565 lines
14 KiB
Go
565 lines
14 KiB
Go
package ebpf
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import (
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"bytes"
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"fmt"
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"math"
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"strings"
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"time"
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"unsafe"
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"github.com/cilium/ebpf/asm"
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"github.com/cilium/ebpf/internal"
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"github.com/cilium/ebpf/internal/btf"
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"github.com/cilium/ebpf/internal/unix"
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"golang.org/x/xerrors"
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)
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// ErrNotSupported is returned whenever the kernel doesn't support a feature.
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var ErrNotSupported = internal.ErrNotSupported
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// ProgramID represents the unique ID of an eBPF program
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type ProgramID uint32
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const (
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// Number of bytes to pad the output buffer for BPF_PROG_TEST_RUN.
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// This is currently the maximum of spare space allocated for SKB
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// and XDP programs, and equal to XDP_PACKET_HEADROOM + NET_IP_ALIGN.
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outputPad = 256 + 2
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)
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// DefaultVerifierLogSize is the default number of bytes allocated for the
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// verifier log.
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const DefaultVerifierLogSize = 64 * 1024
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// ProgramOptions control loading a program into the kernel.
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type ProgramOptions struct {
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// Controls the detail emitted by the kernel verifier. Set to non-zero
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// to enable logging.
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LogLevel uint32
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// Controls the output buffer size for the verifier. Defaults to
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// DefaultVerifierLogSize.
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LogSize int
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}
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// ProgramSpec defines a Program
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type ProgramSpec struct {
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// Name is passed to the kernel as a debug aid. Must only contain
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// alpha numeric and '_' characters.
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Name string
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Type ProgramType
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AttachType AttachType
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Instructions asm.Instructions
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License string
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KernelVersion uint32
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// The BTF associated with this program. Changing Instructions
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// will most likely invalidate the contained data, and may
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// result in errors when attempting to load it into the kernel.
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BTF *btf.Program
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}
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// Copy returns a copy of the spec.
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func (ps *ProgramSpec) Copy() *ProgramSpec {
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if ps == nil {
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return nil
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}
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cpy := *ps
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cpy.Instructions = make(asm.Instructions, len(ps.Instructions))
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copy(cpy.Instructions, ps.Instructions)
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return &cpy
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}
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// Program represents BPF program loaded into the kernel.
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//
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// It is not safe to close a Program which is used by other goroutines.
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type Program struct {
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// Contains the output of the kernel verifier if enabled,
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// otherwise it is empty.
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VerifierLog string
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fd *internal.FD
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name string
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abi ProgramABI
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}
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// NewProgram creates a new Program.
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//
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// Loading a program for the first time will perform
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// feature detection by loading small, temporary programs.
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func NewProgram(spec *ProgramSpec) (*Program, error) {
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return NewProgramWithOptions(spec, ProgramOptions{})
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}
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// NewProgramWithOptions creates a new Program.
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//
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// Loading a program for the first time will perform
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// feature detection by loading small, temporary programs.
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func NewProgramWithOptions(spec *ProgramSpec, opts ProgramOptions) (*Program, error) {
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if spec.BTF == nil {
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return newProgramWithBTF(spec, nil, opts)
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}
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handle, err := btf.NewHandle(btf.ProgramSpec(spec.BTF))
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if err != nil && !xerrors.Is(err, btf.ErrNotSupported) {
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return nil, xerrors.Errorf("can't load BTF: %w", err)
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}
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return newProgramWithBTF(spec, handle, opts)
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}
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func newProgramWithBTF(spec *ProgramSpec, btf *btf.Handle, opts ProgramOptions) (*Program, error) {
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attr, err := convertProgramSpec(spec, btf)
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if err != nil {
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return nil, err
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}
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logSize := DefaultVerifierLogSize
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if opts.LogSize > 0 {
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logSize = opts.LogSize
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}
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var logBuf []byte
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if opts.LogLevel > 0 {
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logBuf = make([]byte, logSize)
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attr.logLevel = opts.LogLevel
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attr.logSize = uint32(len(logBuf))
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attr.logBuf = internal.NewSlicePointer(logBuf)
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}
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fd, err := bpfProgLoad(attr)
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if err == nil {
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prog := newProgram(fd, spec.Name, &ProgramABI{spec.Type})
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prog.VerifierLog = internal.CString(logBuf)
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return prog, nil
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}
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logErr := err
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if opts.LogLevel == 0 {
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// Re-run with the verifier enabled to get better error messages.
