1. 15 May, 2004 5 commits
  2. 11 May, 2004 6 commits
  3. 10 May, 2004 29 commits
    • Dave Jones's avatar
      [CPUFREQ] Warning fixes. · 78d1c35b
      Dave Jones authored
      On sparc64:
                                                                                                                 
      drivers/cpufreq/cpufreq.c: In function `cpufreq_add_dev':
      drivers/cpufreq/cpufreq.c:394: warning: cast to pointer from integer of different size
      drivers/cpufreq/cpufreq.c: In function `handle_update':
      drivers/cpufreq/cpufreq.c:507: warning: cast from pointer to integer of different size
      78d1c35b
    • Andrew Morton's avatar
      [PATCH] migration_thread() race fix · 74499d32
      Andrew Morton authored
      From: Srivatsa Vaddagiri <vatsa@in.ibm.com>
      
      Noticed that migration_thread can examine "kthread_should_stop()?" without
      setting its state to TASK_INTERRUPTIBLE first.  This can cause kthread_stop
      on that thread to block forever ...
      
      P.S 	- I assumed that having the task state set to TASK_INTERRUTIBLE
      	  while it is doing active_load_balance is fine. It seemed to be
      	  the case earlier also.
      74499d32
    • Andrew Morton's avatar
      [PATCH] sched_getaffinity vs cpu hotplug race fix · 870d3c0a
      Andrew Morton authored
      From: Srivatsa Vaddagiri <vatsa@in.ibm.com>
      
      Fix the race in sys_sched_getaffinity.  Patch below takes cpu_hotplug lock
      before reading cpus_allowed mask of a task.
      870d3c0a
    • Andrew Morton's avatar
      [PATCH] Move migrate_all_tasks to CPU_DEAD handling · ddea677b
      Andrew Morton authored
      From: Srivatsa Vaddagiri <vatsa@in.ibm.com>
      
      migrate_all_tasks is currently run with rest of the machine stopped.
      It iterates thr' the complete task table, turning off cpu affinity of any task
      that it finds affine to the dying cpu. Depending on the task table
      size this can take considerable time. All this time machine is stopped, doing
      nothing.
      
      Stopping the machine for such extended periods can be avoided if we do
      task migration in CPU_DEAD notification and that's precisely what this patch
      does.
      
      The patch puts idle task to the _front_ of the dying CPU's runqueue at the 
      highest priority possible. This cause idle thread to run _immediately_ after
      kstopmachine thread yields. Idle thread notices that its cpu is offline and
      dies quickly. Task migration can then be done at leisure in CPU_DEAD
      notification, when rest of the CPUs are running.
      
      Some advantages with this approach are:
      
      	- More scalable. Predicatable amout of time that machine is stopped.
      	- No changes to hot path/core code. We are just exploiting scheduler
      	  rules which runs the next high-priority task on the runqueue. Also
      	  since I put idle task to the _front_ of the runqueue, there
      	  are no races when a equally high priority task is woken up
      	  and added to the runqueue. It gets in at the back of the runqueue,
      	  _after_ idle task!
      	- cpu_is_offline check that is presenty required in try_to_wake_up,
      	  idle_balance and rebalance_tick can be removed, thus speeding them
      	  up a bit
      
      From: Srivatsa Vaddagiri <vatsa@in.ibm.com>
      
        Rusty mentioned that the unlikely hints against cpu_is_offline is
        redundant since the macro already has that hint.  Patch below removes those
        redundant hints I added.
      ddea677b
    • Andrew Morton's avatar
      [PATCH] sched: Look at another CPU's domain · 4197ad87
      Andrew Morton authored
      From: Nick Piggin <nickpiggin@yahoo.com.au>
      
      The SMT wake_idle code really wants to look at a non-local CPU's domain in
      order to check for idle siblings.
      
      So change the domain attachment code a little bit so we continue to hold a
      runqueue's lock while attaching a new domain.  This means the locking rules
      have changed to: you may access your own domain without any lock, you must
      hold a remote runqueue's lock in order to view its domain.
      4197ad87
    • Andrew Morton's avatar
      [PATCH] sched: micro-optimisation for wake_up · 25de0902
      Andrew Morton authored
      From: Nick Piggin <nickpiggin@yahoo.com.au>
      
      This actually does produce better code, especially under the locked
      section.
      
