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-rwxr-xr-xpkg/tcpip/stack/ndp.go181
-rw-r--r--pkg/tcpip/stack/nic.go236
2 files changed, 215 insertions, 202 deletions
diff --git a/pkg/tcpip/stack/ndp.go b/pkg/tcpip/stack/ndp.go
index 7d4b41dfa..d983ac390 100755
--- a/pkg/tcpip/stack/ndp.go
+++ b/pkg/tcpip/stack/ndp.go
@@ -15,7 +15,6 @@
package stack
import (
- "fmt"
"log"
"math/rand"
"time"
@@ -429,8 +428,13 @@ func (ndp *ndpState) startDuplicateAddressDetection(addr tcpip.Address, ref *ref
return tcpip.ErrAddressFamilyNotSupported
}
- // Should not attempt to perform DAD on an address that is currently in
- // the DAD process.
+ if ref.getKind() != permanentTentative {
+ // The endpoint should be marked as tentative since we are starting DAD.
+ log.Fatalf("ndpdad: addr %s is not tentative on NIC(%d)", addr, ndp.nic.ID())
+ }
+
+ // Should not attempt to perform DAD on an address that is currently in the
+ // DAD process.
if _, ok := ndp.dad[addr]; ok {
// Should never happen because we should only ever call this function for
// newly created addresses. If we attemped to "add" an address that already
@@ -438,77 +442,79 @@ func (ndp *ndpState) startDuplicateAddressDetection(addr tcpip.Address, ref *ref
// address, or its reference count would have been increased without doing
// the work that would have been done for an address that was brand new.
// See NIC.addAddressLocked.
- panic(fmt.Sprintf("ndpdad: already performing DAD for addr %s on NIC(%d)", addr, ndp.nic.ID()))
+ log.Fatalf("ndpdad: already performing DAD for addr %s on NIC(%d)", addr, ndp.nic.ID())
}
remaining := ndp.configs.DupAddrDetectTransmits
-
- {
- done, err := ndp.doDuplicateAddressDetection(addr, remaining, ref)
- if err != nil {
- return err
- }
- if done {
- return nil
- }
+ if remaining == 0 {
+ ref.setKind(permanent)
+ return nil
}
- remaining--
-
var done bool
var timer *time.Timer
- timer = time.AfterFunc(ndp.configs.RetransmitTimer, func() {
- var d bool
- var err *tcpip.Error
-
- // doDadIteration does a single iteration of the DAD loop.
- //
- // Returns true if the integrator needs to be informed of DAD
- // completing.
- doDadIteration := func() bool {
- ndp.nic.mu.Lock()
- defer ndp.nic.mu.Unlock()
-
- if done {
- // If we reach this point, it means that the DAD
- // timer fired after another goroutine already
- // obtained the NIC lock and stopped DAD before
- // this function obtained the NIC lock. Simply
- // return here and do nothing further.
- return false
- }
+ // We initially start a timer to fire immediately because some of the DAD work
+ // cannot be done while holding the NIC's lock. This is effectively the same
+ // as starting a goroutine but we use a timer that fires immediately so we can
+ // reset it for the next DAD iteration.
+ timer = time.AfterFunc(0, func() {
+ ndp.nic.mu.RLock()
+ if done {
+ // If we reach this point, it means that the DAD timer fired after
+ // another goroutine already obtained the NIC lock and stopped DAD
+ // before this function obtained the NIC lock. Simply return here and do
+ // nothing further.
+ ndp.nic.mu.RUnlock()
+ return
+ }
- ref, ok := ndp.nic.endpoints[NetworkEndpointID{addr}]
- if !ok {
- // This should never happen.
- // We should have an endpoint for addr since we
- // are still performing DAD on it. If the
- // endpoint does not exist, but we are doing DAD
- // on it, then we started DAD at some point, but
- // forgot to stop it when the endpoint was
- // deleted.
- panic(fmt.Sprintf("ndpdad: unrecognized addr %s for NIC(%d)", addr, ndp.nic.ID()))
- }
+ if ref.getKind() != permanentTentative {
+ // The endpoint should still be marked as tentative since we are still
+ // performing DAD on it.
+ log.Fatalf("ndpdad: addr %s is no longer tentative on NIC(%d)", addr, ndp.nic.ID())
+ }
- d, err = ndp.doDuplicateAddressDetection(addr, remaining, ref)
- if err != nil || d {
- delete(ndp.dad, addr)
+ dadDone := remaining == 0
+ ndp.nic.mu.RUnlock()
- if err != nil {
- log.Printf("ndpdad: Error occured during DAD iteration for addr (%s) on NIC(%d); err = %s", addr, ndp.nic.ID(), err)
- }
+ var err *tcpip.Error
+ if !dadDone {
+ err = ndp.sendDADPacket(addr)
+ }
- // Let the integrator know DAD has completed.
