1. 22 11月, 2012 2 次提交
    • I
      xen/netfront: handle compound page fragments on transmit · f36c3747
      Ian Campbell 提交于
      An SKB paged fragment can consist of a compound page with order > 0.
      However the netchannel protocol deals only in PAGE_SIZE frames.
      
      Handle this in xennet_make_frags by iterating over the frames which
      make up the page.
      
      This is the netfront equivalent to 6a8ed462 for netback.
      Signed-off-by: NIan Campbell <ian.campbell@citrix.com>
      Cc: netdev@vger.kernel.org
      Cc: xen-devel@lists.xen.org
      Cc: Eric Dumazet <edumazet@google.com>
      Cc: Konrad Rzeszutek Wilk <konrad@kernel.org>
      Cc: ANNIE LI <annie.li@oracle.com>
      Cc: Sander Eikelenboom <linux@eikelenboom.it>
      Cc: Stefan Bader <stefan.bader@canonical.com>
      Acked-by: NEric Dumazet <edumazet@google.com>
      Acked-by: NKonrad Rzeszutek Wilk <konrad.wilk@oracle.com>
      Signed-off-by: NDavid S. Miller <davem@davemloft.net>
      f36c3747
    • J
      Merge branch 'master' of... · f30a9443
      John W. Linville 提交于
      Merge branch 'master' of git://git.kernel.org/pub/scm/linux/kernel/git/linville/wireless into for-davem
      
      John W. Linville says:
      
      ====================
      This is a batch of fixes intended for 3.7...
      
      Included are two pulls.  Regarding the mac80211 tree, Johannes says:
      
      "Please pull my mac80211.git tree (see below) to get two more fixes for
      3.7. Both fix regressions introduced *before* this cycle that weren't
      noticed until now, one for IBSS not cleaning up properly and the other
      to add back the "wireless" sysfs directory for Fedora's startup scripts."
      
      Regarding the iwlwifi tree, Johannes says:
      
      "Please also pull my iwlwifi.git tree, I have two fixes: one to remove a
      spurious warning that can actually trigger in legitimate situations, and
      the other to fix a regression from when monitor mode was changed to use
      the "sniffer" firmware mode."
      
      Also included is an nfc tree pull.  Samuel says:
      
      "We mostly have pn533 fixes here, 2 memory leaks and an early unlocking fix.
      Moreover, we also have an LLCP adapter linked list insertion fix."
      
      On top of that, a few more bits...  Albert Pool adds a USB ID
      to rtlwifi.  Bing Zhao provides two mwifiex fixes -- one to fix
      a system hang during a command timeout, and the other to properly
      report a suspend error to the MMC core.  Finally, Sujith Manoharan
      fixes a thinko that would trigger an ath9k hang during device reset.
      ====================
      Signed-off-by: NDavid S. Miller <davem@davemloft.net>
      f30a9443
  2. 21 11月, 2012 7 次提交
  3. 20 11月, 2012 8 次提交
  4. 19 11月, 2012 8 次提交
  5. 18 11月, 2012 5 次提交
  6. 17 11月, 2012 10 次提交
    • D
      xfs: drop buffer io reference when a bad bio is built · d69043c4
      Dave Chinner 提交于
      Error handling in xfs_buf_ioapply_map() does not handle IO reference
      counts correctly. We increment the b_io_remaining count before
      building the bio, but then fail to decrement it in the failure case.
      This leads to the buffer never running IO completion and releasing
      the reference that the IO holds, so at unmount we can leak the
      buffer. This leak is captured by this assert failure during unmount:
      
      XFS: Assertion failed: atomic_read(&pag->pag_ref) == 0, file: fs/xfs/xfs_mount.c, line: 273
      
      This is not a new bug - the b_io_remaining accounting has had this
      problem for a long, long time - it's just very hard to get a
      zero length bio being built by this code...
      
