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// Copyright 2019 The Gitea Authors. All rights reserved.
// Use of this source code is governed by a MIT-style
// license that can be found in the LICENSE file.
package models
import (
"crypto/sha256"
"encoding/base64"
"fmt"
"net/url"
"time"
"github.com/go-xorm/xorm"
uuid "github.com/satori/go.uuid"
"code.gitea.io/gitea/modules/secret"
"code.gitea.io/gitea/modules/setting"
"code.gitea.io/gitea/modules/util"
"github.com/Unknwon/com"
"github.com/dgrijalva/jwt-go"
"golang.org/x/crypto/bcrypt"
)
// OAuth2Application represents an OAuth2 client (RFC 6749)
type OAuth2Application struct {
ID int64 ` xorm:"pk autoincr" `
UID int64 ` xorm:"INDEX" `
User * User ` xorm:"-" `
Name string
ClientID string ` xorm:"unique" `
ClientSecret string
RedirectURIs [ ] string ` xorm:"redirect_uris JSON TEXT" `
CreatedUnix util . TimeStamp ` xorm:"INDEX created" `
UpdatedUnix util . TimeStamp ` xorm:"INDEX updated" `
}
// TableName sets the table name to `oauth2_application`
func ( app * OAuth2Application ) TableName ( ) string {
return "oauth2_application"
}
// PrimaryRedirectURI returns the first redirect uri or an empty string if empty
func ( app * OAuth2Application ) PrimaryRedirectURI ( ) string {
if len ( app . RedirectURIs ) == 0 {
return ""
}
return app . RedirectURIs [ 0 ]
}
// LoadUser will load User by UID
func ( app * OAuth2Application ) LoadUser ( ) ( err error ) {
if app . User == nil {
app . User , err = GetUserByID ( app . UID )
}
return
}
// ContainsRedirectURI checks if redirectURI is allowed for app
func ( app * OAuth2Application ) ContainsRedirectURI ( redirectURI string ) bool {
return com . IsSliceContainsStr ( app . RedirectURIs , redirectURI )
}
// GenerateClientSecret will generate the client secret and returns the plaintext and saves the hash at the database
func ( app * OAuth2Application ) GenerateClientSecret ( ) ( string , error ) {
clientSecret , err := secret . New ( )
if err != nil {
return "" , err
}
hashedSecret , err := bcrypt . GenerateFromPassword ( [ ] byte ( clientSecret ) , bcrypt . DefaultCost )
if err != nil {
return "" , err
}
app . ClientSecret = string ( hashedSecret )
if _ , err := x . ID ( app . ID ) . Cols ( "client_secret" ) . Update ( app ) ; err != nil {
return "" , err
}
return clientSecret , nil
}
// ValidateClientSecret validates the given secret by the hash saved in database
func ( app * OAuth2Application ) ValidateClientSecret ( secret [ ] byte ) bool {
return bcrypt . CompareHashAndPassword ( [ ] byte ( app . ClientSecret ) , secret ) == nil
}
// GetGrantByUserID returns a OAuth2Grant by its user and application ID
func ( app * OAuth2Application ) GetGrantByUserID ( userID int64 ) ( * OAuth2Grant , error ) {
return app . getGrantByUserID ( x , userID )
}
func ( app * OAuth2Application ) getGrantByUserID ( e Engine , userID int64 ) ( grant * OAuth2Grant , err error ) {
grant = new ( OAuth2Grant )
if has , err := e . Where ( "user_id = ? AND application_id = ?" , userID , app . ID ) . Get ( grant ) ; err != nil {
return nil , err
} else if ! has {
return nil , nil
}
return grant , nil
}
// CreateGrant generates a grant for an user
func ( app * OAuth2Application ) CreateGrant ( userID int64 ) ( * OAuth2Grant , error ) {
return app . createGrant ( x , userID )
}
func ( app * OAuth2Application ) createGrant ( e Engine , userID int64 ) ( * OAuth2Grant , error ) {
grant := & OAuth2Grant {
ApplicationID : app . ID ,
UserID : userID ,
}
_ , err := e . Insert ( grant )
if err != nil {
return nil , err
}
return grant , nil
}
// GetOAuth2ApplicationByClientID returns the oauth2 application with the given client_id. Returns an error if not found.
