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authorgVisor bot <gvisor-bot@google.com>2021-02-09 09:07:38 +0000
committergVisor bot <gvisor-bot@google.com>2021-02-09 09:07:38 +0000
commitb55c5c8d97cac508f132306d7ee24c47705cc2db (patch)
tree026126228d2992679ba090eedfee1a9a9afbfcb3 /pkg/tcpip/network/ipv4
parentb98fa348b6ee67d4272a79c83a810998646d50f9 (diff)
parent3f802e7180cfe703ecb97d8f2b6ba32257cf6216 (diff)
Merge release-20210201.0-62-g3f802e718 (automated)
Diffstat (limited to 'pkg/tcpip/network/ipv4')
-rw-r--r--pkg/tcpip/network/ipv4/icmp.go53
-rw-r--r--pkg/tcpip/network/ipv4/ipv4.go114
2 files changed, 131 insertions, 36 deletions
diff --git a/pkg/tcpip/network/ipv4/icmp.go b/pkg/tcpip/network/ipv4/icmp.go
index 2b7bc0dd0..b44304cee 100644
--- a/pkg/tcpip/network/ipv4/icmp.go
+++ b/pkg/tcpip/network/ipv4/icmp.go
@@ -213,7 +213,8 @@ func (e *endpoint) handleICMP(pkt *stack.PacketBuffer) {
} else {
op = &optionUsageReceive{}
}
- tmp, optProblem := e.processIPOptions(pkt, opts, op)
+ var optProblem *header.IPv4OptParameterProblem
+ newOptions, optProblem = e.processIPOptions(pkt, opts, op)
if optProblem != nil {
if optProblem.NeedICMP {
_ = e.protocol.returnError(&icmpReasonParamProblem{
@@ -224,7 +225,14 @@ func (e *endpoint) handleICMP(pkt *stack.PacketBuffer) {
}
return
}
- newOptions = tmp
+ copied := copy(opts, newOptions)
+ if copied != len(newOptions) {
+ panic(fmt.Sprintf("copied %d bytes of new options, expected %d bytes", copied, len(newOptions)))
+ }
+ for i := copied; i < len(opts); i++ {
+ // Pad with 0 (EOL). RFC 791 page 23 says "The padding is zero".
+ opts[i] = byte(header.IPv4OptionListEndType)
+ }
}
// TODO(b/112892170): Meaningfully handle all ICMP types.
@@ -375,6 +383,7 @@ func (e *endpoint) handleICMP(pkt *stack.PacketBuffer) {
// icmpReason is a marker interface for IPv4 specific ICMP errors.
type icmpReason interface {
isICMPReason()
+ isForwarding() bool
}
// icmpReasonPortUnreachable is an error where the transport protocol has no
@@ -382,12 +391,18 @@ type icmpReason interface {
type icmpReasonPortUnreachable struct{}
func (*icmpReasonPortUnreachable) isICMPReason() {}
+func (*icmpReasonPortUnreachable) isForwarding() bool {
+ return false
+}
// icmpReasonProtoUnreachable is an error where the transport protocol is
// not supported.
type icmpReasonProtoUnreachable struct{}
func (*icmpReasonProtoUnreachable) isICMPReason() {}
+func (*icmpReasonProtoUnreachable) isForwarding() bool {
+ return false
+}
// icmpReasonTTLExceeded is an error where a packet's time to live exceeded in
// transit to its final destination, as per RFC 792 page 6, Time Exceeded
@@ -395,6 +410,15 @@ func (*icmpReasonProtoUnreachable) isICMPReason() {}
type icmpReasonTTLExceeded struct{}
func (*icmpReasonTTLExceeded) isICMPReason() {}
+func (*icmpReasonTTLExceeded) isForwarding() bool {
+ // If we hit a TTL Exceeded error, then we know we are operating as a router.
+ // As per RFC 792 page 6, Time Exceeded Message,
+ //
+ // If the gateway processing a datagram finds the time to live field
+ // is zero it must discard the datagram. The gateway may also notify
+ // the source host via the time exceeded message.
