packer-cn/helper/ssh/key_pair.go

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package ssh
import (
"bytes"
"crypto/ecdsa"
"crypto/elliptic"
"crypto/rand"
"crypto/rsa"
"crypto/x509"
"encoding/pem"
"errors"
"strconv"
"strings"
gossh "golang.org/x/crypto/ssh"
)
const (
// That's a lot of bits.
defaultRsaBits = 4096
// Rsa is a SSH key pair of RSA type.
Rsa KeyPairType = "rsa"
// Ecdsa is a SSH key pair of ECDSA type.
Ecdsa KeyPairType = "ecdsa"
)
// KeyPairType represents different types of SSH key pairs.
// See the 'const' block for details.
type KeyPairType string
func (o KeyPairType) String() string {
return string(o)
}
const (
// UnixNewLine is a unix new line.
UnixNewLine NewLineOption = "\n"
// WindowsNewLine is a Windows new line.
WindowsNewLine NewLineOption = "\r\n"
// NoNewLine will not append a new line.
NoNewLine NewLineOption = ""
)
// NewLineOption specifies the type of new line to append to a string.
// See the 'const' block for choices.
type NewLineOption string
func (o NewLineOption) String() string {
return string(o)
}
func (o NewLineOption) Bytes() []byte {
return []byte(o)
}
// KeyPairBuilder builds SSH key pairs.
type KeyPairBuilder interface {
// SetType sets the key pair type.
SetType(KeyPairType) KeyPairBuilder
// SetBits sets the key pair's bits of entropy.
SetBits(int) KeyPairBuilder
// SetName sets the name of the key pair. This is primarily used
// to identify the public key in the authorized_keys file.
SetName(string) KeyPairBuilder
// Build returns a SSH key pair.
//
// The following defaults are used if not specified:
// Default type: ECDSA
// Default bits of entropy:
// - RSA: 4096
// - ECDSA: 521
// Default name: (empty string)
Build() (KeyPair, error)
}
type defaultKeyPairBuilder struct {
// kind describes the resulting key pair's type.
kind KeyPairType
// bits is the resulting key pair's bits of entropy.
bits int
// name is the resulting key pair's name.
name string
}
func (o *defaultKeyPairBuilder) SetType(kind KeyPairType) KeyPairBuilder {
o.kind = kind
return o
}
func (o *defaultKeyPairBuilder) SetBits(bits int) KeyPairBuilder {
o.bits = bits
return o
}
func (o *defaultKeyPairBuilder) SetName(name string) KeyPairBuilder {
o.name = name
return o
}
func (o *defaultKeyPairBuilder) Build() (KeyPair, error) {
switch o.kind {
case Rsa:
return o.newRsaSshKeyPair()
case Ecdsa:
// Default case.
}
return o.newEcdsaSshKeyPair()
}
// newEcdsaSshKeyPair returns a new ECDSA SSH key pair.
func (o *defaultKeyPairBuilder) newEcdsaSshKeyPair() (KeyPair, error) {
var curve elliptic.Curve
switch o.bits {
case 0:
o.bits = 521
fallthrough
case 521:
curve = elliptic.P521()
case 384:
elliptic.P384()
case 256:
elliptic.P256()
case 224:
// Not supported by "golang.org/x/crypto/ssh".
return &defaultKeyPair{}, errors.New("golang.org/x/crypto/ssh does not support " +
strconv.Itoa(o.bits) + " bits")
default:
return &defaultKeyPair{}, errors.New("crypto/elliptic does not support " +
strconv.Itoa(o.bits) + " bits")
}
privateKey, err := ecdsa.GenerateKey(curve, rand.Reader)
if err != nil {
return &defaultKeyPair{}, err
}
sshPublicKey, err := gossh.NewPublicKey(&privateKey.PublicKey)
if err != nil {
return &defaultKeyPair{}, err
}
raw, err := x509.MarshalECPrivateKey(privateKey)
if err != nil {
return &defaultKeyPair{}, err
}
return &defaultKeyPair{
kind: Ecdsa,
bits: o.bits,
name: o.name,
privateKeyDerBytes: raw,
publicKey: sshPublicKey,
}, nil
}
// newRsaSshKeyPair returns a new RSA SSH key pair.
