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certificates/kms/cloudkms/cloudkms.go
Herman Slatman 8c5b12e21d
Add non-TLS server and improve crypto.Decrypter interface 
A server without TLS was added to serve the SCEP endpoints. According
to the RFC, SCEP has to be served via HTTP. The `sscep` client, for
example, will stop any URL that does not start with `http://` from
being used, so serving SCEP seems to be the right way to do it.

This commit adds a second server for which no TLS configuration is
configured. A distinct field in the configuration, `insecureAddress`
was added to specify the address for the insecure server.

The SCEP endpoints will also still be served via HTTPS. Some clients
may be able to work with that.

This commit also improves how the crypto.Decrypter interface is
handled for the different types of KMSes supported by step. The
apiv1.Decrypter interface was added. Currently only SoftKMS
implements this interface, providing a crypto.Decrypter required
for SCEP operations.
2021-03-12 14:18:36 +01:00

333 lines
11 KiB
Go
Raw Blame History

package cloudkms
import (
"context"
"crypto"
"log"
"strings"
"time"
"google.golang.org/grpc/codes"
"google.golang.org/grpc/status"
cloudkms "cloud.google.com/go/kms/apiv1"
gax "github.com/googleapis/gax-go/v2"
"github.com/pkg/errors"
"github.com/smallstep/certificates/kms/apiv1"
"github.com/smallstep/certificates/kms/uri"
"go.step.sm/crypto/pemutil"
"google.golang.org/api/option"
kmspb "google.golang.org/genproto/googleapis/cloud/kms/v1"
)
// Scheme is the scheme used in uris.
const Scheme = "cloudkms"
const pendingGenerationRetries = 10
// protectionLevelMapping maps step protection levels with cloud kms ones.
var protectionLevelMapping = map[apiv1.ProtectionLevel]kmspb.ProtectionLevel{
apiv1.UnspecifiedProtectionLevel: kmspb.ProtectionLevel_PROTECTION_LEVEL_UNSPECIFIED,
apiv1.Software: kmspb.ProtectionLevel_SOFTWARE,
apiv1.HSM: kmspb.ProtectionLevel_HSM,
}
// signatureAlgorithmMapping is a mapping between the step signature algorithm,
// and bits for RSA keys, with cloud kms one.
//
// Cloud KMS does not support SHA384WithRSA, SHA384WithRSAPSS, SHA384WithRSAPSS,
// ECDSAWithSHA512, and PureEd25519.
var signatureAlgorithmMapping = map[apiv1.SignatureAlgorithm]interface{}{
apiv1.UnspecifiedSignAlgorithm: kmspb.CryptoKeyVersion_CRYPTO_KEY_VERSION_ALGORITHM_UNSPECIFIED,
apiv1.SHA256WithRSA: map[int]kmspb.CryptoKeyVersion_CryptoKeyVersionAlgorithm{
0: kmspb.CryptoKeyVersion_RSA_SIGN_PKCS1_3072_SHA256,
2048: kmspb.CryptoKeyVersion_RSA_SIGN_PKCS1_2048_SHA256,
3072: kmspb.CryptoKeyVersion_RSA_SIGN_PKCS1_3072_SHA256,
4096: kmspb.CryptoKeyVersion_RSA_SIGN_PKCS1_4096_SHA256,
},
apiv1.SHA512WithRSA: map[int]kmspb.CryptoKeyVersion_CryptoKeyVersionAlgorithm{
0: kmspb.CryptoKeyVersion_RSA_SIGN_PKCS1_4096_SHA256,
4096: kmspb.CryptoKeyVersion_RSA_SIGN_PKCS1_4096_SHA256,
},
apiv1.SHA256WithRSAPSS: map[int]kmspb.CryptoKeyVersion_CryptoKeyVersionAlgorithm{
0: kmspb.CryptoKeyVersion_RSA_SIGN_PSS_3072_SHA256,
2048: kmspb.CryptoKeyVersion_RSA_SIGN_PSS_2048_SHA256,
3072: kmspb.CryptoKeyVersion_RSA_SIGN_PSS_3072_SHA256,
4096: kmspb.CryptoKeyVersion_RSA_SIGN_PSS_4096_SHA256,
},
apiv1.SHA512WithRSAPSS: map[int]kmspb.CryptoKeyVersion_CryptoKeyVersionAlgorithm{
0: kmspb.CryptoKeyVersion_RSA_SIGN_PSS_4096_SHA512,
4096: kmspb.CryptoKeyVersion_RSA_SIGN_PSS_4096_SHA512,
},
apiv1.ECDSAWithSHA256: kmspb.CryptoKeyVersion_EC_SIGN_P256_SHA256,
apiv1.ECDSAWithSHA384: kmspb.CryptoKeyVersion_EC_SIGN_P384_SHA384,
}
// KeyManagementClient defines the methods on KeyManagementClient that this
// package will use. This interface will be used for unit testing.
type KeyManagementClient interface {
Close() error
GetPublicKey(context.Context, *kmspb.GetPublicKeyRequest, ...gax.CallOption) (*kmspb.PublicKey, error)
AsymmetricSign(context.Context, *kmspb.AsymmetricSignRequest, ...gax.CallOption) (*kmspb.AsymmetricSignResponse, error)
