Documentation ¶
Index ¶
- Constants
- Variables
- type BackupInfo
- type EncryptedKeyStorageConfig
- type EncryptedKeyStorageWrapper
- type KeyData
- type KeyEntry
- type KeyType
- type LockManager
- func (lm *LockManager) BackupPolicy(ctx context.Context, storage logical.Storage, name string) (string, error)
- func (lm *LockManager) CacheActive() bool
- func (lm *LockManager) DeletePolicy(ctx context.Context, storage logical.Storage, name string) error
- func (lm *LockManager) GetPolicy(ctx context.Context, req PolicyRequest) (retP *Policy, retUpserted bool, retErr error)
- func (lm *LockManager) InvalidatePolicy(name string)
- func (lm *LockManager) RestorePolicy(ctx context.Context, storage logical.Storage, name, backup string, force bool) error
- type Policy
- func (p *Policy) Backup(ctx context.Context, storage logical.Storage) (out string, retErr error)
- func (p *Policy) Decrypt(context, nonce []byte, value string) (string, error)
- func (p *Policy) DeriveKey(context []byte, ver, numBytes int) ([]byte, error)
- func (p *Policy) Encrypt(ver int, context, nonce []byte, value string) (string, error)
- func (p *Policy) HMACKey(version int) ([]byte, error)
- func (p *Policy) LoadArchive(ctx context.Context, storage logical.Storage) (*archivedKeys, error)
- func (p *Policy) Lock(exclusive bool)
- func (p *Policy) MigrateKeyToKeysMap()
- func (p *Policy) NeedsUpgrade() bool
- func (p *Policy) Persist(ctx context.Context, storage logical.Storage) (retErr error)
- func (p *Policy) Rotate(ctx context.Context, storage logical.Storage) (retErr error)
- func (p *Policy) Serialize() ([]byte, error)
- func (p *Policy) Sign(ver int, context, input []byte, hashAlgorithm, sigAlgorithm string) (*SigningResult, error)
- func (p *Policy) Unlock()
- func (p *Policy) Upgrade(ctx context.Context, storage logical.Storage) (retErr error)
- func (p *Policy) VerifySignature(context, input []byte, sig, hashAlgorithm string, sigAlgorithm string) (bool, error)
- type PolicyConfig
- type PolicyRequest
- type RestoreInfo
- type SigningResult
Constants ¶
const ( // DefaultCacheSize is used if no cache size is specified for // NewEncryptedKeyStorage. This value is the number of cache entries to // store, not the size in bytes of the cache. DefaultCacheSize = 16 * 1024 // DefaultPrefix is used if no prefix is specified for // NewEncryptedKeyStorage. Prefix must be defined so we can provide context // for the base folder. DefaultPrefix = "encryptedkeys/" // EncryptedKeyPolicyVersionTpl is a template that can be used to minimize // the amount of data that's stored with the ciphertext. EncryptedKeyPolicyVersionTpl = "{{version}}:" )
const ( Kdf_hmac_sha256_counter = iota // built-in helper Kdf_hkdf_sha256 // golang.org/x/crypto/hkdf )
Careful with iota; don't put anything before it in this const block because we need the default of zero to be the old-style KDF
const ( KeyType_AES256_GCM96 = iota KeyType_ECDSA_P256 KeyType_ED25519 KeyType_RSA2048 KeyType_RSA4096 KeyType_ChaCha20_Poly1305 )
Or this one...we need the default of zero to be the original AES256-GCM96
const ( // ErrTooOld is returned whtn the ciphertext or signatures's key version is // too old. ErrTooOld = "ciphertext or signature version is disallowed by policy (too old)" // DefaultVersionTemplate is used when no version template is provided. DefaultVersionTemplate = "vault:v{{version}}:" )
Variables ¶
var ( // ErrPolicyDerivedKeys is returned if the provided policy does not use // derived keys. This is a requirement for this storage implementation. ErrPolicyDerivedKeys = errors.New("key policy must use derived keys") // ErrPolicyConvergentEncryption is returned if the provided policy does not use // convergent encryption. This is a requirement for this storage implementation. ErrPolicyConvergentEncryption = errors.New("key policy must use convergent encryption") // ErrPolicyConvergentVersion is returned if the provided policy does not use // a new enough convergent version. This is a requirement for this storage // implementation. ErrPolicyConvergentVersion = errors.New("key policy must use convergent version > 2") // ErrNilStorage is returned if the provided storage is nil. ErrNilStorage = errors.New("nil storage provided") // ErrNilPolicy is returned if the provided policy is nil. ErrNilPolicy = errors.New("nil policy provided") )
Functions ¶
This section is empty.
