[PATCH v8 10/12] memcg: create support routines for page-writeback

Greg Thelen gthelen at google.com
Tue Jun 7 18:50:34 PDT 2011


On Tue, Jun 7, 2011 at 5:01 PM, KAMEZAWA Hiroyuki
<kamezawa.hiroyu at jp.fujitsu.com> wrote:
> On Tue, 07 Jun 2011 08:58:16 -0700
> Greg Thelen <gthelen at google.com> wrote:
>
>> KAMEZAWA Hiroyuki <kamezawa.hiroyu at jp.fujitsu.com> writes:
>>
>> > On Fri,  3 Jun 2011 09:12:16 -0700
>> > Greg Thelen <gthelen at google.com> wrote:
>> >
>> >> Introduce memcg routines to assist in per-memcg dirty page management:
>> >>
>> >> - mem_cgroup_balance_dirty_pages() walks a memcg hierarchy comparing
>> >>   dirty memory usage against memcg foreground and background thresholds.
>> >>   If an over-background-threshold memcg is found, then per-memcg
>> >>   background writeback is queued.  Per-memcg writeback differs from
>> >>   classic, non-memcg, per bdi writeback by setting the new
>> >>   writeback_control.for_cgroup bit.
>> >>
>> >>   If an over-foreground-threshold memcg is found, then foreground
>> >>   writeout occurs.  When performing foreground writeout, first consider
>> >>   inodes exclusive to the memcg.  If unable to make enough progress,
>> >>   then consider inodes shared between memcg.  Such cross-memcg inode
>> >>   sharing likely to be rare in situations that use per-cgroup memory
>> >>   isolation.  The approach tries to handle the common (non-shared)
>> >>   case well without punishing well behaved (non-sharing) cgroups.
>> >>   As a last resort writeback shared inodes.
>> >>
>> >>   This routine is used by balance_dirty_pages() in a later change.
>> >>
>> >> - mem_cgroup_hierarchical_dirty_info() returns the dirty memory usage
>> >>   and limits of the memcg closest to (or over) its dirty limit.  This
>> >>   will be used by throttle_vm_writeout() in a latter change.
>> >>
>> >> Signed-off-by: Greg Thelen <gthelen at google.com>
>> >> ---
>> >> Changelog since v7:
>> >> - Add more detail to commit description.
>> >>
>> >> - Declare the new writeback_control for_cgroup bit in this change, the
>> >>   first patch that uses the new field is first used.  In -v7 the field
>> >>   was declared in a separate patch.
>> >>
>> >>  include/linux/memcontrol.h        |   18 +++++
>> >>  include/linux/writeback.h         |    1 +
>> >>  include/trace/events/memcontrol.h |   83 ++++++++++++++++++++
>> >>  mm/memcontrol.c                   |  150 +++++++++++++++++++++++++++++++++++++
>> >>  4 files changed, 252 insertions(+), 0 deletions(-)
>> >>
>> >> diff --git a/include/linux/memcontrol.h b/include/linux/memcontrol.h
>> >> index 3d72e09..0d0363e 100644
>> >> --- a/include/linux/memcontrol.h
>> >> +++ b/include/linux/memcontrol.h
>> >> @@ -167,6 +167,11 @@ bool should_writeback_mem_cgroup_inode(struct inode *inode,
>> >>                                   struct writeback_control *wbc);
>> >>  bool mem_cgroups_over_bground_dirty_thresh(void);
>> >>  void mem_cgroup_writeback_done(void);
>> >> +bool mem_cgroup_hierarchical_dirty_info(unsigned long sys_available_mem,
>> >> +                                  struct mem_cgroup *mem,
>> >> +                                  struct dirty_info *info);
>> >> +void mem_cgroup_balance_dirty_pages(struct address_space *mapping,
>> >> +                              unsigned long write_chunk);
>> >>
>> >>  unsigned long mem_cgroup_soft_limit_reclaim(struct zone *zone, int order,
>> >>                                            gfp_t gfp_mask,
>> >> @@ -383,6 +388,19 @@ static inline void mem_cgroup_writeback_done(void)
>> >>  {
>> >>  }
>> >>
>> >> +static inline void mem_cgroup_balance_dirty_pages(struct address_space *mapping,
>> >> +                                            unsigned long write_chunk)
>> >> +{
>> >> +}
>> >> +
>> >> +static inline bool
>> >> +mem_cgroup_hierarchical_dirty_info(unsigned long sys_available_mem,
>> >> +                             struct mem_cgroup *mem,
>> >> +                             struct dirty_info *info)
>> >> +{
>> >> +  return false;
>> >> +}
>> >> +
>> >>  static inline
>> >>  unsigned long mem_cgroup_soft_limit_reclaim(struct zone *zone, int order,
>> >>                                        gfp_t gfp_mask,
>> >> diff --git a/include/linux/writeback.h b/include/linux/writeback.h
>> >> index 66ec339..4f5c0d2 100644