- return true
- }
+ ndp.nic.mu.Lock()
+ if done {
+ // If we reach this point, it means that DAD was stopped after we released
+ // the NIC's read lock and before we obtained the write lock.
+ ndp.nic.mu.Unlock()
+ return
+ }
+ if dadDone {
+ // DAD has resolved.
+ ref.setKind(permanent)
+ } else if err == nil {
+ // DAD is not done and we had no errors when sending the last NDP NS,
+ // schedule the next DAD timer.
remaining--
timer.Reset(ndp.nic.stack.ndpConfigs.RetransmitTimer)
- return false
+
+ ndp.nic.mu.Unlock()
+ return
+ }
+
+ // At this point we know that either DAD is done or we hit an error sending
+ // the last NDP NS. Either way, clean up addr's DAD state and let the
+ // integrator know DAD has completed.
+ delete(ndp.dad, addr)
+ ndp.nic.mu.Unlock()
+
+ if err != nil {
+ log.Printf("ndpdad: error occured during DAD iteration for addr (%s) on NIC(%d); err = %s", addr, ndp.nic.ID(), err)
}
- if doDadIteration() && ndp.nic.stack.ndpDisp != nil {
- ndp.nic.stack.ndpDisp.OnDuplicateAddressDetectionStatus(ndp.nic.ID(), addr, d, err)
+ if ndpDisp := ndp.nic.stack.ndpDisp; ndpDisp != nil {
+ ndpDisp.OnDuplicateAddressDetectionStatus(ndp.nic.ID(), addr, dadDone, err)
}
})
@@ -520,45 +526,16 @@ func (ndp *ndpState) startDuplicateAddressDetection(addr tcpip.Address, ref *ref
return nil
}
-// doDuplicateAddressDetection is called on every iteration of the timer, and
-// when DAD starts.
-//
-// It handles resolving the address (if there are no more NS to send), or
-// sending the next NS if there are more NS to send.
-//
-// This function must only be called by IPv6 addresses that are currently
-// tentative.
-//
-// The NIC that ndp belongs to (n) MUST be locked.
+// sendDADPacket sends a NS message to see if any nodes on ndp's NIC's link owns
+// addr.
//
-// Returns true if DAD has resolved; false if DAD is still ongoing.
-func (ndp *ndpState) doDuplicateAddressDetection(addr tcpip.Address, remaining uint8, ref *referencedNetworkEndpoint) (bool, *tcpip.Error) {
- if ref.getKind() != permanentTentative {
- // The endpoint should still be marked as tentative
- // since we are still performing DAD on it.
- panic(fmt.Sprintf("ndpdad: addr %s is not tentative on NIC(%d)", addr, ndp.nic.ID()))
- }
-
- if remaining == 0 {
- // DAD has resolved.
- ref.setKind(permanent)
- return true, nil
- }
-
- // Send a new NS.
+// addr must be a tentative IPv6 address on ndp's NIC.
+func (ndp *ndpState) sendDADPacket(addr tcpip.Address) *tcpip.Error {
snmc := header.SolicitedNodeAddr(addr)
- snmcRef, ok := ndp.nic.endpoints[NetworkEndpointID{snmc}]
- if !ok {
- // This should never happen as if we have the
- // address, we should have the solicited-node
- // address.
- panic(fmt.Sprintf("ndpdad: NIC(%d) is not in the solicited-node multicast group (%s) but it has addr %s", ndp.nic.ID(), snmc, addr))
- }
- snmcRef.incRef()
- // Use the unspecified address as the source address when performing
- // DAD.
- r := makeRoute(header.IPv6ProtocolNumber, header.IPv6Any, snmc, ndp.nic.linkEP.LinkAddress(), snmcRef, false, false)
+ // Use the unspecified address as the source address when performing DAD.
+ ref := ndp.nic.getRefOrCreateTemp(header.IPv6ProtocolNumber, header.IPv6Any, NeverPrimaryEndpoint, forceSpoofing)
+ r := makeRoute(header.IPv6ProtocolNumber, header.IPv6Any, snmc, ndp.nic.linkEP.LinkAddress(), ref, false, false)
defer r.Release()
hdr := buffer.NewPrependable(int(r.MaxHeaderLength()) + header.ICMPv6NeighborSolicitMinimumSize)
@@ -569,15 +546,19 @@ func (ndp *ndpState) doDuplicateAddressDetection(addr tcpip.Address, remaining u
pkt.SetChecksum(header.ICMPv6Checksum(pkt, r.LocalAddress, r.RemoteAddress, buffer.VectorisedView{}))
sent := r.Stats().ICMP.V6PacketsSent
- if err := r.WritePacket(nil, NetworkHeaderParams{Protocol: header.ICMPv6ProtocolNumber, TTL: header.NDPHopLimit, TOS: DefaultTOS}, tcpip.PacketBuffer{
- Header: hdr,
- }); err != nil {
+ if err := r.WritePacket(nil,
+ NetworkHeaderParams{
+ Protocol: header.ICMPv6ProtocolNumber,
+ TTL: header.NDPHopLimit,
+ TOS: DefaultTOS,
+ }, tcpip.PacketBuffer{Header: hdr},
+ ); err != nil {
sent.Dropped.Increment()
- return false, err
+ return err
}
sent.NeighborSolicit.Increment()
- return false, nil
+ return nil
}
// stopDuplicateAddressDetection ends a running Duplicate Address Detection
@@ -1212,7 +1193,7 @@ func (ndp *ndpState) startSolicitingRouters() {
ndp.rtrSolicitTimer = time.AfterFunc(delay, func() {
// Send an RS message with the unspecified source address.
