TOMOYO Linux Cross Reference
Linux/include/trace/events/neigh.h

   #undef TRACE_SYSTEM
   #define TRACE_SYSTEM neigh
   
   #if !defined(_TRACE_NEIGH_H) || defined(TRACE_HEADER_MULTI_READ)
   #define _TRACE_NEIGH_H
   
   #include <linux/skbuff.h>
   #include <linux/netdevice.h>
   #include <linux/tracepoint.h>
  #include <net/neighbour.h>
  
  #define neigh_state_str(state)                          \
          __print_symbolic(state,                         \
                  { NUD_INCOMPLETE, "incomplete" },       \
                  { NUD_REACHABLE, "reachable" },         \
                  { NUD_STALE, "stale" },                 \
                  { NUD_DELAY, "delay" },                 \
                  { NUD_PROBE, "probe" },                 \
                  { NUD_FAILED, "failed" },               \
                  { NUD_NOARP, "noarp" },                 \
                  { NUD_PERMANENT, "permanent"})
  
  TRACE_EVENT(neigh_create,
  
          TP_PROTO(struct neigh_table *tbl, struct net_device *dev,
                   const void *pkey, const struct neighbour *n,
                   bool exempt_from_gc),
  
          TP_ARGS(tbl, dev, pkey, n, exempt_from_gc),
  
          TP_STRUCT__entry(
                  __field(u32, family)
                  __string(dev, dev ? dev->name : "NULL")
                  __field(int, entries)
                  __field(u8, created)
                  __field(u8, gc_exempt)
                  __array(u8, primary_key4, 4)
                  __array(u8, primary_key6, 16)
          ),
  
          TP_fast_assign(
                  __be32 *p32;
  
                  __entry->family = tbl->family;
                  __assign_str(dev);
                  __entry->entries = atomic_read(&tbl->gc_entries);
                  __entry->created = n != NULL;
                  __entry->gc_exempt = exempt_from_gc;
                  p32 = (__be32 *)__entry->primary_key4;
  
                  if (tbl->family == AF_INET)
                          *p32 = *(__be32 *)pkey;
                  else
                          *p32 = 0;
  
  #if IS_ENABLED(CONFIG_IPV6)
                  if (tbl->family == AF_INET6) {
                          struct in6_addr *pin6;
  
                          pin6 = (struct in6_addr *)__entry->primary_key6;
                          *pin6 = *(struct in6_addr *)pkey;
                  }
  #endif
          ),
  
          TP_printk("family %d dev %s entries %d primary_key4 %pI4 primary_key6 %pI6c created %d gc_exempt %d",
                    __entry->family, __get_str(dev), __entry->entries,
                    __entry->primary_key4, __entry->primary_key6,
                    __entry->created, __entry->gc_exempt)
  );
  
  TRACE_EVENT(neigh_update,
  
          TP_PROTO(struct neighbour *n, const u8 *lladdr, u8 new,
                   u32 flags, u32 nlmsg_pid),
  
          TP_ARGS(n, lladdr, new, flags, nlmsg_pid),
  
          TP_STRUCT__entry(
                  __field(u32, family)
                  __string(dev, (n->dev ? n->dev->name : "NULL"))
                  __array(u8, lladdr, MAX_ADDR_LEN)
                  __field(u8, lladdr_len)
                  __field(u8, flags)
                  __field(u8, nud_state)
                  __field(u8, type)
                  __field(u8, dead)
                  __field(int, refcnt)
                  __array(__u8, primary_key4, 4)
                  __array(__u8, primary_key6, 16)
                  __field(unsigned long, confirmed)
                  __field(unsigned long, updated)
                  __field(unsigned long, used)
                  __array(u8, new_lladdr, MAX_ADDR_LEN)
                  __field(u8, new_state)
                  __field(u32, update_flags)
                  __field(u32, pid)
          ),
  
         TP_fast_assign(
                 int lladdr_len = (n->dev ? n->dev->addr_len : MAX_ADDR_LEN);
                 struct in6_addr *pin6;
                 __be32 *p32;
 
                 __entry->family = n->tbl->family;
                 __assign_str(dev);
                 __entry->lladdr_len = lladdr_len;
                 memcpy(__entry->lladdr, n->ha, lladdr_len);
                 __entry->flags = n->flags;
                 __entry->nud_state = n->nud_state;
                 __entry->type = n->type;
                 __entry->dead = n->dead;
                 __entry->refcnt = refcount_read(&n->refcnt);
                 pin6 = (struct in6_addr *)__entry->primary_key6;
                 p32 = (__be32 *)__entry->primary_key4;
 
                 if (n->tbl->family == AF_INET)
                         *p32 = *(__be32 *)n->primary_key;
                 else
                         *p32 = 0;
 
 #if IS_ENABLED(CONFIG_IPV6)
                 if (n->tbl->family == AF_INET6) {
                         pin6 = (struct in6_addr *)__entry->primary_key6;
                         *pin6 = *(struct in6_addr *)n->primary_key;
                 } else
 #endif
                 {
                         ipv6_addr_set_v4mapped(*p32, pin6);
                 }
                 __entry->confirmed = n->confirmed;
                 __entry->updated = n->updated;
                 __entry->used = n->used;
                 if (lladdr)
                         memcpy(__entry->new_lladdr, lladdr, lladdr_len);
                 __entry->new_state = new;
                 __entry->update_flags = flags;
                 __entry->pid = nlmsg_pid;
         ),
 