>> >> --- a/include/linux/writeback.h
>> >> +++ b/include/linux/writeback.h
>> >> @@ -47,6 +47,7 @@ struct writeback_control {
>> >>    unsigned for_reclaim:1;         /* Invoked from the page allocator */
>> >>    unsigned range_cyclic:1;        /* range_start is cyclic */
>> >>    unsigned more_io:1;             /* more io to be dispatched */
>> >> +  unsigned for_cgroup:1;          /* enable cgroup writeback */
>> >>    unsigned shared_inodes:1;       /* write inodes spanning cgroups */
>> >>  };
>> >>
>> >> diff --git a/include/trace/events/memcontrol.h b/include/trace/events/memcontrol.h
>> >> index 326a66b..b42dae1 100644
>> >> --- a/include/trace/events/memcontrol.h
>> >> +++ b/include/trace/events/memcontrol.h
>> >> @@ -109,6 +109,89 @@ TRACE_EVENT(mem_cgroups_over_bground_dirty_thresh,
>> >>              __entry->first_id)
>> >>  )
>> >>
>> >> +DECLARE_EVENT_CLASS(mem_cgroup_consider_writeback,
>> >> +  TP_PROTO(unsigned short css_id,
>> >> +           struct backing_dev_info *bdi,
>> >> +           unsigned long nr_reclaimable,
>> >> +           unsigned long thresh,
>> >> +           bool over_limit),
>> >> +
>> >> +  TP_ARGS(css_id, bdi, nr_reclaimable, thresh, over_limit),
>> >> +
>> >> +  TP_STRUCT__entry(
>> >> +          __field(unsigned short, css_id)
>> >> +          __field(struct backing_dev_info *, bdi)
>> >> +          __field(unsigned long, nr_reclaimable)
>> >> +          __field(unsigned long, thresh)
>> >> +          __field(bool, over_limit)
>> >> +  ),
>> >> +
>> >> +  TP_fast_assign(
>> >> +          __entry->css_id = css_id;
>> >> +          __entry->bdi = bdi;
>> >> +          __entry->nr_reclaimable = nr_reclaimable;
>> >> +          __entry->thresh = thresh;
>> >> +          __entry->over_limit = over_limit;
>> >> +  ),
>> >> +
>> >> +  TP_printk("css_id=%d bdi=%p nr_reclaimable=%ld thresh=%ld "
>> >> +            "over_limit=%d", __entry->css_id, __entry->bdi,
>> >> +            __entry->nr_reclaimable, __entry->thresh, __entry->over_limit)
>> >> +)
>> >> +
>> >> +#define DEFINE_MEM_CGROUP_CONSIDER_WRITEBACK_EVENT(name) \
>> >> +DEFINE_EVENT(mem_cgroup_consider_writeback, name, \
>> >> +  TP_PROTO(unsigned short id, \
>> >> +           struct backing_dev_info *bdi, \
>> >> +           unsigned long nr_reclaimable, \
>> >> +           unsigned long thresh, \
>> >> +           bool over_limit), \
>> >> +  TP_ARGS(id, bdi, nr_reclaimable, thresh, over_limit) \
>> >> +)
>> >> +
>> >> +DEFINE_MEM_CGROUP_CONSIDER_WRITEBACK_EVENT(mem_cgroup_consider_bg_writeback);
>> >> +DEFINE_MEM_CGROUP_CONSIDER_WRITEBACK_EVENT(mem_cgroup_consider_fg_writeback);
>> >> +
>> >> +TRACE_EVENT(mem_cgroup_fg_writeback,
>> >> +  TP_PROTO(unsigned long write_chunk,
>> >> +           struct writeback_control *wbc),
>> >> +
>> >> +  TP_ARGS(write_chunk, wbc),
>> >> +
>> >> +  TP_STRUCT__entry(
>> >> +          __field(unsigned long, write_chunk)
>> >> +          __field(long, wbc_to_write)
>> >> +          __field(bool, shared_inodes)
>> >> +  ),
>> >> +
>> >> +  TP_fast_assign(
>> >> +          __entry->write_chunk = write_chunk;
>> >> +          __entry->wbc_to_write = wbc->nr_to_write;
>> >> +          __entry->shared_inodes = wbc->shared_inodes;
>> >> +  ),
>> >> +
>> >> +  TP_printk("write_chunk=%ld nr_to_write=%ld shared_inodes=%d",
>> >> +            __entry->write_chunk,
>> >> +            __entry->wbc_to_write,
>> >> +            __entry->shared_inodes)
>> >> +)
>> >> +
>> >> +TRACE_EVENT(mem_cgroup_enable_shared_writeback,
>> >> +  TP_PROTO(unsigned short css_id),
>> >> +
>> >> +  TP_ARGS(css_id),
>> >> +
>> >> +  TP_STRUCT__entry(
>> >> +          __field(unsigned short, css_id)
>> >> +          ),
>> >> +
>> >> +  TP_fast_assign(
>> >> +          __entry->css_id = css_id;
>> >> +          ),
>> >> +
>> >> +  TP_printk("enabling shared writeback for memcg %d", __entry->css_id)
>> >> +)
>> >> +
>> >>  #endif /* _TRACE_MEMCONTROL_H */
>> >>
>> >>  /* This part must be outside protection */
>> >> diff --git a/mm/memcontrol.c b/mm/memcontrol.c
>> >> index a5b1794..17cb888 100644
>> >> --- a/mm/memcontrol.c
>> >> +++ b/mm/memcontrol.c
>> >> @@ -1622,6 +1622,156 @@ void mem_cgroup_writeback_done(void)
>> >>    }
>> >>  }
>> >>
>> >> +/*
>> >> + * This routine must be called by processes which are generating dirty pages.