- ref := ndp.nic.getRefOrCreateTemp(header.IPv6ProtocolNumber, header.IPv6Any, NeverPrimaryEndpoint, true)
+ ref := ndp.nic.getRefOrCreateTemp(header.IPv6ProtocolNumber, header.IPv6Any, NeverPrimaryEndpoint, forceSpoofing)
r := makeRoute(header.IPv6ProtocolNumber, header.IPv6Any, header.IPv6AllRoutersMulticastAddress, ndp.nic.linkEP.LinkAddress(), ref, false, false)
defer r.Release()
diff --git a/pkg/tcpip/stack/nic.go b/pkg/tcpip/stack/nic.go
index de88c0bfa..79556a36f 100644
--- a/pkg/tcpip/stack/nic.go
+++ b/pkg/tcpip/stack/nic.go
@@ -35,24 +35,21 @@ type NIC struct {
linkEP LinkEndpoint
context NICContext
- mu sync.RWMutex
- spoofing bool
- promiscuous bool
- primary map[tcpip.NetworkProtocolNumber][]*referencedNetworkEndpoint
- endpoints map[NetworkEndpointID]*referencedNetworkEndpoint
- addressRanges []tcpip.Subnet
- mcastJoins map[NetworkEndpointID]int32
- // packetEPs is protected by mu, but the contained PacketEndpoint
- // values are not.
- packetEPs map[tcpip.NetworkProtocolNumber][]PacketEndpoint
-
stats NICStats
- // ndp is the NDP related state for NIC.
- //
- // Note, read and write operations on ndp require that the NIC is
- // appropriately locked.
- ndp ndpState
+ mu struct {
+ sync.RWMutex
+ spoofing bool
+ promiscuous bool
+ primary map[tcpip.NetworkProtocolNumber][]*referencedNetworkEndpoint
+ endpoints map[NetworkEndpointID]*referencedNetworkEndpoint
+ addressRanges []tcpip.Subnet
+ mcastJoins map[NetworkEndpointID]int32
+ // packetEPs is protected by mu, but the contained PacketEndpoint
+ // values are not.
+ packetEPs map[tcpip.NetworkProtocolNumber][]PacketEndpoint
+ ndp ndpState
+ }
}
// NICStats includes transmitted and received stats.
@@ -97,15 +94,11 @@ func newNIC(stack *Stack, id tcpip.NICID, name string, ep LinkEndpoint, ctx NICC
// of IPv6 is supported on this endpoint's LinkEndpoint.
nic := &NIC{
- stack: stack,
- id: id,
- name: name,
- linkEP: ep,
- context: ctx,
- primary: make(map[tcpip.NetworkProtocolNumber][]*referencedNetworkEndpoint),
- endpoints: make(map[NetworkEndpointID]*referencedNetworkEndpoint),
- mcastJoins: make(map[NetworkEndpointID]int32),
- packetEPs: make(map[tcpip.NetworkProtocolNumber][]PacketEndpoint),
+ stack: stack,
+ id: id,
+ name: name,
+ linkEP: ep,
+ context: ctx,
stats: NICStats{
Tx: DirectionStats{
Packets: &tcpip.StatCounter{},
@@ -116,22 +109,26 @@ func newNIC(stack *Stack, id tcpip.NICID, name string, ep LinkEndpoint, ctx NICC
Bytes: &tcpip.StatCounter{},
},
},
- ndp: ndpState{
- configs: stack.ndpConfigs,
- dad: make(map[tcpip.Address]dadState),
- defaultRouters: make(map[tcpip.Address]defaultRouterState),
- onLinkPrefixes: make(map[tcpip.Subnet]onLinkPrefixState),
- autoGenAddresses: make(map[tcpip.Address]autoGenAddressState),
- },
}
- nic.ndp.nic = nic
+ nic.mu.primary = make(map[tcpip.NetworkProtocolNumber][]*referencedNetworkEndpoint)
+ nic.mu.endpoints = make(map[NetworkEndpointID]*referencedNetworkEndpoint)
+ nic.mu.mcastJoins = make(map[NetworkEndpointID]int32)
+ nic.mu.packetEPs = make(map[tcpip.NetworkProtocolNumber][]PacketEndpoint)
+ nic.mu.ndp = ndpState{
+ nic: nic,
+ configs: stack.ndpConfigs,
+ dad: make(map[tcpip.Address]dadState),
+ defaultRouters: make(map[tcpip.Address]defaultRouterState),
+ onLinkPrefixes: make(map[tcpip.Subnet]onLinkPrefixState),
+ autoGenAddresses: make(map[tcpip.Address]autoGenAddressState),
+ }
// Register supported packet endpoint protocols.
