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syncthing/lib/tlsutil/tlsutil.go
Jakob Borg 6d11006b54 Generate ECDSA keys instead of RSA 
This replaces the current 3072 bit RSA certificates with 384 bit ECDSA
certificates. The advantage is these certificates are smaller and
essentially instantaneous to generate. According to RFC4492 (ECC Cipher
Suites for TLS), Table 1: Comparable Key Sizes, ECC has comparable
strength to 3072 bit RSA at 283 bits - so we exceed that.

There is no compatibility issue with existing Syncthing code - this is
verified by the integration test ("h2" instance has the new
certificate).

There are browsers out there that don't understand ECC certificates yet,
although I think they're dying out. In the meantime, I've retained the
RSA code for the HTTPS certificate, but pulled it down to 2048 bits. I
don't think a higher security level there is motivated, is this matches
current industry standard for HTTPS certificates.
2015-11-27 09:15:12 +01:00

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// Copyright (C) 2014 The Syncthing Authors.
//
// This Source Code Form is subject to the terms of the Mozilla Public
// License, v. 2.0. If a copy of the MPL was not distributed with this file,
// You can obtain one at http://mozilla.org/MPL/2.0/.
package tlsutil
import (
"bufio"
"crypto/ecdsa"
"crypto/elliptic"
"crypto/rand"
"crypto/rsa"
"crypto/tls"
"crypto/x509"
"crypto/x509/pkix"
"encoding/pem"
"fmt"
"io"
"math/big"
mr "math/rand"
"net"
"os"
"time"
)
var (
ErrIdentificationFailed = fmt.Errorf("failed to identify socket type")
)
// NewCertificate generates and returns a new TLS certificate. If tlsRSABits
// is greater than zero we generate an RSA certificate with the specified
// number of bits. Otherwise we create a 384 bit ECDSA certificate.
func NewCertificate(certFile, keyFile, tlsDefaultCommonName string, tlsRSABits int) (tls.Certificate, error) {
var priv interface{}
var err error
if tlsRSABits > 0 {
priv, err = rsa.GenerateKey(rand.Reader, tlsRSABits)
} else {
priv, err = ecdsa.GenerateKey(elliptic.P384(), rand.Reader)
}
if err != nil {
return tls.Certificate{}, fmt.Errorf("generate key: %s", err)
}
notBefore := time.Now()
notAfter := time.Date(2049, 12, 31, 23, 59, 59, 0, time.UTC)
template := x509.Certificate{
SerialNumber: new(big.Int).SetInt64(mr.Int63()),
Subject: pkix.Name{
CommonName: tlsDefaultCommonName,
},
NotBefore: notBefore,
NotAfter: notAfter,
KeyUsage: x509.KeyUsageKeyEncipherment | x509.KeyUsageDigitalSignature,
ExtKeyUsage: []x509.ExtKeyUsage{x509.ExtKeyUsageServerAuth, x509.ExtKeyUsageClientAuth},
BasicConstraintsValid: true,
}
derBytes, err := x509.CreateCertificate(rand.Reader, &template, &template, publicKey(priv), priv)
if err != nil {
return tls.Certificate{}, fmt.Errorf("create cert: %s", err)
}
certOut, err := os.Create(certFile)
if err != nil {
return tls.Certificate{}, fmt.Errorf("save cert: %s", err)
}
err = pem.Encode(certOut, &pem.Block{Type: "CERTIFICATE", Bytes: derBytes})
if err != nil {
return tls.Certificate{}, fmt.Errorf("save cert: %s", err)
}
err = certOut.Close()
if err != nil {
return tls.Certificate{}, fmt.Errorf("save cert: %s", err)
}
keyOut, err := os.OpenFile(keyFile, os.O_WRONLY|os.O_CREATE|os.O_TRUNC, 0600)
if err != nil {
return tls.Certificate{}, fmt.Errorf("save key: %s", err)
}
block, err := pemBlockForKey(priv)
if err != nil {
return tls.Certificate{}, fmt.Errorf("save key: %s", err)
}
err = pem.Encode(keyOut, block)
if err != nil {
return tls.Certificate{}, fmt.Errorf("save key: %s", err)
}
err = keyOut.Close()
if err != nil {
return tls.Certificate{}, fmt.Errorf("save key: %s", err)
}
return tls.LoadX509KeyPair(certFile, keyFile)
}
type DowngradingListener struct {
net.Listener
TLSConfig *tls.Config
}
func (l *DowngradingListener) Accept() (net.Conn, error) {
conn, isTLS, err := l.AcceptNoWrapTLS()
// We failed to identify the socket type, pretend that everything is fine,
// and pass it to the underlying handler, and let them deal with it.
if err == ErrIdentificationFailed {
return conn, nil
}
if err != nil {
return conn, err
}
if isTLS {
return tls.Server(conn, l.TLSConfig), nil
}
return conn, nil
}
func (l *DowngradingListener) AcceptNoWrapTLS() (net.Conn, bool, error) {
conn, err := l.Listener.Accept()
if err != nil {
return nil, false, err
}
br := bufio.NewReader(conn)
conn.SetReadDeadline(time.Now().Add(1 * time.Second))
bs, err := br.Peek(1)
conn.SetReadDeadline(time.Time{})
if err != nil {
// We hit a read error here, but the Accept() call succeeded so we must not return an error.
// We return the connection as is with a special error which handles this
// special case in Accept().
return conn, false, ErrIdentificationFailed
}
return &UnionedConnection{br, conn}, bs[0] == 0x16, nil
}
type UnionedConnection struct {
io.Reader
net.Conn
}
func (c *UnionedConnection) Read(b []byte) (n int, err error) {
return c.Reader.Read(b)
}
func publicKey(priv interface{}) interface{} {
switch k := priv.(type) {
case *rsa.PrivateKey:
return &k.PublicKey
case *ecdsa.PrivateKey:
return &k.PublicKey
default:
return nil
}
}
func pemBlockForKey(priv interface{}) (*pem.Block, error) {
switch k := priv.(type) {
case *rsa.PrivateKey:
return &pem.Block{Type: "RSA PRIVATE KEY", Bytes: x509.MarshalPKCS1PrivateKey(k)}, nil
case *ecdsa.PrivateKey:
b, err := x509.MarshalECPrivateKey(k)
if err != nil {
return nil, err
}
return &pem.Block{Type: "EC PRIVATE KEY", Bytes: b}, nil
default:
return nil, fmt.Errorf("unknown key type")
}
}
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