254 lines
6.1 KiB
Go
254 lines
6.1 KiB
Go
package vault
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import (
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"bytes"
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"encoding/json"
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"fmt"
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"time"
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"github.com/hashicorp/errwrap"
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"github.com/hashicorp/vault/sdk/helper/jsonutil"
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)
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const (
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// 10% shy of the NIST recommended maximum, leaving a buffer to account for
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// tracking losses.
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absoluteOperationMaximum = int64(3_865_470_566)
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absoluteOperationMinimum = int64(1_000_000)
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minimumRotationInterval = 24 * time.Hour
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)
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var (
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defaultRotationConfig = KeyRotationConfig{
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MaxOperations: absoluteOperationMaximum,
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}
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disabledRotationConfig = KeyRotationConfig{
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Disabled: true,
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}
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)
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// Keyring is used to manage multiple encryption keys used by
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// the barrier. New keys can be installed and each has a sequential term.
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// The term used to encrypt a key is prefixed to the key written out.
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// All data is encrypted with the latest key, but storing the old keys
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// allows for decryption of keys written previously. Along with the encryption
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// keys, the keyring also tracks the master key. This is necessary so that
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// when a new key is added to the keyring, we can encrypt with the master key
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// and write out the new keyring.
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type Keyring struct {
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masterKey []byte
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keys map[uint32]*Key
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activeTerm uint32
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rotationConfig KeyRotationConfig
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}
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// EncodedKeyring is used for serialization of the keyring
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type EncodedKeyring struct {
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MasterKey []byte
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Keys []*Key
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RotationConfig KeyRotationConfig
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}
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// Key represents a single term, along with the key used.
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type Key struct {
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Term uint32
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Version int
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Value []byte
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InstallTime time.Time
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Encryptions uint64 `json:"encryptions,omitempty"`
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}
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type KeyRotationConfig struct {
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Disabled bool
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MaxOperations int64
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Interval time.Duration
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}
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// Serialize is used to create a byte encoded key
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func (k *Key) Serialize() ([]byte, error) {
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return json.Marshal(k)
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}
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// DeserializeKey is used to deserialize and return a new key
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func DeserializeKey(buf []byte) (*Key, error) {
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k := new(Key)
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if err := jsonutil.DecodeJSON(buf, k); err != nil {
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return nil, errwrap.Wrapf("deserialization failed: {{err}}", err)
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}
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return k, nil
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}
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// NewKeyring creates a new keyring
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func NewKeyring() *Keyring {
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k := &Keyring{
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keys: make(map[uint32]*Key),
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activeTerm: 0,
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rotationConfig: defaultRotationConfig,
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}
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return k
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}
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// Clone returns a new copy of the keyring
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func (k *Keyring) Clone() *Keyring {
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clone := &Keyring{
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masterKey: k.masterKey,
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keys: make(map[uint32]*Key, len(k.keys)),
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activeTerm: k.activeTerm,
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rotationConfig: k.rotationConfig,
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}
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for idx, key := range k.keys {
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clone.keys[idx] = key
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}
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return clone
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}
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// AddKey adds a new key to the keyring
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func (k *Keyring) AddKey(key *Key) (*Keyring, error) {
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// Ensure there is no conflict
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if exist, ok := k.keys[key.Term]; ok {
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if !bytes.Equal(key.Value, exist.Value) {
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return nil, fmt.Errorf("conflicting key for term %d already installed", key.Term)
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}
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return k, nil
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}
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// Add a time if none
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if key.InstallTime.IsZero() {
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key.InstallTime = time.Now()
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}
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// Make a new keyring
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clone := k.Clone()
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// Install the new key
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clone.keys[key.Term] = key
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// Update the active term if newer
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if key.Term > clone.activeTerm {
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clone.activeTerm = key.Term
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}
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// Zero out encryption estimates for previous terms
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for term, key := range clone.keys {
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if term != clone.activeTerm {
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key.Encryptions = 0
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}
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}
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return clone, nil
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}
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// RemoveKey removes a key from the keyring
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func (k *Keyring) RemoveKey(term uint32) (*Keyring, error) {
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// Ensure this is not the active key
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if term == k.activeTerm {
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return nil, fmt.Errorf("cannot remove active key")
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}
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// Check if this term does not exist
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if _, ok := k.keys[term]; !ok {
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return k, nil
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}
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// Delete the key
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clone := k.Clone()
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delete(clone.keys, term)
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return clone, nil
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}
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// ActiveTerm returns the currently active term
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func (k *Keyring) ActiveTerm() uint32 {
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return k.activeTerm
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}
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// ActiveKey returns the active encryption key, or nil
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func (k *Keyring) ActiveKey() *Key {
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return k.keys[k.activeTerm]
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}
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// TermKey returns the key for the given term, or nil
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func (k *Keyring) TermKey(term uint32) *Key {
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return k.keys[term]
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}
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// SetMasterKey is used to update the master key
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func (k *Keyring) SetMasterKey(val []byte) *Keyring {
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valCopy := make([]byte, len(val))
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copy(valCopy, val)
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clone := k.Clone()
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clone.masterKey = valCopy
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return clone
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}
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// MasterKey returns the master key
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func (k *Keyring) MasterKey() []byte {
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return k.masterKey
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}
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// Serialize is used to create a byte encoded keyring
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func (k *Keyring) Serialize() ([]byte, error) {
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// Create the encoded entry
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enc := EncodedKeyring{
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MasterKey: k.masterKey,
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RotationConfig: k.rotationConfig,
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}
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for _, key := range k.keys {
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enc.Keys = append(enc.Keys, key)
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}
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// JSON encode the keyring
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buf, err := json.Marshal(enc)
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return buf, err
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}
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// DeserializeKeyring is used to deserialize and return a new keyring
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func DeserializeKeyring(buf []byte) (*Keyring, error) {
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// Deserialize the keyring
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var enc EncodedKeyring
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if err := jsonutil.DecodeJSON(buf, &enc); err != nil {
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return nil, errwrap.Wrapf("deserialization failed: {{err}}", err)
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}
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// Create a new keyring
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k := NewKeyring()
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k.masterKey = enc.MasterKey
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for _, key := range enc.Keys {
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k.keys[key.Term] = key
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if key.Term > k.activeTerm {
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k.activeTerm = key.Term
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}
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}
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return k, nil
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}
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// N.B.:
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// Since Go 1.5 these are not reliable; see the documentation around the memzero
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// function. These are best-effort.
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func (k *Keyring) Zeroize(keysToo bool) {
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if k == nil {
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return
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}
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if k.masterKey != nil {
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memzero(k.masterKey)
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}
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if !keysToo || k.keys == nil {
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return
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}
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for _, key := range k.keys {
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memzero(key.Value)
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}
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}
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func (c *KeyRotationConfig) Sanitize() {
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if c.MaxOperations == 0 || c.MaxOperations > absoluteOperationMaximum || c.MaxOperations < absoluteOperationMinimum {
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c.MaxOperations = absoluteOperationMaximum
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}
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if c.Interval > 0 && c.Interval < minimumRotationInterval {
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c.Interval = minimumRotationInterval
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}
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}
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func (c *KeyRotationConfig) Equals(config KeyRotationConfig) bool {
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return c.MaxOperations == config.MaxOperations && c.Interval == config.Interval
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}
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