      Further, the buffer IO error can be overwritten on a multi-segment
      buffer by subsequent bio completions for partial sections of the
      buffer. Hence we should only set the buffer error status if the
      buffer is not already carrying an error status. This ensures that a
      partial IO error on a multi-segment buffer will not be lost. This
      part of the problem is a regression, however.
      
      cc: <stable@vger.kernel.org>
      Signed-off-by: NDave Chinner <dchinner@redhat.com>
      Reviewed-by: NMark Tinguely <tinguely@sgi.com>
      Signed-off-by: NBen Myers <bpm@sgi.com>
      d69043c4
    • D
      xfs: fix broken error handling in xfs_vm_writepage · 3daed8bc
      Dave Chinner 提交于
      When we shut down the filesystem, it might first be detected in
      writeback when we are allocating a inode size transaction. This
      happens after we have moved all the pages into the writeback state
      and unlocked them. Unfortunately, if we fail to set up the
      transaction we then abort writeback and try to invalidate the
      current page. This then triggers are BUG() in block_invalidatepage()
      because we are trying to invalidate an unlocked page.
      
      Fixing this is a bit of a chicken and egg problem - we can't
      allocate the transaction until we've clustered all the pages into
      the IO and we know the size of it (i.e. whether the last block of
      the IO is beyond the current EOF or not). However, we don't want to
      hold pages locked for long periods of time, especially while we lock
      other pages to cluster them into the write.
      
      To fix this, we need to make a clear delineation in writeback where
      errors can only be handled by IO completion processing. That is,
      once we have marked a page for writeback and unlocked it, we have to
      report errors via IO completion because we've already started the
      IO. We may not have submitted any IO, but we've changed the page
      state to indicate that it is under IO so we must now use the IO
      completion path to report errors.
      
      To do this, add an error field to xfs_submit_ioend() to pass it the
      error that occurred during the building on the ioend chain. When
      this is non-zero, mark each ioend with the error and call
      xfs_finish_ioend() directly rather than building bios. This will
      immediately push the ioends through completion processing with the
      error that has occurred.
      Signed-off-by: NDave Chinner <dchinner@redhat.com>
      Reviewed-by: NMark Tinguely <tinguely@sgi.com>
      Signed-off-by: NBen Myers <bpm@sgi.com>
      3daed8bc
    • D
      xfs: fix attr tree double split corruption · 42e2976f
      Dave Chinner 提交于
      In certain circumstances, a double split of an attribute tree is
      needed to insert or replace an attribute. In rare situations, this
      can go wrong, leaving the attribute tree corrupted. In this case,
      the attr being replaced is the last attr in a leaf node, and the
      replacement is larger so doesn't fit in the same leaf node.
      When we have the initial condition of a node format attribute
      btree with two leaves at index 1 and 2. Call them L1 and L2.  The
      leaf L1 is completely full, there is not a single byte of free space
      in it. L2 is mostly empty.  The attribute being replaced - call it X
      - is the last attribute in L1.
      
      The way an attribute replace is executed is that the replacement
      attribute - call it Y - is first inserted into the tree, but has an
      INCOMPLETE flag set on it so that list traversals ignore it. Once
      this transaction is committed, a second transaction it run to
      atomically mark Y as COMPLETE and X as INCOMPLETE, so that a
      traversal will now find Y and skip X. Once that transaction is
      committed, attribute X is then removed.
      
      So, the initial condition is:
      
           +--------+     +--------+
           |   L1   |     |   L2   |
           | fwd: 2 |---->| fwd: 0 |
           | bwd: 0 |<----| bwd: 1 |
           | fsp: 0 |     | fsp: N |
           |--------|     |--------|
           | attr A |     | attr 1 |
           |--------|     |--------|
           | attr B |     | attr 2 |
           |--------|     |--------|
           ..........     ..........
           |--------|     |--------|
           | attr X |     | attr n |
           +--------+     +--------+
      
      So now we go to replace X, and see that L1:fsp = 0 - it is full so
      we can't insert Y in the same leaf. So we record the the location of
      attribute X so we can track it for later use, then we split L1 into
      L1 and L3 and reblance across the two leafs. We end with:
      
           +--------+     +--------+     +--------+
           |   L1   |     |   L3   |     |   L2   |
           | fwd: 3 |---->| fwd: 2 |---->| fwd: 0 |
           | bwd: 0 |<----| bwd: 1 |<----| bwd: 3 |
           | fsp: M |     | fsp: J |     | fsp: N |
           |--------|     |--------|     |--------|
           | attr A |     | attr X |     | attr 1 |
           |--------|     +--------+     |--------|
           | attr B |                    | attr 2 |
           |--------|                    |--------|
           ..........                    ..........
           |--------|                    |--------|
           | attr W |                    | attr n |
           +--------+                    +--------+
      
      And we track that the original attribute is now at L3:0.
      
