// Copyright 2020 The gVisor Authors.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package stack
import (
"fmt"
"gvisor.dev/gvisor/pkg/sync"
"gvisor.dev/gvisor/pkg/tcpip"
)
const neighborCacheSize = 512 // max entries per interface
// NeighborStats holds metrics for the neighbor table.
type NeighborStats struct {
// UnreachableEntryLookups counts the number of lookups performed on an
// entry in Unreachable state.
UnreachableEntryLookups *tcpip.StatCounter
}
// neighborCache maps IP addresses to link addresses. It uses the Least
// Recently Used (LRU) eviction strategy to implement a bounded cache for
// dynamically acquired entries. It contains the state machine and configuration
// for running Neighbor Unreachability Detection (NUD).
//
// There are two types of entries in the neighbor cache:
// 1. Dynamic entries are discovered automatically by neighbor discovery
// protocols (e.g. ARP, NDP). These protocols will attempt to reconfirm
// reachability with the device once the entry's state becomes Stale.
// 2. Static entries are explicitly added by a user and have no expiration.
// Their state is always Static. The amount of static entries stored in the
// cache is unbounded.
type neighborCache struct {
nic *nic
state *NUDState
linkRes LinkAddressResolver
mu struct {
sync.RWMutex
cache map[tcpip.Address]*neighborEntry
dynamic struct {
lru neighborEntryList
// count tracks the amount of dynamic entries in the cache. This is
// needed since static entries do not count towards the LRU cache
// eviction strategy.
count uint16
}
}
}
// getOrCreateEntry retrieves a cache entry associated with addr. The
// returned entry is always refreshed in the cache (it is reachable via the
// map, and its place is bumped in LRU).
//
// If a matching entry exists in the cache, it is returned. If no matching
// entry exists and the cache is full, an existing entry is evicted via LRU,
// reset to state incomplete, and returned. If no matching entry exists and the
// cache is not full, a new entry with state incomplete is allocated and
// returned.
func (n *neighborCache) getOrCreateEntry(remoteAddr tcpip.Address) *neighborEntry {
n.mu.Lock()
defer n.mu.Unlock()
if entry, ok := n.mu.cache[remoteAddr]; ok {
entry.mu.RLock()
if entry.mu.neigh.State != Static {
n.mu.dynamic.lru.Remove(entry)
n.mu.dynamic.lru.PushFront(entry)
}
entry.mu.RUnlock()
return entry
}
// The entry that needs to be created must be dynamic since all static
// entries are directly added to the cache via addStaticEntry.
entry := newNeighborEntry(n, remoteAddr, n.state)
if n.mu.dynamic.count == neighborCacheSize {
e := n.mu.dynamic.lru.Back()
e.mu.Lock()
delete(n.mu.cache, e.mu.neigh.Addr)
n.mu.dynamic.lru.Remove(e)
n.mu.dynamic.count--
e.removeLocked()
e.mu.Unlock()
}
n.mu.cache[remoteAddr] = entry
n.mu.dynamic.lru.PushFront(entry)
n.mu.dynamic.count++
return entry
}
// entry looks up neighbor information matching the remote address, and returns
// it if readily available.
//
// Returns ErrWouldBlock if the link address is not readily available, along
// with a notification channel for the caller to block on. Triggers address
// resolution asynchronously.
//
// If onResolve is provided, it will be called either immediately, if resolution
// is not required, or when address resolution is complete, with the resolved
// link address and whether resolution succeeded. After any callbacks have been
// called, the returned notification channel is closed.
//
// NB: if a callback is provided, it should not call into the neighbor cache.
//
// If specified, the local address must be an address local to the interface the
// neighbor cache belongs to. The local address is the source address of a
// packet prompting NUD/link address resolution.
//
// TODO(gvisor.dev/issue/5151): Don't return the neighbor entry.
func (n *neighborCache) entry(remoteAddr, localAddr tcpip.Address, onResolve func(LinkResolutionResult)) (NeighborEntry, <-chan struct{}, tcpip.Error) {
entry := n.getOrCreateEntry(remoteAddr)
entry.mu.Lock()
defer entry.mu.Unlock()
switch s := entry.mu.neigh.State; s {
case Stale:
entry.handlePacketQueuedLocked(localAddr)
fallthrough
case Reachable, Static, Delay, Probe:
// As per RFC 4861 section 7.3.3:
// "Neighbor Unreachability Detection operates in parallel with the sending
// of packets to a neighbor. While reasserting a neighbor's reachability,
// a node continues sending packets to that neighbor using the cached
// link-layer address."
if onResolve != nil {
onResolve(LinkResolutionResult{LinkAddress: entry.mu.neigh.LinkAddr, Err: nil})
}
return entry.mu.neigh, nil, nil
case Unknown, Incomplete, Unreachable:
if onResolve != nil {
entry.mu.onResolve = append(entry.mu.onResolve, onResolve)
}
if entry.mu.done == nil {
// Address resolution needs to be initiated.
entry.mu.done = make(chan struct{})
}
entry.handlePacketQueuedLocked(localAddr)
return entry.mu.neigh, entry.mu.done, &tcpip.ErrWouldBlock{}
default:
panic(fmt.Sprintf("Invalid cache entry state: %s", s))
}
}
// entries returns all entries in the neighbor cache.
