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Release 4.15 kernel/bpf/cpumap.c

Directory: kernel/bpf
/* bpf/cpumap.c
 *
 * Copyright (c) 2017 Jesper Dangaard Brouer, Red Hat Inc.
 * Released under terms in GPL version 2.  See COPYING.
 */

/* The 'cpumap' is primarily used as a backend map for XDP BPF helper
 * call bpf_redirect_map() and XDP_REDIRECT action, like 'devmap'.
 *
 * Unlike devmap which redirects XDP frames out another NIC device,
 * this map type redirects raw XDP frames to another CPU.  The remote
 * CPU will do SKB-allocation and call the normal network stack.
 *
 * This is a scalability and isolation mechanism, that allow
 * separating the early driver network XDP layer, from the rest of the
 * netstack, and assigning dedicated CPUs for this stage.  This
 * basically allows for 10G wirespeed pre-filtering via bpf.
 */
#include <linux/bpf.h>
#include <linux/filter.h>
#include <linux/ptr_ring.h>

#include <linux/sched.h>
#include <linux/workqueue.h>
#include <linux/kthread.h>
#include <linux/capability.h>
#include <trace/events/xdp.h>

#include <linux/netdevice.h>   /* netif_receive_skb_core */
#include <linux/etherdevice.h> /* eth_type_trans */

/* General idea: XDP packets getting XDP redirected to another CPU,
 * will maximum be stored/queued for one driver ->poll() call.  It is
 * guaranteed that setting flush bit and flush operation happen on
 * same CPU.  Thus, cpu_map_flush operation can deduct via this_cpu_ptr()
 * which queue in bpf_cpu_map_entry contains packets.
 */


#define CPU_MAP_BULK_SIZE 8  
/* 8 == one cacheline on 64-bit archs */

struct xdp_bulk_queue {
	
void *q[CPU_MAP_BULK_SIZE];
	
unsigned int count;
};

/* Struct for every remote "destination" CPU in map */

struct bpf_cpu_map_entry {
	
u32 cpu;    /* kthread CPU and map index */
	
int map_id; /* Back reference to map */
	
u32 qsize;  /* Queue size placeholder for map lookup */

	/* XDP can run multiple RX-ring queues, need __percpu enqueue store */
	
struct xdp_bulk_queue __percpu *bulkq;

	/* Queue with potential multi-producers, and single-consumer kthread */
	
struct ptr_ring *queue;
	
struct task_struct *kthread;
	
struct work_struct kthread_stop_wq;

	
atomic_t refcnt; /* Control when this struct can be free'ed */
	
struct rcu_head rcu;
};


struct bpf_cpu_map {
	
struct bpf_map map;
	/* Below members specific for map type */
	
struct bpf_cpu_map_entry **cpu_map;
	
unsigned long __percpu *flush_needed;
};

static int bq_flush_to_queue(struct bpf_cpu_map_entry *rcpu,
			     struct xdp_bulk_queue *bq);


static u64 cpu_map_bitmap_size(const union bpf_attr *attr) { return BITS_TO_LONGS(attr->max_entries) * sizeof(unsigned long); }