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logBuf = make([]byte, logSize)
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attr.logLevel = 1
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attr.logSize = uint32(len(logBuf))
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attr.logBuf = internal.NewSlicePointer(logBuf)
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_, logErr = bpfProgLoad(attr)
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}
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err = internal.ErrorWithLog(err, logBuf, logErr)
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return nil, xerrors.Errorf("can't load program: %w", err)
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}
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// NewProgramFromFD creates a program from a raw fd.
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//
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// You should not use fd after calling this function.
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//
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// Requires at least Linux 4.11.
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func NewProgramFromFD(fd int) (*Program, error) {
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if fd < 0 {
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return nil, xerrors.New("invalid fd")
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}
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bpfFd := internal.NewFD(uint32(fd))
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name, abi, err := newProgramABIFromFd(bpfFd)
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if err != nil {
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bpfFd.Forget()
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return nil, err
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}
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return newProgram(bpfFd, name, abi), nil
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}
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func newProgram(fd *internal.FD, name string, abi *ProgramABI) *Program {
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return &Program{
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name: name,
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fd: fd,
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abi: *abi,
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}
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}
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func convertProgramSpec(spec *ProgramSpec, handle *btf.Handle) (*bpfProgLoadAttr, error) {
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if len(spec.Instructions) == 0 {
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return nil, xerrors.New("Instructions cannot be empty")
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}
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if len(spec.License) == 0 {
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return nil, xerrors.New("License cannot be empty")
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}
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buf := bytes.NewBuffer(make([]byte, 0, len(spec.Instructions)*asm.InstructionSize))
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err := spec.Instructions.Marshal(buf, internal.NativeEndian)
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if err != nil {
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return nil, err
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}
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bytecode := buf.Bytes()
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insCount := uint32(len(bytecode) / asm.InstructionSize)
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attr := &bpfProgLoadAttr{
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progType: spec.Type,
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expectedAttachType: spec.AttachType,
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insCount: insCount,
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instructions: internal.NewSlicePointer(bytecode),
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license: internal.NewStringPointer(spec.License),
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kernelVersion: spec.KernelVersion,
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}
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if haveObjName() == nil {
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attr.progName = newBPFObjName(spec.Name)
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}
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if handle != nil && spec.BTF != nil {
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attr.progBTFFd = uint32(handle.FD())
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recSize, bytes, err := btf.ProgramLineInfos(spec.BTF)
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if err != nil {
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return nil, xerrors.Errorf("can't get BTF line infos: %w", err)
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}
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attr.lineInfoRecSize = recSize
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attr.lineInfoCnt = uint32(uint64(len(bytes)) / uint64(recSize))
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attr.lineInfo = internal.NewSlicePointer(bytes)
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recSize, bytes, err = btf.ProgramFuncInfos(spec.BTF)
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if err != nil {
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return nil, xerrors.Errorf("can't get BTF function infos: %w", err)
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}
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attr.funcInfoRecSize = recSize
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attr.funcInfoCnt = uint32(uint64(len(bytes)) / uint64(recSize))
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attr.funcInfo = internal.NewSlicePointer(bytes)
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}
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return attr, nil
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}
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func (p *Program) String() string {
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if p.name != "" {
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return fmt.Sprintf("%s(%s)#%v", p.abi.Type, p.name, p.fd)
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}
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return fmt.Sprintf("%s#%v", p.abi.Type, p.fd)
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}
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// ABI gets the ABI of the Program
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func (p *Program) ABI() ProgramABI {
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return p.abi
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}
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// FD gets the file descriptor of the Program.
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//
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// It is invalid to call this function after Close has been called.
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func (p *Program) FD() int {
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fd, err := p.fd.Value()
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if err != nil {
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// Best effort: -1 is the number most likely to be an
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// invalid file descriptor.
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return -1
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}
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return int(fd)
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}
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// Clone creates a duplicate of the Program.
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//
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// Closing the duplicate does not affect the original, and vice versa.
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//
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// Cloning a nil Program returns nil.
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func (p *Program) Clone() (*Program, error) {
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if p == nil {
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return nil, nil
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}
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dup, err := p.fd.Dup()
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if err != nil {
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return nil, xerrors.Errorf("can't clone program: %w", err)
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}
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return newProgram(dup, p.name, &p.abi), nil
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}
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// Pin persists the Program past the lifetime of the process that created it
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//
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// This requires bpffs to be mounted above fileName. See http://cilium.readthedocs.io/en/doc-1.0/kubernetes/install/#mounting-the-bpf-fs-optional
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func (p *Program) Pin(fileName string) error {
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if err := bpfPinObject(fileName, p.fd); err != nil {
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return xerrors.Errorf("can't pin program: %w", err)
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}
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return nil
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}
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// Close unloads the program from the kernel.