+ return true
+}
// icmpReasonReassemblyTimeout is an error where insufficient fragments are
// received to complete reassembly of a packet within a configured time after
@@ -402,14 +426,21 @@ func (*icmpReasonTTLExceeded) isICMPReason() {}
type icmpReasonReassemblyTimeout struct{}
func (*icmpReasonReassemblyTimeout) isICMPReason() {}
+func (*icmpReasonReassemblyTimeout) isForwarding() bool {
+ return false
+}
// icmpReasonParamProblem is an error to use to request a Parameter Problem
// message to be sent.
type icmpReasonParamProblem struct {
- pointer byte
+ pointer byte
+ forwarding bool
}
func (*icmpReasonParamProblem) isICMPReason() {}
+func (r *icmpReasonParamProblem) isForwarding() bool {
+ return r.forwarding
+}
// returnError takes an error descriptor and generates the appropriate ICMP
// error packet for IPv4 and sends it back to the remote device that sent
@@ -448,26 +479,14 @@ func (p *protocol) returnError(reason icmpReason, pkt *stack.PacketBuffer) tcpip
return nil
}
- // If we hit a TTL Exceeded error, then we know we are operating as a router.
- // As per RFC 792 page 6, Time Exceeded Message,
- //
- // If the gateway processing a datagram finds the time to live field
- // is zero it must discard the datagram. The gateway may also notify
- // the source host via the time exceeded message.
- //
- // ...
- //
- // Code 0 may be received from a gateway. ...
- //
- // Note, Code 0 is the TTL exceeded error.
- //
// If we are operating as a router/gateway, don't use the packet's destination
// address as the response's source address as we should not not own the
// destination address of a packet we are forwarding.
localAddr := origIPHdrDst
- if _, ok := reason.(*icmpReasonTTLExceeded); ok {
+ if reason.isForwarding() {
localAddr = ""
}
+
// Even if we were able to receive a packet from some remote, we may not have
// a route to it - the remote may be blocked via routing rules. We must always
// consult our routing table and find a route to the remote before sending any
diff --git a/pkg/tcpip/network/ipv4/ipv4.go b/pkg/tcpip/network/ipv4/ipv4.go
index 7de438fe3..c5e4034ce 100644
--- a/pkg/tcpip/network/ipv4/ipv4.go
+++ b/pkg/tcpip/network/ipv4/ipv4.go
@@ -561,6 +561,34 @@ func (e *endpoint) forwardPacket(pkt *stack.PacketBuffer) tcpip.Error {
return e.protocol.returnError(&icmpReasonTTLExceeded{}, pkt)
}
+ if opts := h.Options(); len(opts) != 0 {
+ newOpts, optProblem := e.processIPOptions(pkt, opts, &optionUsageForward{})
+ if optProblem != nil {
+ if optProblem.NeedICMP {
+ _ = e.protocol.returnError(&icmpReasonParamProblem{
+ pointer: optProblem.Pointer,
+ forwarding: true,
+ }, pkt)
+ e.protocol.stack.Stats().MalformedRcvdPackets.Increment()
+ e.stats.ip.MalformedPacketsReceived.Increment()
+ }
+ return nil // option problems are not reported locally.
+ }
+ copied := copy(opts, newOpts)
+ if copied != len(newOpts) {
+ panic(fmt.Sprintf("copied %d bytes of new options, expected %d bytes", copied, len(newOpts)))
+ }
+ // Since in forwarding we handle all options, including copying those we
+ // do not recognise, the options region should remain the same size which
+ // simplifies processing. As we MAY receive a packet with a lot of padded
+ // bytes after the "end of options list" byte, make sure we copy
+ // them as the legal padding value (0).
+ for i := copied; i < len(opts); i++ {
+ // Pad with 0 (EOL). RFC 791 page 23 says "The padding is zero".
+ opts[i] = byte(header.IPv4OptionListEndType)
+ }
+ }
+
dstAddr := h.DestinationAddress()
// Check if the destination is owned by the stack.
@@ -711,8 +739,9 @@ func (e *endpoint) handlePacket(pkt *stack.PacketBuffer) {
}
}
- // The destination address should be an address we own or a group we joined
- // for us to receive the packet. Otherwise, attempt to forward the packet.
+ // Before we do any processing, note if the packet was received as some
+ // sort of broadcast. The destination address should be an address we own
+ // or a group we joined.
if addressEndpoint := e.AcquireAssignedAddress(dstAddr, e.nic.Promiscuous(), stack.CanBePrimaryEndpoint); addressEndpoint != nil {
subnet := addressEndpoint.AddressWithPrefix().Subnet()
addressEndpoint.DecRef()
@@ -722,7 +751,6 @@ func (e *endpoint) handlePacket(pkt *stack.PacketBuffer) {
stats.ip.InvalidDestinationAddressesReceived.Increment()
return
}
-
_ = e.forwardPacket(pkt)
return
}
@@ -744,6 +772,21 @@ func (e *endpoint) handlePacket(pkt *stack.PacketBuffer) {
stats.ip.MalformedFragmentsReceived.Increment()
return
}
+ if opts := h.Options(); len(opts) != 0 {
+ // If there are options we need to check them before we do assembly
+ // or we could be assembling errant packets. However we do not change the
+ // options as that could lead to double processing later.
