//go:build linux
package overlay
import (
"context"
"errors"
"fmt"
"net/netip"
"syscall"
"github.com/containerd/log"
"github.com/moby/moby/v2/daemon/libnetwork/internal/hashable"
"github.com/moby/moby/v2/daemon/libnetwork/internal/setmatrix"
"github.com/moby/moby/v2/daemon/libnetwork/osl"
)
type peerEntry struct {
eid string
mac hashable.MACAddr
vtep netip.Addr
}
func (p *peerEntry) isLocal() bool {
return !p.vtep.IsValid()
}
type peerMap struct {
mp setmatrix.SetMatrix[netip.Prefix, peerEntry]
}
func (pm *peerMap) Walk(f func(netip.Prefix, peerEntry)) {
for _, peerAddr := range pm.mp.Keys() {
entry, ok := pm.Get(peerAddr)
if ok {
f(peerAddr, entry)
}
}
}
func (pm *peerMap) Get(peerIP netip.Prefix) (peerEntry, bool) {
c, _ := pm.mp.Get(peerIP)
if len(c) == 0 {
return peerEntry{}, false
}
return c[0], true
}
func (pm *peerMap) Add(eid string, peerIP netip.Prefix, peerMac hashable.MACAddr, vtep netip.Addr) (bool, int) {
pEntry := peerEntry{
eid: eid,
mac: peerMac,
vtep: vtep,
}
b, i := pm.mp.Insert(peerIP, pEntry)
if i != 1 {
// Transient case, there is more than one endpoint that is using the same IP
s, _ := pm.mp.String(peerIP)
log.G(context.TODO()).Warnf("peerDbAdd transient condition - Key:%s cardinality:%d db state:%s", peerIP, i, s)
}
return b, i
}
func (pm *peerMap) Delete(eid string, peerIP netip.Prefix, peerMac hashable.MACAddr, vtep netip.Addr) (bool, int) {
pEntry := peerEntry{
eid: eid,
mac: peerMac,
vtep: vtep,
}
b, i := pm.mp.Remove(peerIP, pEntry)
if i != 0 {
// Transient case, there is more than one endpoint that is using the same IP
s, _ := pm.mp.String(peerIP)
log.G(context.TODO()).Warnf("peerDbDelete transient condition - Key:%s cardinality:%d db state:%s", peerIP, i, s)
}
return b, i
}
// The overlay uses a lazy initialization approach, this means that when a network is created
// and the driver registered the overlay does not allocate resources till the moment that a
// sandbox is actually created.
// At the moment of this call, that happens when a sandbox is initialized, is possible that
// networkDB has already delivered some events of peers already available on remote nodes,
// these peers are saved into the peerDB and this function is used to properly configure
// the network sandbox with all those peers that got previously notified.
//
// The caller is responsible for ensuring that peerAdd and peerDelete are not
// called concurrently with this function to guarantee consistency.
func (n *network) initSandboxPeerDB() error {
var errs []error
n.peerdb.Walk(func(peerIP netip.Prefix, pEntry peerEntry) {
if !pEntry.isLocal() {
if err := n.addNeighbor(peerIP, pEntry.mac, pEntry.vtep); err != nil {
errs = append(errs, fmt.Errorf("failed to add neighbor entries for %s: %w", peerIP, err))
}
}
})
return errors.Join(errs...)
}
// peerAdd adds a new entry to the peer database.
//
// Local peers are signified by an invalid vtep (i.e. netip.Addr{}).
func (n *network) peerAdd(eid string, peerIP netip.Prefix, peerMac hashable.MACAddr, vtep netip.Addr) error {
if eid == "" {
return errors.New("invalid endpoint id")
}
inserted, dbEntries := n.peerdb.Add(eid, peerIP, peerMac, vtep)
if !inserted {
log.G(context.TODO()).Warnf("Entry already present in db: nid:%s eid:%s peerIP:%v peerMac:%v vtep:%v",
n.id, eid, peerIP, peerMac, vtep)
}
if vtep.IsValid() {
err := n.addNeighbor(peerIP, peerMac, vtep)
if err != nil {
if dbEntries > 1 && errors.As(err, &osl.NeighborSearchError{}) {
// Conflicting neighbor entries are already programmed into the kernel and we are in the transient case.
