499 lines
12 KiB
Go
499 lines
12 KiB
Go
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package asm
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import (
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"crypto/sha1"
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"encoding/binary"
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"encoding/hex"
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"errors"
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"fmt"
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"io"
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"math"
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"strings"
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"github.com/cilium/ebpf/internal/unix"
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)
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// InstructionSize is the size of a BPF instruction in bytes
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const InstructionSize = 8
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// RawInstructionOffset is an offset in units of raw BPF instructions.
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type RawInstructionOffset uint64
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// Bytes returns the offset of an instruction in bytes.
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func (rio RawInstructionOffset) Bytes() uint64 {
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return uint64(rio) * InstructionSize
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}
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// Instruction is a single eBPF instruction.
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type Instruction struct {
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OpCode OpCode
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Dst Register
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Src Register
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Offset int16
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Constant int64
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Reference string
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Symbol string
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}
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// Sym creates a symbol.
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func (ins Instruction) Sym(name string) Instruction {
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ins.Symbol = name
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return ins
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}
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// Unmarshal decodes a BPF instruction.
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func (ins *Instruction) Unmarshal(r io.Reader, bo binary.ByteOrder) (uint64, error) {
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var bi bpfInstruction
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err := binary.Read(r, bo, &bi)
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if err != nil {
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return 0, err
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}
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ins.OpCode = bi.OpCode
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ins.Offset = bi.Offset
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ins.Constant = int64(bi.Constant)
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ins.Dst, ins.Src, err = bi.Registers.Unmarshal(bo)
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if err != nil {
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return 0, fmt.Errorf("can't unmarshal registers: %s", err)
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}
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if !bi.OpCode.isDWordLoad() {
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return InstructionSize, nil
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}
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var bi2 bpfInstruction
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if err := binary.Read(r, bo, &bi2); err != nil {
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// No Wrap, to avoid io.EOF clash
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return 0, errors.New("64bit immediate is missing second half")
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}
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if bi2.OpCode != 0 || bi2.Offset != 0 || bi2.Registers != 0 {
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return 0, errors.New("64bit immediate has non-zero fields")
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}
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ins.Constant = int64(uint64(uint32(bi2.Constant))<<32 | uint64(uint32(bi.Constant)))
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return 2 * InstructionSize, nil
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}
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// Marshal encodes a BPF instruction.
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func (ins Instruction) Marshal(w io.Writer, bo binary.ByteOrder) (uint64, error) {
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if ins.OpCode == InvalidOpCode {
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return 0, errors.New("invalid opcode")
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}
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isDWordLoad := ins.OpCode.isDWordLoad()
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cons := int32(ins.Constant)
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if isDWordLoad {
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// Encode least significant 32bit first for 64bit operations.
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cons = int32(uint32(ins.Constant))
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}
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regs, err := newBPFRegisters(ins.Dst, ins.Src, bo)
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if err != nil {
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return 0, fmt.Errorf("can't marshal registers: %s", err)
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}
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bpfi := bpfInstruction{
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ins.OpCode,
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regs,
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ins.Offset,
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cons,
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}
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if err := binary.Write(w, bo, &bpfi); err != nil {
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return 0, err
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}
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if !isDWordLoad {
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return InstructionSize, nil
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}
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bpfi = bpfInstruction{
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Constant: int32(ins.Constant >> 32),
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}
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if err := binary.Write(w, bo, &bpfi); err != nil {
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return 0, err
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}
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return 2 * InstructionSize, nil
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}
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// RewriteMapPtr changes an instruction to use a new map fd.
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//
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// Returns an error if the instruction doesn't load a map.
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func (ins *Instruction) RewriteMapPtr(fd int) error {
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if !ins.OpCode.isDWordLoad() {
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return fmt.Errorf("%s is not a 64 bit load", ins.OpCode)
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}
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if ins.Src != PseudoMapFD && ins.Src != PseudoMapValue {
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return errors.New("not a load from a map")
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}
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// Preserve the offset value for direct map loads.