Types ¶
type BackupInfo ¶ added in v0.9.1
type EncryptedKeyStorageConfig ¶ added in v0.9.6
type EncryptedKeyStorageConfig struct { // Policy is the key policy to use to encrypt the key paths. Policy *Policy // Prefix is the storage prefix for this instance of the EncryptedKeyStorage // object. This is stored in plaintext. If not set the DefaultPrefix will be // used. Prefix string // CacheSize is the number of elements to cache. If not set the // DetaultCacheSize will be used. CacheSize int }
EncryptedKeyStorageConfig is used to configure an EncryptedKeyStorage object.
type EncryptedKeyStorageWrapper ¶ added in v0.9.6
type EncryptedKeyStorageWrapper struct {
// contains filtered or unexported fields
}
func NewEncryptedKeyStorageWrapper ¶ added in v0.9.6
func NewEncryptedKeyStorageWrapper(config EncryptedKeyStorageConfig) (*EncryptedKeyStorageWrapper, error)
NewEncryptedKeyStorageWrapper takes an EncryptedKeyStorageConfig and returns a new EncryptedKeyStorage object.
type KeyData ¶ added in v0.9.1
type KeyData struct { Policy *Policy `json:"policy"` ArchivedKeys *archivedKeys `json:"archived_keys"` }
type KeyEntry ¶
type KeyEntry struct { // AES or some other kind that is a pure byte slice like ED25519 Key []byte `json:"key"` // Key used for HMAC functions HMACKey []byte `json:"hmac_key"` // Time of creation CreationTime time.Time `json:"time"` EC_X *big.Int `json:"ec_x"` EC_Y *big.Int `json:"ec_y"` EC_D *big.Int `json:"ec_d"` RSAKey *rsa.PrivateKey `json:"rsa_key"` // The public key in an appropriate format for the type of key FormattedPublicKey string `json:"public_key"` // If convergent is enabled, the version (falling back to what's in the // policy) ConvergentVersion int `json:"convergent_version"` // This is deprecated (but still filled) in favor of the value above which // is more precise DeprecatedCreationTime int64 `json:"creation_time"` }
KeyEntry stores the key and metadata
type KeyType ¶
type KeyType int
func (KeyType) DecryptionSupported ¶
func (KeyType) DerivationSupported ¶
func (KeyType) EncryptionSupported ¶
func (KeyType) HashSignatureInput ¶ added in v0.7.3
func (KeyType) SigningSupported ¶
type LockManager ¶
type LockManager struct {
// contains filtered or unexported fields
}
func NewLockManager ¶
func NewLockManager(cacheDisabled bool) *LockManager
func (*LockManager) BackupPolicy ¶ added in v0.9.1
func (*LockManager) CacheActive ¶
func (lm *LockManager) CacheActive() bool
func (*LockManager) DeletePolicy ¶
func (*LockManager) GetPolicy ¶ added in v0.10.3
func (lm *LockManager) GetPolicy(ctx context.Context, req PolicyRequest) (retP *Policy, retUpserted bool, retErr error)
When the function returns, if caching was disabled, the Policy's lock must be unlocked when the caller is done (and it should not be re-locked).
func (*LockManager) InvalidatePolicy ¶ added in v0.7.0
func (lm *LockManager) InvalidatePolicy(name string)
func (*LockManager) RestorePolicy ¶ added in v0.9.1
func (lm *LockManager) RestorePolicy(ctx context.Context, storage logical.Storage, name, backup string, force bool) error
RestorePolicy acquires an exclusive lock on the policy name and restores the given policy along with the archive.
