cregit-Linux how code gets into the kernel

Release 4.11 drivers/net/ethernet/chelsio/cxgb3/l2t.c

/*
 * Copyright (c) 2003-2008 Chelsio, Inc. All rights reserved.
 *
 * This software is available to you under a choice of one of two
 * licenses.  You may choose to be licensed under the terms of the GNU
 * General Public License (GPL) Version 2, available from the file
 * COPYING in the main directory of this source tree, or the
 * OpenIB.org BSD license below:
 *
 *     Redistribution and use in source and binary forms, with or
 *     without modification, are permitted provided that the following
 *     conditions are met:
 *
 *      - Redistributions of source code must retain the above
 *        copyright notice, this list of conditions and the following
 *        disclaimer.
 *
 *      - Redistributions in binary form must reproduce the above
 *        copyright notice, this list of conditions and the following
 *        disclaimer in the documentation and/or other materials
 *        provided with the distribution.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
 * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
 * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
 * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
 * BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
 * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
 * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
 * SOFTWARE.
 */
#include <linux/skbuff.h>
#include <linux/netdevice.h>
#include <linux/if.h>
#include <linux/if_vlan.h>
#include <linux/jhash.h>
#include <linux/slab.h>
#include <linux/export.h>
#include <net/neighbour.h>
#include "common.h"
#include "t3cdev.h"
#include "cxgb3_defs.h"
#include "l2t.h"
#include "t3_cpl.h"
#include "firmware_exports.h"


#define VLAN_NONE 0xfff

/*
 * Module locking notes:  There is a RW lock protecting the L2 table as a
 * whole plus a spinlock per L2T entry.  Entry lookups and allocations happen
 * under the protection of the table lock, individual entry changes happen
 * while holding that entry's spinlock.  The table lock nests outside the
 * entry locks.  Allocations of new entries take the table lock as writers so
 * no other lookups can happen while allocating new entries.  Entry updates
 * take the table lock as readers so multiple entries can be updated in
 * parallel.  An L2T entry can be dropped by decrementing its reference count
 * and therefore can happen in parallel with entry allocation but no entry
 * can change state or increment its ref count during allocation as both of
 * these perform lookups.
 */


static inline unsigned int vlan_prio(const struct l2t_entry *e) { return e->vlan >> 13; }

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static inline unsigned int arp_hash(u32 key, int ifindex, const struct l2t_data *d) { return jhash_2words(key, ifindex, 0) & (d->nentries - 1); }

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static inline void neigh_replace(struct l2t_entry *e, struct neighbour *n) { neigh_hold(n); if (e->neigh) neigh_release(e->neigh); e->neigh = n; }

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/* * Set up an L2T entry and send any packets waiting in the arp queue. The * supplied skb is used for the CPL_L2T_WRITE_REQ. Must be called with the * entry locked. */
static int setup_l2e_send_pending(struct t3cdev *dev, struct sk_buff *skb, struct l2t_entry *e) { struct cpl_l2t_write_req *req; struct sk_buff *tmp; if (!skb) { skb = alloc_skb(sizeof(*req), GFP_ATOMIC); if (!skb) return -ENOMEM; } req = (struct cpl_l2t_write_req *)__skb_put(skb, sizeof(*req)); req->wr.wr_hi = htonl(V_WR_OP(FW_WROPCODE_FORWARD)); OPCODE_TID(req) = htonl(MK_OPCODE_TID(CPL_L2T_WRITE_REQ, e->idx)); req->params = htonl(V_L2T_W_IDX(e->idx) | V_L2T_W_IFF(e->smt_idx) | V_L2T_W_VLAN(e->vlan & VLAN_VID_MASK) | V_L2T_W_PRIO(vlan_prio(e))); memcpy(e->dmac, e->neigh->ha, sizeof(e->dmac)); memcpy(req->dst_mac, e->dmac, sizeof(req->dst_mac)); skb->priority = CPL_PRIORITY_CONTROL; cxgb3_ofld_send(dev, skb); skb_queue_walk_safe(&e->arpq, skb, tmp) { __skb_unlink(skb, &e->arpq); cxgb3_ofld_send(dev, skb); } e->state = L2T_STATE_VALID; return 0; }