// Upon deletion if the active configuration is deleted the next one from the database will be restored.
return nil
}
return fmt.Errorf("peer add operation failed: %w", err)
}
}
return nil
}
// addNeighbor programs the kernel so the given peer is reachable through the VXLAN tunnel.
func (n *network) addNeighbor(peerIP netip.Prefix, peerMac hashable.MACAddr, vtep netip.Addr) error {
if n.sbox == nil {
// We are hitting this case for all the events that are arriving before that the sandbox
// is being created. The peer got already added into the database and the sandbox init will
// call the peerDbUpdateSandbox that will configure all these peers from the database
return nil
}
s := n.getSubnetforIP(peerIP)
if s == nil {
return fmt.Errorf("couldn't find the subnet %q in network %q", peerIP.String(), n.id)
}
if err := n.joinSandbox(s, false); err != nil {
return fmt.Errorf("subnet sandbox join failed for %q: %v", s.subnetIP.String(), err)
}
if n.secure {
if err := n.driver.setupEncryption(vtep); err != nil {
log.G(context.TODO()).Warn(err)
}
}
// Add neighbor entry for the peer IP
if err := n.sbox.AddNeighbor(peerIP.Addr().AsSlice(), peerMac.AsSlice(), osl.WithLinkName(s.vxlanName)); err != nil {
return fmt.Errorf("could not add neighbor entry into the sandbox: %w", err)
}
// Add fdb entry to the bridge for the peer mac
if n.fdbCnt.Add(hashable.IPMACFrom(vtep, peerMac), 1) == 1 {
if err := n.sbox.AddNeighbor(vtep.AsSlice(), peerMac.AsSlice(), osl.WithLinkName(s.vxlanName), osl.WithFamily(syscall.AF_BRIDGE)); err != nil {
return fmt.Errorf("could not add fdb entry into the sandbox: %w", err)
}
}
return nil
}
// peerDelete removes an entry from the peer database.
//
// Local peers are signified by an invalid vtep (i.e. netip.Addr{}).
func (n *network) peerDelete(eid string, peerIP netip.Prefix, peerMac hashable.MACAddr, vtep netip.Addr) error {
if eid == "" {
return errors.New("invalid endpoint id")
}
logger := log.G(context.TODO()).WithFields(log.Fields{
"nid": n.id,
"eid": eid,
"ip": peerIP,
"mac": peerMac,
"vtep": vtep,
})
deleted, dbEntries := n.peerdb.Delete(eid, peerIP, peerMac, vtep)
if !deleted {
logger.Warn("Peer entry was not in db")
}
if vtep.IsValid() {
err := n.deleteNeighbor(peerIP, peerMac, vtep)
if err != nil {
if dbEntries > 0 && errors.As(err, &osl.NeighborSearchError{}) {
// We fall in here if there is a transient state and if the neighbor that is being deleted
// was never been configured into the kernel (we allow only 1 configuration at the time per <ip,mac> mapping)
return nil
}
logger.WithError(err).Warn("Peer delete operation failed")
}
}
if dbEntries > 0 {
// If there is still an entry into the database and the deletion went through without errors means that there is now no
// configuration active in the kernel.
// Restore one configuration for the ip directly from the database, note that is guaranteed that there is one
peerEntry, ok := n.peerdb.Get(peerIP)
if !ok {
return fmt.Errorf("peerDelete: unable to restore a configuration: no entry for %v found in the database", peerIP)
}
err := n.addNeighbor(peerIP, peerEntry.mac, peerEntry.vtep)
if err != nil {
return fmt.Errorf("peer delete operation failed: %w", err)
}
}
return nil
}
// deleteNeighbor removes programming from the kernel for the given peer to be
// reachable through the VXLAN tunnel. It is the inverse of [driver.addNeighbor].
func (n *network) deleteNeighbor(peerIP netip.Prefix, peerMac hashable.MACAddr, vtep netip.Addr) error {
if n.sbox == nil {
return nil
}
if n.secure {
if err := n.driver.removeEncryption(vtep); err != nil {
log.G(context.TODO()).Warn(err)
}
}
s := n.getSubnetforIP(peerIP)
if s == nil {
return fmt.Errorf("could not find the subnet %q in network %q", peerIP.String(), n.id)
}
// Remove fdb entry to the bridge for the peer mac
if n.fdbCnt.Add(hashable.IPMACFrom(vtep, peerMac), -1) == 0 {
if err := n.sbox.DeleteNeighbor(vtep.AsSlice(), peerMac.AsSlice(), osl.WithLinkName(s.vxlanName), osl.WithFamily(syscall.AF_BRIDGE)); err != nil {
return fmt.Errorf("could not delete fdb entry in the sandbox: %w", err)
}
}
// Delete neighbor entry for the peer IP
if err := n.sbox.DeleteNeighbor(peerIP.Addr().AsSlice(), peerMac.AsSlice(), osl.WithLinkName(s.vxlanName)); err != nil {
return fmt.Errorf("could not delete neighbor entry in the sandbox:%v", err)
}
return nil
}