authelia/internal/oidc/keys_test.go

package oidc

import (
	"crypto"
	"fmt"
	"strings"
	"testing"

	"github.com/stretchr/testify/assert"
	"github.com/stretchr/testify/require"

	"github.com/authelia/authelia/v4/internal/configuration/schema"
)

func TestKeyManager_AddActiveJWK(t *testing.T) {
	manager := NewKeyManager()
	assert.Nil(t, manager.jwk)
	assert.Nil(t, manager.Strategy())

	j, err := manager.AddActiveJWK(schema.X509CertificateChain{}, mustParseRSAPrivateKey(exampleIssuerPrivateKey))
	require.NoError(t, err)
	require.NotNil(t, j)
	require.NotNil(t, manager.jwk)
	require.NotNil(t, manager.Strategy())

	thumbprint, err := j.JSONWebKey().Thumbprint(crypto.SHA1)
	assert.NoError(t, err)

	kid := strings.ToLower(fmt.Sprintf("%x", thumbprint)[:6])
	assert.Equal(t, manager.jwk.id, kid)
	assert.Equal(t, kid, j.JSONWebKey().KeyID)
	assert.Len(t, manager.jwks.Keys, 1)

	keys := manager.jwks.Key(kid)
	assert.Equal(t, keys[0].KeyID, kid)

	privKey, err := manager.GetActivePrivateKey()
	assert.NoError(t, err)
	assert.NotNil(t, privKey)

	webKey, err := manager.GetActiveJWK()
	assert.NoError(t, err)
	assert.NotNil(t, webKey)

	keySet := manager.GetKeySet()
	assert.NotNil(t, keySet)
	assert.Equal(t, kid, manager.GetActiveKeyID())
}
feat(oidc): add additional config options, accurate token times, and refactoring (#1991) * This gives admins more control over their OIDC installation exposing options that had defaults before. Things like lifespans for authorize codes, access tokens, id tokens, refresh tokens, a option to enable the debug client messages, minimum parameter entropy. It also allows admins to configure the response modes. * Additionally this records specific values about a users session indicating when they performed a specific authz factor so this is represented in the token accurately. * Lastly we also implemented a OIDC key manager which calculates the kid for jwk's using the SHA1 digest instead of being static, or more specifically the first 7 chars. As per https://datatracker.ietf.org/doc/html/draft-ietf-jose-json-web-key#section-8.1.1 the kid should not exceed 8 chars. While it's allowed to exceed 8 chars, it must only be done so with a compelling reason, which we do not have. 2021-07-03 23:44:30 +00:00			`package oidc`

			`import (`
			`"crypto"`
			`"fmt"`
			`"strings"`
			`"testing"`

			`"github.com/stretchr/testify/assert"`
			`"github.com/stretchr/testify/require"`
feat(oidc): issuer jwk certificates (#3989) This allows for JWKs to include certificate information, either signed via Global PKI, Enterprise PKI, or self-signed. 2022-10-02 02:07:40 +00:00
			`"github.com/authelia/authelia/v4/internal/configuration/schema"`
feat(oidc): add additional config options, accurate token times, and refactoring (#1991) * This gives admins more control over their OIDC installation exposing options that had defaults before. Things like lifespans for authorize codes, access tokens, id tokens, refresh tokens, a option to enable the debug client messages, minimum parameter entropy. It also allows admins to configure the response modes. * Additionally this records specific values about a users session indicating when they performed a specific authz factor so this is represented in the token accurately. * Lastly we also implemented a OIDC key manager which calculates the kid for jwk's using the SHA1 digest instead of being static, or more specifically the first 7 chars. As per https://datatracker.ietf.org/doc/html/draft-ietf-jose-json-web-key#section-8.1.1 the kid should not exceed 8 chars. While it's allowed to exceed 8 chars, it must only be done so with a compelling reason, which we do not have. 2021-07-03 23:44:30 +00:00			`)`

