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gotosocial/vendor/github.com/cilium/ebpf/asm/opcode.go

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package asm
import (
"fmt"
"strings"
)
//go:generate stringer -output opcode_string.go -type=Class
// Class of operations
//
// msb lsb
// +---+--+---+
// | ?? |CLS|
// +---+--+---+
type Class uint8
const classMask OpCode = 0x07
const (
// LdClass loads immediate values into registers.
// Also used for non-standard load operations from cBPF.
LdClass Class = 0x00
// LdXClass loads memory into registers.
LdXClass Class = 0x01
// StClass stores immediate values to memory.
StClass Class = 0x02
// StXClass stores registers to memory.
StXClass Class = 0x03
// ALUClass describes arithmetic operators.
ALUClass Class = 0x04
// JumpClass describes jump operators.
JumpClass Class = 0x05
// Jump32Class describes jump operators with 32-bit comparisons.
// Requires kernel 5.1.
Jump32Class Class = 0x06
// ALU64Class describes arithmetic operators in 64-bit mode.
ALU64Class Class = 0x07
)
// IsLoad checks if this is either LdClass or LdXClass.
func (cls Class) IsLoad() bool {
return cls == LdClass || cls == LdXClass
}
// IsStore checks if this is either StClass or StXClass.
func (cls Class) IsStore() bool {
return cls == StClass || cls == StXClass
}
func (cls Class) isLoadOrStore() bool {
return cls.IsLoad() || cls.IsStore()
}
// IsALU checks if this is either ALUClass or ALU64Class.
func (cls Class) IsALU() bool {
return cls == ALUClass || cls == ALU64Class
}
// IsJump checks if this is either JumpClass or Jump32Class.
func (cls Class) IsJump() bool {
return cls == JumpClass || cls == Jump32Class
}
func (cls Class) isJumpOrALU() bool {
return cls.IsJump() || cls.IsALU()
}
// OpCode is a packed eBPF opcode.
//
// Its encoding is defined by a Class value:
//
// msb lsb
// +----+-+---+
// | ???? |CLS|
// +----+-+---+
type OpCode uint8
// InvalidOpCode is returned by setters on OpCode
const InvalidOpCode OpCode = 0xff
// rawInstructions returns the number of BPF instructions required
// to encode this opcode.
func (op OpCode) rawInstructions() int {
if op.IsDWordLoad() {
return 2
}
return 1
}
func (op OpCode) IsDWordLoad() bool {
return op == LoadImmOp(DWord)
}
// Class returns the class of operation.
func (op OpCode) Class() Class {
return Class(op & classMask)
}
// Mode returns the mode for load and store operations.
func (op OpCode) Mode() Mode {
if !op.Class().isLoadOrStore() {
return InvalidMode
}
return Mode(op & modeMask)
}
// Size returns the size for load and store operations.
func (op OpCode) Size() Size {
if !op.Class().isLoadOrStore() {
return InvalidSize
}
return Size(op & sizeMask)
}
// Source returns the source for branch and ALU operations.
func (op OpCode) Source() Source {
if !op.Class().isJumpOrALU() || op.ALUOp() == Swap {
return InvalidSource
}
return Source(op & sourceMask)
}
// ALUOp returns the ALUOp.
func (op OpCode) ALUOp() ALUOp {
if !op.Class().IsALU() {
return InvalidALUOp
}
return ALUOp(op & aluMask)
}
// Endianness returns the Endianness for a byte swap instruction.
func (op OpCode) Endianness() Endianness {
if op.ALUOp() != Swap {
return InvalidEndian
}
return Endianness(op & endianMask)
}
// JumpOp returns the JumpOp.
// Returns InvalidJumpOp if it doesn't encode a jump.
func (op OpCode) JumpOp() JumpOp {
if !op.Class().IsJump() {
return InvalidJumpOp
}
jumpOp := JumpOp(op & jumpMask)
// Some JumpOps are only supported by JumpClass, not Jump32Class.
if op.Class() == Jump32Class && (jumpOp == Exit || jumpOp == Call || jumpOp == Ja) {
return InvalidJumpOp
}
return jumpOp
}
// SetMode sets the mode on load and store operations.
//
// Returns InvalidOpCode if op is of the wrong class.
func (op OpCode) SetMode(mode Mode) OpCode {
if !op.Class().isLoadOrStore() || !valid(OpCode(mode), modeMask) {
return InvalidOpCode
}
return (op & ^modeMask) | OpCode(mode)
}
// SetSize sets the size on load and store operations.
//
// Returns InvalidOpCode if op is of the wrong class.
func (op OpCode) SetSize(size Size) OpCode {
if !op.Class().isLoadOrStore() || !valid(OpCode(size), sizeMask) {
return InvalidOpCode
}
return (op & ^sizeMask) | OpCode(size)
}
// SetSource sets the source on jump and ALU operations.
//
// Returns InvalidOpCode if op is of the wrong class.
func (op OpCode) SetSource(source Source) OpCode {
if !op.Class().isJumpOrALU() || !valid(OpCode(source), sourceMask) {
return InvalidOpCode
}
return (op & ^sourceMask) | OpCode(source)
}
// SetALUOp sets the ALUOp on ALU operations.
//
// Returns InvalidOpCode if op is of the wrong class.
func (op OpCode) SetALUOp(alu ALUOp) OpCode {
if !op.Class().IsALU() || !valid(OpCode(alu), aluMask) {
return InvalidOpCode
}
return (op & ^aluMask) | OpCode(alu)
}
// SetJumpOp sets the JumpOp on jump operations.
//
// Returns InvalidOpCode if op is of the wrong class.
func (op OpCode) SetJumpOp(jump JumpOp) OpCode {
if !op.Class().IsJump() || !valid(OpCode(jump), jumpMask) {
return InvalidOpCode
}
newOp := (op & ^jumpMask) | OpCode(jump)
// Check newOp is legal.
if newOp.JumpOp() == InvalidJumpOp {
return InvalidOpCode
}
return newOp
}
func (op OpCode) String() string {
var f strings.Builder
switch class := op.Class(); {
case class.isLoadOrStore():
f.WriteString(strings.TrimSuffix(class.String(), "Class"))
mode := op.Mode()
f.WriteString(strings.TrimSuffix(mode.String(), "Mode"))
switch op.Size() {
case DWord:
f.WriteString("DW")
case Word:
f.WriteString("W")
case Half:
f.WriteString("H")
case Byte:
f.WriteString("B")
}
case class.IsALU():
f.WriteString(op.ALUOp().String())
if op.ALUOp() == Swap {
// Width for Endian is controlled by Constant
f.WriteString(op.Endianness().String())
} else {
if class == ALUClass {
f.WriteString("32")
}
f.WriteString(strings.TrimSuffix(op.Source().String(), "Source"))
}
case class.IsJump():
f.WriteString(op.JumpOp().String())
if class == Jump32Class {
f.WriteString("32")
}
if jop := op.JumpOp(); jop != Exit && jop != Call {
f.WriteString(strings.TrimSuffix(op.Source().String(), "Source"))
}
default:
fmt.Fprintf(&f, "OpCode(%#x)", uint8(op))
}
return f.String()
}
// valid returns true if all bits in value are covered by mask.
func valid(value, mask OpCode) bool {
return value & ^mask == 0
}