         TP_printk("family %d dev %s lladdr %s flags %02x nud_state %s type %02x "
                   "dead %d refcnt %d primary_key4 %pI4 primary_key6 %pI6c "
                   "confirmed %lu updated %lu used %lu new_lladdr %s "
                   "new_state %s update_flags %02x pid %d",
                   __entry->family, __get_str(dev),
                   __print_hex_str(__entry->lladdr, __entry->lladdr_len),
                   __entry->flags, neigh_state_str(__entry->nud_state),
                   __entry->type, __entry->dead, __entry->refcnt,
                   __entry->primary_key4, __entry->primary_key6,
                   __entry->confirmed, __entry->updated, __entry->used,
                   __print_hex_str(__entry->new_lladdr, __entry->lladdr_len),
                   neigh_state_str(__entry->new_state),
                   __entry->update_flags, __entry->pid)
 );
 
 DECLARE_EVENT_CLASS(neigh__update,
         TP_PROTO(struct neighbour *n, int err),
         TP_ARGS(n, err),
         TP_STRUCT__entry(
                 __field(u32, family)
                 __string(dev, (n->dev ? n->dev->name : "NULL"))
                 __array(u8, lladdr, MAX_ADDR_LEN)
                 __field(u8, lladdr_len)
                 __field(u8, flags)
                 __field(u8, nud_state)
                 __field(u8, type)
                 __field(u8, dead)
                 __field(int, refcnt)
                 __array(__u8, primary_key4, 4)
                 __array(__u8, primary_key6, 16)
                 __field(unsigned long, confirmed)
                 __field(unsigned long, updated)
                 __field(unsigned long, used)
                 __field(u32, err)
         ),
 
         TP_fast_assign(
                 int lladdr_len = (n->dev ? n->dev->addr_len : MAX_ADDR_LEN);
                 struct in6_addr *pin6;
                 __be32 *p32;
 
                 __entry->family = n->tbl->family;
                 __assign_str(dev);
                 __entry->lladdr_len = lladdr_len;
                 memcpy(__entry->lladdr, n->ha, lladdr_len);
                 __entry->flags = n->flags;
                 __entry->nud_state = n->nud_state;
                 __entry->type = n->type;
                 __entry->dead = n->dead;
                 __entry->refcnt = refcount_read(&n->refcnt);
                 pin6 = (struct in6_addr *)__entry->primary_key6;
                 p32 = (__be32 *)__entry->primary_key4;
 
                 if (n->tbl->family == AF_INET)
                         *p32 = *(__be32 *)n->primary_key;
                 else
                         *p32 = 0;
 
 #if IS_ENABLED(CONFIG_IPV6)
                 if (n->tbl->family == AF_INET6) {
                         pin6 = (struct in6_addr *)__entry->primary_key6;
                         *pin6 = *(struct in6_addr *)n->primary_key;
                 } else
 #endif
                 {
                         ipv6_addr_set_v4mapped(*p32, pin6);
                 }
 
                 __entry->confirmed = n->confirmed;
                 __entry->updated = n->updated;
                 __entry->used = n->used;
                 __entry->err = err;
         ),
 
         TP_printk("family %d dev %s lladdr %s flags %02x nud_state %s type %02x "
                   "dead %d refcnt %d primary_key4 %pI4 primary_key6 %pI6c "
                   "confirmed %lu updated %lu used %lu err %d",
                   __entry->family, __get_str(dev),
                   __print_hex_str(__entry->lladdr, __entry->lladdr_len),
                   __entry->flags, neigh_state_str(__entry->nud_state),
                   __entry->type, __entry->dead, __entry->refcnt,
                   __entry->primary_key4, __entry->primary_key6,
                   __entry->confirmed, __entry->updated, __entry->used,
                   __entry->err)
 );
 
 DEFINE_EVENT(neigh__update, neigh_update_done,
         TP_PROTO(struct neighbour *neigh, int err),
         TP_ARGS(neigh, err)
 );
 
 DEFINE_EVENT(neigh__update, neigh_timer_handler,
         TP_PROTO(struct neighbour *neigh, int err),
         TP_ARGS(neigh, err)
 );
 
 DEFINE_EVENT(neigh__update, neigh_event_send_done,
         TP_PROTO(struct neighbour *neigh, int err),
         TP_ARGS(neigh, err)
 );
 
 DEFINE_EVENT(neigh__update, neigh_event_send_dead,
         TP_PROTO(struct neighbour *neigh, int err),
         TP_ARGS(neigh, err)
 );
 
 DEFINE_EVENT(neigh__update, neigh_cleanup_and_release,
         TP_PROTO(struct neighbour *neigh, int rc),
         TP_ARGS(neigh, rc)
 );
 
 #endif /* _TRACE_NEIGH_H */
 
 /* This part must be outside protection */
 #include <trace/define_trace.h>
 

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