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storj/pkg/peertls/peertls.go
Bryan White 8b9711cb5e
better waitlist-gating (#557) 
* better waitlist-gating

(cherry picked from commit 490fe02b7c3558da18678dfb651c92ec9c4a75b5)

* fix broken test

* linter fixes

* linter fixes

* make extension verification optional

* add certifcate gating script for captplanet

* fixing tests

* linter fixes

* linter fixes?

* moar linter fixes

* Revert "moar linter fixes"

This reverts commit 8139ccbd73cbbead987b7667567844f50f7df2c8.

* just kill me

* refactor

* refactor tests

* liniter...

* cleanup
2018-11-01 16:48:43 +01:00

230 lines
7.0 KiB
Go
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// Copyright (C) 2018 Storj Labs, Inc.
// See LICENSE for copying information.
package peertls
import (
"crypto"
"crypto/ecdsa"
"crypto/rand"
"crypto/tls"
"crypto/x509"
"encoding/asn1"
"encoding/pem"
"io"
"github.com/zeebo/errs"
)
const (
// BlockTypeEcPrivateKey is the value to define a block type of private key
BlockTypeEcPrivateKey = "EC PRIVATE KEY"
// BlockTypeCertificate is the value to define a block type of certificate
BlockTypeCertificate = "CERTIFICATE"
// BlockTypeIDOptions is the value to define a block type of id options
// (e.g. `version`)
BlockTypeIDOptions = "ID OPTIONS"
)
var (
// AuthoritySignatureExtID is the asn1 object ID for a pkix extension holding a signature of the leaf cert, signed by some CA (e.g. the root cert)
// This extension allows for an additional signature per certificate
AuthoritySignatureExtID = asn1.ObjectIdentifier{2, 999, 1}
// ErrNotExist is used when a file or directory doesn't exist
ErrNotExist = errs.Class("file or directory not found error")
// ErrGenerate is used when an error occurred during cert/key generation
ErrGenerate = errs.Class("tls generation error")
// ErrUnsupportedKey is used when key type is not supported
ErrUnsupportedKey = errs.Class("unsupported key type")
// ErrTLSTemplate is used when an error occurs during tls template generation
ErrTLSTemplate = errs.Class("tls template error")
// ErrVerifyPeerCert is used when an error occurs during `VerifyPeerCertificate`
ErrVerifyPeerCert = errs.Class("tls peer certificate verification error")
// ErrParseCerts is used when an error occurs while parsing a certificate or cert chain
ErrParseCerts = errs.Class("unable to parse certificate")
// ErrVerifySignature is used when a cert-chain signature verificaion error occurs
ErrVerifySignature = errs.Class("tls certificate signature verification error")
// ErrVerifyCertificateChain is used when a certificate chain can't be verified from leaf to root
// (i.e.: each cert in the chain should be signed by the preceding cert and the root should be self-signed)
ErrVerifyCertificateChain = errs.Class("certificate chain signature verification failed")
// ErrVerifyCAWhitelist is used when the leaf of a peer certificate isn't signed by any CA in the whitelist
ErrVerifyCAWhitelist = errs.Class("certificate isn't signed by any CA in the whitelist")
// ErrSign is used when something goes wrong while generating a signature
ErrSign = errs.Class("unable to generate signature")
)
// PeerCertVerificationFunc is the signature for a `*tls.Config{}`'s
// `VerifyPeerCertificate` function.
type PeerCertVerificationFunc func([][]byte, [][]*x509.Certificate) error
// NewKey returns a new PrivateKey
func NewKey() (crypto.PrivateKey, error) {
k, err := ecdsa.GenerateKey(authECCurve, rand.Reader)
if err != nil {
return nil, ErrGenerate.New("failed to generate private key: %v", err)
}
return k, nil
}
// NewCert returns a new x509 certificate using the provided templates and
// signed by the `signer` key
func NewCert(template, parentTemplate *x509.Certificate, pubKey crypto.PublicKey, signer crypto.PrivateKey) (*x509.Certificate, error) {