for _, netProto := range header.Ethertypes {
- nic.packetEPs[netProto] = []PacketEndpoint{}
+ nic.mu.packetEPs[netProto] = []PacketEndpoint{}
}
for _, netProto := range stack.networkProtocols {
- nic.packetEPs[netProto.Number()] = []PacketEndpoint{}
+ nic.mu.packetEPs[netProto.Number()] = []PacketEndpoint{}
}
return nic
@@ -215,7 +212,7 @@ func (n *NIC) enable() *tcpip.Error {
// and default routers). Therefore, soliciting RAs from other routers on
// a link is unnecessary for routers.
if !n.stack.forwarding {
- n.ndp.startSolicitingRouters()
+ n.mu.ndp.startSolicitingRouters()
}
return nil
@@ -230,8 +227,8 @@ func (n *NIC) becomeIPv6Router() {
n.mu.Lock()
defer n.mu.Unlock()
- n.ndp.cleanupHostOnlyState()
- n.ndp.stopSolicitingRouters()
+ n.mu.ndp.cleanupHostOnlyState()
+ n.mu.ndp.stopSolicitingRouters()
}
// becomeIPv6Host transitions n into an IPv6 host.
@@ -242,7 +239,7 @@ func (n *NIC) becomeIPv6Host() {
n.mu.Lock()
defer n.mu.Unlock()
- n.ndp.startSolicitingRouters()
+ n.mu.ndp.startSolicitingRouters()
}
// attachLinkEndpoint attaches the NIC to the endpoint, which will enable it
@@ -254,13 +251,13 @@ func (n *NIC) attachLinkEndpoint() {
// setPromiscuousMode enables or disables promiscuous mode.
func (n *NIC) setPromiscuousMode(enable bool) {
n.mu.Lock()
- n.promiscuous = enable
+ n.mu.promiscuous = enable
n.mu.Unlock()
}
func (n *NIC) isPromiscuousMode() bool {
n.mu.RLock()
- rv := n.promiscuous
+ rv := n.mu.promiscuous
n.mu.RUnlock()
return rv
}
@@ -272,7 +269,7 @@ func (n *NIC) isLoopback() bool {
// setSpoofing enables or disables address spoofing.
func (n *NIC) setSpoofing(enable bool) {
n.mu.Lock()
- n.spoofing = enable
+ n.mu.spoofing = enable
n.mu.Unlock()
}
@@ -291,8 +288,8 @@ func (n *NIC) primaryEndpoint(protocol tcpip.NetworkProtocolNumber, remoteAddr t
defer n.mu.RUnlock()
var deprecatedEndpoint *referencedNetworkEndpoint
- for _, r := range n.primary[protocol] {
- if !r.isValidForOutgoing() {
+ for _, r := range n.mu.primary[protocol] {
+ if !r.isValidForOutgoingRLocked() {
continue
}
@@ -342,7 +339,7 @@ func (n *NIC) primaryIPv6Endpoint(remoteAddr tcpip.Address) *referencedNetworkEn
n.mu.RLock()
defer n.mu.RUnlock()
- primaryAddrs := n.primary[header.IPv6ProtocolNumber]
+ primaryAddrs := n.mu.primary[header.IPv6ProtocolNumber]
if len(primaryAddrs) == 0 {
return nil
@@ -425,7 +422,7 @@ func (n *NIC) primaryIPv6Endpoint(remoteAddr tcpip.Address) *referencedNetworkEn
// hasPermanentAddrLocked returns true if n has a permanent (including currently
// tentative) address, addr.
func (n *NIC) hasPermanentAddrLocked(addr tcpip.Address) bool {
- ref, ok := n.endpoints[NetworkEndpointID{addr}]
+ ref, ok := n.mu.endpoints[NetworkEndpointID{addr}]
if !ok {
return false
@@ -436,24 +433,54 @@ func (n *NIC) hasPermanentAddrLocked(addr tcpip.Address) bool {
return kind == permanent || kind == permanentTentative
}
+type getRefBehaviour int
+
+const (
+ // spoofing indicates that the NIC's spoofing flag should be observed when
+ // getting a NIC's referenced network endpoint.