CreateCryptoKey(context.Context, *kmspb.CreateCryptoKeyRequest, ...gax.CallOption) (*kmspb.CryptoKey, error)
GetKeyRing(context.Context, *kmspb.GetKeyRingRequest, ...gax.CallOption) (*kmspb.KeyRing, error)
CreateKeyRing(context.Context, *kmspb.CreateKeyRingRequest, ...gax.CallOption) (*kmspb.KeyRing, error)
CreateCryptoKeyVersion(ctx context.Context, req *kmspb.CreateCryptoKeyVersionRequest, opts ...gax.CallOption) (*kmspb.CryptoKeyVersion, error)
}
var newKeyManagementClient = func(ctx context.Context, opts ...option.ClientOption) (KeyManagementClient, error) {
return cloudkms.NewKeyManagementClient(ctx, opts...)
}
// CloudKMS implements a KMS using Google's Cloud apiv1.
type CloudKMS struct {
client KeyManagementClient
}
// New creates a new CloudKMS configured with a new client.
func New(ctx context.Context, opts apiv1.Options) (*CloudKMS, error) {
var cloudOpts []option.ClientOption
if opts.URI != "" {
u, err := uri.ParseWithScheme(Scheme, opts.URI)
if err != nil {
return nil, err
}
if f := u.Get("credentials-file"); f != "" {
cloudOpts = append(cloudOpts, option.WithCredentialsFile(f))
}
}
// Deprecated way to set configuration parameters.
if opts.CredentialsFile != "" {
cloudOpts = append(cloudOpts, option.WithCredentialsFile(opts.CredentialsFile))
}
client, err := newKeyManagementClient(ctx, cloudOpts...)
if err != nil {
return nil, err
}
return &CloudKMS{
client: client,
}, nil
}
func init() {
apiv1.Register(apiv1.CloudKMS, func(ctx context.Context, opts apiv1.Options) (apiv1.KeyManager, error) {
return New(ctx, opts)
})
}
// NewCloudKMS creates a CloudKMS with a given client.
func NewCloudKMS(client KeyManagementClient) *CloudKMS {
return &CloudKMS{
client: client,
}
}
// Close closes the connection of the Cloud KMS client.
func (k *CloudKMS) Close() error {
if err := k.client.Close(); err != nil {
return errors.Wrap(err, "cloudKMS Close failed")
}
return nil
}
// CreateSigner returns a new cloudkms signer configured with the given signing
// key name.
func (k *CloudKMS) CreateSigner(req *apiv1.CreateSignerRequest) (crypto.Signer, error) {
if req.SigningKey == "" {
return nil, errors.New("signing key cannot be empty")
}
return NewSigner(k.client, req.SigningKey)
}
// CreateKey creates in Google's Cloud KMS a new asymmetric key for signing.
func (k *CloudKMS) CreateKey(req *apiv1.CreateKeyRequest) (*apiv1.CreateKeyResponse, error) {
if req.Name == "" {
return nil, errors.New("createKeyRequest 'name' cannot be empty")
}
protectionLevel, ok := protectionLevelMapping[req.ProtectionLevel]
if !ok {
return nil, errors.Errorf("cloudKMS does not support protection level '%s'", req.ProtectionLevel)
}
var signatureAlgorithm kmspb.CryptoKeyVersion_CryptoKeyVersionAlgorithm
v, ok := signatureAlgorithmMapping[req.SignatureAlgorithm]
if !ok {
return nil, errors.Errorf("cloudKMS does not support signature algorithm '%s'", req.SignatureAlgorithm)
}
switch v := v.(type) {
case kmspb.CryptoKeyVersion_CryptoKeyVersionAlgorithm:
signatureAlgorithm = v
case map[int]kmspb.CryptoKeyVersion_CryptoKeyVersionAlgorithm:
if signatureAlgorithm, ok = v[req.Bits]; !ok {
return nil, errors.Errorf("cloudKMS does not support signature algorithm '%s' with '%d' bits", req.SignatureAlgorithm, req.Bits)
}
default:
return nil, errors.Errorf("unexpected error: this should not happen")
}
var crytoKeyName string
// Split `projects/PROJECT_ID/locations/global/keyRings/RING_ID/cryptoKeys/KEY_ID`
// to `projects/PROJECT_ID/locations/global/keyRings/RING_ID` and `KEY_ID`.
keyRing, keyID := Parent(req.Name)
if err := k.createKeyRingIfNeeded(keyRing); err != nil {
return nil, err
}
ctx, cancel := defaultContext()
defer cancel()
// Create private key in CloudKMS.
response, err := k.client.CreateCryptoKey(ctx, &kmspb.CreateCryptoKeyRequest{
Parent: keyRing,
CryptoKeyId: keyID,