      We then try to insert Y into L1 again, and find that there isn't
      enough room because the new attribute is larger than the old one.
      Hence we have to split again to make room for Y. We end up with
      this:
      
           +--------+     +--------+     +--------+     +--------+
           |   L1   |     |   L4   |     |   L3   |     |   L2   |
           | fwd: 4 |---->| fwd: 3 |---->| fwd: 2 |---->| fwd: 0 |
           | bwd: 0 |<----| bwd: 1 |<----| bwd: 4 |<----| bwd: 3 |
           | fsp: M |     | fsp: J |     | fsp: J |     | fsp: N |
           |--------|     |--------|     |--------|     |--------|
           | attr A |     | attr Y |     | attr X |     | attr 1 |
           |--------|     + INCOMP +     +--------+     |--------|
           | attr B |     +--------+                    | attr 2 |
           |--------|                                   |--------|
           ..........                                   ..........
           |--------|                                   |--------|
           | attr W |                                   | attr n |
           +--------+                                   +--------+
      
      And now we have the new (incomplete) attribute @ L4:0, and the
      original attribute at L3:0. At this point, the first transaction is
      committed, and we move to the flipping of the flags.
      
      This is where we are supposed to end up with this:
      
           +--------+     +--------+     +--------+     +--------+
           |   L1   |     |   L4   |     |   L3   |     |   L2   |
           | fwd: 4 |---->| fwd: 3 |---->| fwd: 2 |---->| fwd: 0 |
           | bwd: 0 |<----| bwd: 1 |<----| bwd: 4 |<----| bwd: 3 |
           | fsp: M |     | fsp: J |     | fsp: J |     | fsp: N |
           |--------|     |--------|     |--------|     |--------|
           | attr A |     | attr Y |     | attr X |     | attr 1 |
           |--------|     +--------+     + INCOMP +     |--------|
           | attr B |                    +--------+     | attr 2 |
           |--------|                                   |--------|
           ..........                                   ..........
           |--------|                                   |--------|
           | attr W |                                   | attr n |
           +--------+                                   +--------+
      
      But that doesn't happen properly - the attribute tracking indexes
      are not pointing to the right locations. What we end up with is both
      the old attribute to be removed pointing at L4:0 and the new
      attribute at L4:1.  On a debug kernel, this assert fails like so:
      
      XFS: Assertion failed: args->index2 < be16_to_cpu(leaf2->hdr.count), file: fs/xfs/xfs_attr_leaf.c, line: 2725
      
      because the new attribute location does not exist. On a production
      kernel, this goes unnoticed and the code proceeds ahead merrily and
      removes L4 because it thinks that is the block that is no longer
      needed. This leaves the hash index node pointing to entries
      L1, L4 and L2, but only blocks L1, L3 and L2 to exist. Further, the
      leaf level sibling list is L1 <-> L4 <-> L2, but L4 is now free
      space, and so everything is busted. This corruption is caused by the
      removal of the old attribute triggering a join - it joins everything
      correctly but then frees the wrong block.
      
      xfs_repair will report something like:
      
      bad sibling back pointer for block 4 in attribute fork for inode 131
      problem with attribute contents in inode 131
      would clear attr fork
      bad nblocks 8 for inode 131, would reset to 3
      bad anextents 4 for inode 131, would reset to 0
      
      The problem lies in the assignment of the old/new blocks for
      tracking purposes when the double leaf split occurs. The first split
      tries to place the new attribute inside the current leaf (i.e.
      "inleaf == true") and moves the old attribute (X) to the new block.
      This sets up the old block/index to L1:X, and newly allocated
      block to L3:0. It then moves attr X to the new block and tries to
      insert attr Y at the old index. That fails, so it splits again.
      