+ spoofing getRefBehaviour = iota
+
+ // promiscuous indicates that the NIC's promiscuous flag should be observed
+ // when getting a NIC's referenced network endpoint.
+ promiscuous
+
+ // forceSpoofing indicates that the NIC should be assumed to be spoofing,
+ // regardless of what the NIC's spoofing flag is when getting a NIC's
+ // referenced network endpoint.
+ forceSpoofing
+)
+
func (n *NIC) getRef(protocol tcpip.NetworkProtocolNumber, dst tcpip.Address) *referencedNetworkEndpoint {
- return n.getRefOrCreateTemp(protocol, dst, CanBePrimaryEndpoint, n.promiscuous)
+ return n.getRefOrCreateTemp(protocol, dst, CanBePrimaryEndpoint, promiscuous)
}
// findEndpoint finds the endpoint, if any, with the given address.
func (n *NIC) findEndpoint(protocol tcpip.NetworkProtocolNumber, address tcpip.Address, peb PrimaryEndpointBehavior) *referencedNetworkEndpoint {
- return n.getRefOrCreateTemp(protocol, address, peb, n.spoofing)
+ return n.getRefOrCreateTemp(protocol, address, peb, spoofing)
}
// getRefEpOrCreateTemp returns the referenced network endpoint for the given
-// protocol and address. If none exists a temporary one may be created if
-// we are in promiscuous mode or spoofing.
-func (n *NIC) getRefOrCreateTemp(protocol tcpip.NetworkProtocolNumber, address tcpip.Address, peb PrimaryEndpointBehavior, spoofingOrPromiscuous bool) *referencedNetworkEndpoint {
+// protocol and address.
+//
+// If none exists a temporary one may be created if we are in promiscuous mode
+// or spoofing. Promiscuous mode will only be checked if promiscuous is true.
+// Similarly, spoofing will only be checked if spoofing is true.
+func (n *NIC) getRefOrCreateTemp(protocol tcpip.NetworkProtocolNumber, address tcpip.Address, peb PrimaryEndpointBehavior, tempRef getRefBehaviour) *referencedNetworkEndpoint {
id := NetworkEndpointID{address}
n.mu.RLock()
- if ref, ok := n.endpoints[id]; ok {
+ var spoofingOrPromiscuous bool
+ switch tempRef {
+ case spoofing:
+ spoofingOrPromiscuous = n.mu.spoofing
+ case promiscuous:
+ spoofingOrPromiscuous = n.mu.promiscuous
+ case forceSpoofing:
+ spoofingOrPromiscuous = true
+ }
+
+ if ref, ok := n.mu.endpoints[id]; ok {
// An endpoint with this id exists, check if it can be used and return it.
switch ref.getKind() {
case permanentExpired:
@@ -474,7 +501,7 @@ func (n *NIC) getRefOrCreateTemp(protocol tcpip.NetworkProtocolNumber, address t
// the caller or if the address is found in the NIC's subnets.
createTempEP := spoofingOrPromiscuous
if !createTempEP {
- for _, sn := range n.addressRanges {
+ for _, sn := range n.mu.addressRanges {
// Skip the subnet address.
if address == sn.ID() {
continue
@@ -502,7 +529,7 @@ func (n *NIC) getRefOrCreateTemp(protocol tcpip.NetworkProtocolNumber, address t
// endpoint, create a new "temporary" endpoint. It will only exist while
// there's a route through it.
n.mu.Lock()
- if ref, ok := n.endpoints[id]; ok {
+ if ref, ok := n.mu.endpoints[id]; ok {
// No need to check the type as we are ok with expired endpoints at this
// point.
if ref.tryIncRef() {
@@ -543,7 +570,7 @@ func (n *NIC) addAddressLocked(protocolAddress tcpip.ProtocolAddress, peb Primar
// Sanity check.
id := NetworkEndpointID{LocalAddress: protocolAddress.AddressWithPrefix.Address}
- if ref, ok := n.endpoints[id]; ok {
+ if ref, ok := n.mu.endpoints[id]; ok {
// Endpoint already exists.
if kind != permanent {
return nil, tcpip.ErrDuplicateAddress
@@ -562,7 +589,7 @@ func (n *NIC) addAddressLocked(protocolAddress tcpip.ProtocolAddress, peb Primar
ref.deprecated = deprecated
ref.configType = configType
- refs := n.primary[ref.protocol]
+ refs := n.mu.primary[ref.protocol]
for i, r := range refs {
if r == ref {
switch peb {
@@ -572,9 +599,9 @@ func (n *NIC) addAddressLocked(protocolAddress tcpip.ProtocolAddress, peb Primar
if i == 0 {
return ref, nil
}
- n.primary[r.protocol] = append(refs[:i], refs[i+1:]...)