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static struct bpf_map *cpu_map_alloc(union bpf_attr *attr) { struct bpf_cpu_map *cmap; int err = -ENOMEM; u64 cost; int ret; if (!capable(CAP_SYS_ADMIN)) return ERR_PTR(-EPERM); /* check sanity of attributes */ if (attr->max_entries == 0 || attr->key_size != 4 || attr->value_size != 4 || attr->map_flags & ~BPF_F_NUMA_NODE) return ERR_PTR(-EINVAL); cmap = kzalloc(sizeof(*cmap), GFP_USER); if (!cmap) return ERR_PTR(-ENOMEM); /* mandatory map attributes */ cmap->map.map_type = attr->map_type; cmap->map.key_size = attr->key_size; cmap->map.value_size = attr->value_size; cmap->map.max_entries = attr->max_entries; cmap->map.map_flags = attr->map_flags; cmap->map.numa_node = bpf_map_attr_numa_node(attr); /* Pre-limit array size based on NR_CPUS, not final CPU check */ if (cmap->map.max_entries > NR_CPUS) { err = -E2BIG; goto free_cmap; } /* make sure page count doesn't overflow */ cost = (u64) cmap->map.max_entries * sizeof(struct bpf_cpu_map_entry *); cost += cpu_map_bitmap_size(attr) * num_possible_cpus(); if (cost >= U32_MAX - PAGE_SIZE) goto free_cmap; cmap->map.pages = round_up(cost, PAGE_SIZE) >> PAGE_SHIFT; /* Notice returns -EPERM on if map size is larger than memlock limit */ ret = bpf_map_precharge_memlock(cmap->map.pages); if (ret) { err = ret; goto free_cmap; } /* A per cpu bitfield with a bit per possible CPU in map */ cmap->flush_needed = __alloc_percpu(cpu_map_bitmap_size(attr), __alignof__(unsigned long)); if (!cmap->flush_needed) goto free_cmap; /* Alloc array for possible remote "destination" CPUs */ cmap->cpu_map = bpf_map_area_alloc(cmap->map.max_entries * sizeof(struct bpf_cpu_map_entry *), cmap->map.numa_node); if (!cmap->cpu_map) goto free_percpu; return &cmap->map; free_percpu: free_percpu(cmap->flush_needed); free_cmap: kfree(cmap); return ERR_PTR(err); }

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void __cpu_map_queue_destructor(void *ptr) { /* The tear-down procedure should have made sure that queue is * empty. See __cpu_map_entry_replace() and work-queue * invoked cpu_map_kthread_stop(). Catch any broken behaviour * gracefully and warn once. */ if (WARN_ON_ONCE(ptr)) page_frag_free(ptr); }

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static void put_cpu_map_entry(struct bpf_cpu_map_entry *rcpu) { if (atomic_dec_and_test(&rcpu->refcnt)) { /* The queue should be empty at this point */ ptr_ring_cleanup(rcpu->queue, __cpu_map_queue_destructor); kfree(rcpu->queue); kfree(rcpu); } }

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static void get_cpu_map_entry(struct bpf_cpu_map_entry *rcpu) { atomic_inc(&rcpu->refcnt); }

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/* called from workqueue, to workaround syscall using preempt_disable */
static void cpu_map_kthread_stop(struct work_struct *work) { struct bpf_cpu_map_entry *rcpu; rcpu = container_of(work, struct bpf_cpu_map_entry, kthread_stop_wq); /* Wait for flush in __cpu_map_entry_free(), via full RCU barrier, * as it waits until all in-flight call_rcu() callbacks complete. */ rcu_barrier(); /* kthread_stop will wake_up_process and wait for it to complete */ kthread_stop(rcpu->kthread); }

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/* For now, xdp_pkt is a cpumap internal data structure, with info * carried between enqueue to dequeue. It is mapped into the top * headroom of the packet, to avoid allocating separate mem. */ struct xdp_pkt { void *data; u16 len; u16 headroom; u16 metasize; struct net_device *dev_rx; }; /* Convert xdp_buff to xdp_pkt */
static struct xdp_pkt *convert_to_xdp_pkt(struct xdp_buff *xdp) { struct xdp_pkt *xdp_pkt; int metasize; int headroom; /* Assure headroom is available for storing info */ headroom = xdp->data - xdp->data_hard_start; metasize = xdp->data - xdp->data_meta; metasize = metasize > 0 ? metasize : 0; if (unlikely((headroom - metasize) < sizeof(*xdp_pkt))) return NULL; /* Store info in top of packet */ xdp_pkt = xdp->data_hard_start; xdp_pkt->data = xdp->data; xdp_pkt->len = xdp->data_end - xdp->data; xdp_pkt->headroom = headroom - sizeof(*xdp_pkt); xdp_pkt->metasize = metasize; return xdp_pkt; }