      Turns a conditional + unconditional jump under the lock in the unlikely
      case into a cmov outside the lock.
      25de0902
    • Andrew Morton's avatar
      [PATCH] sched: reduce idle time · 85841fc0
      Andrew Morton authored
      From: Nick Piggin <nickpiggin@yahoo.com.au>
      
      It makes NEWLY_IDLE balances cause find_busiest_group return the busiest
      available group even if there isn't an imbalance.  Basically - try a bit
      harder to prevent schedule emptying the runqueue.
      
      It is quite aggressive, but that isn't so bad because we don't (by default)
      do NEWLY_IDLE balancing across NUMA nodes, and NEWLY_IDLE balancing is always
      restricted to cache_hot tasks.
      
      It picked up a little bit of idle time that dbt2-pgsql was seeing...
      85841fc0
    • Andrew Morton's avatar
      [PATCH] sched: balance-on-clone · 8c8cfc36
      Andrew Morton authored
      From: Ingo Molnar <mingo@elte.hu>
      
      Implement balancing during clone().  It does the following things:
      
      - introduces SD_BALANCE_CLONE that can serve as a tool for an
        architecture to limit the search-idlest-CPU scope on clone().
        E.g. the 512-CPU systems should rather not enable this.
      
      - uses the highest sd for the imbalance_pct, not this_rq (which didnt
        make sense).
      
      - unifies balance-on-exec and balance-on-clone via the find_idlest_cpu()
        function. Gets rid of sched_best_cpu() which was still a bit
        inconsistent IMO, it used 'min_load < load' as a condition for
        balancing - while a more correct approach would be to use half of the
        imbalance_pct, like passive balancing does.
      
      - the patch also reintroduces the possibility to do SD_BALANCE_EXEC on
        SMP systems, and activates it - to get testing.
      
      - NOTE: there's one thing in this patch that is slightly unclean: i
        introduced wake_up_forked_thread. I did this to make it easier to get
        rid of this patch later (wake_up_forked_process() has lots of
        dependencies in various architectures). If this capability remains in
        the kernel then i'll clean it up and introduce one function for
        wake_up_forked_process/thread.
      
      - NOTE2: i added the SD_BALANCE_CLONE flag to the NUMA CPU template too.
        Some NUMA architectures probably want to disable this.
      8c8cfc36
    • Andrew Morton's avatar
      [PATCH] sched: cpu load management cleanup · a690c9b7
      Andrew Morton authored
      From: Ingo Molnar <mingo@elte.hu>
      
      This does the source/target cleanup.  This is a no-functionality patch which
      also adds more comments to explain these functions.
      a690c9b7
    • Andrew Morton's avatar
      [PATCH] sched: passive balancing damping · df65cdbf
      Andrew Morton authored
      From: Nick Piggin <nickpiggin@yahoo.com.au>
      
      This patch starts to balance woken processes when half the relevant domain's
      imbalance_pct is reached.  Previously balancing would start after a small,
      constant difference in waker/wakee runqueue loads was reached, which would
      cause too much process movement when there are lots of processes running.
      
      It also turns wake balancing into a domain flag while previously it was always
      on.  Now sched domains can "soft partition" an SMP system without using
      processor affinities.
      df65cdbf
    • Andrew Morton's avatar
      [PATCH] sched: cleanups · 237eaf03
      Andrew Morton authored
      From: Ingo Molnar <mingo@elte.hu>
      
      This re-adds cleanups which were lost in splitups of an earlier patch.
      237eaf03
    • Andrew Morton's avatar
      [PATCH] sched: lock cpu_attach_domain for hotplug · 2ce2e329
      Andrew Morton authored
      From: Nick Piggin <nickpiggin@yahoo.com.au>
      
      The attached patch is required to work correctly with the CPU hotplug
      framework.  John Hawkes reports successful booting with this.
      2ce2e329
    • Andrew Morton's avatar
      [PATCH] sched: extend sync wakeups · 7dc12702
      Andrew Morton authored
      From: Ingo Molnar <mingo@elte.hu>
      
      The attached patch extends sync wakeups to the process sys_exit() path too:
      the chldwait wakeup can be done sync, since we know that the process is
      going to exit (and thus deschedule).
      
