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tailscale/types/wgkey/key.go

242 lines
6.2 KiB
Go

// Copyright (c) 2020 Tailscale Inc & AUTHORS All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// Package wgkey contains types and helpers for WireGuard keys.
// It is very similar to package tailscale.com/types/key,
// which is also used for curve25519 keys.
// These keys are used for WireGuard clients;
// those keys are used in other curve25519 clients.
package wgkey
import (
"bytes"
"crypto/rand"
"crypto/subtle"
"encoding/base64"
"encoding/hex"
"errors"
"fmt"
"strings"
"golang.org/x/crypto/chacha20poly1305"
"golang.org/x/crypto/curve25519"
)
// Size is the number of bytes in a curve25519 key.
const Size = 32
// A Key is a curve25519 key.
// It is used by WireGuard to represent public keys.
type Key [Size]byte
// NewPreshared generates a new random Key.
func NewPreshared() (*Key, error) {
var k [Size]byte
_, err := rand.Read(k[:])
if err != nil {
return nil, err
}
return (*Key)(&k), nil
}
func Parse(b64 string) (*Key, error) { return parseBase64(base64.StdEncoding, b64) }
func ParseHex(s string) (Key, error) {
b, err := hex.DecodeString(s)
if err != nil {
return Key{}, fmt.Errorf("invalid hex key (%q): %w", s, err)
}
if len(b) != Size {
return Key{}, fmt.Errorf("invalid hex key (%q): length=%d, want %d", s, len(b), Size)
}
var key Key
copy(key[:], b)
return key, nil
}
func ParsePrivateHex(v string) (Private, error) {
k, err := ParseHex(v)
if err != nil {
return Private{}, err
}
pk := Private(k)
if pk.IsZero() {
// Do not clamp a zero key, pass the zero through
// (much like NaN propagation) so that IsZero reports
// a useful result.
return pk, nil
}
pk.clamp()
return pk, nil
}
func (k Key) Base64() string { return base64.StdEncoding.EncodeToString(k[:]) }
func (k Key) String() string { return k.ShortString() }
func (k Key) HexString() string { return hex.EncodeToString(k[:]) }
func (k Key) Equal(k2 Key) bool { return subtle.ConstantTimeCompare(k[:], k2[:]) == 1 }
func (k *Key) ShortString() string {
long := k.Base64()
return "[" + long[0:5] + "]"
}
func (k *Key) IsZero() bool {
if k == nil {
return true
}
var zeros Key
return subtle.ConstantTimeCompare(zeros[:], k[:]) == 1
}
func (k *Key) MarshalJSON() ([]byte, error) {
if k == nil {
return []byte("null"), nil
}
// TODO(josharian): use encoding/hex instead?
buf := new(bytes.Buffer)
fmt.Fprintf(buf, `"%x"`, k[:])
return buf.Bytes(), nil
}
func (k *Key) UnmarshalJSON(b []byte) error {
if k == nil {
return errors.New("wgkey.Key: UnmarshalJSON on nil pointer")
}
if len(b) < 3 || b[0] != '"' || b[len(b)-1] != '"' {
return errors.New("wgkey.Key: UnmarshalJSON not given a string")
}
b = b[1 : len(b)-1]
key, err := ParseHex(string(b))
if err != nil {
return fmt.Errorf("wgkey.Key: UnmarshalJSON: %v", err)
}
copy(k[:], key[:])
return nil
}
func (a *Key) LessThan(b *Key) bool {
for i := range a {
if a[i] < b[i] {
return true
} else if a[i] > b[i] {
return false
}
}
return false
}
// A Private is a curve25519 key.
// It is used by WireGuard to represent private keys.
type Private [Size]byte
// NewPrivate generates a new curve25519 secret key.
// It conforms to the format described on https://cr.yp.to/ecdh.html.
func NewPrivate() (Private, error) {
k, err := NewPreshared()
if err != nil {
return Private{}, err
}
k[0] &= 248
k[31] = (k[31] & 127) | 64
return (Private)(*k), nil
}
func ParsePrivate(b64 string) (*Private, error) {
k, err := parseBase64(base64.StdEncoding, b64)
return (*Private)(k), err
}
func (k *Private) String() string { return base64.StdEncoding.EncodeToString(k[:]) }
func (k *Private) HexString() string { return hex.EncodeToString(k[:]) }
func (k *Private) Equal(k2 Private) bool { return subtle.ConstantTimeCompare(k[:], k2[:]) == 1 }
func (k *Private) IsZero() bool {
pk := Key(*k)
return pk.IsZero()
}
func (k *Private) clamp() {
k[0] &= 248
k[31] = (k[31] & 127) | 64
}
// Public computes the public key matching this curve25519 secret key.
func (k *Private) Public() Key {
pk := Key(*k)
if pk.IsZero() {
panic("Tried to generate emptyPrivate.Public()")
}
var p [Size]byte
curve25519.ScalarBaseMult(&p, (*[Size]byte)(k))
return (Key)(p)
}
func (k Private) MarshalText() ([]byte, error) {
// TODO(josharian): use encoding/hex instead?
buf := new(bytes.Buffer)
fmt.Fprintf(buf, `privkey:%x`, k[:])
return buf.Bytes(), nil
}
func (k *Private) UnmarshalText(b []byte) error {
s := string(b)
if !strings.HasPrefix(s, `privkey:`) {
return errors.New("wgkey.Private: UnmarshalText not given a private-key string")
}
s = strings.TrimPrefix(s, `privkey:`)
key, err := ParseHex(s)
if err != nil {
return fmt.Errorf("wgkey.Private: UnmarshalText: %v", err)
}
copy(k[:], key[:])
return nil
}
func parseBase64(enc *base64.Encoding, s string) (*Key, error) {
k, err := enc.DecodeString(s)
if err != nil {
return nil, fmt.Errorf("invalid key (%q): %w", s, err)
}
if len(k) != Size {
return nil, fmt.Errorf("invalid key (%q): length=%d, want %d", s, len(k), Size)
}
var key Key
copy(key[:], k)
return &key, nil
}
func ParseSymmetric(b64 string) (Symmetric, error) {
k, err := parseBase64(base64.StdEncoding, b64)
if err != nil {
return Symmetric{}, err
}
return Symmetric(*k), nil
}
func ParseSymmetricHex(s string) (Symmetric, error) {
b, err := hex.DecodeString(s)
if err != nil {
return Symmetric{}, fmt.Errorf("invalid symmetric hex key (%q): %w", s, err)
}
if len(b) != chacha20poly1305.KeySize {
return Symmetric{}, fmt.Errorf("invalid symmetric hex key length (%q): length=%d, want %d", s, len(b), chacha20poly1305.KeySize)
}
var key Symmetric
copy(key[:], b)
return key, nil
}
// Symmetric is a chacha20poly1305 key.
// It is used by WireGuard to represent pre-shared symmetric keys.
type Symmetric [chacha20poly1305.KeySize]byte
func (k Symmetric) Base64() string { return base64.StdEncoding.EncodeToString(k[:]) }
func (k Symmetric) String() string { return "sym:" + k.Base64()[:8] }
func (k Symmetric) HexString() string { return hex.EncodeToString(k[:]) }
func (k Symmetric) IsZero() bool { return k.Equal(Symmetric{}) }
func (k Symmetric) Equal(k2 Symmetric) bool {
return subtle.ConstantTimeCompare(k[:], k2[:]) == 1
}