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struct sk_buff *cpu_map_build_skb(struct bpf_cpu_map_entry *rcpu, struct xdp_pkt *xdp_pkt) { unsigned int frame_size; void *pkt_data_start; struct sk_buff *skb; /* build_skb need to place skb_shared_info after SKB end, and * also want to know the memory "truesize". Thus, need to * know the memory frame size backing xdp_buff. * * XDP was designed to have PAGE_SIZE frames, but this * assumption is not longer true with ixgbe and i40e. It * would be preferred to set frame_size to 2048 or 4096 * depending on the driver. * frame_size = 2048; * frame_len = frame_size - sizeof(*xdp_pkt); * * Instead, with info avail, skb_shared_info in placed after * packet len. This, unfortunately fakes the truesize. * Another disadvantage of this approach, the skb_shared_info * is not at a fixed memory location, with mixed length * packets, which is bad for cache-line hotness. */ frame_size = SKB_DATA_ALIGN(xdp_pkt->len) + xdp_pkt->headroom + SKB_DATA_ALIGN(sizeof(struct skb_shared_info)); pkt_data_start = xdp_pkt->data - xdp_pkt->headroom; skb = build_skb(pkt_data_start, frame_size); if (!skb) return NULL; skb_reserve(skb, xdp_pkt->headroom); __skb_put(skb, xdp_pkt->len); if (xdp_pkt->metasize) skb_metadata_set(skb, xdp_pkt->metasize); /* Essential SKB info: protocol and skb->dev */ skb->protocol = eth_type_trans(skb, xdp_pkt->dev_rx); /* Optional SKB info, currently missing: * - HW checksum info (skb->ip_summed) * - HW RX hash (skb_set_hash) * - RX ring dev queue index (skb_record_rx_queue) */ return skb; }

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static int cpu_map_kthread_run(void *data) { struct bpf_cpu_map_entry *rcpu = data; set_current_state(TASK_INTERRUPTIBLE); /* When kthread gives stop order, then rcpu have been disconnected * from map, thus no new packets can enter. Remaining in-flight * per CPU stored packets are flushed to this queue. Wait honoring * kthread_stop signal until queue is empty. */ while (!kthread_should_stop() || !__ptr_ring_empty(rcpu->queue)) { unsigned int processed = 0, drops = 0, sched = 0; struct xdp_pkt *xdp_pkt; /* Release CPU reschedule checks */ if (__ptr_ring_empty(rcpu->queue)) { set_current_state(TASK_INTERRUPTIBLE); /* Recheck to avoid lost wake-up */ if (__ptr_ring_empty(rcpu->queue)) { schedule(); sched = 1; } else { __set_current_state(TASK_RUNNING); } } else { sched = cond_resched(); } /* Process packets in rcpu->queue */ local_bh_disable(); /* * The bpf_cpu_map_entry is single consumer, with this * kthread CPU pinned. Lockless access to ptr_ring * consume side valid as no-resize allowed of queue. */ while ((xdp_pkt = __ptr_ring_consume(rcpu->queue))) { struct sk_buff *skb; int ret; skb = cpu_map_build_skb(rcpu, xdp_pkt); if (!skb) { page_frag_free(xdp_pkt); continue; } /* Inject into network stack */ ret = netif_receive_skb_core(skb); if (ret == NET_RX_DROP) drops++; /* Limit BH-disable period */ if (++processed == 8) break; } /* Feedback loop via tracepoint */ trace_xdp_cpumap_kthread(rcpu->map_id, processed, drops, sched); local_bh_enable(); /* resched point, may call do_softirq() */ } __set_current_state(TASK_RUNNING); put_cpu_map_entry(rcpu); return 0; }