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func (p *Program) Close() error {
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if p == nil {
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return nil
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}
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return p.fd.Close()
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}
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// Test runs the Program in the kernel with the given input and returns the
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// value returned by the eBPF program. outLen may be zero.
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//
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// Note: the kernel expects at least 14 bytes input for an ethernet header for
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// XDP and SKB programs.
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//
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// This function requires at least Linux 4.12.
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func (p *Program) Test(in []byte) (uint32, []byte, error) {
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ret, out, _, err := p.testRun(in, 1, nil)
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if err != nil {
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return ret, nil, xerrors.Errorf("can't test program: %w", err)
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}
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return ret, out, nil
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}
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// Benchmark runs the Program with the given input for a number of times
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// and returns the time taken per iteration.
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//
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// Returns the result of the last execution of the program and the time per
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// run or an error. reset is called whenever the benchmark syscall is
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// interrupted, and should be set to testing.B.ResetTimer or similar.
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//
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// Note: profiling a call to this function will skew it's results, see
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// https://github.com/cilium/ebpf/issues/24
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//
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// This function requires at least Linux 4.12.
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func (p *Program) Benchmark(in []byte, repeat int, reset func()) (uint32, time.Duration, error) {
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ret, _, total, err := p.testRun(in, repeat, reset)
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if err != nil {
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return ret, total, xerrors.Errorf("can't benchmark program: %w", err)
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}
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return ret, total, nil
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}
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var haveProgTestRun = internal.FeatureTest("BPF_PROG_TEST_RUN", "4.12", func() bool {
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prog, err := NewProgram(&ProgramSpec{
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Type: SocketFilter,
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Instructions: asm.Instructions{
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asm.LoadImm(asm.R0, 0, asm.DWord),
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asm.Return(),
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},
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License: "MIT",
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})
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if err != nil {
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// This may be because we lack sufficient permissions, etc.
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return false
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}
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defer prog.Close()
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fd, err := prog.fd.Value()
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if err != nil {
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return false
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}
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// Programs require at least 14 bytes input
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in := make([]byte, 14)
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attr := bpfProgTestRunAttr{
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fd: fd,
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dataSizeIn: uint32(len(in)),
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dataIn: internal.NewSlicePointer(in),
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}
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_, err = internal.BPF(_ProgTestRun, unsafe.Pointer(&attr), unsafe.Sizeof(attr))
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// Check for EINVAL specifically, rather than err != nil since we
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// otherwise misdetect due to insufficient permissions.
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return !xerrors.Is(err, unix.EINVAL)
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})
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func (p *Program) testRun(in []byte, repeat int, reset func()) (uint32, []byte, time.Duration, error) {
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if uint(repeat) > math.MaxUint32 {
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return 0, nil, 0, fmt.Errorf("repeat is too high")
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}
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if len(in) == 0 {
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return 0, nil, 0, fmt.Errorf("missing input")
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}
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if uint(len(in)) > math.MaxUint32 {
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return 0, nil, 0, fmt.Errorf("input is too long")
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}
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if err := haveProgTestRun(); err != nil {
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return 0, nil, 0, err
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}
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// Older kernels ignore the dataSizeOut argument when copying to user space.
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// Combined with things like bpf_xdp_adjust_head() we don't really know what the final
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// size will be. Hence we allocate an output buffer which we hope will always be large
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// enough, and panic if the kernel wrote past the end of the allocation.
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// See https://patchwork.ozlabs.org/cover/1006822/
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out := make([]byte, len(in)+outputPad)
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fd, err := p.fd.Value()
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if err != nil {
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return 0, nil, 0, err
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}
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attr := bpfProgTestRunAttr{
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fd: fd,
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dataSizeIn: uint32(len(in)),
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dataSizeOut: uint32(len(out)),
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dataIn: internal.NewSlicePointer(in),
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dataOut: internal.NewSlicePointer(out),
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repeat: uint32(repeat),
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}
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for {
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_, err = internal.BPF(_ProgTestRun, unsafe.Pointer(&attr), unsafe.Sizeof(attr))
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if err == nil {
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break
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}
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if xerrors.Is(err, unix.EINTR) {
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if reset != nil {
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reset()
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}
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continue
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}
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return 0, nil, 0, xerrors.Errorf("can't run test: %w", err)
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}
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if int(attr.dataSizeOut) > cap(out) {
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// Houston, we have a problem. The program created more data than we allocated,
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// and the kernel wrote past the end of our buffer.
