kilo/vendor/golang.org/x/net/bpf/constants.go

// Copyright 2016 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.

package bpf

// A Register is a register of the BPF virtual machine.
type Register uint16

const (
	// RegA is the accumulator register. RegA is always the
	// destination register of ALU operations.
	RegA Register = iota
	// RegX is the indirection register, used by LoadIndirect
	// operations.
	RegX
)

// An ALUOp is an arithmetic or logic operation.
type ALUOp uint16

// ALU binary operation types.
const (
	ALUOpAdd ALUOp = iota << 4
	ALUOpSub
	ALUOpMul
	ALUOpDiv
	ALUOpOr
	ALUOpAnd
	ALUOpShiftLeft
	ALUOpShiftRight
	aluOpNeg // Not exported because it's the only unary ALU operation, and gets its own instruction type.
	ALUOpMod
	ALUOpXor
)

// A JumpTest is a comparison operator used in conditional jumps.
type JumpTest uint16

// Supported operators for conditional jumps.
// K can be RegX for JumpIfX
const (
	// K == A
	JumpEqual JumpTest = iota
	// K != A
	JumpNotEqual
	// K > A
	JumpGreaterThan
	// K < A
	JumpLessThan
	// K >= A
	JumpGreaterOrEqual
	// K <= A
	JumpLessOrEqual
	// K & A != 0
	JumpBitsSet
	// K & A == 0
	JumpBitsNotSet
)

// An Extension is a function call provided by the kernel that
// performs advanced operations that are expensive or impossible
// within the BPF virtual machine.
//
// Extensions are only implemented by the Linux kernel.
//
// TODO: should we prune this list? Some of these extensions seem
// either broken or near-impossible to use correctly, whereas other
// (len, random, ifindex) are quite useful.
type Extension int

// Extension functions available in the Linux kernel.
const (
	// extOffset is the negative maximum number of instructions used
	// to load instructions by overloading the K argument.
	extOffset = -0x1000
	// ExtLen returns the length of the packet.
	ExtLen Extension = 1
	// ExtProto returns the packet's L3 protocol type.
	ExtProto Extension = 0
	// ExtType returns the packet's type (skb->pkt_type in the kernel)
	//
	// TODO: better documentation. How nice an API do we want to
	// provide for these esoteric extensions?
	ExtType Extension = 4
	// ExtPayloadOffset returns the offset of the packet payload, or
	// the first protocol header that the kernel does not know how to
	// parse.
	ExtPayloadOffset Extension = 52
	// ExtInterfaceIndex returns the index of the interface on which
	// the packet was received.
	ExtInterfaceIndex Extension = 8
	// ExtNetlinkAttr returns the netlink attribute of type X at
	// offset A.
	ExtNetlinkAttr Extension = 12
	// ExtNetlinkAttrNested returns the nested netlink attribute of
	// type X at offset A.
	ExtNetlinkAttrNested Extension = 16
	// ExtMark returns the packet's mark value.
	ExtMark Extension = 20
	// ExtQueue returns the packet's assigned hardware queue.
	ExtQueue Extension = 24
	// ExtLinkLayerType returns the packet's hardware address type
	// (e.g. Ethernet, Infiniband).
	ExtLinkLayerType Extension = 28
	// ExtRXHash returns the packets receive hash.
	//
	// TODO: figure out what this rxhash actually is.
	ExtRXHash Extension = 32
	// ExtCPUID returns the ID of the CPU processing the current
	// packet.
	ExtCPUID Extension = 36
	// ExtVLANTag returns the packet's VLAN tag.
	ExtVLANTag Extension = 44
	// ExtVLANTagPresent returns non-zero if the packet has a VLAN
	// tag.
	//
	// TODO: I think this might be a lie: it reads bit 0x1000 of the
	// VLAN header, which changed meaning in recent revisions of the
	// spec - this extension may now return meaningless information.
	ExtVLANTagPresent Extension = 48
	// ExtVLANProto returns 0x8100 if the frame has a VLAN header,
	// 0x88a8 if the frame has a "Q-in-Q" double VLAN header, or some
	// other value if no VLAN information is present.
	ExtVLANProto Extension = 60
	// ExtRand returns a uniformly random uint32.
	ExtRand Extension = 56
)

// The following gives names to various bit patterns used in opcode construction.

