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Message-ID: <20200224114551.GE110915@debian-boqun.qqnc3lrjykvubdpftowmye0fmh.lx.internal.cloudapp.net>
Date: Mon, 24 Feb 2020 19:45:51 +0800
From: Boqun Feng <boqun.feng@...il.com>
To: paulmck@...nel.org
Cc: rcu@...r.kernel.org, linux-kernel@...r.kernel.org,
kernel-team@...com, mingo@...nel.org, jiangshanlai@...il.com,
dipankar@...ibm.com, akpm@...ux-foundation.org,
mathieu.desnoyers@...icios.com, josh@...htriplett.org,
tglx@...utronix.de, peterz@...radead.org, rostedt@...dmis.org,
dhowells@...hat.com, edumazet@...gle.com, fweisbec@...il.com,
oleg@...hat.com, joel@...lfernandes.org,
"Uladzislau Rezki (Sony)" <urezki@...il.com>
Subject: Re: [PATCH tip/core/rcu 1/2] rcu: Support kfree_bulk() interface in
kfree_rcu()
Hi,
On Fri, Feb 14, 2020 at 04:00:52PM -0800, paulmck@...nel.org wrote:
> From: "Uladzislau Rezki (Sony)" <urezki@...il.com>
>
> The kfree_rcu() logic can be improved further by using kfree_bulk()
> interface along with "basic batching support" introduced earlier.
>
> The are at least two advantages of using "bulk" interface:
> - in case of large number of kfree_rcu() requests kfree_bulk()
> reduces the per-object overhead caused by calling kfree()
> per-object.
>
> - reduces the number of cache-misses due to "pointer chasing"
> between objects which can be far spread between each other.
>
> This approach defines a new kfree_rcu_bulk_data structure that
> stores pointers in an array with a specific size. Number of entries
> in that array depends on PAGE_SIZE making kfree_rcu_bulk_data
> structure to be exactly one page.
>
> Since it deals with "block-chain" technique there is an extra
> need in dynamic allocation when a new block is required. Memory
> is allocated with GFP_NOWAIT | __GFP_NOWARN flags, i.e. that
> allows to skip direct reclaim under low memory condition to
> prevent stalling and fails silently under high memory pressure.
>
> The "emergency path" gets maintained when a system is run out of
> memory. In that case objects are linked into regular list.
>
> The "rcuperf" was run to analyze this change in terms of memory
> consumption and kfree_bulk() throughput.
>
> 1) Testing on the Intel(R) Xeon(R) W-2135 CPU @ 3.70GHz, 12xCPUs
> with following parameters:
>
> kfree_loops=200000 kfree_alloc_num=1000 kfree_rcu_test=1 kfree_vary_obj_size=1
> dev.2020.01.10a branch
>
> Default / CONFIG_SLAB
> 53607352517 ns, loops: 200000, batches: 1885, memory footprint: 1248MB
> 53529637912 ns, loops: 200000, batches: 1921, memory footprint: 1193MB
> 53570175705 ns, loops: 200000, batches: 1929, memory footprint: 1250MB
>
> Patch / CONFIG_SLAB
> 23981587315 ns, loops: 200000, batches: 810, memory footprint: 1219MB
> 23879375281 ns, loops: 200000, batches: 822, memory footprint: 1190MB
> 24086841707 ns, loops: 200000, batches: 794, memory footprint: 1380MB
>
> Default / CONFIG_SLUB
> 51291025022 ns, loops: 200000, batches: 1713, memory footprint: 741MB
> 51278911477 ns, loops: 200000, batches: 1671, memory footprint: 719MB
> 51256183045 ns, loops: 200000, batches: 1719, memory footprint: 647MB
>
> Patch / CONFIG_SLUB
> 50709919132 ns, loops: 200000, batches: 1618, memory footprint: 456MB
> 50736297452 ns, loops: 200000, batches: 1633, memory footprint: 507MB
> 50660403893 ns, loops: 200000, batches: 1628, memory footprint: 429MB
>
> in case of CONFIG_SLAB there is double increase in performance and
> slightly higher memory usage. As for CONFIG_SLUB, the performance
> figures are better together with lower memory usage.
>
> 2) Testing on the HiKey-960, arm64, 8xCPUs with below parameters:
>
> CONFIG_SLAB=y
> kfree_loops=200000 kfree_alloc_num=1000 kfree_rcu_test=1
>
> 102898760401 ns, loops: 200000, batches: 5822, memory footprint: 158MB
> 89947009882 ns, loops: 200000, batches: 6715, memory footprint: 115MB
>
> rcuperf shows approximately ~12% better throughput in case of
> using "bulk" interface. The "drain logic" or its RCU callback
> does the work faster that leads to better throughput.