+ if _, optProblem := e.processIPOptions(pkt, opts, &optionUsageVerify{}); optProblem != nil {
+ if optProblem.NeedICMP {
+ _ = e.protocol.returnError(&icmpReasonParamProblem{
+ pointer: optProblem.Pointer,
+ }, pkt)
+ e.protocol.stack.Stats().MalformedRcvdPackets.Increment()
+ e.stats.ip.MalformedPacketsReceived.Increment()
+ }
+ return
+ }
+ }
// The packet is a fragment, let's try to reassemble it.
start := h.FragmentOffset()
// Drop the fragment if the size of the reassembled payload would exceed the
@@ -802,17 +845,10 @@ func (e *endpoint) handlePacket(pkt *stack.PacketBuffer) {
e.handleICMP(pkt)
return
}
- if p == header.IGMPProtocolNumber {
- e.mu.Lock()
- e.mu.igmp.handleIGMP(pkt)
- e.mu.Unlock()
- return
- }
+ // ICMP handles options itself but do it here for all remaining destinations.
if opts := h.Options(); len(opts) != 0 {
- // TODO(gvisor.dev/issue/4586):
- // When we add forwarding support we should use the verified options
- // rather than just throwing them away.
- if _, optProblem := e.processIPOptions(pkt, opts, &optionUsageReceive{}); optProblem != nil {
+ newOpts, optProblem := e.processIPOptions(pkt, opts, &optionUsageReceive{})
+ if optProblem != nil {
if optProblem.NeedICMP {
_ = e.protocol.returnError(&icmpReasonParamProblem{
pointer: optProblem.Pointer,
@@ -822,6 +858,20 @@ func (e *endpoint) handlePacket(pkt *stack.PacketBuffer) {
}
return
}
+ copied := copy(opts, newOpts)
+ if copied != len(newOpts) {
+ panic(fmt.Sprintf("copied %d bytes of new options, expected %d bytes", copied, len(newOpts)))
+ }
+ for i := copied; i < len(opts); i++ {
+ // Pad with 0 (EOL). RFC 791 page 23 says "The padding is zero".
+ opts[i] = byte(header.IPv4OptionListEndType)
+ }
+ }
+ if p == header.IGMPProtocolNumber {
+ e.mu.Lock()
+ e.mu.igmp.handleIGMP(pkt)
+ e.mu.Unlock()
+ return
}
switch res := e.dispatcher.DeliverTransportPacket(p, pkt); res {
@@ -1254,23 +1304,49 @@ type optionsUsage interface {
actions() optionActions
}
-// optionUsageReceive implements optionsUsage for received packets.
-type optionUsageReceive struct{}
+// optionUsageVerify implements optionsUsage for when we just want to check
+// fragments. Don't change anything, just check and reject if bad. No
+// replacement options are generated.
+type optionUsageVerify struct{}
// actions implements optionsUsage.
-func (*optionUsageReceive) actions() optionActions {
+func (*optionUsageVerify) actions() optionActions {
return optionActions{
timestamp: optionVerify,
recordRoute: optionVerify,
+ unknown: optionRemove,
+ }
+}
+
+// optionUsageReceive implements optionsUsage for packets we will pass
+// to the transport layer (with the exception of Echo requests).
+type optionUsageReceive struct{}
+
+// actions implements optionsUsage.
+func (*optionUsageReceive) actions() optionActions {
+ return optionActions{
+ timestamp: optionProcess,
+ recordRoute: optionProcess,
unknown: optionPass,
}
}
-// TODO(gvisor.dev/issue/4586): Add an entry here for forwarding when it
-// is enabled (Process, Process, Pass) and for fragmenting (Process, Process,
-// Pass for frag1, but Remove,Remove,Remove for all other frags).
+// optionUsageForward implements optionsUsage for packets about to be forwarded.
+// All options are passed on regardless of whether we recognise them, however
+// we do process the Timestamp and Record Route options.
+type optionUsageForward struct{}
+
+// actions implements optionsUsage.
+func (*optionUsageForward) actions() optionActions {
+ return optionActions{
+ timestamp: optionProcess,
+ recordRoute: optionProcess,
+ unknown: optionPass,
+ }
+}
// optionUsageEcho implements optionsUsage for echo packet processing.
+// Only Timestamp and RecordRoute are processed and sent back.
type optionUsageEcho struct{}
// actions implements optionsUsage.