const (
	opMaskCls uint16 = 0x7
	// opClsLoad masks
	opMaskLoadDest  = 0x01
	opMaskLoadWidth = 0x18
	opMaskLoadMode  = 0xe0
	// opClsALU & opClsJump
	opMaskOperand  = 0x08
	opMaskOperator = 0xf0
)

const (
	// +---------------+-----------------+---+---+---+
	// | AddrMode (3b) | LoadWidth (2b)  | 0 | 0 | 0 |
	// +---------------+-----------------+---+---+---+
	opClsLoadA uint16 = iota
	// +---------------+-----------------+---+---+---+
	// | AddrMode (3b) | LoadWidth (2b)  | 0 | 0 | 1 |
	// +---------------+-----------------+---+---+---+
	opClsLoadX
	// +---+---+---+---+---+---+---+---+
	// | 0 | 0 | 0 | 0 | 0 | 0 | 1 | 0 |
	// +---+---+---+---+---+---+---+---+
	opClsStoreA
	// +---+---+---+---+---+---+---+---+
	// | 0 | 0 | 0 | 0 | 0 | 0 | 1 | 1 |
	// +---+---+---+---+---+---+---+---+
	opClsStoreX
	// +---------------+-----------------+---+---+---+
	// | Operator (4b) | OperandSrc (1b) | 1 | 0 | 0 |
	// +---------------+-----------------+---+---+---+
	opClsALU
	// +-----------------------------+---+---+---+---+
	// |      TestOperator (4b)      | 0 | 1 | 0 | 1 |
	// +-----------------------------+---+---+---+---+
	opClsJump
	// +---+-------------------------+---+---+---+---+
	// | 0 | 0 | 0 |   RetSrc (1b)   | 0 | 1 | 1 | 0 |
	// +---+-------------------------+---+---+---+---+
	opClsReturn
	// +---+-------------------------+---+---+---+---+
	// | 0 | 0 | 0 |  TXAorTAX (1b)  | 0 | 1 | 1 | 1 |
	// +---+-------------------------+---+---+---+---+
	opClsMisc
)

const (
	opAddrModeImmediate uint16 = iota << 5
	opAddrModeAbsolute
	opAddrModeIndirect
	opAddrModeScratch
	opAddrModePacketLen // actually an extension, not an addressing mode.
	opAddrModeMemShift
)

const (
	opLoadWidth4 uint16 = iota << 3
	opLoadWidth2
	opLoadWidth1
)

// Operand for ALU and Jump instructions
type opOperand uint16

// Supported operand sources.
const (
	opOperandConstant opOperand = iota << 3
	opOperandX
)

// An jumpOp is a conditional jump condition.
type jumpOp uint16

// Supported jump conditions.
const (
	opJumpAlways jumpOp = iota << 4
	opJumpEqual
	opJumpGT
	opJumpGE
	opJumpSet
)

const (
	opRetSrcConstant uint16 = iota << 4
	opRetSrcA
)

const (
	opMiscTAX = 0x00
	opMiscTXA = 0x80
)
migrate to golang.zx2c4.com/wireguard/wgctrl (#239) * migrate to golang.zx2c4.com/wireguard/wgctrl This commit introduces the usage of wgctrl. It avoids the usage of exec calls of the wg command and parsing the output of `wg show`. Signed-off-by: leonnicolas <leonloechner@gmx.de> * vendor wgctrl Signed-off-by: leonnicolas <leonloechner@gmx.de> * apply suggestions from code review Remove wireguard.Enpoint struct and use net.UDPAddr for the resolved endpoint and addr string (dnsanme:port) if a DN was supplied. Signed-off-by: leonnicolas <leonloechner@gmx.de> * pkg/: use wireguard.Enpoint This commit introduces the wireguard.Enpoint struct. It encapsulates a DN name with port and a net.UPDAddr. The fields are private and only accessible over exported Methods to avoid accidental modification. Also iptables.GetProtocol is improved to avoid ipv4 rules being applied by `ip6tables`. Signed-off-by: leonnicolas <leonloechner@gmx.de> pkg/wireguard/conf_test.go: add tests for Endpoint Signed-off-by: leonnicolas <leonloechner@gmx.de> * cmd/kg/main.go: validate port range Signed-off-by: leonnicolas <leonloechner@gmx.de> * add suggestions from review Signed-off-by: leonnicolas <leonloechner@gmx.de> * pkg/mesh/mesh.go: use Equal func Implement an Equal func for Enpoint and use it instead of comparing strings. Signed-off-by: leonnicolas <leonloechner@gmx.de> * cmd/kgctl/main.go: check port range Signed-off-by: leonnicolas <leonloechner@gmx.de> * vendor Signed-off-by: leonnicolas <leonloechner@gmx.de> 2022-01-30 16:38:45 +00:00			`// Copyright 2016 The Go Authors. All rights reserved.`
			`// Use of this source code is governed by a BSD-style`
			`// license that can be found in the LICENSE file.`