      With the second split, the rebalance ends up placing the new attr in
      the second new block - L4:0 - and this is where the code goes wrong.
      What is does is it sets both the new and old block index to the
      second new block. Hence it inserts attr Y at the right place (L4:0)
      but overwrites the current location of the attr to replace that is
      held in the new block index (currently L3:0). It over writes it with
      L4:1 - the index we later assert fail on.
      
      Hopefully this table will show this in a foramt that is a bit easier
      to understand:
      
      Split		old attr index		new attr index
      		vanilla	patched		vanilla	patched
      before 1st	L1:26	L1:26		N/A	N/A
      after 1st	L3:0	L3:0		L1:26	L1:26
      after 2nd	L4:0	L3:0		L4:1	L4:0
                      ^^^^			^^^^
      		wrong			wrong
      
      The fix is surprisingly simple, for all this analysis - just stop
      the rebalance on the out-of leaf case from overwriting the new attr
      index - it's already correct for the double split case.
      Signed-off-by: NDave Chinner <dchinner@redhat.com>
      Reviewed-by: NMark Tinguely <tinguely@sgi.com>
      Signed-off-by: NBen Myers <bpm@sgi.com>
      42e2976f
    • L
      Linux 3.7-rc6 · f4a75d2e
      Linus Torvalds 提交于
      f4a75d2e
    • L
      Merge git://git.kernel.org/pub/scm/virt/kvm/kvm · 51844b0f
      Linus Torvalds 提交于
      Pull KVM fix from Marcelo Tosatti:
       "A correction for oops on module init with older Intel hosts."
      
      * git://git.kernel.org/pub/scm/virt/kvm/kvm:
        KVM: x86: Fix invalid secondary exec controls in vmx_cpuid_update()
      51844b0f
    • L
      Merge branch 'akpm' (Fixes from Andrew) · 0cad3ff4
      Linus Torvalds 提交于
      Merge misc fixes from Andrew Morton.
      
      * emailed patches from Andrew Morton <akpm@linux-foundation.org>: (12 patches)
        revert "mm: fix-up zone present pages"
        tmpfs: change final i_blocks BUG to WARNING
        tmpfs: fix shmem_getpage_gfp() VM_BUG_ON
        mm: highmem: don't treat PKMAP_ADDR(LAST_PKMAP) as a highmem address
        mm: revert "mm: vmscan: scale number of pages reclaimed by reclaim/compaction based on failures"
        rapidio: fix kernel-doc warnings
        swapfile: fix name leak in swapoff
        memcg: fix hotplugged memory zone oops
        mips, arc: fix build failure
        memcg: oom: fix totalpages calculation for memory.swappiness==0
        mm: fix build warning for uninitialized value
        mm: add anon_vma_lock to validate_mm()
      0cad3ff4
    • A
      revert "mm: fix-up zone present pages" · 5576646f
      Andrew Morton 提交于
      Revert commit 7f1290f2 ("mm: fix-up zone present pages")
      
      That patch tried to fix a issue when calculating zone->present_pages,
      but it caused a regression on 32bit systems with HIGHMEM.  With that
      change, reset_zone_present_pages() resets all zone->present_pages to
      zero, and fixup_zone_present_pages() is called to recalculate
      zone->present_pages when the boot allocator frees core memory pages into
      buddy allocator.  Because highmem pages are not freed by bootmem
      allocator, all highmem zones' present_pages becomes zero.
      
      Various options for improving the situation are being discussed but for
      now, let's return to the 3.6 code.
      
      Cc: Jianguo Wu <wujianguo@huawei.com>
      Cc: Jiang Liu <jiang.liu@huawei.com>
      Cc: Petr Tesarik <ptesarik@suse.cz>
      Cc: "Luck, Tony" <tony.luck@intel.com>
      Cc: Mel Gorman <mel@csn.ul.ie>
      Cc: Yinghai Lu <yinghai@kernel.org>
      Cc: Minchan Kim <minchan.kim@gmail.com>
      Cc: Johannes Weiner <hannes@cmpxchg.org>
      Acked-by: NDavid Rientjes <rientjes@google.com>
      Tested-by: NChris Clayton <chris2553@googlemail.com>
      Signed-off-by: NAndrew Morton <akpm@linux-foundation.org>
      Signed-off-by: NLinus Torvalds <torvalds@linux-foundation.org>
      5576646f
    • H
      tmpfs: change final i_blocks BUG to WARNING · 0f3c42f5
      Hugh Dickins 提交于
      Under a particular load on one machine, I have hit shmem_evict_inode()'s
      BUG_ON(inode->i_blocks), enough times to narrow it down to a particular
      race between swapout and eviction.
      