>
> Signed-off-by: Uladzislau Rezki (Sony) <urezki@...il.com>
> Tested-by: Joel Fernandes (Google) <joel@...lfernandes.org>
> Signed-off-by: Paul E. McKenney <paulmck@...nel.org>
> ---
> kernel/rcu/tree.c | 204 ++++++++++++++++++++++++++++++++++++++++++++----------
> 1 file changed, 169 insertions(+), 35 deletions(-)
>
> diff --git a/kernel/rcu/tree.c b/kernel/rcu/tree.c
> index d91c915..51a3aa8 100644
> --- a/kernel/rcu/tree.c
> +++ b/kernel/rcu/tree.c
> @@ -2689,22 +2689,47 @@ EXPORT_SYMBOL_GPL(call_rcu);
> #define KFREE_DRAIN_JIFFIES (HZ / 50)
> #define KFREE_N_BATCHES 2
>
> +/*
> + * This macro defines how many entries the "records" array
> + * will contain. It is based on the fact that the size of
> + * kfree_rcu_bulk_data structure becomes exactly one page.
> + */
> +#define KFREE_BULK_MAX_ENTR ((PAGE_SIZE / sizeof(void *)) - 3)
> +
Why use the "magic" number "3" here? Could we just define struct
kfree_rcu_bulk_data as:
struct kfree_rcu_bulk_data {
struct kfree_rcu_bulk_data *next;
struct rcu_head *head_free_debug;
unsigned long nr_records;
void *records[];
}
?
And the the above macro becomes:
#define KFREE_BULK_MAX_ENTR ((PAGE_SIZE - sizeof(struct kfree_rcu_bulk_data)) / sizeof(void *))
Regards,
Boqun
> +/**
> + * struct kfree_rcu_bulk_data - single block to store kfree_rcu() pointers
> + * @nr_records: Number of active pointers in the array
> + * @records: Array of the kfree_rcu() pointers
> + * @next: Next bulk object in the block chain
> + * @head_free_debug: For debug, when CONFIG_DEBUG_OBJECTS_RCU_HEAD is set
> + */
> +struct kfree_rcu_bulk_data {
> + unsigned long nr_records;
> + void *records[KFREE_BULK_MAX_ENTR];
> + struct kfree_rcu_bulk_data *next;
> + struct rcu_head *head_free_debug;
> +};
> +
> /**
> * struct kfree_rcu_cpu_work - single batch of kfree_rcu() requests
> * @rcu_work: Let queue_rcu_work() invoke workqueue handler after grace period
> * @head_free: List of kfree_rcu() objects waiting for a grace period
> + * @bhead_free: Bulk-List of kfree_rcu() objects waiting for a grace period
> * @krcp: Pointer to @kfree_rcu_cpu structure
> */
>
> struct kfree_rcu_cpu_work {
> struct rcu_work rcu_work;
> struct rcu_head *head_free;
> + struct kfree_rcu_bulk_data *bhead_free;
> struct kfree_rcu_cpu *krcp;
> };
>
> /**
> * struct kfree_rcu_cpu - batch up kfree_rcu() requests for RCU grace period
> * @head: List of kfree_rcu() objects not yet waiting for a grace period
> + * @bhead: Bulk-List of kfree_rcu() objects not yet waiting for a grace period
> + * @bcached: Keeps at most one object for later reuse when build chain blocks
> * @krw_arr: Array of batches of kfree_rcu() objects waiting for a grace period
> * @lock: Synchronize access to this structure
> * @monitor_work: Promote @head to @head_free after KFREE_DRAIN_JIFFIES
> @@ -2718,6 +2743,8 @@ struct kfree_rcu_cpu_work {
> */
> struct kfree_rcu_cpu {
> struct rcu_head *head;
> + struct kfree_rcu_bulk_data *bhead;
> + struct kfree_rcu_bulk_data *bcached;
> struct kfree_rcu_cpu_work krw_arr[KFREE_N_BATCHES];
> spinlock_t lock;
> struct delayed_work monitor_work;
> @@ -2727,14 +2754,24 @@ struct kfree_rcu_cpu {
>
> static DEFINE_PER_CPU(struct kfree_rcu_cpu, krc);
>
> +static __always_inline void
> +debug_rcu_head_unqueue_bulk(struct rcu_head *head)
> +{
> +#ifdef CONFIG_DEBUG_OBJECTS_RCU_HEAD
> + for (; head; head = head->next)
> + debug_rcu_head_unqueue(head);
> +#endif
> +}
> +
> /*
> * This function is invoked in workqueue context after a grace period.
> - * It frees all the objects queued on ->head_free.
