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[PATCH] Dynamic sched domains: cpuset changes
Adds the core update_cpu_domains code and updated cpusets documentation Signed-off-by: Dinakar Guniguntala <dino@in.ibm.com> Acked-by: Paul Jackson <pj@sgi.com> Acked-by: Nick Piggin <nickpiggin@yahoo.com.au> Signed-off-by: Andrew Morton <akpm@osdl.org> Signed-off-by: Linus Torvalds <torvalds@osdl.org>
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2 changed files with 92 additions and 13 deletions
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@ -51,6 +51,14 @@ mems_allowed vector.
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If a cpuset is cpu or mem exclusive, no other cpuset, other than a direct
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ancestor or descendent, may share any of the same CPUs or Memory Nodes.
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A cpuset that is cpu exclusive has a sched domain associated with it.
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The sched domain consists of all cpus in the current cpuset that are not
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part of any exclusive child cpusets.
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This ensures that the scheduler load balacing code only balances
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against the cpus that are in the sched domain as defined above and not
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all of the cpus in the system. This removes any overhead due to
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load balancing code trying to pull tasks outside of the cpu exclusive
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cpuset only to be prevented by the tasks' cpus_allowed mask.
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User level code may create and destroy cpusets by name in the cpuset
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virtual file system, manage the attributes and permissions of these
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@ -84,6 +92,9 @@ This can be especially valuable on:
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and a database), or
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* NUMA systems running large HPC applications with demanding
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performance characteristics.
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* Also cpu_exclusive cpusets are useful for servers running orthogonal
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workloads such as RT applications requiring low latency and HPC
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applications that are throughput sensitive
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These subsets, or "soft partitions" must be able to be dynamically
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adjusted, as the job mix changes, without impacting other concurrently
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@ -125,6 +136,8 @@ Cpusets extends these two mechanisms as follows:
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- A cpuset may be marked exclusive, which ensures that no other
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cpuset (except direct ancestors and descendents) may contain
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any overlapping CPUs or Memory Nodes.
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Also a cpu_exclusive cpuset would be associated with a sched
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domain.
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- You can list all the tasks (by pid) attached to any cpuset.
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The implementation of cpusets requires a few, simple hooks
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@ -136,6 +149,9 @@ into the rest of the kernel, none in performance critical paths:
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allowed in that tasks cpuset.
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- in sched.c migrate_all_tasks(), to keep migrating tasks within
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the CPUs allowed by their cpuset, if possible.
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- in sched.c, a new API partition_sched_domains for handling
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sched domain changes associated with cpu_exclusive cpusets
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and related changes in both sched.c and arch/ia64/kernel/domain.c
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- in the mbind and set_mempolicy system calls, to mask the requested
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Memory Nodes by what's allowed in that tasks cpuset.
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- in page_alloc, to restrict memory to allowed nodes.
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@ -595,10 +595,62 @@ static int validate_change(const struct cpuset *cur, const struct cpuset *trial)
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return 0;
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}
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/*
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* For a given cpuset cur, partition the system as follows
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* a. All cpus in the parent cpuset's cpus_allowed that are not part of any
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* exclusive child cpusets
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* b. All cpus in the current cpuset's cpus_allowed that are not part of any
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* exclusive child cpusets
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* Build these two partitions by calling partition_sched_domains
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*
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* Call with cpuset_sem held. May nest a call to the
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* lock_cpu_hotplug()/unlock_cpu_hotplug() pair.
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*/
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static void update_cpu_domains(struct cpuset *cur)
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{
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struct cpuset *c, *par = cur->parent;
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cpumask_t pspan, cspan;
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if (par == NULL || cpus_empty(cur->cpus_allowed))
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return;
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/*
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* Get all cpus from parent's cpus_allowed not part of exclusive
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* children
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*/
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pspan = par->cpus_allowed;
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list_for_each_entry(c, &par->children, sibling) {
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if (is_cpu_exclusive(c))
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cpus_andnot(pspan, pspan, c->cpus_allowed);
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}
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if (is_removed(cur) || !is_cpu_exclusive(cur)) {
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cpus_or(pspan, pspan, cur->cpus_allowed);
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if (cpus_equal(pspan, cur->cpus_allowed))
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return;
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cspan = CPU_MASK_NONE;
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} else {
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if (cpus_empty(pspan))
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return;
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cspan = cur->cpus_allowed;
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/*
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* Get all cpus from current cpuset's cpus_allowed not part
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* of exclusive children
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*/
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list_for_each_entry(c, &cur->children, sibling) {
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if (is_cpu_exclusive(c))
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cpus_andnot(cspan, cspan, c->cpus_allowed);
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}
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}
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lock_cpu_hotplug();
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partition_sched_domains(&pspan, &cspan);
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unlock_cpu_hotplug();
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}
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static int update_cpumask(struct cpuset *cs, char *buf)
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{
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struct cpuset trialcs;
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int retval;
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int retval, cpus_unchanged;
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trialcs = *cs;
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retval = cpulist_parse(buf, trialcs.cpus_allowed);
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@ -608,9 +660,13 @@ static int update_cpumask(struct cpuset *cs, char *buf)
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if (cpus_empty(trialcs.cpus_allowed))
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return -ENOSPC;
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retval = validate_change(cs, &trialcs);
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if (retval == 0)
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cs->cpus_allowed = trialcs.cpus_allowed;
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return retval;
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if (retval < 0)
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return retval;
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cpus_unchanged = cpus_equal(cs->cpus_allowed, trialcs.cpus_allowed);
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cs->cpus_allowed = trialcs.cpus_allowed;
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if (is_cpu_exclusive(cs) && !cpus_unchanged)
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update_cpu_domains(cs);
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return 0;
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}
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static int update_nodemask(struct cpuset *cs, char *buf)
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@ -646,7 +702,7 @@ static int update_flag(cpuset_flagbits_t bit, struct cpuset *cs, char *buf)
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{
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int turning_on;
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struct cpuset trialcs;
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int err;
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int err, cpu_exclusive_changed;
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turning_on = (simple_strtoul(buf, NULL, 10) != 0);
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@ -657,13 +713,18 @@ static int update_flag(cpuset_flagbits_t bit, struct cpuset *cs, char *buf)
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clear_bit(bit, &trialcs.flags);
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err = validate_change(cs, &trialcs);
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if (err == 0) {
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if (turning_on)
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set_bit(bit, &cs->flags);
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else
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clear_bit(bit, &cs->flags);
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}
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return err;
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if (err < 0)
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return err;
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cpu_exclusive_changed =
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(is_cpu_exclusive(cs) != is_cpu_exclusive(&trialcs));
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if (turning_on)
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set_bit(bit, &cs->flags);
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else
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clear_bit(bit, &cs->flags);
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if (cpu_exclusive_changed)
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update_cpu_domains(cs);
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return 0;
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}
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static int attach_task(struct cpuset *cs, char *buf)
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@ -1309,12 +1370,14 @@ static int cpuset_rmdir(struct inode *unused_dir, struct dentry *dentry)
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up(&cpuset_sem);
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return -EBUSY;
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}
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spin_lock(&cs->dentry->d_lock);
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parent = cs->parent;
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set_bit(CS_REMOVED, &cs->flags);
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if (is_cpu_exclusive(cs))
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update_cpu_domains(cs);
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list_del(&cs->sibling); /* delete my sibling from parent->children */
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if (list_empty(&parent->children))
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check_for_release(parent);
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spin_lock(&cs->dentry->d_lock);
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d = dget(cs->dentry);
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cs->dentry = NULL;
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spin_unlock(&d->d_lock);
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