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struct bpf_cpu_map_entry *__cpu_map_entry_alloc(u32 qsize, u32 cpu, int map_id) { gfp_t gfp = GFP_ATOMIC|__GFP_NOWARN; struct bpf_cpu_map_entry *rcpu; int numa, err; /* Have map->numa_node, but choose node of redirect target CPU */ numa = cpu_to_node(cpu); rcpu = kzalloc_node(sizeof(*rcpu), gfp, numa); if (!rcpu) return NULL; /* Alloc percpu bulkq */ rcpu->bulkq = __alloc_percpu_gfp(sizeof(*rcpu->bulkq), sizeof(void *), gfp); if (!rcpu->bulkq) goto free_rcu; /* Alloc queue */ rcpu->queue = kzalloc_node(sizeof(*rcpu->queue), gfp, numa); if (!rcpu->queue) goto free_bulkq; err = ptr_ring_init(rcpu->queue, qsize, gfp); if (err) goto free_queue; rcpu->cpu = cpu; rcpu->map_id = map_id; rcpu->qsize = qsize; /* Setup kthread */ rcpu->kthread = kthread_create_on_node(cpu_map_kthread_run, rcpu, numa, "cpumap/%d/map:%d", cpu, map_id); if (IS_ERR(rcpu->kthread)) goto free_ptr_ring; get_cpu_map_entry(rcpu); /* 1-refcnt for being in cmap->cpu_map[] */ get_cpu_map_entry(rcpu); /* 1-refcnt for kthread */ /* Make sure kthread runs on a single CPU */ kthread_bind(rcpu->kthread, cpu); wake_up_process(rcpu->kthread); return rcpu; free_ptr_ring: ptr_ring_cleanup(rcpu->queue, NULL); free_queue: kfree(rcpu->queue); free_bulkq: free_percpu(rcpu->bulkq); free_rcu: kfree(rcpu); return NULL; }

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void __cpu_map_entry_free(struct rcu_head *rcu) { struct bpf_cpu_map_entry *rcpu; int cpu; /* This cpu_map_entry have been disconnected from map and one * RCU graze-period have elapsed. Thus, XDP cannot queue any * new packets and cannot change/set flush_needed that can * find this entry. */ rcpu = container_of(rcu, struct bpf_cpu_map_entry, rcu); /* Flush remaining packets in percpu bulkq */ for_each_online_cpu(cpu) { struct xdp_bulk_queue *bq = per_cpu_ptr(rcpu->bulkq, cpu); /* No concurrent bq_enqueue can run at this point */ bq_flush_to_queue(rcpu, bq); } free_percpu(rcpu->bulkq); /* Cannot kthread_stop() here, last put free rcpu resources */ put_cpu_map_entry(rcpu); }

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/* After xchg pointer to bpf_cpu_map_entry, use the call_rcu() to * ensure any driver rcu critical sections have completed, but this * does not guarantee a flush has happened yet. Because driver side * rcu_read_lock/unlock only protects the running XDP program. The * atomic xchg and NULL-ptr check in __cpu_map_flush() makes sure a * pending flush op doesn't fail. * * The bpf_cpu_map_entry is still used by the kthread, and there can * still be pending packets (in queue and percpu bulkq). A refcnt * makes sure to last user (kthread_stop vs. call_rcu) free memory * resources. * * The rcu callback __cpu_map_entry_free flush remaining packets in * percpu bulkq to queue. Due to caller map_delete_elem() disable * preemption, cannot call kthread_stop() to make sure queue is empty. * Instead a work_queue is started for stopping kthread, * cpu_map_kthread_stop, which waits for an RCU graze period before * stopping kthread, emptying the queue. */
void __cpu_map_entry_replace(struct bpf_cpu_map *cmap, u32 key_cpu, struct bpf_cpu_map_entry *rcpu) { struct bpf_cpu_map_entry *old_rcpu; old_rcpu = xchg(&cmap->cpu_map[key_cpu], rcpu); if (old_rcpu) { call_rcu(&old_rcpu->rcu, __cpu_map_entry_free); INIT_WORK(&old_rcpu->kthread_stop_wq, cpu_map_kthread_stop); schedule_work(&old_rcpu->kthread_stop_wq); } }

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int cpu_map_delete_elem(struct bpf_map *map, void *key) { struct bpf_cpu_map *cmap = container_of(map, struct bpf_cpu_map, map); u32 key_cpu = *(u32 *)key; if (key_cpu >= map->max_entries) return -EINVAL; /* notice caller map_delete_elem() use preempt_disable() */ __cpu_map_entry_replace(cmap, key_cpu, NULL); return 0; }

