qrz/vendor/golang.org/x/sys/unix/ifreq_linux.go

// Copyright 2021 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.

//go:build linux
// +build linux

package unix

import (
	"unsafe"
)

// Helpers for dealing with ifreq since it contains a union and thus requires a
// lot of unsafe.Pointer casts to use properly.

// An Ifreq is a type-safe wrapper around the raw ifreq struct. An Ifreq
// contains an interface name and a union of arbitrary data which can be
// accessed using the Ifreq's methods. To create an Ifreq, use the NewIfreq
// function.
//
// Use the Name method to access the stored interface name. The union data
// fields can be get and set using the following methods:
//   - Uint16/SetUint16: flags
//   - Uint32/SetUint32: ifindex, metric, mtu
type Ifreq struct{ raw ifreq }

// NewIfreq creates an Ifreq with the input network interface name after
// validating the name does not exceed IFNAMSIZ-1 (trailing NULL required)
// bytes.
func NewIfreq(name string) (*Ifreq, error) {
	// Leave room for terminating NULL byte.
	if len(name) >= IFNAMSIZ {
		return nil, EINVAL
	}

	var ifr ifreq
	copy(ifr.Ifrn[:], name)

	return &Ifreq{raw: ifr}, nil
}

// TODO(mdlayher): get/set methods for hardware address sockaddr, char array, etc.

// Name returns the interface name associated with the Ifreq.
func (ifr *Ifreq) Name() string {
	return ByteSliceToString(ifr.raw.Ifrn[:])
}

// According to netdevice(7), only AF_INET addresses are returned for numerous
// sockaddr ioctls. For convenience, we expose these as Inet4Addr since the Port
// field and other data is always empty.

// Inet4Addr returns the Ifreq union data from an embedded sockaddr as a C
// in_addr/Go []byte (4-byte IPv4 address) value. If the sockaddr family is not
// AF_INET, an error is returned.
func (ifr *Ifreq) Inet4Addr() ([]byte, error) {
	raw := *(*RawSockaddrInet4)(unsafe.Pointer(&ifr.raw.Ifru[:SizeofSockaddrInet4][0]))
	if raw.Family != AF_INET {
		// Cannot safely interpret raw.Addr bytes as an IPv4 address.
		return nil, EINVAL
	}

	return raw.Addr[:], nil
}

// SetInet4Addr sets a C in_addr/Go []byte (4-byte IPv4 address) value in an
// embedded sockaddr within the Ifreq's union data. v must be 4 bytes in length
// or an error will be returned.
func (ifr *Ifreq) SetInet4Addr(v []byte) error {
	if len(v) != 4 {
		return EINVAL
	}

	var addr [4]byte
	copy(addr[:], v)

	ifr.clear()
	*(*RawSockaddrInet4)(
		unsafe.Pointer(&ifr.raw.Ifru[:SizeofSockaddrInet4][0]),
	) = RawSockaddrInet4{
		// Always set IP family as ioctls would require it anyway.
		Family: AF_INET,
		Addr:   addr,
	}

	return nil
}

// Uint16 returns the Ifreq union data as a C short/Go uint16 value.
func (ifr *Ifreq) Uint16() uint16 {
	return *(*uint16)(unsafe.Pointer(&ifr.raw.Ifru[:2][0]))
}

// SetUint16 sets a C short/Go uint16 value as the Ifreq's union data.
func (ifr *Ifreq) SetUint16(v uint16) {
	ifr.clear()
	*(*uint16)(unsafe.Pointer(&ifr.raw.Ifru[:2][0])) = v
}

// Uint32 returns the Ifreq union data as a C int/Go uint32 value.
func (ifr *Ifreq) Uint32() uint32 {
	return *(*uint32)(unsafe.Pointer(&ifr.raw.Ifru[:4][0]))
}

// SetUint32 sets a C int/Go uint32 value as the Ifreq's union data.
func (ifr *Ifreq) SetUint32(v uint32) {
	ifr.clear()
	*(*uint32)(unsafe.Pointer(&ifr.raw.Ifru[:4][0])) = v
}

// clear zeroes the ifreq's union field to prevent trailing garbage data from
// being sent to the kernel if an ifreq is reused.
func (ifr *Ifreq) clear() {
	for i := range ifr.raw.Ifru {
		ifr.raw.Ifru[i] = 0
	}
}

// TODO(mdlayher): export as IfreqData? For now we can provide helpers such as
// IoctlGetEthtoolDrvinfo which use these APIs under the hood.

// An ifreqData is an Ifreq which carries pointer data. To produce an ifreqData,
// use the Ifreq.withData method.
type ifreqData struct {
	name [IFNAMSIZ]byte
	// A type separate from ifreq is required in order to comply with the
	// unsafe.Pointer rules since the "pointer-ness" of data would not be
	// preserved if it were cast into the byte array of a raw ifreq.
	data unsafe.Pointer
	// Pad to the same size as ifreq.
	_ [len(ifreq{}.Ifru) - SizeofPtr]byte
}

// withData produces an ifreqData with the pointer p set for ioctls which require
// arbitrary pointer data.
func (ifr Ifreq) withData(p unsafe.Pointer) ifreqData {
	return ifreqData{
		name: ifr.raw.Ifrn,
		data: p,
	}
}
updated dependencies 2021-08-30 19:45:06 +02:00			`// Copyright 2021 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.`

			`//go:build linux`
			`// +build linux`

			`package unix`

			`import (`
			`"unsafe"`
			`)`

			`// Helpers for dealing with ifreq since it contains a union and thus requires a`
			`// lot of unsafe.Pointer casts to use properly.`