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David S. Miller198.12%150.00%
Total234100.00%2100.00%

/* * Add a packet to the an L2T entry's queue of packets awaiting resolution. * Must be called with the entry's lock held. */
static inline void arpq_enqueue(struct l2t_entry *e, struct sk_buff *skb) { __skb_queue_tail(&e->arpq, skb); }

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int t3_l2t_send_slow(struct t3cdev *dev, struct sk_buff *skb, struct l2t_entry *e) { again: switch (e->state) { case L2T_STATE_STALE: /* entry is stale, kick off revalidation */ neigh_event_send(e->neigh, NULL); spin_lock_bh(&e->lock); if (e->state == L2T_STATE_STALE) e->state = L2T_STATE_VALID; spin_unlock_bh(&e->lock); case L2T_STATE_VALID: /* fast-path, send the packet on */ return cxgb3_ofld_send(dev, skb); case L2T_STATE_RESOLVING: spin_lock_bh(&e->lock); if (e->state != L2T_STATE_RESOLVING) { /* ARP already completed */ spin_unlock_bh(&e->lock); goto again; } arpq_enqueue(e, skb); spin_unlock_bh(&e->lock); /* * Only the first packet added to the arpq should kick off * resolution. However, because the alloc_skb below can fail, * we allow each packet added to the arpq to retry resolution * as a way of recovering from transient memory exhaustion. * A better way would be to use a work request to retry L2T * entries when there's no memory. */ if (!neigh_event_send(e->neigh, NULL)) { skb = alloc_skb(sizeof(struct cpl_l2t_write_req), GFP_ATOMIC); if (!skb) break; spin_lock_bh(&e->lock); if (!skb_queue_empty(&e->arpq)) setup_l2e_send_pending(dev, skb, e); else /* we lost the race */ __kfree_skb(skb); spin_unlock_bh(&e->lock); } } return 0; }

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David S. Miller62.82%150.00%
Total213100.00%2100.00%

EXPORT_SYMBOL(t3_l2t_send_slow);
void t3_l2t_send_event(struct t3cdev *dev, struct l2t_entry *e) { again: switch (e->state) { case L2T_STATE_STALE: /* entry is stale, kick off revalidation */ neigh_event_send(e->neigh, NULL); spin_lock_bh(&e->lock); if (e->state == L2T_STATE_STALE) { e->state = L2T_STATE_VALID; } spin_unlock_bh(&e->lock); return; case L2T_STATE_VALID: /* fast-path, send the packet on */ return; case L2T_STATE_RESOLVING: spin_lock_bh(&e->lock); if (e->state != L2T_STATE_RESOLVING) { /* ARP already completed */ spin_unlock_bh(&e->lock); goto again; } spin_unlock_bh(&e->lock); /* * Only the first packet added to the arpq should kick off * resolution. However, because the alloc_skb below can fail, * we allow each packet added to the arpq to retry resolution * as a way of recovering from transient memory exhaustion. * A better way would be to use a work request to retry L2T * entries when there's no memory. */ neigh_event_send(e->neigh, NULL); } }

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EXPORT_SYMBOL(t3_l2t_send_event); /* * Allocate a free L2T entry. Must be called with l2t_data.lock held. */
static struct l2t_entry *alloc_l2e(struct l2t_data *d) { struct l2t_entry *end, *e, **p; if (!atomic_read(&d->nfree)) return NULL; /* there's definitely a free entry */ for (e = d->rover, end = &d->l2tab[d->nentries]; e != end; ++e) if (atomic_read(&e->refcnt) == 0) goto found; for (e = &d->l2tab[1]; atomic_read(&e->refcnt); ++e) ; found: d->rover = e + 1; atomic_dec(&d->nfree); /* * The entry we found may be an inactive entry that is * presently in the hash table. We need to remove it. */ if (e->state != L2T_STATE_UNUSED) { int hash = arp_hash(e->addr, e->ifindex, d); for (p = &d->l2tab[hash].first; *p; p = &(*p)->next) if (*p == e) { *p = e->next; break; } e->state = L2T_STATE_UNUSED; } return e; }

