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SubjectRe: [PATCH v6 07/22] Replace the XIP page fault handler with the DAX page fault handler
On Mon, 3 Mar 2014, Dave Chinner wrote:
> On Fri, Feb 28, 2014 at 03:20:31PM -0500, Matthew Wilcox wrote:
> > On Fri, Feb 28, 2014 at 10:49:31AM -0700, Toshi Kani wrote:
> > > The original code,
> > > xip_file_fault(), jumps to found: and calls vm_insert_mixed() when
> > > get_xip_mem(,,0,,) succeeded. If get_xip_mem() returns -ENODATA, it
> > > calls either get_xip_mem(,,1,,) or xip_sparse_page(). In this new
> > > function, it looks to me that get_block(,,,0) returns 0 for both cases
> > > (success and -ENODATA previously), which are dealt in the same way. Is
> > > that right? If so, is there any reason for the change?
> >
> > Yes, get_xip_mem() returned -ENODATA for a hole. That was a suboptimal
> > interface because filesystems are actually capable of returning more
> > information than that, eg how long the hole is (ext4 *doesn't*, but I
> > consider that to be a bug).
> >
> > I don't get to decide what the get_block() interface looks like. It's the
> > standard way that the VFS calls back into the filesystem and has been
> > around for probably close to twenty years at this point. I'm still trying
> > to understand exactly what the contract is for get_blocks() ... I have
> > a document that I'm working on to try to explain it, but it's tough going!
> >
> > > Also, isn't it
> > > possible to call get_block(,,,1) even if get_block(,,,0) found a block?
> >
> > The code in question looks like this:
> >
> > error = get_block(inode, block, &bh, 0);
> > if (error || bh.b_size < PAGE_SIZE)
> > goto sigbus;
> >
> > if (!buffer_written(&bh) && !vmf->cow_page) {
> > if (vmf->flags & FAULT_FLAG_WRITE) {
> > error = get_block(inode, block, &bh, 1);
> >
> > where buffer_written is defined as:
> > return buffer_mapped(bh) && !buffer_unwritten(bh);
> >
> > Doing some boolean algebra, that's:
> >
> > if (!buffer_mapped || buffer_unwritten)
> >
> > In either case, we want to tell the filesystem that we're writing to
> > this block. At least, that's my current understanding of the get_block()
> > interface. I'm open to correction here!
>
> I've got a rewritten version on this that doesn't require two calls
> to get_block() that I wrote while prototyping the XFS code. It also
> fixes all the misunderstandings about what get_block() actually does
> and returns so it works correctly with XFS.
>
> I need to port it forward to your new patch set (hopefully later
> this week), so don't spend too much time trying to work out exactly
> what this code needs to do...

Here is a writeup from Matthew Wilcox describing the get_block() interface.

He sent this to me before Dave sent out the latest mail in this thread. :)

Corrections and updates are very welcome.

- Ross

================

get_block_t is used by the VFS to ask filesystem to translate logical
blocks within a file to sectors on a block device.

typedef int (get_block_t)(struct inode *inode, sector_t iblock,
struct buffer_head *bh_result, int create);

get_block() must not be called simultaneously with the create flag set
for overlapping extents *** or is/was this a bug in ext2? ***

Despite the iblock argument having type sector_t, iblock is actually
in units of the file block size, not in units of 512-byte sectors.
iblock must not extend beyond i_size. *** um, looks like xfs permits
this ... ? ***

If there is no current mapping from the block to the media, one will be
created if 'create' is set to 1. 'create' should not be set to a value
other than '0' or '1'.

On entry, bh_result should have b_size set to the number of bytes that the
caller is interested in and b_state initialised to zero. b_size should
be a multiple of the file block size. On exit, bh_result describes a
physically contiguous extent starting at iblock. b_size will not be
increased by get_block, but it may be decreased if the filesystem extent
is shorter than the extent requested.

If bh_result describes an extent that is allocated, then BH_Mapped will
be set, and b_bdev and b_blocknr will be set to indicate the physical
location on the media. The filesystem may wish to use map_bh() in order
to set BH_Mapped and initialise b_bdev, b_blocknr and b_size. If the
filesystem knows that the extent is read into memory (eg because it
decided to populate the page cache as part of its get_block operation),
it should set BH_Uptodate.

If bh_result describes a hole, the filesystem should clear BH_Mapped and
set BH_Uptodate. It will not set b_bdev or b_blocknr, but it should set
b_size to indicate the length of the hole. It may also opt to leave
bh_result untouched as described above. If the block corresponds to
a hole, bh_result *may* be unmodified, but the VFS can optimise some
operations if the filesystem reports the length of the hole as described
below. *** or is this a bug in ext4? ***

If bh_result describes an extent which has data in the pagecache, but
that data has not yet had space allocated on the media (due to delayed
allocation), BH_Mapped, BH_Uptodate and BH_Delay will be set. b_blocknr
is not set.

If bh_result describes an extent which is reserved for data which has not
yet been written, BH_Unwritten is set, b_bdev and b_blocknr are set.

Other flags that may be set include BH_New (to indicate that the buffer
was newly allocated and may need to be initialised), and BH_Boundary (to
indicate a physical discontinuity after this extent).

The filesystem may choose to set b_private. Other fields in buffer_head
are legacy buffer-cache uses and will not be modified by get_block.


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