      The most visible effect of this change is strace's behavior on SMP systems:
      it now stays on a single CPU, together with the traced child.  (previously
      it would run in parallel to the child, bouncing around madly.)
      7dc12702
    • Andrew Morton's avatar
      [PATCH] sched: add enqueeu_task_head() · 3c6f29aa
      Andrew Morton authored
      From: Ingo Molnar <mingo@elte.hu>
      
      Helper function for later patches
      3c6f29aa
    • Andrew Morton's avatar
      [PATCH] sched: uninlinings · 78650e1b
      Andrew Morton authored
      From: Ingo Molnar <mingo@elte.hu>
      
      Uninline things
      78650e1b
    • Andrew Morton's avatar
      [PATCH] sched: minor cleanups · 2f16618a
      Andrew Morton authored
      From: Nick Piggin <nickpiggin@yahoo.com.au>
      
      Minor cleanups from Ingo's patch including task_hot (do it right in
      try_to_wake_up too).
      2f16618a
    • Andrew Morton's avatar
      [PATCH] sched: fix setup races · 80b19256
      Andrew Morton authored
      From: Nick Piggin <nickpiggin@yahoo.com.au>
      
      De-racify the sched domain setup code.  This involves creating a dummy
      "init" domain during sched_init (which is called early).
      
      When topology information becomes available, the sched domains are then
      built and attached.  The attach mechanism is asynchronous and uses the
      migration threads, which perform the switch with interrupts off.  This is a
      quiescent state, so domains can still be lockless on the read side.  It
      also allows us to change the domains at runtime without much more work. 
      This is something SGI is interested in to elegantly do soft partitioning of
      their systems without having to use hard cpu affinities (which cause
      balancing problems of their own).
      
      The current setup code also has a race somewhere because it is unable to
      boot on a 384 CPU system.
      
      
      
      From: Anton Blanchard <anton@samba.org>
      
         This is basically a mindless ppc64 merge of the x86 changes to sched
         domain init code.
      
         Actually if I produce a sibling_map[] then the x86 code and the ppc64
         will be identical.  Maybe we can merge it.
      80b19256
    • Andrew Morton's avatar
      [PATCH] ARCH_HAS_SCHED_WAKE_BALANCE doesnt exist · 17d66773
      Andrew Morton authored
      From: Anton Blanchard <anton@samba.org>
      
      It seems someone has been making trivial changes without using grep.
      17d66773
    • Andrew Morton's avatar
      [PATCH] ppc64: sched-domain support · 019bc3be
      Andrew Morton authored
      From: Anton Blanchard <anton@samba.org>
      
      Below are the diffs between the current ppc64 sched init stuff and x86.
      
      - Ignore the POWER5 specific stuff, I dont set up a sibling map yet.
      - What should I set cache_hot_time to?
      
      large cpumask typechecking requirements (perhaps useful on x86 as well):
      - cpu->cpumask = CPU_MASK_NONE -> cpus_clear(cpu->cpumask);
      - cpus_and(nodemask, node_to_cpumask(i), cpu_possible_map) doesnt work,
        need to use a temporary
      019bc3be
    • Andrew Morton's avatar
      [PATCH] sched: oops fix · a65fb1d0
      Andrew Morton authored
      From: Nick Piggin <nickpiggin@yahoo.com.au>
      
      After the for_each_domain change, the warn here won't trigger, instead it
      will oops in the if statement.  Also, make sure we don't pass an empty
      cpumask to for_each_cpu.
      a65fb1d0
    • Andrew Morton's avatar
      [PATCH] sched: altix tuning · fd7b7b0f
      Andrew Morton authored
      From: Nick Piggin <nickpiggin@yahoo.com.au>
      
      From: John Hawkes
      
      The following brings up performance on a 64-way Altix.  This system being on
      the smaller end of the scale should also be applicable to other NUMA systems.
      fd7b7b0f
    • Andrew Morton's avatar
      [PATCH] sched: fix imbalance calculations · 50386fbc
      Andrew Morton authored
      From: Nick Piggin <nickpiggin@yahoo.com.au>
      