func (o *defaultKeyPairBuilder) newRsaSshKeyPair() (KeyPair, error) {
if o.bits == 0 {
o.bits = defaultRsaBits
}
privateKey, err := rsa.GenerateKey(rand.Reader, o.bits)
if err != nil {
return &defaultKeyPair{}, err
}
sshPublicKey, err := gossh.NewPublicKey(&privateKey.PublicKey)
if err != nil {
return &defaultKeyPair{}, err
}
return &defaultKeyPair{
kind: Rsa,
bits: o.bits,
name: o.name,
privateKeyDerBytes: x509.MarshalPKCS1PrivateKey(privateKey),
publicKey: sshPublicKey,
}, nil
}
// KeyPair represents a SSH key pair.
type KeyPair interface {
// Type returns the key pair's type.
Type() KeyPairType
// Bits returns the bits of entropy.
Bits() int
// Name returns the key pair's name. An empty string is
// returned is no name was specified.
Name() string
// Description returns a brief description of the key pair that
// is suitable for log messages or printing.
Description() string
// PrivateKeyPemBlock returns a slice of bytes representing
// the private key in ASN.1 Distinguished Encoding Rules (DER)
// format in a Privacy-Enhanced Mail (PEM) block.
PrivateKeyPemBlock() []byte
// PublicKeyAuthorizedKeysFormat returns a slice of bytes
// representing the public key in OpenSSH authorized_keys format
// with the specified new line.
PublicKeyAuthorizedKeysFormat(NewLineOption) []byte
}
type defaultKeyPair struct {
// kind is the key pair's type.
kind KeyPairType
// bits is the key pair's bits of entropy.
bits int
// name is the key pair's name.
name string
// privateKeyDerBytes is the private key's bytes
// in ASN.1 DER format
privateKeyDerBytes []byte
// publicKey is the key pair's public key.
publicKey gossh.PublicKey
}
func (o defaultKeyPair) Type() KeyPairType {
return o.kind
}
func (o defaultKeyPair) Bits() int {
return o.bits
}
func (o defaultKeyPair) Name() string {
return o.name
}
func (o defaultKeyPair) Description() string {
return o.kind.String() + " " + strconv.Itoa(o.bits)
}
func (o defaultKeyPair) PrivateKeyPemBlock() []byte {
t := "UNKNOWN PRIVATE KEY"
switch o.kind {
case Ecdsa:
t = "EC PRIVATE KEY"
case Rsa:
t = "RSA PRIVATE KEY"
}
return pem.EncodeToMemory(&pem.Block{
Type: t,
Headers: nil,
Bytes: o.privateKeyDerBytes,
})
}
func (o defaultKeyPair) PublicKeyAuthorizedKeysFormat(nl NewLineOption) []byte {
result := gossh.MarshalAuthorizedKey(o.publicKey)
if len(strings.TrimSpace(o.name)) > 0 {
// Awful, but the go ssh library automatically appends
// a unix new line.
result = bytes.TrimSuffix(result, UnixNewLine.Bytes())
result = append(result, ' ')
result = append(result, o.name...)
}
switch nl {
case NoNewLine:
result = bytes.TrimSuffix(result, UnixNewLine.Bytes())
case WindowsNewLine:
result = bytes.TrimSuffix(result, UnixNewLine.Bytes())
result = append(result, nl.Bytes()...)
case UnixNewLine:
fallthrough
default:
// This is how all the other "SSH key pair" code works in
// the different builders.
if !bytes.HasSuffix(result, UnixNewLine.Bytes()) {
result = append(result, UnixNewLine.Bytes()...)
}
}
return result
}
func NewKeyPairBuilder() KeyPairBuilder {
return &defaultKeyPairBuilder{}
}