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panic("kernel wrote past end of output buffer")
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}
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out = out[:int(attr.dataSizeOut)]
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total := time.Duration(attr.duration) * time.Nanosecond
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return attr.retval, out, total, nil
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}
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func unmarshalProgram(buf []byte) (*Program, error) {
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if len(buf) != 4 {
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return nil, xerrors.New("program id requires 4 byte value")
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}
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// Looking up an entry in a nested map or prog array returns an id,
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// not an fd.
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id := internal.NativeEndian.Uint32(buf)
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return NewProgramFromID(ProgramID(id))
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}
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// MarshalBinary implements BinaryMarshaler.
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func (p *Program) MarshalBinary() ([]byte, error) {
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value, err := p.fd.Value()
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if err != nil {
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return nil, err
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}
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buf := make([]byte, 4)
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internal.NativeEndian.PutUint32(buf, value)
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return buf, nil
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}
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// Attach a Program to a container object fd
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func (p *Program) Attach(fd int, typ AttachType, flags AttachFlags) error {
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if fd < 0 {
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return xerrors.New("invalid fd")
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}
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pfd, err := p.fd.Value()
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if err != nil {
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return err
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}
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attr := bpfProgAlterAttr{
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targetFd: uint32(fd),
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attachBpfFd: pfd,
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attachType: uint32(typ),
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attachFlags: uint32(flags),
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}
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return bpfProgAlter(_ProgAttach, &attr)
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}
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// Detach a Program from a container object fd
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func (p *Program) Detach(fd int, typ AttachType, flags AttachFlags) error {
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if fd < 0 {
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return xerrors.New("invalid fd")
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}
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pfd, err := p.fd.Value()
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if err != nil {
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return err
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}
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attr := bpfProgAlterAttr{
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targetFd: uint32(fd),
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attachBpfFd: pfd,
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attachType: uint32(typ),
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attachFlags: uint32(flags),
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}
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return bpfProgAlter(_ProgDetach, &attr)
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}
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// LoadPinnedProgram loads a Program from a BPF file.
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//
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// Requires at least Linux 4.11.
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func LoadPinnedProgram(fileName string) (*Program, error) {
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fd, err := bpfGetObject(fileName)
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if err != nil {
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return nil, err
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}
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name, abi, err := newProgramABIFromFd(fd)
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if err != nil {
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_ = fd.Close()
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return nil, xerrors.Errorf("can't get ABI for %s: %w", fileName, err)
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}
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return newProgram(fd, name, abi), nil
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}
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// SanitizeName replaces all invalid characters in name.
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//
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// Use this to automatically generate valid names for maps and
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// programs at run time.
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//
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// Passing a negative value for replacement will delete characters
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// instead of replacing them.
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func SanitizeName(name string, replacement rune) string {
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return strings.Map(func(char rune) rune {
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if invalidBPFObjNameChar(char) {
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return replacement
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}
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return char
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}, name)
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}
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// ProgramGetNextID returns the ID of the next eBPF program.
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//
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// Returns ErrNotExist, if there is no next eBPF program.
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func ProgramGetNextID(startID ProgramID) (ProgramID, error) {
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id, err := objGetNextID(_ProgGetNextID, uint32(startID))
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return ProgramID(id), err
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}
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// NewProgramFromID returns the program for a given id.
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//
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// Returns ErrNotExist, if there is no eBPF program with the given id.
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func NewProgramFromID(id ProgramID) (*Program, error) {
|
|
fd, err := bpfObjGetFDByID(_ProgGetFDByID, uint32(id))
|
|
if err != nil {
|
|
return nil, err
|
|
}
|
|
|
|
name, abi, err := newProgramABIFromFd(fd)
|
|
if err != nil {
|
|
_ = fd.Close()
|
|
return nil, err
|
|
}
|
|
|
|
return newProgram(fd, name, abi), nil
|
|
}
|
|
|
|
// ID returns the systemwide unique ID of the program.
|
|
func (p *Program) ID() (ProgramID, error) {
|
|
info, err := bpfGetProgInfoByFD(p.fd)
|
|
if err != nil {
|
|
return ProgramID(0), err
|
|
}
|
|
return ProgramID(info.id), nil
|
|
}
|