+ n.mu.primary[r.protocol] = append(refs[:i], refs[i+1:]...)
case NeverPrimaryEndpoint:
- n.primary[r.protocol] = append(refs[:i], refs[i+1:]...)
+ n.mu.primary[r.protocol] = append(refs[:i], refs[i+1:]...)
return ref, nil
}
}
@@ -637,13 +664,13 @@ func (n *NIC) addAddressLocked(protocolAddress tcpip.ProtocolAddress, peb Primar
}
}
- n.endpoints[id] = ref
+ n.mu.endpoints[id] = ref
n.insertPrimaryEndpointLocked(ref, peb)
// If we are adding a tentative IPv6 address, start DAD.
if isIPv6Unicast && kind == permanentTentative {
- if err := n.ndp.startDuplicateAddressDetection(protocolAddress.AddressWithPrefix.Address, ref); err != nil {
+ if err := n.mu.ndp.startDuplicateAddressDetection(protocolAddress.AddressWithPrefix.Address, ref); err != nil {
return nil, err
}
}
@@ -668,8 +695,8 @@ func (n *NIC) AllAddresses() []tcpip.ProtocolAddress {
n.mu.RLock()
defer n.mu.RUnlock()
- addrs := make([]tcpip.ProtocolAddress, 0, len(n.endpoints))
- for nid, ref := range n.endpoints {
+ addrs := make([]tcpip.ProtocolAddress, 0, len(n.mu.endpoints))
+ for nid, ref := range n.mu.endpoints {
// Don't include tentative, expired or temporary endpoints to
// avoid confusion and prevent the caller from using those.
switch ref.getKind() {
@@ -695,7 +722,7 @@ func (n *NIC) PrimaryAddresses() []tcpip.ProtocolAddress {
defer n.mu.RUnlock()
var addrs []tcpip.ProtocolAddress
- for proto, list := range n.primary {
+ for proto, list := range n.mu.primary {
for _, ref := range list {
// Don't include tentative, expired or tempory endpoints
// to avoid confusion and prevent the caller from using
@@ -726,7 +753,7 @@ func (n *NIC) primaryAddress(proto tcpip.NetworkProtocolNumber) tcpip.AddressWit
n.mu.RLock()
defer n.mu.RUnlock()
- list, ok := n.primary[proto]
+ list, ok := n.mu.primary[proto]
if !ok {
return tcpip.AddressWithPrefix{}
}
@@ -769,7 +796,7 @@ func (n *NIC) primaryAddress(proto tcpip.NetworkProtocolNumber) tcpip.AddressWit
// address.
func (n *NIC) AddAddressRange(protocol tcpip.NetworkProtocolNumber, subnet tcpip.Subnet) {
n.mu.Lock()
- n.addressRanges = append(n.addressRanges, subnet)
+ n.mu.addressRanges = append(n.mu.addressRanges, subnet)
n.mu.Unlock()
}
@@ -778,13 +805,13 @@ func (n *NIC) RemoveAddressRange(subnet tcpip.Subnet) {
n.mu.Lock()
// Use the same underlying array.
- tmp := n.addressRanges[:0]
- for _, sub := range n.addressRanges {
+ tmp := n.mu.addressRanges[:0]
+ for _, sub := range n.mu.addressRanges {
if sub != subnet {
tmp = append(tmp, sub)
}
}
- n.addressRanges = tmp
+ n.mu.addressRanges = tmp
n.mu.Unlock()
}
@@ -793,8 +820,8 @@ func (n *NIC) RemoveAddressRange(subnet tcpip.Subnet) {
func (n *NIC) AddressRanges() []tcpip.Subnet {
n.mu.RLock()
defer n.mu.RUnlock()
- sns := make([]tcpip.Subnet, 0, len(n.addressRanges)+len(n.endpoints))
- for nid := range n.endpoints {
+ sns := make([]tcpip.Subnet, 0, len(n.mu.addressRanges)+len(n.mu.endpoints))
+ for nid := range n.mu.endpoints {
sn, err := tcpip.NewSubnet(nid.LocalAddress, tcpip.AddressMask(strings.Repeat("\xff", len(nid.LocalAddress))))
if err != nil {
// This should never happen as the mask has been carefully crafted to
@@ -803,7 +830,7 @@ func (n *NIC) AddressRanges() []tcpip.Subnet {
}
sns = append(sns, sn)
}
- return append(sns, n.addressRanges...)
+ return append(sns, n.mu.addressRanges...)