func GetOAuth2ApplicationByClientID ( clientID string ) ( app * OAuth2Application , err error ) {
return getOAuth2ApplicationByClientID ( x , clientID )
}
func getOAuth2ApplicationByClientID ( e Engine , clientID string ) ( app * OAuth2Application , err error ) {
app = new ( OAuth2Application )
has , err := e . Where ( "client_id = ?" , clientID ) . Get ( app )
if ! has {
return nil , ErrOAuthClientIDInvalid { ClientID : clientID }
}
return
}
// GetOAuth2ApplicationByID returns the oauth2 application with the given id. Returns an error if not found.
func GetOAuth2ApplicationByID ( id int64 ) ( app * OAuth2Application , err error ) {
return getOAuth2ApplicationByID ( x , id )
}
func getOAuth2ApplicationByID ( e Engine , id int64 ) ( app * OAuth2Application , err error ) {
app = new ( OAuth2Application )
has , err := e . ID ( id ) . Get ( app )
if ! has {
return nil , ErrOAuthApplicationNotFound { ID : id }
}
return app , nil
}
// GetOAuth2ApplicationsByUserID returns all oauth2 applications owned by the user
func GetOAuth2ApplicationsByUserID ( userID int64 ) ( apps [ ] * OAuth2Application , err error ) {
return getOAuth2ApplicationsByUserID ( x , userID )
}
func getOAuth2ApplicationsByUserID ( e Engine , userID int64 ) ( apps [ ] * OAuth2Application , err error ) {
apps = make ( [ ] * OAuth2Application , 0 )
err = e . Where ( "uid = ?" , userID ) . Find ( & apps )
return
}
// CreateOAuth2ApplicationOptions holds options to create an oauth2 application
type CreateOAuth2ApplicationOptions struct {
Name string
UserID int64
RedirectURIs [ ] string
}
// CreateOAuth2Application inserts a new oauth2 application
func CreateOAuth2Application ( opts CreateOAuth2ApplicationOptions ) ( * OAuth2Application , error ) {
return createOAuth2Application ( x , opts )
}
func createOAuth2Application ( e Engine , opts CreateOAuth2ApplicationOptions ) ( * OAuth2Application , error ) {
clientID := uuid . NewV4 ( ) . String ( )
app := & OAuth2Application {
UID : opts . UserID ,
Name : opts . Name ,
ClientID : clientID ,
RedirectURIs : opts . RedirectURIs ,
}
if _ , err := e . Insert ( app ) ; err != nil {
return nil , err
}
return app , nil
}
// UpdateOAuth2ApplicationOptions holds options to update an oauth2 application
type UpdateOAuth2ApplicationOptions struct {
ID int64
Name string
UserID int64
RedirectURIs [ ] string
}
// UpdateOAuth2Application updates an oauth2 application
func UpdateOAuth2Application ( opts UpdateOAuth2ApplicationOptions ) error {
return updateOAuth2Application ( x , opts )
}
func updateOAuth2Application ( e Engine , opts UpdateOAuth2ApplicationOptions ) error {
app := & OAuth2Application {
ID : opts . ID ,
UID : opts . UserID ,
Name : opts . Name ,
RedirectURIs : opts . RedirectURIs ,
}
if _ , err := e . ID ( opts . ID ) . Update ( app ) ; err != nil {
return err
}
return nil
}
func deleteOAuth2Application ( sess * xorm . Session , id , userid int64 ) error {
if deleted , err := sess . Delete ( & OAuth2Application { ID : id , UID : userid } ) ; err != nil {
return err
} else if deleted == 0 {
return fmt . Errorf ( "cannot find oauth2 application" )
}
codes := make ( [ ] * OAuth2AuthorizationCode , 0 )
// delete correlating auth codes
if err := sess . Join ( "INNER" , "oauth2_grant" ,
"oauth2_authorization_code.grant_id = oauth2_grant.id AND oauth2_grant.application_id = ?" , id ) . Find ( & codes ) ; err != nil {
return err
}
codeIDs := make ( [ ] int64 , 0 )
for _ , grant := range codes {
codeIDs = append ( codeIDs , grant . ID )
}
if _ , err := sess . In ( "id" , codeIDs ) . Delete ( new ( OAuth2AuthorizationCode ) ) ; err != nil {
return err
}
if _ , err := sess . Where ( "application_id = ?" , id ) . Delete ( new ( OAuth2Grant ) ) ; err != nil {
return err
}
return nil
}
// DeleteOAuth2Application deletes the application with the given id and the grants and auth codes related to it. It checks if the userid was the creator of the app.