type Policy ¶
type Policy struct { Name string `json:"name"` Key []byte `json:"key,omitempty"` //DEPRECATED Keys keyEntryMap `json:"keys"` // Derived keys MUST provide a context and the master underlying key is // never used. If convergent encryption is true, the context will be used // as the nonce as well. Derived bool `json:"derived"` KDF int `json:"kdf"` ConvergentEncryption bool `json:"convergent_encryption"` // Whether the key is exportable Exportable bool `json:"exportable"` // The minimum version of the key allowed to be used for decryption MinDecryptionVersion int `json:"min_decryption_version"` // The minimum version of the key allowed to be used for encryption MinEncryptionVersion int `json:"min_encryption_version"` // The latest key version in this policy LatestVersion int `json:"latest_version"` // The latest key version in the archive. We never delete these, so this is // a max. ArchiveVersion int `json:"archive_version"` // Whether the key is allowed to be deleted DeletionAllowed bool `json:"deletion_allowed"` // The version of the convergent nonce to use ConvergentVersion int `json:"convergent_version"` // The type of key Type KeyType `json:"type"` // BackupInfo indicates the information about the backup action taken on // this policy BackupInfo *BackupInfo `json:"backup_info"` // RestoreInfo indicates the information about the restore action taken on // this policy RestoreInfo *RestoreInfo `json:"restore_info"` // AllowPlaintextBackup allows taking backup of the policy in plaintext AllowPlaintextBackup bool `json:"allow_plaintext_backup"` // VersionTemplate is used to prefix the ciphertext with information about // the key version. It must inclide {{version}} and a delimiter between the // version prefix and the ciphertext. VersionTemplate string `json:"version_template"` // StoragePrefix is used to add a prefix when storing and retrieving the // policy object. StoragePrefix string `json:"storage_prefix"` // contains filtered or unexported fields }
Policy is the struct used to store metadata
func LoadPolicy ¶ added in v0.9.6
LoadPolicy will load a policy from the provided storage path and set the necessary un-exported variables. It is particularly useful when accessing a policy without the lock manager.
func NewPolicy ¶ added in v0.9.6
func NewPolicy(config PolicyConfig) *Policy
NewPolicy takes a policy config and returns a Policy with those settings.
func (*Policy) Backup ¶ added in v0.9.1
Backup should be called with an exclusive lock held on the policy
func (*Policy) DeriveKey ¶
DeriveKey is used to derive the encryption key that should be used depending on the policy. If derivation is disabled the raw key is used and no context is required, otherwise the KDF mode is used with the context to derive the proper key.
func (*Policy) LoadArchive ¶
func (*Policy) MigrateKeyToKeysMap ¶
func (p *Policy) MigrateKeyToKeysMap()
func (*Policy) NeedsUpgrade ¶
type PolicyConfig ¶ added in v0.9.6
type PolicyConfig struct { // The name of the policy Name string `json:"name"` // The type of key Type KeyType // Derived keys MUST provide a context and the master underlying key is // never used. Derived bool KDF int ConvergentEncryption bool // Whether the key is exportable Exportable bool // Whether the key is allowed to be deleted DeletionAllowed bool // AllowPlaintextBackup allows taking backup of the policy in plaintext AllowPlaintextBackup bool // VersionTemplate is used to prefix the ciphertext with information about // the key version. It must inclide {{version}} and a delimiter between the // version prefix and the ciphertext. VersionTemplate string // StoragePrefix is used to add a prefix when storing and retrieving the // policy object. StoragePrefix string }
PolicyConfig is used to create a new policy
type PolicyRequest ¶
type PolicyRequest struct { // The storage to use Storage logical.Storage // The name of the policy Name string // The key type KeyType KeyType // Whether it should be derived Derived bool // Whether to enable convergent encryption Convergent bool // Whether to allow export Exportable bool // Whether to upsert Upsert bool // Whether to allow plaintext backup AllowPlaintextBackup bool }
PolicyRequest holds values used when requesting a policy. Most values are only used during an upsert.