>> >> + * It considers the dirty pages usage and thresholds of the current cgroup and
>> >> + * (depending if hierarchical accounting is enabled) ancestral memcg.  If any of
>> >> + * the considered memcg are over their background dirty limit, then background
>> >> + * writeback is queued.  If any are over the foreground dirty limit then
>> >> + * throttle the dirtying task while writing dirty data.  The per-memcg dirty
>> >> + * limits check by this routine are distinct from either the per-system,
>> >> + * per-bdi, or per-task limits considered by balance_dirty_pages().
>> >> + */
>> >> +void mem_cgroup_balance_dirty_pages(struct address_space *mapping,
>> >> +                              unsigned long write_chunk)
>> >> +{
>> >> +  struct backing_dev_info *bdi = mapping->backing_dev_info;
>> >> +  struct mem_cgroup *mem;
>> >> +  struct mem_cgroup *ref_mem;
>> >> +  struct dirty_info info;
>> >> +  unsigned long nr_reclaimable;
>> >> +  unsigned long sys_available_mem;
>> >> +  unsigned long pause = 1;
>> >> +  unsigned short id;
>> >> +  bool over;
>> >> +  bool shared_inodes;
>> >> +
>> >> +  if (mem_cgroup_disabled())
>> >> +          return;
>> >> +
>> >> +  sys_available_mem = determine_dirtyable_memory();
>> >> +
>> >> +  /* reference the memcg so it is not deleted during this routine */
>> >> +  rcu_read_lock();
>> >> +  mem = mem_cgroup_from_task(current);
>> >> +  if (mem && mem_cgroup_is_root(mem))
>> >> +          mem = NULL;
>> >> +  if (mem)
>> >> +          css_get(&mem->css);
>> >> +  rcu_read_unlock();
>> >> +  ref_mem = mem;
>> >> +
>> >> +  /* balance entire ancestry of current's mem. */
>> >> +  for (; mem_cgroup_has_dirty_limit(mem); mem = parent_mem_cgroup(mem)) {
>> >> +          id = css_id(&mem->css);
>> >> +
>> >
>> > Hmm, this sounds natural...but...don't we need to restart checking from ref_mem's
>> > dirty_ratio once we find an ancestor is over dirty_ratio and we slept ?
>> >
>> > Even if parent's dirty ratio comes to be clean state, children's may not.
>> > So, I think some "restart loop" jump after io_schedule_timeout().
>> >
>> > Thanks,
>> > -Kame
>>
>> I do not think that we need to restart, but maybe you have a case in
>> mind that I am not considering.
>>
>> Example hierarchy:
>>               root
>>          A            B
>>      A1      A2
>>   A11 A12  A21 A22
>>
>> Assume that mem_cgroup_balance_dirty_pages(A11), so ref_mem=A11.
>>
>> We start at A11 and walk up towards the root.  If A11 is over limit,
>> then write A11 until under limit.  Next check A1, if over limit then
>> write A1,A11,A12.  Then check A.  If A is over A limit, then we invoke
>> writeback on A* until A is under A limit.  Are you concerned that while
>> performing writeback on A* that other tasks may push A1 over the A1
>> limit?  Such other task writers would also be calling
>> mem_cgroup_balance_dirty_pages() later.
>>
>
> Hm, ok. Could you add comments to explain the algorithm ?
>
> Thanks,
> -Kame

No problem.  I will add comments to this routine in -v9 to clarify.


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