. Additionally, the patch adds tools which help answer the question "why the heck does my disk spin up all the time?". The user may set /proc/sys/vm/block_dump to a non-zero value and the kernel will print out information which will identify the process which is performing disk reads or which is dirtying pagecache. The user should probably disable syslogd before setting block-dump.
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Andrew Morton authored
This is always equal to constant zero.
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Andrew Morton authored
From: Hugh Dickins <hugh@veritas.com> rmap's try_to_unmap_one comments on find_vma failure, that a page may temporarily be absent from a vma during mremap: no longer, though it is still possible for this find_vma to fail, while unmap_vmas drops page_table_lock (but that is no problem for file truncation).
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Andrew Morton authored
From: Hugh Dickins <hugh@veritas.com> mremap's move_vma should think ahead to lessen the chance of failure during its rewind on failure: running out of memory always possible, but it's silly for it to embark when it's near the map_count limit.
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Andrew Morton authored
From: Hugh Dickins <hugh@veritas.com> Subtle point from Rajesh Venkatasubramanian: when mremap's move_vma fails and so rewinds, before moving the file-based ptes back, we must move new_vma before old vma in the i_mmap or i_mmap_shared list, so that when racing against vmtruncate we cannot propagate pages to be truncated back from new_vma into the just cleaned old_vma.
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Andrew Morton authored
From: Hugh Dickins <hugh@veritas.com> Partial rewrite of mremap's move_vma. Rajesh Venkatasubramanian has pointed out that vmtruncate could miss ptes, leaving orphaned pages, because move_vma only made the new vma visible after filling it. We see no good reason for that, and time to make move_vma more robust. Removed all its vma merging decisions, leave them to mmap.c's vma_merge, with copy_vma added. Removed duplicated is_mergeable_vma test from vma_merge, and duplicated validate_mm from insert_vm_struct. move_vma move from old to new then unmap old; but on error move back from new to old and unmap new. Don't unwind within move_page_tables, let move_vma call it explicitly to unwind, with the right source vma. Get the VM_ACCOUNTing right even when the final do_munmap fails.
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Andrew Morton authored
From: Hugh Dickins <hugh@veritas.com> Clean up mremap move's copy_one_pte: - get_one_pte_map_nested already weeded out the pte_none case, now don't even call copy_one_pte if it has nothing to do. - check pfn_valid before passing page to page_remove_rmap.
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Andrew Morton authored
From: Hugh Dickins <hugh@veritas.com> First of six patches against 2.6.5-rc3, cleaning up mremap's move_vma, and fixing truncation orphan issues raised by Rajesh Venkatasubramanian. Originally done as part of the anonymous objrmap work on mremap move, but useful fixes now extracted for mainline. The mremap changes need some exposure in the -mm tree first, but the first (fork one-liner) is safe enough to go straight into 2.6.5. From: Rajesh Venkatasubramanian. Despite the comment that child vma should be inserted just after parent vma, 2.5.6 did exactly the reverse: thus a racing vmtruncate may free the child's ptes, then advance to the parent, and meanwhile copy_page_range has propagated more ptes from the parent to the child, leaving file pages still mapped after truncation.
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Andrew Morton authored
The compound page logic is a little fragile - it relies on additional metadata in the pageframes which some other kernel code likes to stomp on (xfs was doing this). Also, because we're treating all higher-order pages as compound pages it is no longer possible to free individual lower-order pages from the middle of higher-order pages. At least one ARM driver insists on doing this. We only really need the compound page logic for higher-order pages which can be mapped into user pagetables and placed under direct-io. This covers hugetlb pages and, conceivably, soundcard DMA buffers which were allcoated with a higher-order allocation but which weren't marked PageReserved. The patch arranges for the hugetlb implications to allocate their pages with compound page metadata, and all other higher-order allocations go back to the old way. (Andrea supplied the GFP_LEVEL_MASK fix)
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Andrew Morton authored
Rework the code layout a bit. No logic change.
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Andrew Morton authored
From: Jens Axboe <axboe@suse.de> Takashi did some nice latency testing of the current kernel (with -mm writeback changes), and the biggest offender in general core is mpage_writepages().
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Andrew Morton authored
The radix-tree walk for writeback has a couple of problems: a) It always scans a file from its first dirty page, so if someone is repeatedly dirtying the front part of a file, pages near the end may be starved of writeout. (Well, not completely: the `kupdate' function will write an entire file once the file's dirty timestamp has expired). b) When the disk queues are huge (10000 requests), there can be a very large number of locked pages. Scanning past these in writeback consumes quite some CPU time. So in each address_space we record the index at which the last batch of writeout terminated and start the next batch of writeback from that point.
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Andrew Morton authored
If pdflush hits a locked-and-clean buffer in __block_write_full_page() it will just pass over the buffer. Typically the buffer is an ext3 data=ordered buffer which is being written by kjournald, but a similar thing can happen with blockdev buffers and ll_rw_block(). This is bad because the buffer is still under I/O and a subsequent fsync's fdatawait() needs to know about it. It is not practical to tag the page for writeback - only the submitter of the I/O can do that, because the submitter has control of the end_io handler. So instead, redirty the page so a subsequent fsync's fdatawrite() will wait on the underway I/O. There is a risk that pdflush::background_writeout() will lock up, repeatedly trying and failing to write the same page. This is prevented by ensuring that background_writeout() always throttles when it made no progress.