			`package bpf`

			`// A Register is a register of the BPF virtual machine.`
			`type Register uint16`

			`const (`
			`// RegA is the accumulator register. RegA is always the`
			`// destination register of ALU operations.`
			`RegA Register = iota`
			`// RegX is the indirection register, used by LoadIndirect`
			`// operations.`
			`RegX`
			`)`

			`// An ALUOp is an arithmetic or logic operation.`
			`type ALUOp uint16`

			`// ALU binary operation types.`
			`const (`
			`ALUOpAdd ALUOp = iota << 4`
			`ALUOpSub`
			`ALUOpMul`
			`ALUOpDiv`
			`ALUOpOr`
			`ALUOpAnd`
			`ALUOpShiftLeft`
			`ALUOpShiftRight`
			`aluOpNeg // Not exported because it's the only unary ALU operation, and gets its own instruction type.`
			`ALUOpMod`
			`ALUOpXor`
			`)`

			`// A JumpTest is a comparison operator used in conditional jumps.`
			`type JumpTest uint16`

			`// Supported operators for conditional jumps.`
			`// K can be RegX for JumpIfX`
			`const (`
			`// K == A`
			`JumpEqual JumpTest = iota`
			`// K != A`
			`JumpNotEqual`
			`// K > A`
			`JumpGreaterThan`
			`// K < A`
			`JumpLessThan`
			`// K >= A`
			`JumpGreaterOrEqual`
			`// K <= A`
			`JumpLessOrEqual`
			`// K & A != 0`
			`JumpBitsSet`
			`// K & A == 0`
			`JumpBitsNotSet`
			`)`

			`// An Extension is a function call provided by the kernel that`
			`// performs advanced operations that are expensive or impossible`
			`// within the BPF virtual machine.`
			`//`
			`// Extensions are only implemented by the Linux kernel.`
			`//`
			`// TODO: should we prune this list? Some of these extensions seem`
			`// either broken or near-impossible to use correctly, whereas other`
			`// (len, random, ifindex) are quite useful.`
			`type Extension int`

			`// Extension functions available in the Linux kernel.`
			`const (`
			`// extOffset is the negative maximum number of instructions used`
			`// to load instructions by overloading the K argument.`
			`extOffset = -0x1000`
			`// ExtLen returns the length of the packet.`
			`ExtLen Extension = 1`
			`// ExtProto returns the packet's L3 protocol type.`
			`ExtProto Extension = 0`
			`// ExtType returns the packet's type (skb->pkt_type in the kernel)`
			`//`
			`// TODO: better documentation. How nice an API do we want to`
			`// provide for these esoteric extensions?`
			`ExtType Extension = 4`
			`// ExtPayloadOffset returns the offset of the packet payload, or`
			`// the first protocol header that the kernel does not know how to`
			`// parse.`
			`ExtPayloadOffset Extension = 52`
			`// ExtInterfaceIndex returns the index of the interface on which`
			`// the packet was received.`
			`ExtInterfaceIndex Extension = 8`
			`// ExtNetlinkAttr returns the netlink attribute of type X at`
			`// offset A.`
			`ExtNetlinkAttr Extension = 12`
			`// ExtNetlinkAttrNested returns the nested netlink attribute of`
			`// type X at offset A.`
			`ExtNetlinkAttrNested Extension = 16`
			`// ExtMark returns the packet's mark value.`
			`ExtMark Extension = 20`
			`// ExtQueue returns the packet's assigned hardware queue.`
			`ExtQueue Extension = 24`
			`// ExtLinkLayerType returns the packet's hardware address type`
			`// (e.g. Ethernet, Infiniband).`
			`ExtLinkLayerType Extension = 28`
			`// ExtRXHash returns the packets receive hash.`
			`//`
			`// TODO: figure out what this rxhash actually is.`
			`ExtRXHash Extension = 32`
			`// ExtCPUID returns the ID of the CPU processing the current`
			`// packet.`
			`ExtCPUID Extension = 36`
			`// ExtVLANTag returns the packet's VLAN tag.`
			`ExtVLANTag Extension = 44`
			`// ExtVLANTagPresent returns non-zero if the packet has a VLAN`
			`// tag.`
			`//`
			`// TODO: I think this might be a lie: it reads bit 0x1000 of the`
			`// VLAN header, which changed meaning in recent revisions of the`
			`// spec - this extension may now return meaningless information.`
			`ExtVLANTagPresent Extension = 48`
			`// ExtVLANProto returns 0x8100 if the frame has a VLAN header,`
			`// 0x88a8 if the frame has a "Q-in-Q" double VLAN header, or some`
			`// other value if no VLAN information is present.`
			`ExtVLANProto Extension = 60`
			`// ExtRand returns a uniformly random uint32.`
			`ExtRand Extension = 56`
			`)`