			`// An Ifreq is a type-safe wrapper around the raw ifreq struct. An Ifreq`
			`// contains an interface name and a union of arbitrary data which can be`
			`// accessed using the Ifreq's methods. To create an Ifreq, use the NewIfreq`
			`// function.`
			`//`
			`// Use the Name method to access the stored interface name. The union data`
			`// fields can be get and set using the following methods:`
			`// - Uint16/SetUint16: flags`
			`// - Uint32/SetUint32: ifindex, metric, mtu`
			`type Ifreq struct{ raw ifreq }`

			`// NewIfreq creates an Ifreq with the input network interface name after`
			`// validating the name does not exceed IFNAMSIZ-1 (trailing NULL required)`
			`// bytes.`
			`func NewIfreq(name string) (*Ifreq, error) {`
			`// Leave room for terminating NULL byte.`
			`if len(name) >= IFNAMSIZ {`
			`return nil, EINVAL`
			`}`

			`var ifr ifreq`
			`copy(ifr.Ifrn[:], name)`

			`return &Ifreq{raw: ifr}, nil`
			`}`

			`// TODO(mdlayher): get/set methods for hardware address sockaddr, char array, etc.`

			`// Name returns the interface name associated with the Ifreq.`
			`func (ifr *Ifreq) Name() string {`
updated dependencies 2022-07-16 11:43:41 +02:00			`return ByteSliceToString(ifr.raw.Ifrn[:])`
updated dependencies 2021-08-30 19:45:06 +02:00			`}`

			`// According to netdevice(7), only AF_INET addresses are returned for numerous`
			`// sockaddr ioctls. For convenience, we expose these as Inet4Addr since the Port`
			`// field and other data is always empty.`

			`// Inet4Addr returns the Ifreq union data from an embedded sockaddr as a C`
			`// in_addr/Go []byte (4-byte IPv4 address) value. If the sockaddr family is not`
			`// AF_INET, an error is returned.`
			`func (ifr *Ifreq) Inet4Addr() ([]byte, error) {`
			`raw := (RawSockaddrInet4)(unsafe.Pointer(&ifr.raw.Ifru[:SizeofSockaddrInet4][0]))`
			`if raw.Family != AF_INET {`
			`// Cannot safely interpret raw.Addr bytes as an IPv4 address.`
			`return nil, EINVAL`
			`}`

			`return raw.Addr[:], nil`
			`}`

			`// SetInet4Addr sets a C in_addr/Go []byte (4-byte IPv4 address) value in an`
			`// embedded sockaddr within the Ifreq's union data. v must be 4 bytes in length`
			`// or an error will be returned.`
			`func (ifr *Ifreq) SetInet4Addr(v []byte) error {`
			`if len(v) != 4 {`
			`return EINVAL`
			`}`

			`var addr [4]byte`
			`copy(addr[:], v)`

			`ifr.clear()`
			`(RawSockaddrInet4)(`
			`unsafe.Pointer(&ifr.raw.Ifru[:SizeofSockaddrInet4][0]),`
			`) = RawSockaddrInet4{`
			`// Always set IP family as ioctls would require it anyway.`
			`Family: AF_INET,`
			`Addr: addr,`
			`}`

			`return nil`
			`}`

			`// Uint16 returns the Ifreq union data as a C short/Go uint16 value.`
			`func (ifr *Ifreq) Uint16() uint16 {`
			`return (uint16)(unsafe.Pointer(&ifr.raw.Ifru[:2][0]))`
			`}`

			`// SetUint16 sets a C short/Go uint16 value as the Ifreq's union data.`
			`func (ifr *Ifreq) SetUint16(v uint16) {`
			`ifr.clear()`
			`(uint16)(unsafe.Pointer(&ifr.raw.Ifru[:2][0])) = v`
			`}`

			`// Uint32 returns the Ifreq union data as a C int/Go uint32 value.`
			`func (ifr *Ifreq) Uint32() uint32 {`
			`return (uint32)(unsafe.Pointer(&ifr.raw.Ifru[:4][0]))`
			`}`

			`// SetUint32 sets a C int/Go uint32 value as the Ifreq's union data.`
			`func (ifr *Ifreq) SetUint32(v uint32) {`
			`ifr.clear()`
			`(uint32)(unsafe.Pointer(&ifr.raw.Ifru[:4][0])) = v`
			`}`

			`// clear zeroes the ifreq's union field to prevent trailing garbage data from`
			`// being sent to the kernel if an ifreq is reused.`
			`func (ifr *Ifreq) clear() {`
			`for i := range ifr.raw.Ifru {`
			`ifr.raw.Ifru[i] = 0`
			`}`
			`}`

			`// TODO(mdlayher): export as IfreqData? For now we can provide helpers such as`
			`// IoctlGetEthtoolDrvinfo which use these APIs under the hood.`

			`// An ifreqData is an Ifreq which carries pointer data. To produce an ifreqData,`
			`// use the Ifreq.withData method.`
			`type ifreqData struct {`
			`name [IFNAMSIZ]byte`
			`// A type separate from ifreq is required in order to comply with the`
			`// unsafe.Pointer rules since the "pointer-ness" of data would not be`
			`// preserved if it were cast into the byte array of a raw ifreq.`
			`data unsafe.Pointer`
			`// Pad to the same size as ifreq.`
			`_ [len(ifreq{}.Ifru) - SizeofPtr]byte`
			`}`

			`// withData produces an ifreqData with the pointer p set for ioctls which require`
			`// arbitrary pointer data.`
			`func (ifr Ifreq) withData(p unsafe.Pointer) ifreqData {`
			`return ifreqData{`
			`name: ifr.raw.Ifrn,`
			`data: p,`
			`}`
			`}`