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offset := uint64(ins.Constant) & (math.MaxUint32 << 32)
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rawFd := uint64(uint32(fd))
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ins.Constant = int64(offset | rawFd)
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return nil
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}
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func (ins *Instruction) mapPtr() uint32 {
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return uint32(uint64(ins.Constant) & math.MaxUint32)
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}
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// RewriteMapOffset changes the offset of a direct load from a map.
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//
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// Returns an error if the instruction is not a direct load.
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func (ins *Instruction) RewriteMapOffset(offset uint32) error {
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if !ins.OpCode.isDWordLoad() {
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return fmt.Errorf("%s is not a 64 bit load", ins.OpCode)
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}
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if ins.Src != PseudoMapValue {
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return errors.New("not a direct load from a map")
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}
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fd := uint64(ins.Constant) & math.MaxUint32
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ins.Constant = int64(uint64(offset)<<32 | fd)
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return nil
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}
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func (ins *Instruction) mapOffset() uint32 {
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return uint32(uint64(ins.Constant) >> 32)
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}
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// isLoadFromMap returns true if the instruction loads from a map.
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//
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// This covers both loading the map pointer and direct map value loads.
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func (ins *Instruction) isLoadFromMap() bool {
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return ins.OpCode == LoadImmOp(DWord) && (ins.Src == PseudoMapFD || ins.Src == PseudoMapValue)
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}
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// IsFunctionCall returns true if the instruction calls another BPF function.
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//
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// This is not the same thing as a BPF helper call.
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func (ins *Instruction) IsFunctionCall() bool {
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return ins.OpCode.JumpOp() == Call && ins.Src == PseudoCall
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}
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// Format implements fmt.Formatter.
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func (ins Instruction) Format(f fmt.State, c rune) {
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if c != 'v' {
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fmt.Fprintf(f, "{UNRECOGNIZED: %c}", c)
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return
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}
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op := ins.OpCode
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if op == InvalidOpCode {
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fmt.Fprint(f, "INVALID")
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return
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}
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// Omit trailing space for Exit
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if op.JumpOp() == Exit {
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fmt.Fprint(f, op)
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return
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}
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if ins.isLoadFromMap() {
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fd := int32(ins.mapPtr())
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switch ins.Src {
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case PseudoMapFD:
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fmt.Fprintf(f, "LoadMapPtr dst: %s fd: %d", ins.Dst, fd)
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case PseudoMapValue:
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fmt.Fprintf(f, "LoadMapValue dst: %s, fd: %d off: %d", ins.Dst, fd, ins.mapOffset())
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}
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goto ref
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}
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fmt.Fprintf(f, "%v ", op)
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switch cls := op.Class(); cls {
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case LdClass, LdXClass, StClass, StXClass:
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switch op.Mode() {
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case ImmMode:
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fmt.Fprintf(f, "dst: %s imm: %d", ins.Dst, ins.Constant)
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case AbsMode:
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fmt.Fprintf(f, "imm: %d", ins.Constant)
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case IndMode:
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fmt.Fprintf(f, "dst: %s src: %s imm: %d", ins.Dst, ins.Src, ins.Constant)
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case MemMode:
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fmt.Fprintf(f, "dst: %s src: %s off: %d imm: %d", ins.Dst, ins.Src, ins.Offset, ins.Constant)
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case XAddMode:
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fmt.Fprintf(f, "dst: %s src: %s", ins.Dst, ins.Src)
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}
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case ALU64Class, ALUClass:
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fmt.Fprintf(f, "dst: %s ", ins.Dst)
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if op.ALUOp() == Swap || op.Source() == ImmSource {
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fmt.Fprintf(f, "imm: %d", ins.Constant)
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} else {
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fmt.Fprintf(f, "src: %s", ins.Src)
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}
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case JumpClass:
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switch jop := op.JumpOp(); jop {
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case Call:
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if ins.Src == PseudoCall {
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// bpf-to-bpf call
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fmt.Fprint(f, ins.Constant)
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} else {
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fmt.Fprint(f, BuiltinFunc(ins.Constant))
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}
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default:
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fmt.Fprintf(f, "dst: %s off: %d ", ins.Dst, ins.Offset)
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if op.Source() == ImmSource {
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fmt.Fprintf(f, "imm: %d", ins.Constant)
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} else {
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fmt.Fprintf(f, "src: %s", ins.Src)
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}
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}
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}
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ref:
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if ins.Reference != "" {
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fmt.Fprintf(f, " <%s>", ins.Reference)
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}
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}
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// Instructions is an eBPF program.