}
// insertPrimaryEndpointLocked adds r to n's primary endpoint list as required
@@ -813,9 +840,9 @@ func (n *NIC) AddressRanges() []tcpip.Subnet {
func (n *NIC) insertPrimaryEndpointLocked(r *referencedNetworkEndpoint, peb PrimaryEndpointBehavior) {
switch peb {
case CanBePrimaryEndpoint:
- n.primary[r.protocol] = append(n.primary[r.protocol], r)
+ n.mu.primary[r.protocol] = append(n.mu.primary[r.protocol], r)
case FirstPrimaryEndpoint:
- n.primary[r.protocol] = append([]*referencedNetworkEndpoint{r}, n.primary[r.protocol]...)
+ n.mu.primary[r.protocol] = append([]*referencedNetworkEndpoint{r}, n.mu.primary[r.protocol]...)
}
}
@@ -827,7 +854,7 @@ func (n *NIC) removeEndpointLocked(r *referencedNetworkEndpoint) {
// and was waiting (on the lock) to be removed and 2) the same address was
// re-added in the meantime by removing this endpoint from the list and
// adding a new one.
- if n.endpoints[id] != r {
+ if n.mu.endpoints[id] != r {
return
}
@@ -835,11 +862,11 @@ func (n *NIC) removeEndpointLocked(r *referencedNetworkEndpoint) {
panic("Reference count dropped to zero before being removed")
}
- delete(n.endpoints, id)
- refs := n.primary[r.protocol]
+ delete(n.mu.endpoints, id)
+ refs := n.mu.primary[r.protocol]
for i, ref := range refs {
if ref == r {
- n.primary[r.protocol] = append(refs[:i], refs[i+1:]...)
+ n.mu.primary[r.protocol] = append(refs[:i], refs[i+1:]...)
break
}
}
@@ -854,7 +881,7 @@ func (n *NIC) removeEndpoint(r *referencedNetworkEndpoint) {
}
func (n *NIC) removePermanentAddressLocked(addr tcpip.Address) *tcpip.Error {
- r, ok := n.endpoints[NetworkEndpointID{addr}]
+ r, ok := n.mu.endpoints[NetworkEndpointID{addr}]
if !ok {
return tcpip.ErrBadLocalAddress
}
@@ -870,13 +897,13 @@ func (n *NIC) removePermanentAddressLocked(addr tcpip.Address) *tcpip.Error {
// If we are removing a tentative IPv6 unicast address, stop
// DAD.
if kind == permanentTentative {
- n.ndp.stopDuplicateAddressDetection(addr)
+ n.mu.ndp.stopDuplicateAddressDetection(addr)
}
// If we are removing an address generated via SLAAC, cleanup
// its SLAAC resources and notify the integrator.
if r.configType == slaac {
- n.ndp.cleanupAutoGenAddrResourcesAndNotify(addr)
+ n.mu.ndp.cleanupAutoGenAddrResourcesAndNotify(addr)
}
}
@@ -926,7 +953,7 @@ func (n *NIC) joinGroupLocked(protocol tcpip.NetworkProtocolNumber, addr tcpip.A
// outlined in RFC 3810 section 5.
id := NetworkEndpointID{addr}
- joins := n.mcastJoins[id]
+ joins := n.mu.mcastJoins[id]
if joins == 0 {
netProto, ok := n.stack.networkProtocols[protocol]
if !ok {
@@ -942,7 +969,7 @@ func (n *NIC) joinGroupLocked(protocol tcpip.NetworkProtocolNumber, addr tcpip.A
return err
}
}
- n.mcastJoins[id] = joins + 1
+ n.mu.mcastJoins[id] = joins + 1
return nil
}
@@ -960,7 +987,7 @@ func (n *NIC) leaveGroup(addr tcpip.Address) *tcpip.Error {
// before leaveGroupLocked is called.
func (n *NIC) leaveGroupLocked(addr tcpip.Address) *tcpip.Error {
id := NetworkEndpointID{addr}
- joins := n.mcastJoins[id]
+ joins := n.mu.mcastJoins[id]
switch joins {
case 0:
// There are no joins with this address on this NIC.
@@ -971,7 +998,7 @@ func (n *NIC) leaveGroupLocked(addr tcpip.Address) *tcpip.Error {
return err
}
}
- n.mcastJoins[id] = joins - 1
+ n.mu.mcastJoins[id] = joins - 1
return nil
}
@@ -1006,12 +1033,12 @@ func (n *NIC) DeliverNetworkPacket(linkEP LinkEndpoint, remote, local tcpip.Link
// Are any packet sockets listening for this network protocol?
n.mu.RLock()
- packetEPs := n.packetEPs[protocol]
+ packetEPs := n.mu.packetEPs[protocol]
// Check whether there are packet sockets listening for every protocol.
// If we received a packet with protocol EthernetProtocolAll, then the
// previous for loop will have handled it.
if protocol != header.EthernetProtocolAll {
- packetEPs = append(packetEPs, n.packetEPs[header.EthernetProtocolAll]...)
