package logical import ( "context" "crypto" "io" ) type KeyUsage int const ( KeyUsageEncrypt KeyUsage = 1 + iota KeyUsageDecrypt KeyUsageSign KeyUsageVerify KeyUsageWrap KeyUsageUnwrap ) type ManagedKey interface { // Name is a human-readable identifier for a managed key that may change/renamed. Use Uuid if a // long term consistent identifier is needed. Name() string // UUID is a unique identifier for a managed key that is guaranteed to remain // consistent even if a key is migrated or renamed. UUID() string // Present returns true if the key is established in the KMS. This may return false if for example // an HSM library is not configured on all cluster nodes. Present(ctx context.Context) (bool, error) // AllowsAll returns true if all the requested usages are supported by the managed key. AllowsAll(usages []KeyUsage) bool } type ( ManagedKeyConsumer func(context.Context, ManagedKey) error ManagedSigningKeyConsumer func(context.Context, ManagedSigningKey) error ) type ManagedKeySystemView interface { // WithManagedKeyByName retrieves an instantiated managed key for consumption by the given function. The // provided key can only be used within the scope of that function call WithManagedKeyByName(ctx context.Context, keyName, mountPoint string, f ManagedKeyConsumer) error // WithManagedKeyByUUID retrieves an instantiated managed key for consumption by the given function. The // provided key can only be used within the scope of that function call WithManagedKeyByUUID(ctx context.Context, keyUuid, mountPoint string, f ManagedKeyConsumer) error // WithManagedSigningKeyByName retrieves an instantiated managed signing key for consumption by the given function, // with the same semantics as WithManagedKeyByName WithManagedSigningKeyByName(ctx context.Context, keyName, mountPoint string, f ManagedSigningKeyConsumer) error // WithManagedSigningKeyByUUID retrieves an instantiated managed signing key for consumption by the given function, // with the same semantics as WithManagedKeyByUUID WithManagedSigningKeyByUUID(ctx context.Context, keyUuid, mountPoint string, f ManagedSigningKeyConsumer) error } type ManagedAsymmetricKey interface { ManagedKey GetPublicKey(ctx context.Context) (crypto.PublicKey, error) } type ManagedKeyLifecycle interface { // GenerateKey generates a key in the KMS if it didn't yet exist, returning the id. // If it already existed, returns the existing id. KMSKey's key material is ignored if present. GenerateKey(ctx context.Context) (string, error) } type ManagedSigningKey interface { ManagedAsymmetricKey // Sign returns a digital signature of the provided value. The SignerOpts param must provide the hash function // that generated the value (if any). // The optional randomSource specifies the source of random values and may be ignored by the implementation // (such as on HSMs with their own internal RNG) Sign(ctx context.Context, value []byte, randomSource io.Reader, opts crypto.SignerOpts) ([]byte, error) // Verify verifies the provided signature against the value. The SignerOpts param must provide the hash function // that generated the value (if any). // If true is returned the signature is correct, false otherwise. Verify(ctx context.Context, signature, value []byte, opts crypto.SignerOpts) (bool, error) // GetSigner returns an implementation of crypto.Signer backed by the managed key. This should be called // as needed so as to use per request contexts. GetSigner(context.Context) (crypto.Signer, error) }