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type Instructions []Instruction
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func (insns Instructions) String() string {
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return fmt.Sprint(insns)
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}
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// RewriteMapPtr rewrites all loads of a specific map pointer to a new fd.
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//
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// Returns an error if the symbol isn't used, see IsUnreferencedSymbol.
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func (insns Instructions) RewriteMapPtr(symbol string, fd int) error {
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if symbol == "" {
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return errors.New("empty symbol")
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}
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found := false
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for i := range insns {
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ins := &insns[i]
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if ins.Reference != symbol {
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continue
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}
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if err := ins.RewriteMapPtr(fd); err != nil {
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return err
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}
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found = true
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}
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if !found {
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return &unreferencedSymbolError{symbol}
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}
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return nil
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}
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// SymbolOffsets returns the set of symbols and their offset in
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// the instructions.
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func (insns Instructions) SymbolOffsets() (map[string]int, error) {
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offsets := make(map[string]int)
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for i, ins := range insns {
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if ins.Symbol == "" {
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continue
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}
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if _, ok := offsets[ins.Symbol]; ok {
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return nil, fmt.Errorf("duplicate symbol %s", ins.Symbol)
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}
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offsets[ins.Symbol] = i
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}
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return offsets, nil
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}
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// ReferenceOffsets returns the set of references and their offset in
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// the instructions.
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func (insns Instructions) ReferenceOffsets() map[string][]int {
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offsets := make(map[string][]int)
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for i, ins := range insns {
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if ins.Reference == "" {
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continue
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}
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offsets[ins.Reference] = append(offsets[ins.Reference], i)
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}
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return offsets
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}
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// Format implements fmt.Formatter.
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//
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// You can control indentation of symbols by
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// specifying a width. Setting a precision controls the indentation of
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// instructions.
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// The default character is a tab, which can be overriden by specifying
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// the ' ' space flag.
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func (insns Instructions) Format(f fmt.State, c rune) {
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if c != 's' && c != 'v' {
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fmt.Fprintf(f, "{UNKNOWN FORMAT '%c'}", c)
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return
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}
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// Precision is better in this case, because it allows
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// specifying 0 padding easily.
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padding, ok := f.Precision()
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if !ok {
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padding = 1
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}
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indent := strings.Repeat("\t", padding)
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if f.Flag(' ') {
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indent = strings.Repeat(" ", padding)
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}
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symPadding, ok := f.Width()
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if !ok {
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symPadding = padding - 1
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}
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if symPadding < 0 {
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symPadding = 0
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}
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symIndent := strings.Repeat("\t", symPadding)
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if f.Flag(' ') {
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symIndent = strings.Repeat(" ", symPadding)
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}
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// Guess how many digits we need at most, by assuming that all instructions
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// are double wide.
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highestOffset := len(insns) * 2
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offsetWidth := int(math.Ceil(math.Log10(float64(highestOffset))))
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iter := insns.Iterate()
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for iter.Next() {
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if iter.Ins.Symbol != "" {
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fmt.Fprintf(f, "%s%s:\n", symIndent, iter.Ins.Symbol)
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}
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fmt.Fprintf(f, "%s%*d: %v\n", indent, offsetWidth, iter.Offset, iter.Ins)
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}
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return
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}
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// Marshal encodes a BPF program into the kernel format.
