Documentation ¶
Index ¶
- Constants
- func CodeFromErr(err error) string
- type BinaryJWTClaims
- type BinaryJWTConfig
- func (c *BinaryJWTConfig) CreateAndSign(isAck bool, claims *ConnectionClaims, nonce []byte, ...) (token []byte, err error)
- func (c *BinaryJWTConfig) Decode(isAck bool, data []byte, previousCert interface{}) (claims *ConnectionClaims, nonce []byte, publicKey interface{}, err error)
- func (c *BinaryJWTConfig) Randomize(token []byte, nonce []byte) (err error)
- type ConnectionClaims
- type ErrToken
- type JWTClaims
- type JWTConfig
- func (c *JWTConfig) CreateAndSign(isAck bool, claims *ConnectionClaims, nonce []byte, ...) (token []byte, err error)
- func (c *JWTConfig) Decode(isAck bool, data []byte, previousCert interface{}) (claims *ConnectionClaims, nonce []byte, publicKey interface{}, err error)
- func (c *JWTConfig) Randomize(token []byte, nonce []byte) (err error)
- type TokenEngine
Constants ¶
const ( // MaxServerName must be of UUID size maximum MaxServerName = 24 // NonceLength is the length of the Nonce to be used in the secrets NonceLength = 16 )
Variables ¶
This section is empty.
Functions ¶
func CodeFromErr ¶
CodeFromErr returns the collector code from ErrToken
Types ¶
type BinaryJWTClaims ¶
type BinaryJWTClaims struct { // Tags T []string `codec:",omitempty"` // Compressed tags CT []string `codec:",omitempty"` // RMT is the nonce of the remote that has to be signed in the JWT RMT []byte `codec:",omitempty"` // LCL is the nonce of the local node that has to be signed LCL []byte `codec:",omitempty"` // EK is the ephemeral EC key for encryption EK []byte `codec:",omitempty"` // ID is the source PU ID ID string `codec:",omitempty"` // Expiration time ExpiresAt int64 `codec:",omitempty"` // SignerKey SignerKey []byte `codec:",omitempty"` }
BinaryJWTClaims captures all the custom clains
func ConvertToBinaryClaims ¶
func ConvertToBinaryClaims(j *ConnectionClaims, validity time.Duration) *BinaryJWTClaims
ConvertToBinaryClaims coverts back,
func (*BinaryJWTClaims) CodecDecodeSelf ¶
func (x *BinaryJWTClaims) CodecDecodeSelf(d *codec1978.Decoder)
func (*BinaryJWTClaims) CodecEncodeSelf ¶
func (x *BinaryJWTClaims) CodecEncodeSelf(e *codec1978.Encoder)
type BinaryJWTConfig ¶
type BinaryJWTConfig struct { // ValidityPeriod period of the JWT ValidityPeriod time.Duration // Issuer is the server that issues the JWT Issuer string // contains filtered or unexported fields }
BinaryJWTConfig configures the JWT token generator with the standard parameters. One configuration is assigned to each server
func NewBinaryJWT ¶
func NewBinaryJWT(validity time.Duration, issuer string, s secrets.Secrets) (*BinaryJWTConfig, error)
NewBinaryJWT creates a new JWT token processor
func (*BinaryJWTConfig) CreateAndSign ¶
func (c *BinaryJWTConfig) CreateAndSign(isAck bool, claims *ConnectionClaims, nonce []byte, header *claimsheader.ClaimsHeader) (token []byte, err error)
CreateAndSign creates a new token, attaches an ephemeral key pair and signs with the issuer key. It also randomizes the source nonce of the token. It returns back the token and the private key.
func (*BinaryJWTConfig) Decode ¶
func (c *BinaryJWTConfig) Decode(isAck bool, data []byte, previousCert interface{}) (claims *ConnectionClaims, nonce []byte, publicKey interface{}, err error)
Decode takes as argument the JWT token and the certificate of the issuer. First it verifies the certificate with the local CA pool, and the decodes the JWT if the certificate is trusted
type ConnectionClaims ¶
type ConnectionClaims struct { T *policy.TagStore `json:",omitempty"` // RMT is the nonce of the remote that has to be signed in the JWT RMT []byte `json:",omitempty"` // LCL is the nonce of the local node that has to be signed LCL []byte `json:",omitempty"` // EK is the ephemeral EC key for encryption EK []byte `json:",omitempty"` // C is the compressed tags in one string CT *policy.TagStore `json:",omitempty"` // ID is the source PU ID ID string `json:",omitempty"` // RemoteID is the ID of the remote if known. RemoteID string `json:",omitempty"` // H is the claims header H claimsheader.HeaderBytes `json:",omitempty"` }
ConnectionClaims captures all the claim information
type ErrToken ¶
type ErrToken struct {
// contains filtered or unexported fields
}
ErrToken holds error message in string
type JWTClaims ¶
type JWTClaims struct { *ConnectionClaims jwt.StandardClaims }
JWTClaims captures all the custom clains
func ConvertToJWTClaims ¶
func ConvertToJWTClaims(b *BinaryJWTClaims) *JWTClaims
ConvertToJWTClaims converts to old claims
type JWTConfig ¶
type JWTConfig struct { // ValidityPeriod period of the JWT ValidityPeriod time.Duration // Issuer is the server that issues the JWT Issuer string // contains filtered or unexported fields }
JWTConfig configures the JWT token generator with the standard parameters. One configuration is assigned to each server
func (*JWTConfig) CreateAndSign ¶
func (c *JWTConfig) CreateAndSign(isAck bool, claims *ConnectionClaims, nonce []byte, claimsHeader *claimsheader.ClaimsHeader) (token []byte, err error)
CreateAndSign creates a new token, attaches an ephemeral key pair and signs with the issuer key. It also randomizes the source nonce of the token. It returns back the token and the private key.
func (*JWTConfig) Decode ¶
func (c *JWTConfig) Decode(isAck bool, data []byte, previousCert interface{}) (claims *ConnectionClaims, nonce []byte, publicKey interface{}, err error)
Decode takes as argument the JWT token and the certificate of the issuer. First it verifies the certificate with the local CA pool, and the decodes the JWT if the certificate is trusted
type TokenEngine ¶
type TokenEngine interface { // CreteAndSign creates a token, signs it and produces the final byte string CreateAndSign(isAck bool, claims *ConnectionClaims, nonce []byte, claimsHeader *claimsheader.ClaimsHeader) (token []byte, err error) // Decode decodes an incoming buffer and returns the claims and the sender certificate Decode(isAck bool, data []byte, previousCert interface{}) (claims *ConnectionClaims, nonce []byte, publicKey interface{}, err error) // Randomize inserts a source nonce in an existing token - New nonce will be // create every time the token is transmitted as a challenge to the other side // even when the token is cached. There should be space in the token already. // Returns an error if there is no space Randomize([]byte, []byte) (err error) }
TokenEngine is the interface to the different implementations of tokens