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-rw-r--r--pkg/tcpip/header/arp.go77
1 files changed, 52 insertions, 25 deletions
diff --git a/pkg/tcpip/header/arp.go b/pkg/tcpip/header/arp.go
index 718a4720a..83189676e 100644
--- a/pkg/tcpip/header/arp.go
+++ b/pkg/tcpip/header/arp.go
@@ -14,14 +14,33 @@
package header
-import "gvisor.dev/gvisor/pkg/tcpip"
+import (
+ "encoding/binary"
+
+ "gvisor.dev/gvisor/pkg/tcpip"
+)
const (
// ARPProtocolNumber is the ARP network protocol number.
ARPProtocolNumber tcpip.NetworkProtocolNumber = 0x0806
// ARPSize is the size of an IPv4-over-Ethernet ARP packet.
- ARPSize = 2 + 2 + 1 + 1 + 2 + 2*6 + 2*4
+ ARPSize = 28
+)
+
+// ARPHardwareType is the hardware type for LinkEndpoint in an ARP header.
+type ARPHardwareType uint16
+
+// Typical ARP HardwareType values. Some of the constants have to be specific
+// values as they are egressed on the wire in the HTYPE field of an ARP header.
+const (
+ ARPHardwareNone ARPHardwareType = 0
+ // ARPHardwareEther specifically is the HTYPE for Ethernet as specified
+ // in the IANA list here:
+ //
+ // https://www.iana.org/assignments/arp-parameters/arp-parameters.xhtml#arp-parameters-2
+ ARPHardwareEther ARPHardwareType = 1
+ ARPHardwareLoopback ARPHardwareType = 2
)
// ARPOp is an ARP opcode.
@@ -36,54 +55,64 @@ const (
// ARP is an ARP packet stored in a byte array as described in RFC 826.
type ARP []byte
-func (a ARP) hardwareAddressSpace() uint16 { return uint16(a[0])<<8 | uint16(a[1]) }
-func (a ARP) protocolAddressSpace() uint16 { return uint16(a[2])<<8 | uint16(a[3]) }
-func (a ARP) hardwareAddressSize() int { return int(a[4]) }
-func (a ARP) protocolAddressSize() int { return int(a[5]) }
+const (
+ hTypeOffset = 0
+ protocolOffset = 2
+ haAddressSizeOffset = 4
+ protoAddressSizeOffset = 5
+ opCodeOffset = 6
+ senderHAAddressOffset = 8
+ senderProtocolAddressOffset = senderHAAddressOffset + EthernetAddressSize
+ targetHAAddressOffset = senderProtocolAddressOffset + IPv4AddressSize
+ targetProtocolAddressOffset = targetHAAddressOffset + EthernetAddressSize
+)
+
+func (a ARP) hardwareAddressType() ARPHardwareType {
+ return ARPHardwareType(binary.BigEndian.Uint16(a[hTypeOffset:]))
+}
+
+func (a ARP) protocolAddressSpace() uint16 { return binary.BigEndian.Uint16(a[protocolOffset:]) }
+func (a ARP) hardwareAddressSize() int { return int(a[haAddressSizeOffset]) }
+func (a ARP) protocolAddressSize() int { return int(a[protoAddressSizeOffset]) }
// Op is the ARP opcode.
-func (a ARP) Op() ARPOp { return ARPOp(a[6])<<8 | ARPOp(a[7]) }
+func (a ARP) Op() ARPOp { return ARPOp(binary.BigEndian.Uint16(a[opCodeOffset:])) }
// SetOp sets the ARP opcode.
func (a ARP) SetOp(op ARPOp) {
- a[6] = uint8(op >> 8)
- a[7] = uint8(op)
+ binary.BigEndian.PutUint16(a[opCodeOffset:], uint16(op))
}
// SetIPv4OverEthernet configures the ARP packet for IPv4-over-Ethernet.
func (a ARP) SetIPv4OverEthernet() {
- a[0], a[1] = 0, 1 // htypeEthernet
- a[2], a[3] = 0x08, 0x00 // IPv4ProtocolNumber
- a[4] = 6 // macSize
- a[5] = uint8(IPv4AddressSize)
+ binary.BigEndian.PutUint16(a[hTypeOffset:], uint16(ARPHardwareEther))
+ binary.BigEndian.PutUint16(a[protocolOffset:], uint16(IPv4ProtocolNumber))
+ a[haAddressSizeOffset] = EthernetAddressSize
+ a[protoAddressSizeOffset] = uint8(IPv4AddressSize)
}
// HardwareAddressSender is the link address of the sender.
// It is a view on to the ARP packet so it can be used to set the value.
func (a ARP) HardwareAddressSender() []byte {
- const s = 8
- return a[s : s+6]
+ return a[senderHAAddressOffset : senderHAAddressOffset+EthernetAddressSize]
}
// ProtocolAddressSender is the protocol address of the sender.
// It is a view on to the ARP packet so it can be used to set the value.
func (a ARP) ProtocolAddressSender() []byte {
- const s = 8 + 6
- return a[s : s+4]
+ return a[senderProtocolAddressOffset : senderProtocolAddressOffset+IPv4AddressSize]
}
// HardwareAddressTarget is the link address of the target.
// It is a view on to the ARP packet so it can be used to set the value.
func (a ARP) HardwareAddressTarget() []byte {
- const s = 8 + 6 + 4
- return a[s : s+6]
+ return a[targetHAAddressOffset : targetHAAddressOffset+EthernetAddressSize]
}
// ProtocolAddressTarget is the protocol address of the target.
// It is a view on to the ARP packet so it can be used to set the value.
func (a ARP) ProtocolAddressTarget() []byte {
- const s = 8 + 6 + 4 + 6
- return a[s : s+4]
+ return a[targetProtocolAddressOffset : targetProtocolAddressOffset+IPv4AddressSize]
}
// IsValid reports whether this is an ARP packet for IPv4 over Ethernet.
@@ -91,10 +120,8 @@ func (a ARP) IsValid() bool {
if len(a) < ARPSize {
return false
}
- const htypeEthernet = 1
- const macSize = 6
- return a.hardwareAddressSpace() == htypeEthernet &&
+ return a.hardwareAddressType() == ARPHardwareEther &&
a.protocolAddressSpace() == uint16(IPv4ProtocolNumber) &&
- a.hardwareAddressSize() == macSize &&
+ a.hardwareAddressSize() == EthernetAddressSize &&
a.protocolAddressSize() == IPv4AddressSize
}