Documentation ¶
Index ¶
- Constants
- Variables
- func TestStorage(t *testing.T, s Storage)
- func UUID() (string, error)
- type Auth
- type Backend
- type BackendConfig
- type Connection
- type Factory
- type HTTPCodedError
- type InmemStorage
- type LeaseOptions
- type LockingInmemStorage
- type Operation
- type Paths
- type Request
- func RenewAuthRequest(path string, auth *Auth, data map[string]interface{}) *Request
- func RenewRequest(path string, secret *Secret, data map[string]interface{}) *Request
- func RevokeRequest(path string, secret *Secret, data map[string]interface{}) *Request
- func RollbackRequest(path string) *Request
- func TestRequest(t *testing.T, op Operation, path string) *Request
- type Response
- type Secret
- type StaticSystemView
- type Storage
- type StorageEntry
- type SystemView
Constants ¶
const ( // The operations below are called per path CreateOperation Operation = "create" ReadOperation = "read" UpdateOperation = "update" DeleteOperation = "delete" ListOperation = "list" HelpOperation = "help" // The operations below are called globally, the path is less relevant. RevokeOperation Operation = "revoke" RenewOperation = "renew" RollbackOperation = "rollback" )
const ( // HTTPContentType can be specified in the Data field of a Response // so that the HTTP front end can specify a custom Content-Type associated // with the HTTPRawBody. This can only be used for non-secrets, and should // be avoided unless absolutely necessary, such as implementing a specification. // The value must be a string. HTTPContentType = "http_content_type" // HTTPRawBody is the raw content of the HTTP body that goes with the HTTPContentType. // This can only be specified for non-secrets, and should should be similarly // avoided like the HTTPContentType. The value must be a byte slice. HTTPRawBody = "http_raw_body" // HTTPStatusCode is the response code of the HTTP body that goes with the HTTPContentType. // This can only be specified for non-secrets, and should should be similarly // avoided like the HTTPContentType. The value must be an integer. HTTPStatusCode = "http_status_code" )
Variables ¶
var ( // ErrUnsupportedOperation is returned if the operation is not supported // by the logical backend. ErrUnsupportedOperation = errors.New("unsupported operation") // ErrUnsupportedPath is returned if the path is not supported // by the logical backend. ErrUnsupportedPath = errors.New("unsupported path") // ErrInvalidRequest is returned if the request is invalid ErrInvalidRequest = errors.New("invalid request") // ErrPermissionDenied is returned if the client is not authorized ErrPermissionDenied = errors.New("permission denied") )
Functions ¶
func TestStorage ¶
TestStorage is a helper that can be used from unit tests to verify the behavior of a Storage impl.
Types ¶
type Auth ¶
type Auth struct { LeaseOptions // InternalData is JSON-encodable data that is stored with the auth struct. // This will be sent back during a Renew/Revoke for storing internal data // used for those operations. InternalData map[string]interface{} // DisplayName is a non-security sensitive identifier that is // applicable to this Auth. It is used for logging and prefixing // of dynamic secrets. For example, DisplayName may be "armon" for // the github credential backend. If the client token is used to // generate a SQL credential, the user may be "github-armon-uuid". // This is to help identify the source without using audit tables. DisplayName string // Policies is the list of policies that the authenticated user // is associated with. Policies []string // Metadata is used to attach arbitrary string-type metadata to // an authenticated user. This metadata will be outputted into the // audit log. Metadata map[string]string // ClientToken is the token that is generated for the authentication. // This will be filled in by Vault core when an auth structure is // returned. Setting this manually will have no effect. ClientToken string // Accessor is the identifier for the ClientToken. This can be used // to perform management functionalities (especially revocation) when // ClientToken in the audit logs are obfuscated. Accessor can be used // to revoke a ClientToken and to lookup the capabilities of the ClientToken, // both without actually knowing the ClientToken. Accessor string }
Auth is the resulting authentication information that is part of Response for credential backends.
type Backend ¶
type Backend interface { // HandleRequest is used to handle a request and generate a response. // The backends must check the operation type and handle appropriately. HandleRequest(*Request) (*Response, error) // SpecialPaths is a list of paths that are special in some way. // See PathType for the types of special paths. The key is the type // of the special path, and the value is a list of paths for this type. // This is not a regular expression but is an exact match. If the path // ends in '*' then it is a prefix-based match. The '*' can only appear // at the end. SpecialPaths() *Paths // System provides an interface to access certain system configuration // information, such as globally configured default and max lease TTLs. System() SystemView // HandleExistenceCheck is used to handle a request and generate a response // indicating whether the given path exists or not; this is used to // understand whether the request must have a Create or Update capability // ACL applied. The first bool indicates whether an existence check // function was found for the backend; the second indicates whether, if an // existence check function was found, the item exists or not. HandleExistenceCheck(*Request) (bool, bool, error) Cleanup() }
Backend interface must be implemented to be "mountable" at a given path. Requests flow through a router which has various mount points that flow to a logical backend. The logic of each backend is flexible, and this is what allows materialized keys to function. There can be specialized logical backends for various upstreams (Consul, PostgreSQL, MySQL, etc) that can interact with remote APIs to generate keys dynamically. This interface also allows for a "procfs" like interaction, as internal state can be exposed by acting like a logical backend and being mounted.