> + * It frees all the objects queued on ->bhead_free or ->head_free.
> */
> static void kfree_rcu_work(struct work_struct *work)
> {
> unsigned long flags;
> struct rcu_head *head, *next;
> + struct kfree_rcu_bulk_data *bhead, *bnext;
> struct kfree_rcu_cpu *krcp;
> struct kfree_rcu_cpu_work *krwp;
>
> @@ -2744,22 +2781,41 @@ static void kfree_rcu_work(struct work_struct *work)
> spin_lock_irqsave(&krcp->lock, flags);
> head = krwp->head_free;
> krwp->head_free = NULL;
> + bhead = krwp->bhead_free;
> + krwp->bhead_free = NULL;
> spin_unlock_irqrestore(&krcp->lock, flags);
>
> - // List "head" is now private, so traverse locklessly.
> + /* "bhead" is now private, so traverse locklessly. */
> + for (; bhead; bhead = bnext) {
> + bnext = bhead->next;
> +
> + debug_rcu_head_unqueue_bulk(bhead->head_free_debug);
> +
> + rcu_lock_acquire(&rcu_callback_map);
> + kfree_bulk(bhead->nr_records, bhead->records);
> + rcu_lock_release(&rcu_callback_map);
> +
> + if (cmpxchg(&krcp->bcached, NULL, bhead))
> + free_page((unsigned long) bhead);
> +
> + cond_resched_tasks_rcu_qs();
> + }
> +
> + /*
> + * Emergency case only. It can happen under low memory
> + * condition when an allocation gets failed, so the "bulk"
> + * path can not be temporary maintained.
> + */
> for (; head; head = next) {
> unsigned long offset = (unsigned long)head->func;
>
> next = head->next;
> - // Potentially optimize with kfree_bulk in future.
> debug_rcu_head_unqueue(head);
> rcu_lock_acquire(&rcu_callback_map);
> trace_rcu_invoke_kfree_callback(rcu_state.name, head, offset);
>
> - if (!WARN_ON_ONCE(!__is_kfree_rcu_offset(offset))) {
> - /* Could be optimized with kfree_bulk() in future. */
> + if (!WARN_ON_ONCE(!__is_kfree_rcu_offset(offset)))
> kfree((void *)head - offset);
> - }
>
> rcu_lock_release(&rcu_callback_map);
> cond_resched_tasks_rcu_qs();
> @@ -2774,26 +2830,48 @@ static void kfree_rcu_work(struct work_struct *work)
> */
> static inline bool queue_kfree_rcu_work(struct kfree_rcu_cpu *krcp)
> {
> + struct kfree_rcu_cpu_work *krwp;
> + bool queued = false;
> int i;
> - struct kfree_rcu_cpu_work *krwp = NULL;
>
> lockdep_assert_held(&krcp->lock);
> - for (i = 0; i < KFREE_N_BATCHES; i++)
> - if (!krcp->krw_arr[i].head_free) {
> - krwp = &(krcp->krw_arr[i]);
> - break;
> - }
>
> - // If a previous RCU batch is in progress, we cannot immediately
> - // queue another one, so return false to tell caller to retry.
> - if (!krwp)
> - return false;
> + for (i = 0; i < KFREE_N_BATCHES; i++) {
> + krwp = &(krcp->krw_arr[i]);
>
> - krwp->head_free = krcp->head;
> - krcp->head = NULL;
> - INIT_RCU_WORK(&krwp->rcu_work, kfree_rcu_work);
> - queue_rcu_work(system_wq, &krwp->rcu_work);
> - return true;
> + /*
> + * Try to detach bhead or head and attach it over any
> + * available corresponding free channel. It can be that
> + * a previous RCU batch is in progress, it means that
> + * immediately to queue another one is not possible so
> + * return false to tell caller to retry.
> + */
> + if ((krcp->bhead && !krwp->bhead_free) ||
> + (krcp->head && !krwp->head_free)) {
> + /* Channel 1. */
> + if (!krwp->bhead_free) {
> + krwp->bhead_free = krcp->bhead;
> + krcp->bhead = NULL;
> + }
> +
> + /* Channel 2. */
> + if (!krwp->head_free) {
> + krwp->head_free = krcp->head;
> + krcp->head = NULL;
> + }
> +
> + /*
> + * One work is per one batch, so there are two "free channels",
> + * "bhead_free" and "head_free" the batch can handle. It can be
> + * that the work is in the pending state when two channels have
> + * been detached following each other, one by one.
