// Automatically generated marshal implementation. See tools/go_marshal. // +build arm64 package linux import ( "gvisor.dev/gvisor/pkg/safecopy" "gvisor.dev/gvisor/pkg/usermem" "gvisor.dev/gvisor/tools/go_marshal/marshal" "io" "reflect" "runtime" "unsafe" ) // Marshallable types used by this file. var _ marshal.Marshallable = (*Stat)(nil) var _ marshal.Marshallable = (*Timespec)(nil) // SizeBytes implements marshal.Marshallable.SizeBytes. func (s *Stat) SizeBytes() int { return 80 + s.ATime.SizeBytes() + s.MTime.SizeBytes() + s.CTime.SizeBytes() } // MarshalBytes implements marshal.Marshallable.MarshalBytes. func (s *Stat) MarshalBytes(dst []byte) { usermem.ByteOrder.PutUint64(dst[:8], uint64(s.Dev)) dst = dst[8:] usermem.ByteOrder.PutUint64(dst[:8], uint64(s.Ino)) dst = dst[8:] usermem.ByteOrder.PutUint32(dst[:4], uint32(s.Mode)) dst = dst[4:] usermem.ByteOrder.PutUint32(dst[:4], uint32(s.Nlink)) dst = dst[4:] usermem.ByteOrder.PutUint32(dst[:4], uint32(s.UID)) dst = dst[4:] usermem.ByteOrder.PutUint32(dst[:4], uint32(s.GID)) dst = dst[4:] usermem.ByteOrder.PutUint64(dst[:8], uint64(s.Rdev)) dst = dst[8:] // Padding: dst[:sizeof(uint64)] ~= uint64(0) dst = dst[8:] usermem.ByteOrder.PutUint64(dst[:8], uint64(s.Size)) dst = dst[8:] usermem.ByteOrder.PutUint32(dst[:4], uint32(s.Blksize)) dst = dst[4:] // Padding: dst[:sizeof(int32)] ~= int32(0) dst = dst[4:] usermem.ByteOrder.PutUint64(dst[:8], uint64(s.Blocks)) dst = dst[8:] s.ATime.MarshalBytes(dst[:s.ATime.SizeBytes()]) dst = dst[s.ATime.SizeBytes():] s.MTime.MarshalBytes(dst[:s.MTime.SizeBytes()]) dst = dst[s.MTime.SizeBytes():] s.CTime.MarshalBytes(dst[:s.CTime.SizeBytes()]) dst = dst[s.CTime.SizeBytes():] // Padding: dst[:sizeof(int32)*2] ~= [2]int32{0} dst = dst[8:] } // UnmarshalBytes implements marshal.Marshallable.UnmarshalBytes. func (s *Stat) UnmarshalBytes(src []byte) { s.Dev = usermem.ByteOrder.Uint64(src[:8]) src = src[8:] s.Ino = usermem.ByteOrder.Uint64(src[:8]) src = src[8:] s.Mode = usermem.ByteOrder.Uint32(src[:4]) src = src[4:] s.Nlink = usermem.ByteOrder.Uint32(src[:4]) src = src[4:] s.UID = usermem.ByteOrder.Uint32(src[:4]) src = src[4:] s.GID = usermem.ByteOrder.Uint32(src[:4]) src = src[4:] s.Rdev = usermem.ByteOrder.Uint64(src[:8]) src = src[8:] // Padding: var _ uint64 ~= src[:sizeof(uint64)] src = src[8:] s.Size = int64(usermem.ByteOrder.Uint64(src[:8])) src = src[8:] s.Blksize = int32(usermem.ByteOrder.Uint32(src[:4])) src = src[4:] // Padding: var _ int32 ~= src[:sizeof(int32)] src = src[4:] s.Blocks = int64(usermem.ByteOrder.Uint64(src[:8])) src = src[8:] s.ATime.UnmarshalBytes(src[:s.ATime.SizeBytes()]) src = src[s.ATime.SizeBytes():] s.MTime.UnmarshalBytes(src[:s.MTime.SizeBytes()]) src = src[s.MTime.SizeBytes():] s.CTime.UnmarshalBytes(src[:s.CTime.SizeBytes()]) src = src[s.CTime.SizeBytes():] // Padding: ~ copy([2]int32(s._), src[:sizeof(int32)*2]) src = src[8:] } // Packed implements marshal.Marshallable.Packed. func (s *Stat) Packed() bool { return s.ATime.Packed() && s.MTime.Packed() && s.CTime.Packed() } // MarshalUnsafe implements marshal.Marshallable.MarshalUnsafe. func (s *Stat) MarshalUnsafe(dst []byte) { if s.ATime.Packed() && s.MTime.Packed() && s.CTime.Packed() { safecopy.CopyIn(dst, unsafe.Pointer(s)) } else { s.MarshalBytes(dst) } } // UnmarshalUnsafe implements marshal.Marshallable.UnmarshalUnsafe. func (s *Stat) UnmarshalUnsafe(src []byte) { if s.ATime.Packed() && s.MTime.Packed() && s.CTime.Packed() { safecopy.CopyOut(unsafe.Pointer(s), src) } else { s.UnmarshalBytes(src) } } // CopyOut implements marshal.Marshallable.CopyOut. func (s *Stat) CopyOut(task marshal.Task, addr usermem.Addr) (int, error) { if !s.ATime.Packed() && s.MTime.Packed() && s.CTime.Packed() { // Type Stat doesn't have a packed layout in memory, fall back to MarshalBytes. buf := task.CopyScratchBuffer(s.SizeBytes()) s.MarshalBytes(buf) return task.CopyOutBytes(addr, buf) } // Bypass escape analysis on s. The no-op arithmetic operation on the // pointer makes the compiler think val doesn't depend on s. // See src/runtime/stubs.go:noescape() in the golang toolchain. ptr := unsafe.Pointer(s) val := uintptr(ptr) val = val^0 // Construct a slice backed by s's underlying memory. var buf []byte hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf)) hdr.Data = val hdr.Len = s.SizeBytes() hdr.Cap = s.SizeBytes() len, err := task.CopyOutBytes(addr, buf) // Since we bypassed the compiler's escape analysis, indicate that s // must live until after the CopyOutBytes. runtime.KeepAlive(s) return len, err } // CopyIn implements marshal.Marshallable.CopyIn. func (s *Stat) CopyIn(task marshal.Task, addr usermem.Addr) (int, error) { if !s.ATime.Packed() && s.MTime.Packed() && s.CTime.Packed() { // Type Stat doesn't have a packed layout in memory, fall back to UnmarshalBytes. buf := task.CopyScratchBuffer(s.SizeBytes()) n, err := task.CopyInBytes(addr, buf) if err != nil { return n, err } s.UnmarshalBytes(buf) return n, nil } // Bypass escape analysis on s. The no-op arithmetic operation on the // pointer makes the compiler think val doesn't depend on s. // See src/runtime/stubs.go:noescape() in the golang toolchain. ptr := unsafe.Pointer(s) val := uintptr(ptr) val = val^0 // Construct a slice backed by s's underlying memory. var buf []byte hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf)) hdr.Data = val hdr.Len = s.SizeBytes() hdr.Cap = s.SizeBytes() len, err := task.CopyInBytes(addr, buf) // Since we bypassed the compiler's escape analysis, indicate that s // must live until after the CopyInBytes. runtime.KeepAlive(s) return len, err } // WriteTo implements io.WriterTo.WriteTo. func (s *Stat) WriteTo(w io.Writer) (int64, error) { if !s.ATime.Packed() && s.MTime.Packed() && s.CTime.Packed() { // Type Stat doesn't have a packed layout in memory, fall back to MarshalBytes. buf := make([]byte, s.SizeBytes()) s.MarshalBytes(buf) n, err := w.Write(buf) return int64(n), err } // Bypass escape analysis on s. The no-op arithmetic operation on the // pointer makes the compiler think val doesn't depend on s. // See src/runtime/stubs.go:noescape() in the golang toolchain. ptr := unsafe.Pointer(s) val := uintptr(ptr) val = val^0 // Construct a slice backed by s's underlying memory. var buf []byte hdr := (*reflect.SliceHeader)(unsafe.Pointer(&buf)) hdr.Data = val hdr.Len = s.SizeBytes() hdr.Cap = s.SizeBytes() len, err := w.Write(buf) // Since we bypassed the compiler's escape analysis, indicate that s // must live until after the Write. runtime.KeepAlive(s) return int64(len), err }