+ packetEPs = append(packetEPs, n.mu.packetEPs[header.EthernetProtocolAll]...)
}
n.mu.RUnlock()
for _, ep := range packetEPs {
@@ -1060,8 +1087,8 @@ func (n *NIC) DeliverNetworkPacket(linkEP LinkEndpoint, remote, local tcpip.Link
// Found a NIC.
n := r.ref.nic
n.mu.RLock()
- ref, ok := n.endpoints[NetworkEndpointID{dst}]
- ok = ok && ref.isValidForOutgoing() && ref.tryIncRef()
+ ref, ok := n.mu.endpoints[NetworkEndpointID{dst}]
+ ok = ok && ref.isValidForOutgoingRLocked() && ref.tryIncRef()
n.mu.RUnlock()
if ok {
r.RemoteAddress = src
@@ -1181,7 +1208,7 @@ func (n *NIC) Stack() *Stack {
// false. It will only return true if the address is associated with the NIC
// AND it is tentative.
func (n *NIC) isAddrTentative(addr tcpip.Address) bool {
- ref, ok := n.endpoints[NetworkEndpointID{addr}]
+ ref, ok := n.mu.endpoints[NetworkEndpointID{addr}]
if !ok {
return false
}
@@ -1197,7 +1224,7 @@ func (n *NIC) dupTentativeAddrDetected(addr tcpip.Address) *tcpip.Error {
n.mu.Lock()
defer n.mu.Unlock()
- ref, ok := n.endpoints[NetworkEndpointID{addr}]
+ ref, ok := n.mu.endpoints[NetworkEndpointID{addr}]
if !ok {
return tcpip.ErrBadAddress
}
@@ -1217,7 +1244,7 @@ func (n *NIC) setNDPConfigs(c NDPConfigurations) {
c.validate()
n.mu.Lock()
- n.ndp.configs = c
+ n.mu.ndp.configs = c
n.mu.Unlock()
}
@@ -1226,7 +1253,7 @@ func (n *NIC) handleNDPRA(ip tcpip.Address, ra header.NDPRouterAdvert) {
n.mu.Lock()
defer n.mu.Unlock()
- n.ndp.handleRA(ip, ra)
+ n.mu.ndp.handleRA(ip, ra)
}
type networkEndpointKind int32
@@ -1268,11 +1295,11 @@ func (n *NIC) registerPacketEndpoint(netProto tcpip.NetworkProtocolNumber, ep Pa
n.mu.Lock()
defer n.mu.Unlock()
- eps, ok := n.packetEPs[netProto]
+ eps, ok := n.mu.packetEPs[netProto]
if !ok {
return tcpip.ErrNotSupported
}
- n.packetEPs[netProto] = append(eps, ep)
+ n.mu.packetEPs[netProto] = append(eps, ep)
return nil
}
@@ -1281,14 +1308,14 @@ func (n *NIC) unregisterPacketEndpoint(netProto tcpip.NetworkProtocolNumber, ep
n.mu.Lock()
defer n.mu.Unlock()
- eps, ok := n.packetEPs[netProto]
+ eps, ok := n.mu.packetEPs[netProto]
if !ok {
return
}
for i, epOther := range eps {
if epOther == ep {
- n.packetEPs[netProto] = append(eps[:i], eps[i+1:]...)
+ n.mu.packetEPs[netProto] = append(eps[:i], eps[i+1:]...)
return
}
}
@@ -1346,14 +1373,19 @@ func (r *referencedNetworkEndpoint) setKind(kind networkEndpointKind) {
// packet. It requires the endpoint to not be marked expired (i.e., its address
// has been removed), or the NIC to be in spoofing mode.
func (r *referencedNetworkEndpoint) isValidForOutgoing() bool {
- return r.getKind() != permanentExpired || r.nic.spoofing
+ r.nic.mu.RLock()
+ defer r.nic.mu.RUnlock()
+
+ return r.isValidForOutgoingRLocked()
}
-// isValidForIncoming returns true if the endpoint can accept an incoming
-// packet. It requires the endpoint to not be marked expired (i.e., its address
-// has been removed), or the NIC to be in promiscuous mode.
-func (r *referencedNetworkEndpoint) isValidForIncoming() bool {
- return r.getKind() != permanentExpired || r.nic.promiscuous
+// isValidForOutgoingRLocked returns true if the endpoint can be used to send
+// out a packet. It requires the endpoint to not be marked expired (i.e., its
+// address has been removed), or the NIC to be in spoofing mode.
+//
+// r's NIC must be read locked.
+func (r *referencedNetworkEndpoint) isValidForOutgoingRLocked() bool {
+ return r.getKind() != permanentExpired || r.nic.mu.spoofing
}
// decRef decrements the ref count and cleans up the endpoint once it reaches