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authorDavid Rientjes <rientjes@google.com>2010-03-27 19:40:47 -0700
committerPekka Enberg <penberg@cs.helsinki.fi>2010-04-07 19:28:31 +0300
commit8f9f8d9e8080a2ff46caa7decef47810d093d252 (patch)
treec9adbf892104431816b4a6aaf96083c649f3b36a
parent220bf991b0366cc50a94feede3d7341fa5710ee4 (diff)
downloadop-kernel-dev-8f9f8d9e8080a2ff46caa7decef47810d093d252.zip
op-kernel-dev-8f9f8d9e8080a2ff46caa7decef47810d093d252.tar.gz
slab: add memory hotplug support
Slab lacks any memory hotplug support for nodes that are hotplugged without cpus being hotplugged. This is possible at least on x86 CONFIG_MEMORY_HOTPLUG_SPARSE kernels where SRAT entries are marked ACPI_SRAT_MEM_HOT_PLUGGABLE and the regions of RAM represent a seperate node. It can also be done manually by writing the start address to /sys/devices/system/memory/probe for kernels that have CONFIG_ARCH_MEMORY_PROBE set, which is how this patch was tested, and then onlining the new memory region. When a node is hotadded, a nodelist for that node is allocated and initialized for each slab cache. If this isn't completed due to a lack of memory, the hotadd is aborted: we have a reasonable expectation that kmalloc_node(nid) will work for all caches if nid is online and memory is available. Since nodelists must be allocated and initialized prior to the new node's memory actually being online, the struct kmem_list3 is allocated off-node due to kmalloc_node()'s fallback. When an entire node would be offlined, its nodelists are subsequently drained. If slab objects still exist and cannot be freed, the offline is aborted. It is possible that objects will be allocated between this drain and page isolation, so it's still possible that the offline will still fail, however. Acked-by: Christoph Lameter <cl@linux-foundation.org> Signed-off-by: David Rientjes <rientjes@google.com> Signed-off-by: Pekka Enberg <penberg@cs.helsinki.fi>
-rw-r--r--mm/slab.c157
1 files changed, 125 insertions, 32 deletions
diff --git a/mm/slab.c b/mm/slab.c
index a9f325b..3230cd2 100644
--- a/mm/slab.c
+++ b/mm/slab.c
@@ -115,6 +115,7 @@
#include <linux/reciprocal_div.h>
#include <linux/debugobjects.h>
#include <linux/kmemcheck.h>
+#include <linux/memory.h>
#include <asm/cacheflush.h>
#include <asm/tlbflush.h>
@@ -1102,6 +1103,52 @@ static inline int cache_free_alien(struct kmem_cache *cachep, void *objp)
}
#endif
+/*
+ * Allocates and initializes nodelists for a node on each slab cache, used for
+ * either memory or cpu hotplug. If memory is being hot-added, the kmem_list3
+ * will be allocated off-node since memory is not yet online for the new node.
+ * When hotplugging memory or a cpu, existing nodelists are not replaced if
+ * already in use.
+ *
+ * Must hold cache_chain_mutex.
+ */
+static int init_cache_nodelists_node(int node)
+{
+ struct kmem_cache *cachep;
+ struct kmem_list3 *l3;
+ const int memsize = sizeof(struct kmem_list3);
+
+ list_for_each_entry(cachep, &cache_chain, next) {
+ /*
+ * Set up the size64 kmemlist for cpu before we can
+ * begin anything. Make sure some other cpu on this
+ * node has not already allocated this
+ */
+ if (!cachep->nodelists[node]) {
+ l3 = kmalloc_node(memsize, GFP_KERNEL, node);
+ if (!l3)
+ return -ENOMEM;
+ kmem_list3_init(l3);
+ l3->next_reap = jiffies + REAPTIMEOUT_LIST3 +
+ ((unsigned long)cachep) % REAPTIMEOUT_LIST3;
+
+ /*
+ * The l3s don't come and go as CPUs come and
+ * go. cache_chain_mutex is sufficient
+ * protection here.