feat(oidc): issuer jwk certificates (#3989) This allows for JWKs to include certificate information, either signed via Global PKI, Enterprise PKI, or self-signed. 2022-10-02 02:07:40 +00:00			`func TestKeyManager_AddActiveJWK(t *testing.T) {`
feat(oidc): add additional config options, accurate token times, and refactoring (#1991) * This gives admins more control over their OIDC installation exposing options that had defaults before. Things like lifespans for authorize codes, access tokens, id tokens, refresh tokens, a option to enable the debug client messages, minimum parameter entropy. It also allows admins to configure the response modes. * Additionally this records specific values about a users session indicating when they performed a specific authz factor so this is represented in the token accurately. * Lastly we also implemented a OIDC key manager which calculates the kid for jwk's using the SHA1 digest instead of being static, or more specifically the first 7 chars. As per https://datatracker.ietf.org/doc/html/draft-ietf-jose-json-web-key#section-8.1.1 the kid should not exceed 8 chars. While it's allowed to exceed 8 chars, it must only be done so with a compelling reason, which we do not have. 2021-07-03 23:44:30 +00:00			`manager := NewKeyManager()`
feat(oidc): issuer jwk certificates (#3989) This allows for JWKs to include certificate information, either signed via Global PKI, Enterprise PKI, or self-signed. 2022-10-02 02:07:40 +00:00			`assert.Nil(t, manager.jwk)`
feat(oidc): add additional config options, accurate token times, and refactoring (#1991) * This gives admins more control over their OIDC installation exposing options that had defaults before. Things like lifespans for authorize codes, access tokens, id tokens, refresh tokens, a option to enable the debug client messages, minimum parameter entropy. It also allows admins to configure the response modes. * Additionally this records specific values about a users session indicating when they performed a specific authz factor so this is represented in the token accurately. * Lastly we also implemented a OIDC key manager which calculates the kid for jwk's using the SHA1 digest instead of being static, or more specifically the first 7 chars. As per https://datatracker.ietf.org/doc/html/draft-ietf-jose-json-web-key#section-8.1.1 the kid should not exceed 8 chars. While it's allowed to exceed 8 chars, it must only be done so with a compelling reason, which we do not have. 2021-07-03 23:44:30 +00:00			`assert.Nil(t, manager.Strategy())`

feat(oidc): issuer jwk certificates (#3989) This allows for JWKs to include certificate information, either signed via Global PKI, Enterprise PKI, or self-signed. 2022-10-02 02:07:40 +00:00			`j, err := manager.AddActiveJWK(schema.X509CertificateChain{}, mustParseRSAPrivateKey(exampleIssuerPrivateKey))`
feat(oidc): add additional config options, accurate token times, and refactoring (#1991) * This gives admins more control over their OIDC installation exposing options that had defaults before. Things like lifespans for authorize codes, access tokens, id tokens, refresh tokens, a option to enable the debug client messages, minimum parameter entropy. It also allows admins to configure the response modes. * Additionally this records specific values about a users session indicating when they performed a specific authz factor so this is represented in the token accurately. * Lastly we also implemented a OIDC key manager which calculates the kid for jwk's using the SHA1 digest instead of being static, or more specifically the first 7 chars. As per https://datatracker.ietf.org/doc/html/draft-ietf-jose-json-web-key#section-8.1.1 the kid should not exceed 8 chars. While it's allowed to exceed 8 chars, it must only be done so with a compelling reason, which we do not have. 2021-07-03 23:44:30 +00:00			`require.NoError(t, err)`
feat(oidc): issuer jwk certificates (#3989) This allows for JWKs to include certificate information, either signed via Global PKI, Enterprise PKI, or self-signed. 2022-10-02 02:07:40 +00:00			`require.NotNil(t, j)`
			`require.NotNil(t, manager.jwk)`
feat(oidc): add additional config options, accurate token times, and refactoring (#1991) * This gives admins more control over their OIDC installation exposing options that had defaults before. Things like lifespans for authorize codes, access tokens, id tokens, refresh tokens, a option to enable the debug client messages, minimum parameter entropy. It also allows admins to configure the response modes. * Additionally this records specific values about a users session indicating when they performed a specific authz factor so this is represented in the token accurately. * Lastly we also implemented a OIDC key manager which calculates the kid for jwk's using the SHA1 digest instead of being static, or more specifically the first 7 chars. As per https://datatracker.ietf.org/doc/html/draft-ietf-jose-json-web-key#section-8.1.1 the kid should not exceed 8 chars. While it's allowed to exceed 8 chars, it must only be done so with a compelling reason, which we do not have. 2021-07-03 23:44:30 +00:00			`require.NotNil(t, manager.Strategy())`