type BackendConfig ¶ added in v0.2.0
type BackendConfig struct { // View should not be stored, and should only be used for initialization StorageView Storage // The backend should use this logger. The log should not contain any secrets. Logger *log.Logger // System provides a view into a subset of safe system information that // is useful for backends, such as the default/max lease TTLs System SystemView // Config is the opaque user configuration provided when mounting Config map[string]string }
BackendConfig is provided to the factory to initialize the backend
func TestBackendConfig ¶ added in v0.4.0
func TestBackendConfig() *BackendConfig
type Connection ¶
type Connection struct { // RemoteAddr is the network address that sent the request. RemoteAddr string // ConnState is the TLS connection state if applicable. ConnState *tls.ConnectionState }
Connection represents the connection information for a request. This is present on the Request structure for credential backends.
type Factory ¶
type Factory func(*BackendConfig) (Backend, error)
Factory is the factory function to create a logical backend.
type HTTPCodedError ¶ added in v0.3.0
func CodedError ¶ added in v0.3.0
func CodedError(c int, s string) HTTPCodedError
type InmemStorage ¶
type InmemStorage struct { Data map[string]*StorageEntry // contains filtered or unexported fields }
InmemStorage implements Storage and stores all data in memory.
func (*InmemStorage) Delete ¶
func (s *InmemStorage) Delete(k string) error
func (*InmemStorage) Get ¶
func (s *InmemStorage) Get(key string) (*StorageEntry, error)
func (*InmemStorage) Put ¶
func (s *InmemStorage) Put(entry *StorageEntry) error
type LeaseOptions ¶
type LeaseOptions struct { // Lease is the duration that this secret is valid for. Vault // will automatically revoke it after the duration. TTL time.Duration `json:"lease"` // Renewable, if true, means that this secret can be renewed. Renewable bool `json:"renewable"` // Increment will be the lease increment that the user requested. // This is only available on a Renew operation and has no effect // when returning a response. Increment time.Duration `json:"-"` // IssueTime is the time of issue for the original lease. This is // only available on a Renew operation and has no effect when returning // a response. It can be used to enforce maximum lease periods by // a logical backend. This time will always be in UTC. IssueTime time.Time `json:"-"` }
LeaseOptions is an embeddable struct to capture common lease settings between a Secret and Auth
func (*LeaseOptions) ExpirationTime ¶
func (l *LeaseOptions) ExpirationTime() time.Time
ExpirationTime computes the time until expiration including the grace period
func (*LeaseOptions) LeaseEnabled ¶
func (l *LeaseOptions) LeaseEnabled() bool
LeaseEnabled checks if leasing is enabled
func (*LeaseOptions) LeaseTotal ¶
func (l *LeaseOptions) LeaseTotal() time.Duration
LeaseTotal is the lease duration with a guard against a negative TTL
type LockingInmemStorage ¶ added in v0.5.0
type LockingInmemStorage struct { sync.RWMutex Data map[string]*StorageEntry // contains filtered or unexported fields }
LockingInmemStorage implements Storage and stores all data in memory.
func (*LockingInmemStorage) Delete ¶ added in v0.5.0
func (s *LockingInmemStorage) Delete(k string) error
func (*LockingInmemStorage) Get ¶ added in v0.5.0
func (s *LockingInmemStorage) Get(key string) (*StorageEntry, error)
func (*LockingInmemStorage) List ¶ added in v0.5.0
func (s *LockingInmemStorage) List(prefix string) ([]string, error)
func (*LockingInmemStorage) Put ¶ added in v0.5.0
func (s *LockingInmemStorage) Put(entry *StorageEntry) error
type Operation ¶
type Operation string
Operation is an enum that is used to specify the type of request being made
type Paths ¶
type Paths struct { // Root are the paths that require a root token to access Root []string // Unauthenticated are the paths that can be accessed without any auth. Unauthenticated []string }
Paths is the structure of special paths that is used for SpecialPaths.
type Request ¶
type Request struct { // Operation is the requested operation type Operation Operation // Path is the part of the request path not consumed by the // routing. As an example, if the original request path is "prod/aws/foo" // and the AWS logical backend is mounted at "prod/aws/", then the // final path is "foo" since the mount prefix is trimmed. Path string // Request data is an opaque map that must have string keys. Data map[string]interface{} // Storage can be used to durably store and retrieve state. Storage Storage // Secret will be non-nil only for Revoke and Renew operations // to represent the secret that was returned prior. Secret *Secret // Auth will be non-nil only for Renew operations // to represent the auth that was returned prior. Auth *Auth // Connection will be non-nil only for credential providers to // inspect the connection information and potentially use it for // authentication/protection. Connection *Connection // ClientToken is provided to the core so that the identity // can be verified and ACLs applied. This value is passed // through to the logical backends but after being salted and // hashed. ClientToken string // DisplayName is provided to the logical backend to help associate // dynamic secrets with the source entity. This is not a sensitive // name, but is useful for operators. DisplayName string // MountPoint is provided so that a logical backend can generate // paths relative to itself. The `Path` is effectively the client // request path with the MountPoint trimmed off. MountPoint string }
Request is a struct that stores the parameters and context of a request being made to Vault. It is used to abstract the details of the higher level request protocol from the handlers.