func (n *neighborCache) entries() []NeighborEntry {
n.mu.RLock()
defer n.mu.RUnlock()
entries := make([]NeighborEntry, 0, len(n.mu.cache))
for _, entry := range n.mu.cache {
entry.mu.RLock()
entries = append(entries, entry.mu.neigh)
entry.mu.RUnlock()
}
return entries
}
// addStaticEntry adds a static entry to the neighbor cache, mapping an IP
// address to a link address. If a dynamic entry exists in the neighbor cache
// with the same address, it will be replaced with this static entry. If a
// static entry exists with the same address but different link address, it
// will be updated with the new link address. If a static entry exists with the
// same address and link address, nothing will happen.
func (n *neighborCache) addStaticEntry(addr tcpip.Address, linkAddr tcpip.LinkAddress) {
n.mu.Lock()
defer n.mu.Unlock()
if entry, ok := n.mu.cache[addr]; ok {
entry.mu.Lock()
if entry.mu.neigh.State != Static {
// Dynamic entry found with the same address.
n.mu.dynamic.lru.Remove(entry)
n.mu.dynamic.count--
} else if entry.mu.neigh.LinkAddr == linkAddr {
// Static entry found with the same address and link address.
entry.mu.Unlock()
return
} else {
// Static entry found with the same address but different link address.
entry.mu.neigh.LinkAddr = linkAddr
entry.dispatchChangeEventLocked()
entry.mu.Unlock()
return
}
entry.removeLocked()
entry.mu.Unlock()
}
entry := newStaticNeighborEntry(n, addr, linkAddr, n.state)
n.mu.cache[addr] = entry
entry.mu.Lock()
defer entry.mu.Unlock()
entry.dispatchAddEventLocked()
}
// removeEntry removes a dynamic or static entry by address from the neighbor
// cache. Returns true if the entry was found and deleted.
func (n *neighborCache) removeEntry(addr tcpip.Address) bool {
n.mu.Lock()
defer n.mu.Unlock()
entry, ok := n.mu.cache[addr]
if !ok {
return false
}
entry.mu.Lock()
defer entry.mu.Unlock()
if entry.mu.neigh.State != Static {
n.mu.dynamic.lru.Remove(entry)
n.mu.dynamic.count--
}
entry.removeLocked()
delete(n.mu.cache, entry.mu.neigh.Addr)
return true
}
// clear removes all dynamic and static entries from the neighbor cache.
func (n *neighborCache) clear() {
n.mu.Lock()
defer n.mu.Unlock()
for _, entry := range n.mu.cache {
entry.mu.Lock()
entry.removeLocked()
entry.mu.Unlock()
}
n.mu.dynamic.lru = neighborEntryList{}
n.mu.cache = make(map[tcpip.Address]*neighborEntry)
n.mu.dynamic.count = 0
}
// config returns the NUD configuration.
func (n *neighborCache) config() NUDConfigurations {
return n.state.Config()
}
// setConfig changes the NUD configuration.
//
// If config contains invalid NUD configuration values, it will be fixed to
// use default values for the erroneous values.
func (n *neighborCache) setConfig(config NUDConfigurations) {
config.resetInvalidFields()
n.state.SetConfig(config)
}
// handleProbe handles a neighbor probe as defined by RFC 4861 section 7.2.3.
//
// Validation of the probe is expected to be handled by the caller.
func (n *neighborCache) handleProbe(remoteAddr tcpip.Address, remoteLinkAddr tcpip.LinkAddress) {
entry := n.getOrCreateEntry(remoteAddr)
entry.mu.Lock()
entry.handleProbeLocked(remoteLinkAddr)
entry.mu.Unlock()
}
// handleConfirmation handles a neighbor confirmation as defined by
// RFC 4861 section 7.2.5.
//
// Validation of the confirmation is expected to be handled by the caller.
func (n *neighborCache) handleConfirmation(addr tcpip.Address, linkAddr tcpip.LinkAddress, flags ReachabilityConfirmationFlags) {
n.mu.RLock()
entry, ok := n.mu.cache[addr]
n.mu.RUnlock()
if ok {
entry.mu.Lock()
entry.handleConfirmationLocked(linkAddr, flags)
entry.mu.Unlock()
}
// The confirmation SHOULD be silently discarded if the recipient did not
// initiate any communication with the target. This is indicated if there is
// no matching entry for the remote address.
}
// handleUpperLevelConfirmation processes a confirmation of reachablity from
// some protocol that operates at a layer above the IP/link layer.
func (n *neighborCache) handleUpperLevelConfirmation(addr tcpip.Address) {
n.mu.RLock()
entry, ok := n.mu.cache[addr]
n.mu.RUnlock()
if ok {
entry.mu.Lock()
entry.handleUpperLevelConfirmationLocked()
entry.mu.Unlock()
}
}
func (n *neighborCache) init(nic *nic, r LinkAddressResolver) {
*n = neighborCache{
nic: nic,
state: NewNUDState(nic.stack.nudConfigs, nic.stack.clock, nic.stack.randomGenerator),
linkRes: r,
}
n.mu.Lock()
n.mu.cache = make(map[tcpip.Address]*neighborEntry, neighborCacheSize)
n.mu.Unlock()
}