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int cpu_map_update_elem(struct bpf_map *map, void *key, void *value, u64 map_flags) { struct bpf_cpu_map *cmap = container_of(map, struct bpf_cpu_map, map); struct bpf_cpu_map_entry *rcpu; /* Array index key correspond to CPU number */ u32 key_cpu = *(u32 *)key; /* Value is the queue size */ u32 qsize = *(u32 *)value; if (unlikely(map_flags > BPF_EXIST)) return -EINVAL; if (unlikely(key_cpu >= cmap->map.max_entries)) return -E2BIG; if (unlikely(map_flags == BPF_NOEXIST)) return -EEXIST; if (unlikely(qsize > 16384)) /* sanity limit on qsize */ return -EOVERFLOW; /* Make sure CPU is a valid possible cpu */ if (!cpu_possible(key_cpu)) return -ENODEV; if (qsize == 0) { rcpu = NULL; /* Same as deleting */ } else { /* Updating qsize cause re-allocation of bpf_cpu_map_entry */ rcpu = __cpu_map_entry_alloc(qsize, key_cpu, map->id); if (!rcpu) return -ENOMEM; } rcu_read_lock(); __cpu_map_entry_replace(cmap, key_cpu, rcpu); rcu_read_unlock(); return 0; }

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void cpu_map_free(struct bpf_map *map) { struct bpf_cpu_map *cmap = container_of(map, struct bpf_cpu_map, map); int cpu; u32 i; /* At this point bpf_prog->aux->refcnt == 0 and this map->refcnt == 0, * so the bpf programs (can be more than one that used this map) were * disconnected from events. Wait for outstanding critical sections in * these programs to complete. The rcu critical section only guarantees * no further "XDP/bpf-side" reads against bpf_cpu_map->cpu_map. * It does __not__ ensure pending flush operations (if any) are * complete. */ synchronize_rcu(); /* To ensure all pending flush operations have completed wait for flush * bitmap to indicate all flush_needed bits to be zero on _all_ cpus. * Because the above synchronize_rcu() ensures the map is disconnected * from the program we can assume no new bits will be set. */ for_each_online_cpu(cpu) { unsigned long *bitmap = per_cpu_ptr(cmap->flush_needed, cpu); while (!bitmap_empty(bitmap, cmap->map.max_entries)) cond_resched(); } /* For cpu_map the remote CPUs can still be using the entries * (struct bpf_cpu_map_entry). */ for (i = 0; i < cmap->map.max_entries; i++) { struct bpf_cpu_map_entry *rcpu; rcpu = READ_ONCE(cmap->cpu_map[i]); if (!rcpu) continue; /* bq flush and cleanup happens after RCU graze-period */ __cpu_map_entry_replace(cmap, i, NULL); /* call_rcu */ } free_percpu(cmap->flush_needed); bpf_map_area_free(cmap->cpu_map); kfree(cmap); }

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struct bpf_cpu_map_entry *__cpu_map_lookup_elem(struct bpf_map *map, u32 key) { struct bpf_cpu_map *cmap = container_of(map, struct bpf_cpu_map, map); struct bpf_cpu_map_entry *rcpu; if (key >= map->max_entries) return NULL; rcpu = READ_ONCE(cmap->cpu_map[key]); return rcpu; }

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static void *cpu_map_lookup_elem(struct bpf_map *map, void *key) { struct bpf_cpu_map_entry *rcpu = __cpu_map_lookup_elem(map, *(u32 *)key); return rcpu ? &rcpu->qsize : NULL; }

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static int cpu_map_get_next_key(struct bpf_map *map, void *key, void *next_key) { struct bpf_cpu_map *cmap = container_of(map, struct bpf_cpu_map, map); u32 index = key ? *(u32 *)key : U32_MAX; u32 *next = next_key; if (index >= cmap->map.max_entries) { *next = 0; return 0; } if (index == cmap->map.max_entries - 1) return -ENOENT; *next = index + 1; return 0; }