			`// The following gives names to various bit patterns used in opcode construction.`

			`const (`
			`opMaskCls uint16 = 0x7`
			`// opClsLoad masks`
			`opMaskLoadDest = 0x01`
			`opMaskLoadWidth = 0x18`
			`opMaskLoadMode = 0xe0`
			`// opClsALU & opClsJump`
			`opMaskOperand = 0x08`
			`opMaskOperator = 0xf0`
			`)`

			`const (`
			`// +---------------+-----------------+---+---+---+`
			`// \| AddrMode (3b) \| LoadWidth (2b) \| 0 \| 0 \| 0 \|`
			`// +---------------+-----------------+---+---+---+`
			`opClsLoadA uint16 = iota`
			`// +---------------+-----------------+---+---+---+`
			`// \| AddrMode (3b) \| LoadWidth (2b) \| 0 \| 0 \| 1 \|`
			`// +---------------+-----------------+---+---+---+`
			`opClsLoadX`
			`// +---+---+---+---+---+---+---+---+`
			`// \| 0 \| 0 \| 0 \| 0 \| 0 \| 0 \| 1 \| 0 \|`
			`// +---+---+---+---+---+---+---+---+`
			`opClsStoreA`
			`// +---+---+---+---+---+---+---+---+`
			`// \| 0 \| 0 \| 0 \| 0 \| 0 \| 0 \| 1 \| 1 \|`
			`// +---+---+---+---+---+---+---+---+`
			`opClsStoreX`
			`// +---------------+-----------------+---+---+---+`
			`// \| Operator (4b) \| OperandSrc (1b) \| 1 \| 0 \| 0 \|`
			`// +---------------+-----------------+---+---+---+`
			`opClsALU`
			`// +-----------------------------+---+---+---+---+`
			`// \| TestOperator (4b) \| 0 \| 1 \| 0 \| 1 \|`
			`// +-----------------------------+---+---+---+---+`
			`opClsJump`
			`// +---+-------------------------+---+---+---+---+`
			`// \| 0 \| 0 \| 0 \| RetSrc (1b) \| 0 \| 1 \| 1 \| 0 \|`
			`// +---+-------------------------+---+---+---+---+`
			`opClsReturn`
			`// +---+-------------------------+---+---+---+---+`
			`// \| 0 \| 0 \| 0 \| TXAorTAX (1b) \| 0 \| 1 \| 1 \| 1 \|`
			`// +---+-------------------------+---+---+---+---+`
			`opClsMisc`
			`)`

			`const (`
			`opAddrModeImmediate uint16 = iota << 5`
			`opAddrModeAbsolute`
			`opAddrModeIndirect`
			`opAddrModeScratch`
			`opAddrModePacketLen // actually an extension, not an addressing mode.`
			`opAddrModeMemShift`
			`)`

			`const (`
			`opLoadWidth4 uint16 = iota << 3`
			`opLoadWidth2`
			`opLoadWidth1`
			`)`

			`// Operand for ALU and Jump instructions`
			`type opOperand uint16`

			`// Supported operand sources.`
			`const (`
			`opOperandConstant opOperand = iota << 3`
			`opOperandX`
			`)`

			`// An jumpOp is a conditional jump condition.`
			`type jumpOp uint16`

			`// Supported jump conditions.`
			`const (`
			`opJumpAlways jumpOp = iota << 4`
			`opJumpEqual`
			`opJumpGT`
			`opJumpGE`
			`opJumpSet`
			`)`

			`const (`
			`opRetSrcConstant uint16 = iota << 4`
			`opRetSrcA`
			`)`

			`const (`
			`opMiscTAX = 0x00`
			`opMiscTXA = 0x80`
			`)`