open-nomad/nomad/structs/keyring.go

243 lines
6.0 KiB
Go

package structs
import (
"fmt"
"time"
"github.com/hashicorp/nomad/helper"
"github.com/hashicorp/nomad/helper/crypto"
"github.com/hashicorp/nomad/helper/uuid"
)
// RootKey is used to encrypt and decrypt variables. It is never stored in raft.
type RootKey struct {
Meta *RootKeyMeta
Key []byte // serialized to keystore as base64 blob
}
// NewRootKey returns a new root key and its metadata.
func NewRootKey(algorithm EncryptionAlgorithm) (*RootKey, error) {
meta := NewRootKeyMeta()
meta.Algorithm = algorithm
rootKey := &RootKey{
Meta: meta,
}
switch algorithm {
case EncryptionAlgorithmAES256GCM:
key, err := crypto.Bytes(32)
if err != nil {
return nil, fmt.Errorf("failed to generate key: %v", err)
}
rootKey.Key = key
}
return rootKey, nil
}
// RootKeyMeta is the metadata used to refer to a RootKey. It is
// stored in raft.
type RootKeyMeta struct {
KeyID string // UUID
Algorithm EncryptionAlgorithm
CreateTime int64
CreateIndex uint64
ModifyIndex uint64
State RootKeyState
}
// RootKeyState enum describes the lifecycle of a root key.
type RootKeyState string
const (
RootKeyStateInactive RootKeyState = "inactive"
RootKeyStateActive = "active"
RootKeyStateRekeying = "rekeying"
// RootKeyStateDeprecated is, itself, deprecated and is no longer in
// use. For backwards compatibility, any existing keys with this state will
// be treated as RootKeyStateInactive
RootKeyStateDeprecated = "deprecated"
)
// NewRootKeyMeta returns a new RootKeyMeta with default values
func NewRootKeyMeta() *RootKeyMeta {
now := time.Now().UTC().UnixNano()
return &RootKeyMeta{
KeyID: uuid.Generate(),
Algorithm: EncryptionAlgorithmAES256GCM,
State: RootKeyStateInactive,
CreateTime: now,
}
}
// RootKeyMetaStub is for serializing root key metadata to the
// keystore, not for the List API. It excludes frequently-changing
// fields such as ModifyIndex so we don't have to sync them to the
// on-disk keystore when the fields are already in raft.
type RootKeyMetaStub struct {
KeyID string
Algorithm EncryptionAlgorithm
CreateTime int64
State RootKeyState
}
// Active indicates his key is the one currently being used for
// crypto operations (at most one key can be Active)
func (rkm *RootKeyMeta) Active() bool {
return rkm.State == RootKeyStateActive
}
func (rkm *RootKeyMeta) SetActive() {
rkm.State = RootKeyStateActive
}
// Rekeying indicates that variables encrypted with this key should be
// rekeyed
func (rkm *RootKeyMeta) Rekeying() bool {
return rkm.State == RootKeyStateRekeying
}
func (rkm *RootKeyMeta) SetRekeying() {
rkm.State = RootKeyStateRekeying
}
func (rkm *RootKeyMeta) SetInactive() {
rkm.State = RootKeyStateInactive
}
// Inactive indicates that this key is no longer being used to encrypt new
// variables or workload identities.
func (rkm *RootKeyMeta) Inactive() bool {
return rkm.State == RootKeyStateInactive || rkm.State == RootKeyStateDeprecated
}
func (rkm *RootKeyMeta) Stub() *RootKeyMetaStub {
if rkm == nil {
return nil
}
return &RootKeyMetaStub{
KeyID: rkm.KeyID,
Algorithm: rkm.Algorithm,
CreateTime: rkm.CreateTime,
State: rkm.State,
}
}
func (rkm *RootKeyMeta) Copy() *RootKeyMeta {
if rkm == nil {
return nil
}
out := *rkm
return &out
}
func (rkm *RootKeyMeta) Validate() error {
if rkm == nil {
return fmt.Errorf("root key metadata is required")
}
if rkm.KeyID == "" || !helper.IsUUID(rkm.KeyID) {
return fmt.Errorf("root key UUID is required")
}
if rkm.Algorithm == "" {
return fmt.Errorf("root key algorithm is required")
}
switch rkm.State {
case RootKeyStateInactive, RootKeyStateActive,
RootKeyStateRekeying, RootKeyStateDeprecated:
default:
return fmt.Errorf("root key state %q is invalid", rkm.State)
}
return nil
}
// KeyEncryptionKeyWrapper is the struct that gets serialized for the on-disk
// KMS wrapper. This struct includes the server-specific key-wrapping key and
// should never be sent over RPC.
type KeyEncryptionKeyWrapper struct {
Meta *RootKeyMeta
EncryptedDataEncryptionKey []byte `json:"DEK"`
KeyEncryptionKey []byte `json:"KEK"`
}
// EncryptionAlgorithm chooses which algorithm is used for
// encrypting / decrypting entries with this key
type EncryptionAlgorithm string
const (
EncryptionAlgorithmAES256GCM EncryptionAlgorithm = "aes256-gcm"
)
// KeyringRotateRootKeyRequest is the argument to the Keyring.Rotate RPC
type KeyringRotateRootKeyRequest struct {
Algorithm EncryptionAlgorithm
Full bool
WriteRequest
}
// KeyringRotateRootKeyResponse returns the full key metadata
type KeyringRotateRootKeyResponse struct {
Key *RootKeyMeta
WriteMeta
}
// KeyringListRootKeyMetaRequest is the argument to the Keyring.List RPC
type KeyringListRootKeyMetaRequest struct {
QueryOptions
}
// KeyringListRootKeyMetaRequest is the response value of the List RPC
type KeyringListRootKeyMetaResponse struct {
Keys []*RootKeyMeta
QueryMeta
}
// KeyringUpdateRootKeyRequest is used internally for key replication
// only and for keyring restores. The RootKeyMeta will be extracted
// for applying to the FSM with the KeyringUpdateRootKeyMetaRequest
// (see below)
type KeyringUpdateRootKeyRequest struct {
RootKey *RootKey
Rekey bool
WriteRequest
}
type KeyringUpdateRootKeyResponse struct {
WriteMeta
}
// KeyringGetRootKeyRequest is used internally for key replication
// only and for keyring restores.
type KeyringGetRootKeyRequest struct {
KeyID string
QueryOptions
}
type KeyringGetRootKeyResponse struct {
Key *RootKey
QueryMeta
}
// KeyringUpdateRootKeyMetaRequest is used internally for key
// replication so that we have a request wrapper for writing the
// metadata to the FSM without including the key material
type KeyringUpdateRootKeyMetaRequest struct {
RootKeyMeta *RootKeyMeta
Rekey bool
WriteRequest
}
type KeyringUpdateRootKeyMetaResponse struct {
WriteMeta
}
type KeyringDeleteRootKeyRequest struct {
KeyID string
WriteRequest
}
type KeyringDeleteRootKeyResponse struct {
WriteMeta
}