feat(oidc): issuer jwk certificates (#3989) This allows for JWKs to include certificate information, either signed via Global PKI, Enterprise PKI, or self-signed. 2022-10-02 02:07:40 +00:00			`thumbprint, err := j.JSONWebKey().Thumbprint(crypto.SHA1)`
feat(oidc): add additional config options, accurate token times, and refactoring (#1991) * This gives admins more control over their OIDC installation exposing options that had defaults before. Things like lifespans for authorize codes, access tokens, id tokens, refresh tokens, a option to enable the debug client messages, minimum parameter entropy. It also allows admins to configure the response modes. * Additionally this records specific values about a users session indicating when they performed a specific authz factor so this is represented in the token accurately. * Lastly we also implemented a OIDC key manager which calculates the kid for jwk's using the SHA1 digest instead of being static, or more specifically the first 7 chars. As per https://datatracker.ietf.org/doc/html/draft-ietf-jose-json-web-key#section-8.1.1 the kid should not exceed 8 chars. While it's allowed to exceed 8 chars, it must only be done so with a compelling reason, which we do not have. 2021-07-03 23:44:30 +00:00			`assert.NoError(t, err)`

feat(oidc): issuer jwk certificates (#3989) This allows for JWKs to include certificate information, either signed via Global PKI, Enterprise PKI, or self-signed. 2022-10-02 02:07:40 +00:00			`kid := strings.ToLower(fmt.Sprintf("%x", thumbprint)[:6])`
			`assert.Equal(t, manager.jwk.id, kid)`
			`assert.Equal(t, kid, j.JSONWebKey().KeyID)`
			`assert.Len(t, manager.jwks.Keys, 1)`
feat(oidc): add additional config options, accurate token times, and refactoring (#1991) * This gives admins more control over their OIDC installation exposing options that had defaults before. Things like lifespans for authorize codes, access tokens, id tokens, refresh tokens, a option to enable the debug client messages, minimum parameter entropy. It also allows admins to configure the response modes. * Additionally this records specific values about a users session indicating when they performed a specific authz factor so this is represented in the token accurately. * Lastly we also implemented a OIDC key manager which calculates the kid for jwk's using the SHA1 digest instead of being static, or more specifically the first 7 chars. As per https://datatracker.ietf.org/doc/html/draft-ietf-jose-json-web-key#section-8.1.1 the kid should not exceed 8 chars. While it's allowed to exceed 8 chars, it must only be done so with a compelling reason, which we do not have. 2021-07-03 23:44:30 +00:00
feat(oidc): issuer jwk certificates (#3989) This allows for JWKs to include certificate information, either signed via Global PKI, Enterprise PKI, or self-signed. 2022-10-02 02:07:40 +00:00			`keys := manager.jwks.Key(kid)`
feat(oidc): add additional config options, accurate token times, and refactoring (#1991) * This gives admins more control over their OIDC installation exposing options that had defaults before. Things like lifespans for authorize codes, access tokens, id tokens, refresh tokens, a option to enable the debug client messages, minimum parameter entropy. It also allows admins to configure the response modes. * Additionally this records specific values about a users session indicating when they performed a specific authz factor so this is represented in the token accurately. * Lastly we also implemented a OIDC key manager which calculates the kid for jwk's using the SHA1 digest instead of being static, or more specifically the first 7 chars. As per https://datatracker.ietf.org/doc/html/draft-ietf-jose-json-web-key#section-8.1.1 the kid should not exceed 8 chars. While it's allowed to exceed 8 chars, it must only be done so with a compelling reason, which we do not have. 2021-07-03 23:44:30 +00:00			`assert.Equal(t, keys[0].KeyID, kid)`

			`privKey, err := manager.GetActivePrivateKey()`
			`assert.NoError(t, err)`
			`assert.NotNil(t, privKey)`

feat(oidc): issuer jwk certificates (#3989) This allows for JWKs to include certificate information, either signed via Global PKI, Enterprise PKI, or self-signed. 2022-10-02 02:07:40 +00:00			`webKey, err := manager.GetActiveJWK()`
feat(oidc): add additional config options, accurate token times, and refactoring (#1991) * This gives admins more control over their OIDC installation exposing options that had defaults before. Things like lifespans for authorize codes, access tokens, id tokens, refresh tokens, a option to enable the debug client messages, minimum parameter entropy. It also allows admins to configure the response modes. * Additionally this records specific values about a users session indicating when they performed a specific authz factor so this is represented in the token accurately. * Lastly we also implemented a OIDC key manager which calculates the kid for jwk's using the SHA1 digest instead of being static, or more specifically the first 7 chars. As per https://datatracker.ietf.org/doc/html/draft-ietf-jose-json-web-key#section-8.1.1 the kid should not exceed 8 chars. While it's allowed to exceed 8 chars, it must only be done so with a compelling reason, which we do not have. 2021-07-03 23:44:30 +00:00			`assert.NoError(t, err)`
			`assert.NotNil(t, webKey)`

			`keySet := manager.GetKeySet()`
			`assert.NotNil(t, keySet)`
			`assert.Equal(t, kid, manager.GetActiveKeyID())`
			`}`