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/* * Called when an L2T entry has no more users. The entry is left in the hash * table since it is likely to be reused but we also bump nfree to indicate * that the entry can be reallocated for a different neighbor. We also drop * the existing neighbor reference in case the neighbor is going away and is * waiting on our reference. * * Because entries can be reallocated to other neighbors once their ref count * drops to 0 we need to take the entry's lock to avoid races with a new * incarnation. */
void t3_l2e_free(struct l2t_data *d, struct l2t_entry *e) { spin_lock_bh(&e->lock); if (atomic_read(&e->refcnt) == 0) { /* hasn't been recycled */ if (e->neigh) { neigh_release(e->neigh); e->neigh = NULL; } } spin_unlock_bh(&e->lock); atomic_inc(&d->nfree); }

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EXPORT_SYMBOL(t3_l2e_free); /* * Update an L2T entry that was previously used for the same next hop as neigh. * Must be called with softirqs disabled. */
static inline void reuse_entry(struct l2t_entry *e, struct neighbour *neigh) { unsigned int nud_state; spin_lock(&e->lock); /* avoid race with t3_l2t_free */ if (neigh != e->neigh) neigh_replace(e, neigh); nud_state = neigh->nud_state; if (memcmp(e->dmac, neigh->ha, sizeof(e->dmac)) || !(nud_state & NUD_VALID)) e->state = L2T_STATE_RESOLVING; else if (nud_state & NUD_CONNECTED) e->state = L2T_STATE_VALID; else e->state = L2T_STATE_STALE; spin_unlock(&e->lock); }

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struct l2t_entry *t3_l2t_get(struct t3cdev *cdev, struct dst_entry *dst, struct net_device *dev, const void *daddr) { struct l2t_entry *e = NULL; struct neighbour *neigh; struct port_info *p; struct l2t_data *d; int hash; u32 addr; int ifidx; int smt_idx; rcu_read_lock(); neigh = dst_neigh_lookup(dst, daddr); if (!neigh) goto done_rcu; addr = *(u32 *) neigh->primary_key; ifidx = neigh->dev->ifindex; if (!dev) dev = neigh->dev; p = netdev_priv(dev); smt_idx = p->port_id; d = L2DATA(cdev); if (!d) goto done_rcu; hash = arp_hash(addr, ifidx, d); write_lock_bh(&d->lock); for (e = d->l2tab[hash].first; e; e = e->next) if (e->addr == addr && e->ifindex == ifidx && e->smt_idx == smt_idx) { l2t_hold(d, e); if (atomic_read(&e->refcnt) == 1) reuse_entry(e, neigh); goto done_unlock; } /* Need to allocate a new entry */ e = alloc_l2e(d); if (e) { spin_lock(&e->lock); /* avoid race with t3_l2t_free */ e->next = d->l2tab[hash].first; d->l2tab[hash].first = e; e->state = L2T_STATE_RESOLVING; e->addr = addr; e->ifindex = ifidx; e->smt_idx = smt_idx; atomic_set(&e->refcnt, 1); neigh_replace(e, neigh); if (is_vlan_dev(neigh->dev)) e->vlan = vlan_dev_vlan_id(neigh->dev); else e->vlan = VLAN_NONE; spin_unlock(&e->lock); } done_unlock: write_unlock_bh(&d->lock); done_rcu: if (neigh) neigh_release(neigh); rcu_read_unlock(); return e; }

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David S. Miller7419.47%233.33%
Neil Horman379.74%116.67%
Parav Pandit30.79%116.67%
Patrick McHardy10.26%116.67%
Total380100.00%6100.00%