      Imbalance calculations were not right.  This would cause unneeded migration.
      50386fbc
    • Andrew Morton's avatar
      [PATCH] sched: wakeup balancing fixes · 713551bc
      Andrew Morton authored
      From: Nick Piggin <nickpiggin@yahoo.com.au>
      
      Make affine wakes and "passive load balancing" more conservative.  Aggressive
      affine wakeups were causing huge regressions in dbt3-pgsql on 8-way non NUMA
      systems at OSDL's STP.
      713551bc
    • Andrew Morton's avatar
      [PATCH] Hotplug CPU sched_balance_exec Fix · 91bc0bf7
      Andrew Morton authored
      From: Rusty Russell <rusty@rustcorp.com.au>
      
      From: Srivatsa Vaddagiri <vatsa@in.ibm.com>
      From: Andrew Morton <akpm@osdl.org>
      From: Rusty Russell <rusty@rustcorp.com.au>
      
      We want to get rid of lock_cpu_hotplug() in sched_migrate_task.  Found
      that lockless migration of execing task is _extremely_ racy.  The
      races I hit are described below, alongwith probable solutions.
      
      Task migration done elsewhere should be safe (?) since they either
      hold the lock (sys_sched_setaffinity) or are done entirely with preemption 
      disabled (load_balance).
      
         sched_balance_exec does:
      
      	a. disables preemption
      	b. finds new_cpu for current
      	c. enables preemption
      	d. calls sched_migrate_task to migrate current to new_cpu
      
         and sched_migrate_task does:
      
      	e. task_rq_lock(p)
      	f. migrate_task(p, dest_cpu ..)
      		(if we have to wait for migration thread)
      		g. task_rq_unlock()
      		h. wake_up_process(rq->migration_thread)
      		i. wait_for_completion()
      
         Several things can happen here:
      
      	1. new_cpu can go down after h and before migration thread has
      	   got around to handle the request
      
      	   ==> we need to add a cpu_is_offline check in __migrate_task
      
      	2. new_cpu can go down between c and d or before f.
      
      	   ===> Even though this case is automatically handled by the above 
      	        change (migrate_task being called on a running task, current,
      		will delegate migration to migration thread), would it be 
      	 	good practice to avoid calling migrate_task in the first place
      		itself when dest_cpu is offline. This means adding another
      	 	cpu_is_offline check after e in sched_migrate_task
      
      	3. The 'current' task can get preempted _immediately_ after
      	   g and when it comes back, task_cpu(p) can be dead. In
      	   which case, it is invalid to do wake_up on a non-existent migration 
      	   thread.  (rq->migration_thread can be NULL).
      
      	   ===> We should disable preemption thr' g and h
      
      	4. Before migration thread gets around to handle the request, its cpu
      	   goes dead. This will leave unhandled migration requests in the dead 
      	   cpu. 
      
      	   ===> We need to wakeup sleeping requestors (if any) in CPU_DEAD
      	        notification.
      
      I really wonder if we can get rid of these issues by avoiding balancing at 
      exec time and instead have it balanced during load_balance ..Alternately
      if this is valuable and we want to retain it, I think we still need to
      consider a read/write sem, with sched_migrate_task doing down_read_trylock.
      This may eliminate the deadlock I hit between cpu_up and CPU_UP_PREPARE 
      notification, which had forced me away from r/w sem.
      
      Anyway patch below addresses the above races. Its against 2.6.6-rc2-mm1
      and has been tested on a 4way Intel Pentium SMP m/c.
      
      
      Rusty sez:
      
      Two other changes:
      1) I grabbed a reference to the thread, rather than using
      preempt_disable().  It's the more obvious way I think.
      
      2) Why the wait_to_die code?  It might be needed if we move tasks after
      stop_machine, but for nowI don't see the problem with the migration
      thread running on the wrong CPU for a bit: nothing is on this runqueue
      so active_load_balance is safe, and __migrate task will be a noop (due
      to cpu_is_offline() check).  If there is a problem, your fix is racy,
      because we could be preempted immediately afterwards.
      