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const struct bpf_map_ops cpu_map_ops = { .map_alloc = cpu_map_alloc, .map_free = cpu_map_free, .map_delete_elem = cpu_map_delete_elem, .map_update_elem = cpu_map_update_elem, .map_lookup_elem = cpu_map_lookup_elem, .map_get_next_key = cpu_map_get_next_key, };
static int bq_flush_to_queue(struct bpf_cpu_map_entry *rcpu, struct xdp_bulk_queue *bq) { unsigned int processed = 0, drops = 0; const int to_cpu = rcpu->cpu; struct ptr_ring *q; int i; if (unlikely(!bq->count)) return 0; q = rcpu->queue; spin_lock(&q->producer_lock); for (i = 0; i < bq->count; i++) { void *xdp_pkt = bq->q[i]; int err; err = __ptr_ring_produce(q, xdp_pkt); if (err) { drops++; page_frag_free(xdp_pkt); /* Free xdp_pkt */ } processed++; } bq->count = 0; spin_unlock(&q->producer_lock); /* Feedback loop via tracepoints */ trace_xdp_cpumap_enqueue(rcpu->map_id, processed, drops, to_cpu); return 0; }

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/* Runs under RCU-read-side, plus in softirq under NAPI protection. * Thus, safe percpu variable access. */
static int bq_enqueue(struct bpf_cpu_map_entry *rcpu, struct xdp_pkt *xdp_pkt) { struct xdp_bulk_queue *bq = this_cpu_ptr(rcpu->bulkq); if (unlikely(bq->count == CPU_MAP_BULK_SIZE)) bq_flush_to_queue(rcpu, bq); /* Notice, xdp_buff/page MUST be queued here, long enough for * driver to code invoking us to finished, due to driver * (e.g. ixgbe) recycle tricks based on page-refcnt. * * Thus, incoming xdp_pkt is always queued here (else we race * with another CPU on page-refcnt and remaining driver code). * Queue time is very short, as driver will invoke flush * operation, when completing napi->poll call. */ bq->q[bq->count++] = xdp_pkt; return 0; }

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int cpu_map_enqueue(struct bpf_cpu_map_entry *rcpu, struct xdp_buff *xdp, struct net_device *dev_rx) { struct xdp_pkt *xdp_pkt; xdp_pkt = convert_to_xdp_pkt(xdp); if (unlikely(!xdp_pkt)) return -EOVERFLOW; /* Info needed when constructing SKB on remote CPU */ xdp_pkt->dev_rx = dev_rx; bq_enqueue(rcpu, xdp_pkt); return 0; }

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void __cpu_map_insert_ctx(struct bpf_map *map, u32 bit) { struct bpf_cpu_map *cmap = container_of(map, struct bpf_cpu_map, map); unsigned long *bitmap = this_cpu_ptr(cmap->flush_needed); __set_bit(bit, bitmap); }

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void __cpu_map_flush(struct bpf_map *map) { struct bpf_cpu_map *cmap = container_of(map, struct bpf_cpu_map, map); unsigned long *bitmap = this_cpu_ptr(cmap->flush_needed); u32 bit; /* The napi->poll softirq makes sure __cpu_map_insert_ctx() * and __cpu_map_flush() happen on same CPU. Thus, the percpu * bitmap indicate which percpu bulkq have packets. */ for_each_set_bit(bit, bitmap, map->max_entries) { struct bpf_cpu_map_entry *rcpu = READ_ONCE(cmap->cpu_map[bit]); struct xdp_bulk_queue *bq; /* This is possible if entry is removed by user space * between xdp redirect and flush op. */ if (unlikely(!rcpu)) continue; __clear_bit(bit, bitmap); /* Flush all frames in bulkq to real queue */ bq = this_cpu_ptr(rcpu->bulkq); bq_flush_to_queue(rcpu, bq); /* If already running, costs spin_lock_irqsave + smb_mb */ wake_up_process(rcpu->kthread); } }

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