Version v5
contains a major rework of core functionalities in the jwt-go
library. This includes support for several validation options as well as a
re-design of the Claims
interface. Lastly, we reworked how errors work under
the hood, which should provide a better overall developer experience.
Starting from v5.0.0, the import path will be:
"github.com/golang-jwt/jwt/v5"
For most users, changing the import path should suffice. However, since we intentionally changed and cleaned some of the public API, existing programs might need to be updated. The following sections describe significant changes and corresponding updates for existing programs.
Under the hood, a new Validator
struct takes care of validating the claims. A
long awaited feature has been the option to fine-tune the validation of tokens.
This is now possible with several ParserOption
functions that can be appended
to most Parse
functions, such as ParseWithClaims
. The most important options
and changes are:
- Added
WithLeeway
to support specifying the leeway that is allowed when validating time-based claims, such asexp
ornbf
. - Changed default behavior to not check the
iat
claim. Usage of this claim is OPTIONAL according to the JWT RFC. The claim itself is also purely informational according to the RFC, so a strict validation failure is not recommended. If you want to check for sensible values in these claims, please use theWithIssuedAt
parser option. - Added
WithAudience
,WithSubject
andWithIssuer
to support checking for expectedaud
,sub
andiss
. - Added
WithStrictDecoding
andWithPaddingAllowed
options to allow previously global settings to enable base64 strict encoding and the parsing of base64 strings with padding. The latter is strictly speaking against the standard, but unfortunately some of the major identity providers issue some of these incorrect tokens. Both options are disabled by default.
Previously, the claims interface was satisfied with an implementation of a
Valid() error
function. This had several issues:
- The different claim types (struct claims, map claims, etc.) then contained similar (but not 100 % identical) code of how this validation was done. This lead to a lot of (almost) duplicate code and was hard to maintain
- It was not really semantically close to what a "claim" (or a set of claims) really is; which is a list of defined key/value pairs with a certain semantic meaning.
Since all the validation functionality is now extracted into the validator, all
VerifyXXX
and Valid
functions have been removed from the Claims
interface.
Instead, the interface now represents a list of getters to retrieve values with
a specific meaning. This allows us to completely decouple the validation logic
with the underlying storage representation of the claim, which could be a
struct, a map or even something stored in a database.
type Claims interface {
GetExpirationTime() (*NumericDate, error)
GetIssuedAt() (*NumericDate, error)
GetNotBefore() (*NumericDate, error)
GetIssuer() (string, error)
GetSubject() (string, error)
GetAudience() (ClaimStrings, error)
}
Users that previously directly called the Valid
function on their claims,
e.g., to perform validation independently of parsing/verifying a token, can now
use the jwt.NewValidator
function to create a Validator
independently of the
Parser
.
var v = jwt.NewValidator(jwt.WithLeeway(5*time.Second))
v.Validate(myClaims)
The two standard claim types supported by this library, MapClaims
and
RegisteredClaims
both implement the necessary functions of this interface. The
old StandardClaims
struct, which has already been deprecated in v4
is now
removed.
Users using custom claims, in most cases, will not experience any changes in the
behavior as long as they embedded RegisteredClaims
. If they created a new
claim type from scratch, they now need to implemented the proper getter
functions.
Previously, users could override the Valid
method in a custom claim, for
example to extend the validation with application-specific claims. However, this
was always very dangerous, since once could easily disable the standard
validation and signature checking.
In order to avoid that, while still supporting the use-case, a new
ClaimsValidator
interface has been introduced. This interface consists of the
Validate() error
function. If the validator sees, that a Claims
struct
implements this interface, the errors returned to the Validate
function will
be appended to the regular standard validation. It is not possible to disable
the standard validation anymore (even only by accident).
Usage examples can be found in example_test.go, to build claims structs like the following.
// MyCustomClaims includes all registered claims, plus Foo.
type MyCustomClaims struct {
Foo string `json:"foo"`
jwt.RegisteredClaims
}
// Validate can be used to execute additional application-specific claims
// validation.
func (m MyCustomClaims) Validate() error {
if m.Foo != "bar" {
return errors.New("must be foobar")
}
return nil
}
The previously global functions DecodeSegment
and EncodeSegment
were moved
to the Parser
and Token
struct respectively. This will allow us in the
future to configure the behavior of these two based on options supplied on the
parser or the token (creation). This also removes two previously global
variables and moves them to parser options WithStrictDecoding
and
WithPaddingAllowed
.
In order to do that, we had to adjust the way signing methods work. Previously
they were given a base64 encoded signature in Verify
and were expected to
return a base64 encoded version of the signature in Sign
, both as a string
.
However, this made it necessary to have DecodeSegment
and EncodeSegment
global and was a less than perfect design because we were repeating
encoding/decoding steps for all signing methods. Now, Sign
and Verify
operate on a decoded signature as a []byte
, which feels more natural for a
cryptographic operation anyway. Lastly, Parse
and SignedString
take care of
the final encoding/decoding part.
In addition to that, we also changed the Signature
field on Token
from a
string
to []byte
and this is also now populated with the decoded form. This
is also more consistent, because the other parts of the JWT, mainly Header
and
Claims
were already stored in decoded form in Token
. Only the signature was
stored in base64 encoded form, which was redundant with the information in the
Raw
field, which contains the complete token as base64.
type Token struct {
Raw string // Raw contains the raw token
Method SigningMethod // Method is the signing method used or to be used
Header map[string]interface{} // Header is the first segment of the token in decoded form
Claims Claims // Claims is the second segment of the token in decoded form
Signature []byte // Signature is the third segment of the token in decoded form
Valid bool // Valid specifies if the token is valid
}
Most (if not all) of these changes should not impact the normal usage of this
library. Only users directly accessing the Signature
field as well as
developers of custom signing methods should be affected.
Starting from v4.0.0, the import path will be:
"github.com/golang-jwt/jwt/v4"
The /v4
version will be backwards compatible with existing v3.x.y
tags in
this repo, as well as github.com/dgrijalva/jwt-go
. For most users this should
be a drop-in replacement, if you're having troubles migrating, please open an
issue.
You can replace all occurrences of github.com/dgrijalva/jwt-go
or
github.com/golang-jwt/jwt
with github.com/golang-jwt/jwt/v4
, either manually
or by using tools such as sed
or gofmt
.
And then you'd typically run:
go get github.com/golang-jwt/jwt/v4
go mod tidy
The original migration guide for older releases can be found at https://github.com/dgrijalva/jwt-go/blob/master/MIGRATION_GUIDE.md.