      So I just stop the kthread then wakeup any remaining...
      91bc0bf7
    • Andrew Morton's avatar
      [PATCH] sched: trivial fixes, cleanups · 850f7d78
      Andrew Morton authored
      From: Ingo Molnar <mingo@elte.hu>
      
      The trivial fixes.
      
      - added recent trivial bits from Nick's and my patches.
      - hotplug CPU fix
      - early init cleanup
      850f7d78
    • Andrew Morton's avatar
      [PATCH] Reduce TLB flushing during process migration · fa8f2c50
      Andrew Morton authored
      From: Martin Hicks <mort@wildopensource.com>
      
      Another optimization patch from Jack Steiner, intended to reduce TLB
      flushes during process migration.
      
      Most architextures should define tlb_migrate_prepare() to be flush_tlb_mm(),
      but on i386, it would be a wasted flush, because i386 disconnects previous
      cpus from the tlb flush automatically.
      fa8f2c50
    • Andrew Morton's avatar
      [PATCH] sched: add local load metrics · 1ec43096
      Andrew Morton authored
      From: Nick Piggin <piggin@cyberone.com.au>
      
      This patch removes the per runqueue array of NR_CPU arrays.  Each time we
      want to check a remote CPU's load we check nr_running as well anyway, so
      introduce a cpu_load which is the load of the local runqueue and is kept
      updated in the timer tick.  Put them in the same cacheline.
      
      This has additional benefits of having the cpu_load consistent across all
      CPUs and more up to date.  It is sampled better too, being updated once per
      timer tick.
      
      This shouldn't make much difference in scheduling behaviour, but all
      benchmarks are either as good or better on the 16-way NUMAQ: hackbench,
      reaim, volanomark are about the same, tbench and dbench are maybe a bit
      better.  kernbench is about one percent better.
      
      John reckons it isn't a big deal, but it does save 4K per CPU or 2MB total
      on his big systems, so I figure it must be a bit kinder on the caches.  I
      think it is just nicer in general anyway.
      1ec43096
    • Andrew Morton's avatar
      [PATCH] sched: SMT niceness handling · 47ad0fce
      Andrew Morton authored
      From: Con Kolivas <kernel@kolivas.org>
      
      This patch provides full per-package priority support for SMT processors
      (aka pentium4 hyperthreading) when combined with CONFIG_SCHED_SMT.
      
      It maintains cpu percentage distribution within each physical cpu package
      by limiting the time a lower priority task can run on a sibling cpu
      concurrently with a higher priority task.
      
      It introduces a new flag into the scheduler domain
      unsigned int per_cpu_gain;	/* CPU % gained by adding domain cpus */
      
      This is empirically set to 15% for pentium4 at the moment and can be
      modified to support different values dynamically as newer processors come
      out with improved SMT performance.  It should not matter how many siblings
      there are.
      
      How it works is it compares tasks running on sibling cpus and when a lower
      static priority task is running it will delay it till
      high_priority_timeslice * (100 - per_cpu_gain) / 100 <= low_prio_timeslice
      
      eg.  a nice 19 task timeslice is 10ms and nice 0 timeslice is 102ms On
      vanilla the nice 0 task runs on one logical cpu while the nice 19 task runs
      unabated on the other logical cpu.  With smtnice the nice 0 runs on one
      logical cpu for 102ms and the nice 19 sleeps till the nice 0 task has 12ms
      remaining and then will schedule.
      
      Real time tasks and kernel threads are not altered by this code, and kernel
      threads do not delay lower priority user tasks.
      
      with lots of thanks to Zwane Mwaikambo and Nick Piggin for help with the
      coding of this version.
      
      If this is merged, it is probably best to delay pushing this upstream in
      mainline till sched_domains gets tested for at least one major release.
      47ad0fce
    • Andrew Morton's avatar
      [PATCH] sched_domains: use cpu_possible_map · a5f39fd8
      Andrew Morton authored
      From: Nick Piggin <piggin@cyberone.com.au>
      
      This changes sched domains to contain all possible CPUs, and check for
      online as needed.  It's in order to play nicely with CPU hotplug.
      a5f39fd8