> + */
> + queue_rcu_work(system_wq, &krwp->rcu_work);
> + queued = true;
> + }
> + }
> +
> + return queued;
> }
>
> static inline void kfree_rcu_drain_unlock(struct kfree_rcu_cpu *krcp,
> @@ -2830,19 +2908,65 @@ static void kfree_rcu_monitor(struct work_struct *work)
> spin_unlock_irqrestore(&krcp->lock, flags);
> }
>
> +static inline bool
> +kfree_call_rcu_add_ptr_to_bulk(struct kfree_rcu_cpu *krcp,
> + struct rcu_head *head, rcu_callback_t func)
> +{
> + struct kfree_rcu_bulk_data *bnode;
> +
> + if (unlikely(!krcp->initialized))
> + return false;
> +
> + lockdep_assert_held(&krcp->lock);
> +
> + /* Check if a new block is required. */
> + if (!krcp->bhead ||
> + krcp->bhead->nr_records == KFREE_BULK_MAX_ENTR) {
> + bnode = xchg(&krcp->bcached, NULL);
> + if (!bnode) {
> + WARN_ON_ONCE(sizeof(struct kfree_rcu_bulk_data) > PAGE_SIZE);
> +
> + bnode = (struct kfree_rcu_bulk_data *)
> + __get_free_page(GFP_NOWAIT | __GFP_NOWARN);
> + }
> +
> + /* Switch to emergency path. */
> + if (unlikely(!bnode))
> + return false;
> +
> + /* Initialize the new block. */
> + bnode->nr_records = 0;
> + bnode->next = krcp->bhead;
> + bnode->head_free_debug = NULL;
> +
> + /* Attach it to the head. */
> + krcp->bhead = bnode;
> + }
> +
> +#ifdef CONFIG_DEBUG_OBJECTS_RCU_HEAD
> + head->func = func;
> + head->next = krcp->bhead->head_free_debug;
> + krcp->bhead->head_free_debug = head;
> +#endif
> +
> + /* Finally insert. */
> + krcp->bhead->records[krcp->bhead->nr_records++] =
> + (void *) head - (unsigned long) func;
> +
> + return true;
> +}
> +
> /*
> - * Queue a request for lazy invocation of kfree() after a grace period.
> + * Queue a request for lazy invocation of kfree_bulk()/kfree() after a grace
> + * period. Please note there are two paths are maintained, one is the main one
> + * that uses kfree_bulk() interface and second one is emergency one, that is
> + * used only when the main path can not be maintained temporary, due to memory
> + * pressure.
> *
> * Each kfree_call_rcu() request is added to a batch. The batch will be drained
> - * every KFREE_DRAIN_JIFFIES number of jiffies. All the objects in the batch
> - * will be kfree'd in workqueue context. This allows us to:
> - *
> - * 1. Batch requests together to reduce the number of grace periods during
> - * heavy kfree_rcu() load.
> - *
> - * 2. It makes it possible to use kfree_bulk() on a large number of
> - * kfree_rcu() requests thus reducing cache misses and the per-object
> - * overhead of kfree().
> + * every KFREE_DRAIN_JIFFIES number of jiffies. All the objects in the batch will
> + * be free'd in workqueue context. This allows us to: batch requests together to
> + * reduce the number of grace periods during heavy kfree_rcu() load.
> */
> void kfree_call_rcu(struct rcu_head *head, rcu_callback_t func)
> {
> @@ -2861,9 +2985,16 @@ void kfree_call_rcu(struct rcu_head *head, rcu_callback_t func)
> __func__, head);
> goto unlock_return;
> }
> - head->func = func;
> - head->next = krcp->head;
> - krcp->head = head;
> +
> + /*
> + * Under high memory pressure GFP_NOWAIT can fail,
> + * in that case the emergency path is maintained.
> + */
> + if (unlikely(!kfree_call_rcu_add_ptr_to_bulk(krcp, head, func))) {
> + head->func = func;
> + head->next = krcp->head;
> + krcp->head = head;
> + }
>
> // Set timer to drain after KFREE_DRAIN_JIFFIES.
> if (rcu_scheduler_active == RCU_SCHEDULER_RUNNING &&
> @@ -3769,8 +3900,11 @@ static void __init kfree_rcu_batch_init(void)
> struct kfree_rcu_cpu *krcp = per_cpu_ptr(&krc, cpu);
>
> spin_lock_init(&krcp->lock);
> - for (i = 0; i < KFREE_N_BATCHES; i++)
> + for (i = 0; i < KFREE_N_BATCHES; i++) {
> + INIT_RCU_WORK(&krcp->krw_arr[i].rcu_work, kfree_rcu_work);
> krcp->krw_arr[i].krcp = krcp;
> + }
> +
> INIT_DELAYED_WORK(&krcp->monitor_work, kfree_rcu_monitor);
> krcp->initialized = true;
> }
> --
> 2.9.5
>
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