+ */
+ cachep->nodelists[node] = l3;
+ }
+
+ spin_lock_irq(&cachep->nodelists[node]->list_lock);
+ cachep->nodelists[node]->free_limit =
+ (1 + nr_cpus_node(node)) *
+ cachep->batchcount + cachep->num;
+ spin_unlock_irq(&cachep->nodelists[node]->list_lock);
+ }
+ return 0;
+}
+
static void __cpuinit cpuup_canceled(long cpu)
{
struct kmem_cache *cachep;
@@ -1172,7 +1219,7 @@ static int __cpuinit cpuup_prepare(long cpu)
struct kmem_cache *cachep;
struct kmem_list3 *l3 = NULL;
int node = cpu_to_node(cpu);
- const int memsize = sizeof(struct kmem_list3);
+ int err;
/*
* We need to do this right in the beginning since
@@ -1180,35 +1227,9 @@ static int __cpuinit cpuup_prepare(long cpu)
* kmalloc_node allows us to add the slab to the right
* kmem_list3 and not this cpu's kmem_list3
*/
-
- list_for_each_entry(cachep, &cache_chain, next) {
- /*
- * Set up the size64 kmemlist for cpu before we can
- * begin anything. Make sure some other cpu on this
- * node has not already allocated this
- */
- if (!cachep->nodelists[node]) {
- l3 = kmalloc_node(memsize, GFP_KERNEL, node);
- if (!l3)
- goto bad;
- kmem_list3_init(l3);
- l3->next_reap = jiffies + REAPTIMEOUT_LIST3 +
- ((unsigned long)cachep) % REAPTIMEOUT_LIST3;
-
- /*
- * The l3s don't come and go as CPUs come and
- * go. cache_chain_mutex is sufficient
- * protection here.
- */
- cachep->nodelists[node] = l3;
- }
-
- spin_lock_irq(&cachep->nodelists[node]->list_lock);
- cachep->nodelists[node]->free_limit =
- (1 + nr_cpus_node(node)) *
- cachep->batchcount + cachep->num;
- spin_unlock_irq(&cachep->nodelists[node]->list_lock);
- }
+ err = init_cache_nodelists_node(node);
+ if (err < 0)
+ goto bad;
/*
* Now we can go ahead with allocating the shared arrays and
@@ -1331,11 +1352,75 @@ static struct notifier_block __cpuinitdata cpucache_notifier = {
&cpuup_callback, NULL, 0
};
+#if defined(CONFIG_NUMA) && defined(CONFIG_MEMORY_HOTPLUG)
+/*
+ * Drains freelist for a node on each slab cache, used for memory hot-remove.
+ * Returns -EBUSY if all objects cannot be drained so that the node is not
+ * removed.
+ *
+ * Must hold cache_chain_mutex.
+ */
+static int __meminit drain_cache_nodelists_node(int node)
+{
+ struct kmem_cache *cachep;
+ int ret = 0;
+
+ list_for_each_entry(cachep, &cache_chain, next) {
+ struct kmem_list3 *l3;
+
+ l3 = cachep->nodelists[node];
+ if (!l3)
+ continue;
+
+ drain_freelist(cachep, l3, l3->free_objects);
+
+ if (!list_empty(&l3->slabs_full) ||
+ !list_empty(&l3->slabs_partial)) {
+ ret = -EBUSY;
+ break;
+ }
+ }
+ return ret;
+}
+
+static int __meminit slab_memory_callback(struct notifier_block *self,
+ unsigned long action, void *arg)
+{
+ struct memory_notify *mnb = arg;
+ int ret = 0;
+ int nid;
+
+ nid = mnb->status_change_nid;
+ if (nid < 0)
+ goto out;
+
+ switch (action) {
+ case MEM_GOING_ONLINE:
+ mutex_lock(&cache_chain_mutex);
+ ret = init_cache_nodelists_node(nid);
+ mutex_unlock(&cache_chain_mutex);
+ break;
+ case MEM_GOING_OFFLINE:
+ mutex_lock(&cache_chain_mutex);
+ ret = drain_cache_nodelists_node(nid);
+ mutex_unlock(&cache_chain_mutex);
+ break;
+ case MEM_ONLINE:
+ case MEM_OFFLINE:
+ case MEM_CANCEL_ONLINE:
+ case MEM_CANCEL_OFFLINE:
+ break;
+ }
+out:
+ return ret ? notifier_from_errno(ret) : NOTIFY_OK;
+}
+#endif /* CONFIG_NUMA && CONFIG_MEMORY_HOTPLUG */
+
/*
* swap the static kmem_list3 with kmalloced memory
*/
-static void init_list(struct kmem_cache *cachep, struct kmem_list3 *list,
- int nodeid)
+static void __init init_list(struct kmem_cache *cachep, struct kmem_list3 *list,
+ int nodeid)
{
struct kmem_list3 *ptr;
@@ -1580,6 +1665,14 @@ void __init kmem_cache_init_late(void)
*/
register_cpu_notifier(&cpucache_notifier);
+#ifdef CONFIG_NUMA
+ /*
+ * Register a memory hotplug callback that initializes and frees
+ * nodelists.
+ */
+ hotplug_memory_notifier(slab_memory_callback, SLAB_CALLBACK_PRI);
+#endif
+
/*
* The reap timers are started later, with a module init call: That part
* of the kernel is not yet operational.
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