EXPORT_SYMBOL(t3_l2t_get); /* * Called when address resolution fails for an L2T entry to handle packets * on the arpq head. If a packet specifies a failure handler it is invoked, * otherwise the packets is sent to the offload device. * * XXX: maybe we should abandon the latter behavior and just require a failure * handler. */
static void handle_failed_resolution(struct t3cdev *dev, struct sk_buff_head *arpq) { struct sk_buff *skb, *tmp; skb_queue_walk_safe(arpq, skb, tmp) { struct l2t_skb_cb *cb = L2T_SKB_CB(skb); __skb_unlink(skb, arpq); if (cb->arp_failure_handler) cb->arp_failure_handler(dev, skb); else cxgb3_ofld_send(dev, skb); } }

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Divy Le Ray5675.68%150.00%
David S. Miller1824.32%150.00%
Total74100.00%2100.00%

/* * Called when the host's ARP layer makes a change to some entry that is * loaded into the HW L2 table. */
void t3_l2t_update(struct t3cdev *dev, struct neighbour *neigh) { struct sk_buff_head arpq; struct l2t_entry *e; struct l2t_data *d = L2DATA(dev); u32 addr = *(u32 *) neigh->primary_key; int ifidx = neigh->dev->ifindex; int hash = arp_hash(addr, ifidx, d); read_lock_bh(&d->lock); for (e = d->l2tab[hash].first; e; e = e->next) if (e->addr == addr && e->ifindex == ifidx) { spin_lock(&e->lock); goto found; } read_unlock_bh(&d->lock); return; found: __skb_queue_head_init(&arpq); read_unlock(&d->lock); if (atomic_read(&e->refcnt)) { if (neigh != e->neigh) neigh_replace(e, neigh); if (e->state == L2T_STATE_RESOLVING) { if (neigh->nud_state & NUD_FAILED) { skb_queue_splice_init(&e->arpq, &arpq); } else if (neigh->nud_state & (NUD_CONNECTED|NUD_STALE)) setup_l2e_send_pending(dev, NULL, e); } else { e->state = neigh->nud_state & NUD_CONNECTED ? L2T_STATE_VALID : L2T_STATE_STALE; if (!ether_addr_equal(e->dmac, neigh->ha)) setup_l2e_send_pending(dev, NULL, e); } } spin_unlock_bh(&e->lock); if (!skb_queue_empty(&arpq)) handle_failed_resolution(dev, &arpq); }

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Divy Le Ray25587.03%120.00%
David S. Miller248.19%120.00%
Steve Wise82.73%120.00%
Hideaki Yoshifuji / 吉藤英明41.37%120.00%
Ding Tianhong20.68%120.00%
Total293100.00%5100.00%


struct l2t_data *t3_init_l2t(unsigned int l2t_capacity) { struct l2t_data *d; int i, size = sizeof(*d) + l2t_capacity * sizeof(struct l2t_entry); d = cxgb_alloc_mem(size); if (!d) return NULL; d->nentries = l2t_capacity; d->rover = &d->l2tab[1]; /* entry 0 is not used */ atomic_set(&d->nfree, l2t_capacity - 1); rwlock_init(&d->lock); for (i = 0; i < l2t_capacity; ++i) { d->l2tab[i].idx = i; d->l2tab[i].state = L2T_STATE_UNUSED; __skb_queue_head_init(&d->l2tab[i].arpq); spin_lock_init(&d->l2tab[i].lock); atomic_set(&d->l2tab[i].refcnt, 0); } return d; }

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void t3_free_l2t(struct l2t_data *d) { cxgb_free_mem(d); }

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Divy Le Ray187889.47%214.29%
David S. Miller1477.00%321.43%
Neil Horman371.76%17.14%
Roland Dreier130.62%17.14%
Steve Wise80.38%17.14%
Hideaki Yoshifuji / 吉藤英明40.19%17.14%
Tejun Heo30.14%17.14%
Parav Pandit30.14%17.14%
Paul Gortmaker30.14%17.14%
Ding Tianhong20.10%17.14%
Patrick McHardy10.05%17.14%
Total2099100.00%14100.00%
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