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Andrew Morton authored
fdatasync can fail to wait on some pages due to a race. If some task (eg pdflush) is flushing the same mapping it can remove a page's dirty tag but not then mark that page as being under writeback, because pdflush hit a locked buffer in __block_write_full_page(). This will happen because kjournald is writing the buffer. In this situation __block_write_full_page() will redirty the page so that fsync notices it, but there is a window where the page eludes the radix tree dirty page walk. Consequently a concurrent fsync will fail to notice the page when walking the radix tree's dirty pages. The approach taken by this patch is to leave the page marked as dirty in the radix tree while ->writepage is working out what to do with it. This ensures that a concurrent write-for-sync will successfully locate the page and will then block in lock_page() until the non-write-for-sync code has finished altering the page state.
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Andrew Morton authored
Remove the now-unneeded page.list field.
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Andrew Morton authored
Switch the m68k pointer-table code over to page->lru.
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Andrew Morton authored
Switch the ARM `small_page' code over to page->lru.
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Andrew Morton authored
The compound page logic is using page->lru, and these get will scribbled on in various places so switch the Compound page logic over to using ->mapping and ->private.
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Andrew Morton authored
The address_space.readapges() function currently takes a list of pages, strung together via page->list. Switch it to using page->lru. This changes the API into filesystems.
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Andrew Morton authored
Switch it to ->lru
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Andrew Morton authored
Switch them over to page.lru
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Andrew Morton authored
Switch the page allocator over to using page.lru for the buddy lists.
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Andrew Morton authored
slab.c is using page->list. Switch it over to using page->lru so we can remove page.list.
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Andrew Morton authored
This code is playing with page->lru from pages which came from slab. But to remove page->list we need to convert slab over to using page->lru. So we cannot allow the i386 pagetable code to go scribbling on the ->lru field of active slab pages. This optimisation was pretty thin, and it is more important to shrink the pageframe (on all architectures).
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Andrew Morton authored
Remove remaining references to address_space.clean_pages.
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Andrew Morton authored
Instead, use a radix-tree walk of the pages which are tagged as being under writeback. The new function wait_on_page_writeback_range() was generalised out of filemap_fdatawait(). We can later use this to provide concurrent fsync of just a section of a file.
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Andrew Morton authored
Now remove address_space.io_pages.
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Andrew Morton authored
Juggle dirty pages and dirty inodes and dirty superblocks and various different writeback modes and livelock avoidance and fairness to recover from the loss of mapping->io_pages.
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Andrew Morton authored
Move everything over to walking the radix tree via the PAGECACHE_TAG_DIRTY tag. Remove address_space.dirty_pages.
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Andrew Morton authored
Arrange for under-writeback pages to be marked thus in their pagecache radix tree.
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Andrew Morton authored
Arrange for all dirty pagecache pages to be tagged as dirty within their radix tree.
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Andrew Morton authored
Intro to these patches: - Major surgery against the pagecache, radix-tree and writeback code. This work is to address the O_DIRECT-vs-buffered data exposure horrors which we've been struggling with for months. As a side-effect, 32 bytes are saved from struct inode and eight bytes are removed from struct page. At a cost of approximately 2.5 bits per page in the radix tree nodes on 4k pagesize, assuming the pagecache is densely populated. Not all pages are pagecache; other pages gain the full 8 byte saving. This change will break any arch code which is using page->list and will also break any arch code which is using page->lru of memory which was obtained from slab. The basic problem which we (mainly Daniel McNeil) have been struggling with is in getting a really reliable fsync() across the page lists while other processes are performing writeback against the same file. It's like juggling four bars of wet soap with your eyes shut while someone is whacking you with a baseball bat. Daniel pretty much has the problem plugged but I suspect that's just because we don't have testcases to trigger the remaining problems. The complexity and additional locking which those patches add is worrisome. So the approach taken here is to remove the page lists altogether and replace the list-based writeback and wait operations with in-order radix-tree walks. The radix-tree code has been enhanced to support "tagging" of pages, for later searches for pages which have a particular tag set. This means that we can ask the radix tree code "find me the next 16 dirty pages starting at pagecache index N" and it will do that in O(log64(N)) time. This affects I/O scheduling potentially quite significantly. It is no longer the case that the kernel will submit pages for I/O in the order in which the application dirtied them. We instead submit them in file-offset order all the time. This is likely to be advantageous when applications are seeking all over a large file randomly writing small amounts of data. I haven't performed much benchmarking, but tiobench random write throughput seems to be increased by 30%. Other tests appear to be unaltered. dbench may have got 10-20% quicker, but it's variable. There is one large file which everyone seeks all over randomly writing small amounts of data: the blockdev mapping which caches filesystem metadata. The kernel's IO submission patterns for this are now ideal. Because writeback and wait-for-writeback use a tree walk instead of a list walk they are no longer livelockable. This probably means that we no longer need to hold i_sem across O_SYNC writes and perhaps fsync() and fdatasync(). This may be beneficial for databases: multiple processes writing and syncing different parts of the same file at the same time can now all submit and wait upon writes to just their own little bit of the file, so we can get a lot more data into the queues. It is trivial to implement a part-file-fdatasync() as well, so applications can say "sync the file from byte N to byte M", and multiple applications can do this concurrently. This is easy for ext2 filesystems, but probably needs lots of work for data-journalled filesystems and XFS and it probably doesn't offer much benefit over an i_semless O_SYNC write. These patches can end up making ext3 (even) slower: for i in 1 2 3 4 do dd if=/dev/zero of=$i bs=1M count=2000 & done runs awfully slow on SMP. This is, yet again, because all the file blocks are jumbled up and the per-file linear writeout causes tons of seeking. The above test runs sweetly on UP because the on UP we don't allocate blocks to different files in parallel. Mingming and Badari are working on getting block reservation working for ext3 (preallocation on steroids). That should fix ext3 up. This patch: - Later, we'll need to access the radix trees from inside disk I/O completion handlers. So make mapping->page_lock irq-safe. And rename it to tree_lock to reliably break any missed conversions.