k, ok := signer.(*ecdsa.PrivateKey)
if !ok {
return nil, ErrUnsupportedKey.New("%T", k)
}
if parentTemplate == nil {
parentTemplate = template
}
cb, err := x509.CreateCertificate(
rand.Reader,
template,
parentTemplate,
pubKey,
k,
)
if err != nil {
return nil, errs.Wrap(err)
}
c, err := x509.ParseCertificate(cb)
if err != nil {
return nil, errs.Wrap(err)
}
return c, nil
}
// VerifyPeerFunc combines multiple `*tls.Config#VerifyPeerCertificate`
// functions and adds certificate parsing.
func VerifyPeerFunc(next ...PeerCertVerificationFunc) PeerCertVerificationFunc {
return func(chain [][]byte, _ [][]*x509.Certificate) error {
c, err := parseCertificateChains(chain)
if err != nil {
return ErrVerifyPeerCert.Wrap(err)
}
for _, n := range next {
if n != nil {
if err := n(chain, [][]*x509.Certificate{c}); err != nil {
return ErrVerifyPeerCert.Wrap(err)
}
}
}
return nil
}
}
// VerifyPeerCertChains verifies that the first certificate chain contains certificates
// which are signed by their respective parents, ending with a self-signed root
func VerifyPeerCertChains(_ [][]byte, parsedChains [][]*x509.Certificate) error {
return verifyChainSignatures(parsedChains[0])
}
// VerifyCAWhitelist verifies that the peer identity's CA and leaf-extension was signed
// by any one of the (certificate authority) certificates in the provided whitelist
func VerifyCAWhitelist(cas []*x509.Certificate, verifyExtension bool) PeerCertVerificationFunc {
if cas == nil {
return nil
}
return func(_ [][]byte, parsedChains [][]*x509.Certificate) error {
var (
leaf = parsedChains[0][0]
err error
)
// Leaf extension must contain leaf signature, signed by a CA in the whitelist.
// That *same* CA must also have signed the leaf's parent cert (regular cert chain signature, not extension).
for _, ca := range cas {
err = verifyCertSignature(ca, parsedChains[0][1])
if err == nil {
if !verifyExtension {
break
}
for _, ext := range leaf.Extensions {
if ext.Id.Equal(AuthoritySignatureExtID) {
err = verifySignature(ext.Value, leaf.RawTBSCertificate, leaf.PublicKey)
if err != nil {
return ErrVerifyCAWhitelist.New("authority signature extension verification error: %s", err.Error())
}
return nil
}
}
break
}
}
return ErrVerifyCAWhitelist.Wrap(err)
}
}
// NewKeyBlock converts an ASN1/DER-encoded byte-slice of a private key into
// a `pem.Block` pointer
func NewKeyBlock(b []byte) *pem.Block {
return &pem.Block{Type: BlockTypeEcPrivateKey, Bytes: b}
}
// NewCertBlock converts an ASN1/DER-encoded byte-slice of a tls certificate
// into a `pem.Block` pointer
func NewCertBlock(b []byte) *pem.Block {
return &pem.Block{Type: BlockTypeCertificate, Bytes: b}
}
// TLSCert creates a tls.Certificate from chains, key and leaf
func TLSCert(chain [][]byte, leaf *x509.Certificate, key crypto.PrivateKey) (*tls.Certificate, error) {
var err error
if leaf == nil {
leaf, err = x509.ParseCertificate(chain[0])
if err != nil {
return nil, err
}
}
return &tls.Certificate{
Leaf: leaf,
Certificate: chain,
PrivateKey: key,
}, nil
}
// WriteChain writes the certificate chain (leaf-first) to the writer, PEM-encoded.
func WriteChain(w io.Writer, chain ...*x509.Certificate) error {
if len(chain) < 1 {
return errs.New("expected at least one certificate for writing")
}
for _, c := range chain {
if err := pem.Encode(w, NewCertBlock(c.Raw)); err != nil {
return errs.Wrap(err)
}
}
return nil
}
// WriteKey writes the private key to the writer, PEM-encoded.
func WriteKey(w io.Writer, key crypto.PrivateKey) error {
var (
kb []byte
err error
)
switch k := key.(type) {
case *ecdsa.PrivateKey:
kb, err = x509.MarshalECPrivateKey(k)
if err != nil {
return errs.Wrap(err)
}
default:
return ErrUnsupportedKey.New("%T", k)
}
if err := pem.Encode(w, NewKeyBlock(kb)); err != nil {
return errs.Wrap(err)
}
return nil
}
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