tailscale/types/key/machine.go
Joe Tsai c6fadd6d71
all: implement AppendText alongside MarshalText (#9207)
This eventually allows encoding packages that may respect
the proposed encoding.TextAppender interface.
The performance gains from this is between 10-30%.

Updates tailscale/corp#14379

Signed-off-by: Joe Tsai <joetsai@digital-static.net>
2023-09-01 18:15:19 -07:00

265 lines
8.1 KiB
Go

// Copyright (c) Tailscale Inc & AUTHORS
// SPDX-License-Identifier: BSD-3-Clause
package key
import (
"bytes"
"crypto/subtle"
"encoding/hex"
"go4.org/mem"
"golang.org/x/crypto/curve25519"
"golang.org/x/crypto/nacl/box"
"tailscale.com/types/structs"
)
const (
// machinePrivateHexPrefix is the prefix used to identify a
// hex-encoded machine private key.
//
// This prefix name is a little unfortunate, in that it comes from
// WireGuard's own key types. Unfortunately we're stuck with it for
// machine keys, because we serialize them to disk with this prefix.
machinePrivateHexPrefix = "privkey:"
// machinePublicHexPrefix is the prefix used to identify a
// hex-encoded machine public key.
//
// This prefix is used in the control protocol, so cannot be
// changed.
machinePublicHexPrefix = "mkey:"
)
// MachinePrivate is a machine key, used for communication with the
// Tailscale coordination server.
type MachinePrivate struct {
_ structs.Incomparable // == isn't constant-time
k [32]byte
}
// NewMachine creates and returns a new machine private key.
func NewMachine() MachinePrivate {
var ret MachinePrivate
rand(ret.k[:])
clamp25519Private(ret.k[:])
return ret
}
// IsZero reports whether k is the zero value.
func (k MachinePrivate) IsZero() bool {
return k.Equal(MachinePrivate{})
}
// Equal reports whether k and other are the same key.
func (k MachinePrivate) Equal(other MachinePrivate) bool {
return subtle.ConstantTimeCompare(k.k[:], other.k[:]) == 1
}
// Public returns the MachinePublic for k.
// Panics if MachinePrivate is zero.
func (k MachinePrivate) Public() MachinePublic {
if k.IsZero() {
panic("can't take the public key of a zero MachinePrivate")
}
var ret MachinePublic
curve25519.ScalarBaseMult(&ret.k, &k.k)
return ret
}
// AppendText implements encoding.TextAppender.
func (k MachinePrivate) AppendText(b []byte) ([]byte, error) {
return appendHexKey(b, machinePrivateHexPrefix, k.k[:]), nil
}
// MarshalText implements encoding.TextMarshaler.
func (k MachinePrivate) MarshalText() ([]byte, error) {
return k.AppendText(nil)
}
// MarshalText implements encoding.TextUnmarshaler.
func (k *MachinePrivate) UnmarshalText(b []byte) error {
return parseHex(k.k[:], mem.B(b), mem.S(machinePrivateHexPrefix))
}
// UntypedBytes returns k, encoded as an untyped 64-character hex
// string.
//
// Deprecated: this function is risky to use, because it produces
// serialized values that do not identify themselves as a
// MachinePrivate, allowing other code to potentially parse it back in
// as the wrong key type. For new uses that don't require this
// specific raw byte serialization, please use
// MarshalText/UnmarshalText.
func (k MachinePrivate) UntypedBytes() []byte {
return bytes.Clone(k.k[:])
}
// SealTo wraps cleartext into a NaCl box (see
// golang.org/x/crypto/nacl) to p, authenticated from k, using a
// random nonce.
//
// The returned ciphertext is a 24-byte nonce concatenated with the
// box value.
func (k MachinePrivate) SealTo(p MachinePublic, cleartext []byte) (ciphertext []byte) {
if k.IsZero() || p.IsZero() {
panic("can't seal with zero keys")
}
var nonce [24]byte
rand(nonce[:])
return box.Seal(nonce[:], cleartext, &nonce, &p.k, &k.k)
}
// SharedKey returns the precomputed Nacl box shared key between k and p.
func (k MachinePrivate) SharedKey(p MachinePublic) MachinePrecomputedSharedKey {
var shared MachinePrecomputedSharedKey
box.Precompute(&shared.k, &p.k, &k.k)
return shared
}
// MachinePrecomputedSharedKey is a precomputed shared NaCl box shared key.
type MachinePrecomputedSharedKey struct {
k [32]byte
}
// Seal wraps cleartext into a NaCl box (see
// golang.org/x/crypto/nacl) using the shared key k as generated
// by MachinePrivate.SharedKey.
//
// The returned ciphertext is a 24-byte nonce concatenated with the
// box value.
func (k MachinePrecomputedSharedKey) Seal(cleartext []byte) (ciphertext []byte) {