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Andrew Morton authored
Add radix-tree tagging so we can look up dirty or writeback pages in O(log64(n)) time. Each radix-tree node gains two bits for each slot: one for page dirtiness and one for page writebackness. If a tag bit is set on a leaf node, it indicates that item at the corresponding slot is tagged (say, a dirty page). If a tag bit is set in a non-leaf node it indicates that the same tag bit is set in the subtree which lies under the corresponding slot. ie: "there is a dirty page under here somewhere, but you need to search down further to find it". A gang lookup function is provided which can walk the radix tree in logarithmic time looking for items which are tagged, starting from a specified offset. We use this for in-order searches for dirty or writeback pages. There is a userspace test harness for this code at http://www.zip.com.au/~akpm/linux/patches/stuff/rtth.tar.gz
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Andrew Morton authored
This function is setting page->mapping = swapper_space, but isn't actually adding the page to swapcache. This triggers soon-to-be-added BUGs in the radix tree code. So temporarily add these pages to swapcache for real. Also, make rw_swap_page_sync() go away if it has no callers.
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Andrew Morton authored
From: Suparna Bhattacharya <suparna@in.ibm.com>, Daniel McNeil <daniel@osdl.org> This patch ensures that when the DIO code falls back to buffered i/o after having submitted part of the i/o, then buffered i/o is issued only for the remaining part of the request (i.e. the part not already covered by DIO), rather than redo the entire i/o. Now, instead of returning written == -ENOTBLK, generic_file_direct_IO returns the number of bytes already handled by DIO, so that the caller knows how much of the I/O is left to be handled via fallback to buffered write. We need to careful not to access dio fields if its possible that the dio could already have been freed asynchronously during i/o completion. A tricky part of this involves plugging the window between the decrement of bio_count and accessing dio->waiter during i/o completion where the dio could get freed by the submission path. This potential "bio_count race" was tackled (by Daniel) by changing bio_list_lock into bio_lock and using that for all the bio fields. Now bio_count and bios_in_flight have been converted from atomics into int and are both protected by the bio_lock. The race in finished_one_bio() could thus be fixed by leaving the bio_count at 1 until after the dio_complete() and then doing the bio_count decrement and wakeup holding the bio_lock. It appears that shifting to the spin_lock instead of atomic_inc/decs is ok performance wise as well. Update: An AIO O_DIRECT request was extending the file so it was done synchronously. However, the request got an EFAULT and direct_io_worker() was calling aio_complete() on the iocb and returning the EFAULT. When io_submit_one() got the EFAULT return, it assume it had to call aio_complete() since the i/o never got queued. The fix is for direct_io_worker() to only call aio_complete() when the upper layer is going to return -EIOCBQUEUED and not when getting errors that are being return to the submit path.
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Andrew Morton authored
From: Suparna Bhattacharya <suparna@in.ibm.com> Fixes the following remaining issues with the DIO code: 1. During DIO file extends, intermediate writes could extend i_size exposing unwritten blocks to intermediate reads (Soln: Don't drop i_sem for file extends) 2. AIO-DIO file extends may update i_size before I/O completes, exposing unwritten blocks to intermediate reads. (Soln: Force AIO-DIO file extends to be synchronous) 3. AIO-DIO writes to holes call aio_complete() before falling back to buffered I/O ! (Soln: Avoid calling aio_complete() if -ENOTBLK) 4. AIO-DIO writes to an allocated region followed by a hole, falls back to buffered i/o without waiting for already submitted i/o to complete; might return to user-space, which could overwrite the buffer contents while they are still being written out by the kernel (Soln: Always wait for submitted i/o to complete before falling back to buffered i/o)
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Andrew Morton authored
From: Badari Pulavarty <pbadari@us.ibm.com> 1) blkdev_direct_IO() calls blockdev_direct_IO() instead of blockdev_direct_IO_no_locking(). 2) writev entry point is generic_file_writev() which grabs i_sem. It should use generic_file_write_nolock() instead.
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