      It comes from the "if (freed > 0)" asymmetry in shmem_recalc_inode(),
      and the lack of coherent locking between mapping's nrpages and shmem's
      swapped count.  There's a window in shmem_writepage(), between lowering
      nrpages in shmem_delete_from_page_cache() and then raising swapped
      count, when the freed count appears to be +1 when it should be 0, and
      then the asymmetry stops it from being corrected with -1 before hitting
      the BUG.
      
      One answer is coherent locking: using tree_lock throughout, without
      info->lock; reasonable, but the raw_spin_lock in percpu_counter_add() on
      used_blocks makes that messier than expected.  Another answer may be a
      further effort to eliminate the weird shmem_recalc_inode() altogether,
      but previous attempts at that failed.
      
      So far undecided, but for now change the BUG_ON to WARN_ON: in usual
      circumstances it remains a useful consistency check.
      Signed-off-by: NHugh Dickins <hughd@google.com>
      Cc: <stable@vger.kernel.org>
      Signed-off-by: NAndrew Morton <akpm@linux-foundation.org>
      Signed-off-by: NLinus Torvalds <torvalds@linux-foundation.org>
      0f3c42f5
    • H
      tmpfs: fix shmem_getpage_gfp() VM_BUG_ON · 215c02bc
      Hugh Dickins 提交于
      Fuzzing with trinity hit the "impossible" VM_BUG_ON(error) (which Fedora
      has converted to WARNING) in shmem_getpage_gfp():
      
        WARNING: at mm/shmem.c:1151 shmem_getpage_gfp+0xa5c/0xa70()
        Pid: 29795, comm: trinity-child4 Not tainted 3.7.0-rc2+ #49
        Call Trace:
          warn_slowpath_common+0x7f/0xc0
          warn_slowpath_null+0x1a/0x20
          shmem_getpage_gfp+0xa5c/0xa70
          shmem_fault+0x4f/0xa0
          __do_fault+0x71/0x5c0
          handle_pte_fault+0x97/0xae0
          handle_mm_fault+0x289/0x350
          __do_page_fault+0x18e/0x530
          do_page_fault+0x2b/0x50
          page_fault+0x28/0x30
          tracesys+0xe1/0xe6
      
      Thanks to Johannes for pointing to truncation: free_swap_and_cache()
      only does a trylock on the page, so the page lock we've held since
      before confirming swap is not enough to protect against truncation.
      
      What cleanup is needed in this case? Just delete_from_swap_cache(),
      which takes care of the memcg uncharge.
      Signed-off-by: NHugh Dickins <hughd@google.com>
      Reported-by: NDave Jones <davej@redhat.com>
      Cc: Johannes Weiner <hannes@cmpxchg.com>
      Cc: <stable@vger.kernel.org>
      Signed-off-by: NAndrew Morton <akpm@linux-foundation.org>
      Signed-off-by: NLinus Torvalds <torvalds@linux-foundation.org>
      215c02bc
    • W
      mm: highmem: don't treat PKMAP_ADDR(LAST_PKMAP) as a highmem address · 498c2280
      Will Deacon 提交于
      kmap_to_page returns the corresponding struct page for a virtual address
      of an arbitrary mapping.  This works by checking whether the address
      falls in the pkmap region and using the pkmap page tables instead of the
      linear mapping if appropriate.
      
      Unfortunately, the bounds checking means that PKMAP_ADDR(LAST_PKMAP) is
      incorrectly treated as a highmem address and we can end up walking off
      the end of pkmap_page_table and subsequently passing junk to pte_page.
      
      This patch fixes the bound check to stay within the pkmap tables.
      Signed-off-by: NWill Deacon <will.deacon@arm.com>
      Cc: Mel Gorman <mgorman@suse.de>
      Signed-off-by: NAndrew Morton <akpm@linux-foundation.org>
      Signed-off-by: NLinus Torvalds <torvalds@linux-foundation.org>
      498c2280