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SubjectRe: [PATCH 4/8] readahead: record readahead patterns
On Mon, 21 Nov 2011 17:18:23 +0800
Wu Fengguang <fengguang.wu@intel.com> wrote:

> Record the readahead pattern in ra_flags and extend the ra_submit()
> parameters, to be used by the next readahead tracing/stats patches.
>
> 7 patterns are defined:
>
> pattern readahead for
> -----------------------------------------------------------
> RA_PATTERN_INITIAL start-of-file read
> RA_PATTERN_SUBSEQUENT trivial sequential read
> RA_PATTERN_CONTEXT interleaved sequential read
> RA_PATTERN_OVERSIZE oversize read
> RA_PATTERN_MMAP_AROUND mmap fault
> RA_PATTERN_FADVISE posix_fadvise()
> RA_PATTERN_RANDOM random read

It would be useful to spell out in full detail what an "interleaved
sequential read" is, and why a read is considered "oversized", etc.
The 'enum readahead_pattern' definition site would be a good place for
this.

> Note that random reads will be recorded in file_ra_state now.
> This won't deteriorate cache bouncing because the ra->prev_pos update
> in do_generic_file_read() already pollutes the data cache, and
> filemap_fault() will stop calling into us after MMAP_LOTSAMISS.
>
> --- linux-next.orig/include/linux/fs.h 2011-11-20 20:10:48.000000000 +0800
> +++ linux-next/include/linux/fs.h 2011-11-20 20:18:29.000000000 +0800
> @@ -951,6 +951,39 @@ struct file_ra_state {
>
> /* ra_flags bits */
> #define READAHEAD_MMAP_MISS 0x000003ff /* cache misses for mmap access */
> +#define READAHEAD_MMAP 0x00010000

Why leave a gap?

And what is READAHEAD_MMAP anyway?

> +#define READAHEAD_PATTERN_SHIFT 28

Why 28?

> +#define READAHEAD_PATTERN 0xf0000000
> +
> +/*
> + * Which policy makes decision to do the current read-ahead IO?
> + */
> +enum readahead_pattern {
> + RA_PATTERN_INITIAL,
> + RA_PATTERN_SUBSEQUENT,
> + RA_PATTERN_CONTEXT,
> + RA_PATTERN_MMAP_AROUND,
> + RA_PATTERN_FADVISE,
> + RA_PATTERN_OVERSIZE,
> + RA_PATTERN_RANDOM,
> + RA_PATTERN_ALL, /* for summary stats */
> + RA_PATTERN_MAX
> +};

Again, the behaviour is all undocumented. I see from the code that
multiple flags can be set at the same time. So afacit a file can be
marked RANDOM and SUBSEQUENT at the same time, which seems oxymoronic.

This reader wants to know what the implications of this are - how the
code chooses, prioritises and acts. But this code doesn't tell me.

> +static inline unsigned int ra_pattern(unsigned int ra_flags)
> +{
> + unsigned int pattern = ra_flags >> READAHEAD_PATTERN_SHIFT;

OK, no masking is needed because the code silently assumes that arg
`ra_flags' came out of an ra_state.ra_flags and it also silently
assumes that no higher bits are used in ra_state.ra_flags.

That's a bit of a handgrenade - if someone redoes the flags
enumeration, the code will explode.

> + return min_t(unsigned int, pattern, RA_PATTERN_ALL);
> +}

<scratches head>

What the heck is that min_t() doing in there?

> +static inline void ra_set_pattern(struct file_ra_state *ra,
> + unsigned int pattern)
> +{
> + ra->ra_flags = (ra->ra_flags & ~READAHEAD_PATTERN) |
> + (pattern << READAHEAD_PATTERN_SHIFT);
> +}
>
> /*
> * Don't do ra_flags++ directly to avoid possible overflow:
>
> ...
>


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