CryptoKey: &kmspb.CryptoKey{
Purpose: kmspb.CryptoKey_ASYMMETRIC_SIGN,
VersionTemplate: &kmspb.CryptoKeyVersionTemplate{
ProtectionLevel: protectionLevel,
Algorithm: signatureAlgorithm,
},
},
})
if err != nil {
if status.Code(err) != codes.AlreadyExists {
return nil, errors.Wrap(err, "cloudKMS CreateCryptoKey failed")
}
// Create a new version if the key already exists.
//
// Note that it will have the same purpose, protection level and
// algorithm than as previous one.
req := &kmspb.CreateCryptoKeyVersionRequest{
Parent: req.Name,
CryptoKeyVersion: &kmspb.CryptoKeyVersion{
State: kmspb.CryptoKeyVersion_ENABLED,
},
}
response, err := k.client.CreateCryptoKeyVersion(ctx, req)
if err != nil {
return nil, errors.Wrap(err, "cloudKMS CreateCryptoKeyVersion failed")
}
crytoKeyName = response.Name
} else {
crytoKeyName = response.Name + "/cryptoKeyVersions/1"
}
// Sleep deterministically to avoid retries because of PENDING_GENERATING.
// One second is often enough.
if protectionLevel == kmspb.ProtectionLevel_HSM {
time.Sleep(1 * time.Second)
}
// Retrieve public key to add it to the response.
pk, err := k.GetPublicKey(&apiv1.GetPublicKeyRequest{
Name: crytoKeyName,
})
if err != nil {
return nil, errors.Wrap(err, "cloudKMS GetPublicKey failed")
}
return &apiv1.CreateKeyResponse{
Name: crytoKeyName,
PublicKey: pk,
CreateSignerRequest: apiv1.CreateSignerRequest{
SigningKey: crytoKeyName,
},
}, nil
}
func (k *CloudKMS) createKeyRingIfNeeded(name string) error {
ctx, cancel := defaultContext()
defer cancel()
_, err := k.client.GetKeyRing(ctx, &kmspb.GetKeyRingRequest{
Name: name,
})
if err == nil {
return nil
}
parent, child := Parent(name)
_, err = k.client.CreateKeyRing(ctx, &kmspb.CreateKeyRingRequest{
Parent: parent,
KeyRingId: child,
})
if err != nil && status.Code(err) != codes.AlreadyExists {
return errors.Wrap(err, "cloudKMS CreateKeyRing failed")
}
return nil
}
// GetPublicKey gets from Google's Cloud KMS a public key by name. Key names
// follow the pattern:
// projects/([^/]+)/locations/([a-zA-Z0-9_-]{1,63})/keyRings/([a-zA-Z0-9_-]{1,63})/cryptoKeys/([a-zA-Z0-9_-]{1,63})/cryptoKeyVersions/([a-zA-Z0-9_-]{1,63})
func (k *CloudKMS) GetPublicKey(req *apiv1.GetPublicKeyRequest) (crypto.PublicKey, error) {
if req.Name == "" {
return nil, errors.New("createKeyRequest 'name' cannot be empty")
}
response, err := k.getPublicKeyWithRetries(req.Name, pendingGenerationRetries)
if err != nil {
return nil, errors.Wrap(err, "cloudKMS GetPublicKey failed")
}
pk, err := pemutil.ParseKey([]byte(response.Pem))
if err != nil {
return nil, err
}
return pk, nil
}
// getPublicKeyWithRetries retries the request if the error is
// FailedPrecondition, caused because the key is in the PENDING_GENERATION
// status.
func (k *CloudKMS) getPublicKeyWithRetries(name string, retries int) (response *kmspb.PublicKey, err error) {
workFn := func() (*kmspb.PublicKey, error) {
ctx, cancel := defaultContext()
defer cancel()
return k.client.GetPublicKey(ctx, &kmspb.GetPublicKeyRequest{
Name: name,
})
}
for i := 0; i < retries; i++ {
if response, err = workFn(); err == nil {
return
}
if status.Code(err) == codes.FailedPrecondition {
log.Println("Waiting for key generation ...")
time.Sleep(time.Duration(i+1) * time.Second)
continue
}
}
return
}
func defaultContext() (context.Context, context.CancelFunc) {
return context.WithTimeout(context.Background(), 15*time.Second)
}
// Parent splits a string in the format `key/value/key2/value2` in a parent and
// child, for the previous string it will return `key/value` and `value2`.
func Parent(name string) (string, string) {
a, b := parent(name)
a, _ = parent(a)
return a, b
}
func parent(name string) (string, string) {
i := strings.LastIndex(name, "/")
switch i {
case -1:
return "", name
case 0:
return "", name[i+1:]
default:
return name[:i], name[i+1:]
}
}
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