func RenewAuthRequest ¶
RenewAuthRequest creates the structure of the renew request for an auth.
func RenewRequest ¶
RenewRequest creates the structure of the renew request.
func RevokeRequest ¶
RevokeRequest creates the structure of the revoke request.
func RollbackRequest ¶
RollbackRequest creates the structure of the revoke request.
func TestRequest ¶
TestRequest is a helper to create a purely in-memory Request struct.
type Response ¶
type Response struct { // Secret, if not nil, denotes that this response represents a secret. Secret *Secret // Auth, if not nil, contains the authentication information for // this response. This is only checked and means something for // credential backends. Auth *Auth // Response data is an opaque map that must have string keys. For // secrets, this data is sent down to the user as-is. To store internal // data that you don't want the user to see, store it in // Secret.InternalData. Data map[string]interface{} // Redirect is an HTTP URL to redirect to for further authentication. // This is only valid for credential backends. This will be blanked // for any logical backend and ignored. Redirect string // contains filtered or unexported fields }
Response is a struct that stores the response of a request. It is used to abstract the details of the higher level request protocol.
func ErrorResponse ¶
ErrorResponse is used to format an error response
func HelpResponse ¶
HelpResponse is used to format a help response
func ListResponse ¶
ListResponse is used to format a response to a list operation.
func (*Response) AddWarning ¶ added in v0.4.0
AddWarning adds a warning into the response's warning list
func (*Response) ClearWarnings ¶ added in v0.4.0
func (r *Response) ClearWarnings()
ClearWarnings clears the response's warning list
type Secret ¶
type Secret struct { LeaseOptions // InternalData is JSON-encodable data that is stored with the secret. // This will be sent back during a Renew/Revoke for storing internal data // used for those operations. InternalData map[string]interface{} `json:"internal_data"` // LeaseID is the ID returned to the user to manage this secret. // This is generated by Vault core. Any set value will be ignored. // For requests, this will always be blank. LeaseID string }
Secret represents the secret part of a response.
type StaticSystemView ¶ added in v0.3.0
type StaticSystemView struct { DefaultLeaseTTLVal time.Duration MaxLeaseTTLVal time.Duration SudoPrivilegeVal bool TaintedVal bool }
func TestSystemView ¶ added in v0.4.0
func TestSystemView() *StaticSystemView
func (StaticSystemView) DefaultLeaseTTL ¶ added in v0.3.0
func (d StaticSystemView) DefaultLeaseTTL() time.Duration
func (StaticSystemView) MaxLeaseTTL ¶ added in v0.3.0
func (d StaticSystemView) MaxLeaseTTL() time.Duration
func (StaticSystemView) SudoPrivilege ¶ added in v0.3.0
func (d StaticSystemView) SudoPrivilege(path string, token string) bool
func (StaticSystemView) Tainted ¶ added in v0.5.0
func (d StaticSystemView) Tainted() bool
type Storage ¶
type Storage interface { List(prefix string) ([]string, error) Get(string) (*StorageEntry, error) Put(*StorageEntry) error Delete(string) error }
Storage is the way that logical backends are able read/write data.
type StorageEntry ¶
StorageEntry is the entry for an item in a Storage implementation.
func StorageEntryJSON ¶
func StorageEntryJSON(k string, v interface{}) (*StorageEntry, error)
StorageEntryJSON creates a StorageEntry with a JSON-encoded value.
func (*StorageEntry) DecodeJSON ¶
func (e *StorageEntry) DecodeJSON(out interface{}) error
type SystemView ¶ added in v0.3.0
type SystemView interface { // DefaultLeaseTTL returns the default lease TTL set in Vault configuration DefaultLeaseTTL() time.Duration // MaxLeaseTTL returns the max lease TTL set in Vault configuration; backend // authors should take care not to issue credentials that last longer than // this value, as Vault will revoke them MaxLeaseTTL() time.Duration // SudoPrivilege returns true if given path has sudo privileges // for the given client token SudoPrivilege(path string, token string) bool // Returns true if the mount is tainted. A mount is tainted if it is in the // process of being unmounted. This should only be used in special // circumstances; a primary use-case is as a guard in revocation functions. // If revocation of a backend's leases fails it can keep the unmounting // process from being successful. If the reason for this failure is not // relevant when the mount is tainted (for instance, saving a CRL to disk // when the stored CRL will be removed during the unmounting process // anyways), we can ignore the errors to allow unmounting to complete. Tainted() bool }
SystemView exposes system configuration information in a safe way for logical backends to consume