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func (insns Instructions) Marshal(w io.Writer, bo binary.ByteOrder) error {
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for i, ins := range insns {
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_, err := ins.Marshal(w, bo)
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if err != nil {
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return fmt.Errorf("instruction %d: %w", i, err)
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}
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}
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return nil
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}
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// Tag calculates the kernel tag for a series of instructions.
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//
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// It mirrors bpf_prog_calc_tag in the kernel and so can be compared
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// to ProgramInfo.Tag to figure out whether a loaded program matches
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// certain instructions.
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func (insns Instructions) Tag(bo binary.ByteOrder) (string, error) {
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h := sha1.New()
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for i, ins := range insns {
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if ins.isLoadFromMap() {
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ins.Constant = 0
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}
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_, err := ins.Marshal(h, bo)
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if err != nil {
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return "", fmt.Errorf("instruction %d: %w", i, err)
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}
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}
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return hex.EncodeToString(h.Sum(nil)[:unix.BPF_TAG_SIZE]), nil
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}
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// Iterate allows iterating a BPF program while keeping track of
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// various offsets.
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//
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// Modifying the instruction slice will lead to undefined behaviour.
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func (insns Instructions) Iterate() *InstructionIterator {
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return &InstructionIterator{insns: insns}
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}
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// InstructionIterator iterates over a BPF program.
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type InstructionIterator struct {
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insns Instructions
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// The instruction in question.
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Ins *Instruction
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// The index of the instruction in the original instruction slice.
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Index int
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// The offset of the instruction in raw BPF instructions. This accounts
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// for double-wide instructions.
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Offset RawInstructionOffset
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}
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// Next returns true as long as there are any instructions remaining.
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func (iter *InstructionIterator) Next() bool {
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if len(iter.insns) == 0 {
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return false
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}
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if iter.Ins != nil {
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iter.Index++
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iter.Offset += RawInstructionOffset(iter.Ins.OpCode.rawInstructions())
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}
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iter.Ins = &iter.insns[0]
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iter.insns = iter.insns[1:]
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return true
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}
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type bpfInstruction struct {
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OpCode OpCode
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Registers bpfRegisters
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Offset int16
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Constant int32
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}
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type bpfRegisters uint8
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func newBPFRegisters(dst, src Register, bo binary.ByteOrder) (bpfRegisters, error) {
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switch bo {
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||
|
case binary.LittleEndian:
|
||
|
return bpfRegisters((src << 4) | (dst & 0xF)), nil
|
||
|
case binary.BigEndian:
|
||
|
return bpfRegisters((dst << 4) | (src & 0xF)), nil
|
||
|
default:
|
||
|
return 0, fmt.Errorf("unrecognized ByteOrder %T", bo)
|
||
|
}
|
||
|
}
|
||
|
|
||
|
func (r bpfRegisters) Unmarshal(bo binary.ByteOrder) (dst, src Register, err error) {
|
||
|
switch bo {
|
||
|
case binary.LittleEndian:
|
||
|
return Register(r & 0xF), Register(r >> 4), nil
|
||
|
case binary.BigEndian:
|
||
|
return Register(r >> 4), Register(r & 0xf), nil
|
||
|
default:
|
||
|
return 0, 0, fmt.Errorf("unrecognized ByteOrder %T", bo)
|
||
|
}
|
||
|
}
|
||
|
|
||
|
type unreferencedSymbolError struct {
|
||
|
symbol string
|
||
|
}
|
||
|
|
||
|
func (use *unreferencedSymbolError) Error() string {
|
||
|
return fmt.Sprintf("unreferenced symbol %s", use.symbol)
|
||
|
}
|
||
|
|
||
|
// IsUnreferencedSymbol returns true if err was caused by
|
||
|
// an unreferenced symbol.
|
||
|
func IsUnreferencedSymbol(err error) bool {
|
||
|
_, ok := err.(*unreferencedSymbolError)
|
||
|
return ok
|
||
|
}
|