if k == (MachinePrecomputedSharedKey{}) {
panic("can't seal with zero keys")
}
var nonce [24]byte
rand(nonce[:])
return box.SealAfterPrecomputation(nonce[:], cleartext, &nonce, &k.k)
}
// Open opens the NaCl box ciphertext, which must be a value created by
// MachinePrecomputedSharedKey.Seal or MachinePrivate.SealTo, and returns the
// inner cleartext if ciphertext is a valid box for the shared key k.
func (k MachinePrecomputedSharedKey) Open(ciphertext []byte) (cleartext []byte, ok bool) {
if k == (MachinePrecomputedSharedKey{}) {
panic("can't open with zero keys")
}
if len(ciphertext) < 24 {
return nil, false
}
var nonce [24]byte
copy(nonce[:], ciphertext)
return box.OpenAfterPrecomputation(nil, ciphertext[len(nonce):], &nonce, &k.k)
}
// OpenFrom opens the NaCl box ciphertext, which must be a value
// created by SealTo, and returns the inner cleartext if ciphertext is
// a valid box from p to k.
func (k MachinePrivate) OpenFrom(p MachinePublic, ciphertext []byte) (cleartext []byte, ok bool) {
if k.IsZero() || p.IsZero() {
panic("can't open with zero keys")
}
if len(ciphertext) < 24 {
return nil, false
}
var nonce [24]byte
copy(nonce[:], ciphertext)
return box.Open(nil, ciphertext[len(nonce):], &nonce, &p.k, &k.k)
}
// MachinePublic is the public portion of a a MachinePrivate.
type MachinePublic struct {
k [32]byte
}
// MachinePublicFromRaw32 parses a 32-byte raw value as a MachinePublic.
//
// This should be used only when deserializing a MachinePublic from a
// binary protocol.
func MachinePublicFromRaw32(raw mem.RO) MachinePublic {
if raw.Len() != 32 {
panic("input has wrong size")
}
var ret MachinePublic
raw.Copy(ret.k[:])
return ret
}
// ParseMachinePublicUntyped parses an untyped 64-character hex value
// as a MachinePublic.
//
// Deprecated: this function is risky to use, because it cannot verify
// that the hex string was intended to be a MachinePublic. This can
// lead to accidentally decoding one type of key as another. For new
// uses that don't require backwards compatibility with the untyped
// string format, please use MarshalText/UnmarshalText.
func ParseMachinePublicUntyped(raw mem.RO) (MachinePublic, error) {
var ret MachinePublic
if err := parseHex(ret.k[:], raw, mem.B(nil)); err != nil {
return MachinePublic{}, err
}
return ret, nil
}
// IsZero reports whether k is the zero value.
func (k MachinePublic) IsZero() bool {
return k == MachinePublic{}
}
// ShortString returns the Tailscale conventional debug representation
// of a public key: the first five base64 digits of the key, in square
// brackets.
func (k MachinePublic) ShortString() string {
return debug32(k.k)
}
// UntypedHexString returns k, encoded as an untyped 64-character hex
// string.
//
// Deprecated: this function is risky to use, because it produces
// serialized values that do not identify themselves as a
// MachinePublic, allowing other code to potentially parse it back in
// as the wrong key type. For new uses that don't require backwards
// compatibility with the untyped string format, please use
// MarshalText/UnmarshalText.
func (k MachinePublic) UntypedHexString() string {
return hex.EncodeToString(k.k[:])
}
// UntypedBytes returns k, encoded as an untyped 64-character hex
// string.
//
// Deprecated: this function is risky to use, because it produces
// serialized values that do not identify themselves as a
// MachinePublic, allowing other code to potentially parse it back in
// as the wrong key type. For new uses that don't require this
// specific raw byte serialization, please use
// MarshalText/UnmarshalText.
func (k MachinePublic) UntypedBytes() []byte {
return bytes.Clone(k.k[:])
}
// String returns the output of MarshalText as a string.
func (k MachinePublic) String() string {
bs, err := k.MarshalText()
if err != nil {
panic(err)
}
return string(bs)
}
// AppendText implements encoding.TextAppender.
func (k MachinePublic) AppendText(b []byte) ([]byte, error) {
return appendHexKey(b, machinePublicHexPrefix, k.k[:]), nil
}
// MarshalText implements encoding.TextMarshaler.
func (k MachinePublic) MarshalText() ([]byte, error) {
return k.AppendText(nil)
}
// MarshalText implements encoding.TextUnmarshaler.
func (k *MachinePublic) UnmarshalText(b []byte) error {
return parseHex(k.k[:], mem.B(b), mem.S(machinePublicHexPrefix))
}