func DeleteOAuth2Application ( id , userid int64 ) error {
sess := x . NewSession ( )
if err := sess . Begin ( ) ; err != nil {
return err
}
if err := deleteOAuth2Application ( sess , id , userid ) ; err != nil {
return err
}
return sess . Commit ( )
}
//////////////////////////////////////////////////////
// OAuth2AuthorizationCode is a code to obtain an access token in combination with the client secret once. It has a limited lifetime.
type OAuth2AuthorizationCode struct {
ID int64 ` xorm:"pk autoincr" `
Grant * OAuth2Grant ` xorm:"-" `
GrantID int64
Code string ` xorm:"INDEX unique" `
CodeChallenge string
CodeChallengeMethod string
RedirectURI string
ValidUntil util . TimeStamp ` xorm:"index" `
}
// TableName sets the table name to `oauth2_authorization_code`
func ( code * OAuth2AuthorizationCode ) TableName ( ) string {
return "oauth2_authorization_code"
}
// GenerateRedirectURI generates a redirect URI for a successful authorization request. State will be used if not empty.
func ( code * OAuth2AuthorizationCode ) GenerateRedirectURI ( state string ) ( redirect * url . URL , err error ) {
if redirect , err = url . Parse ( code . RedirectURI ) ; err != nil {
return
}
q := redirect . Query ( )
if state != "" {
q . Set ( "state" , state )
}
q . Set ( "code" , code . Code )
redirect . RawQuery = q . Encode ( )
return
}
// Invalidate deletes the auth code from the database to invalidate this code
func ( code * OAuth2AuthorizationCode ) Invalidate ( ) error {
return code . invalidate ( x )
}
func ( code * OAuth2AuthorizationCode ) invalidate ( e Engine ) error {
_ , err := e . Delete ( code )
return err
}
// ValidateCodeChallenge validates the given verifier against the saved code challenge. This is part of the PKCE implementation.
func ( code * OAuth2AuthorizationCode ) ValidateCodeChallenge ( verifier string ) bool {
return code . validateCodeChallenge ( x , verifier )
}
func ( code * OAuth2AuthorizationCode ) validateCodeChallenge ( e Engine , verifier string ) bool {
switch code . CodeChallengeMethod {
case "S256" :
// base64url(SHA256(verifier)) see https://tools.ietf.org/html/rfc7636#section-4.6
h := sha256 . Sum256 ( [ ] byte ( verifier ) )
hashedVerifier := base64 . RawURLEncoding . EncodeToString ( h [ : ] )
return hashedVerifier == code . CodeChallenge
case "plain" :
return verifier == code . CodeChallenge
case "" :
return true
default :
// unsupported method -> return false
return false
}
}
// GetOAuth2AuthorizationByCode returns an authorization by its code
func GetOAuth2AuthorizationByCode ( code string ) ( * OAuth2AuthorizationCode , error ) {
return getOAuth2AuthorizationByCode ( x , code )
}
func getOAuth2AuthorizationByCode ( e Engine , code string ) ( auth * OAuth2AuthorizationCode , err error ) {
auth = new ( OAuth2AuthorizationCode )
if has , err := e . Where ( "code = ?" , code ) . Get ( auth ) ; err != nil {
return nil , err
} else if ! has {
return nil , nil
}
auth . Grant = new ( OAuth2Grant )
if has , err := e . ID ( auth . GrantID ) . Get ( auth . Grant ) ; err != nil {
return nil , err
} else if ! has {
return nil , nil
}
return auth , nil
}
//////////////////////////////////////////////////////
// OAuth2Grant represents the permission of an user for a specifc application to access resources
type OAuth2Grant struct {
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ID int64 ` xorm:"pk autoincr" `
UserID int64 ` xorm:"INDEX unique(user_application)" `
Application * OAuth2Application ` xorm:"-" `
ApplicationID int64 ` xorm:"INDEX unique(user_application)" `
Counter int64 ` xorm:"NOT NULL DEFAULT 1" `
CreatedUnix util . TimeStamp ` xorm:"created" `
UpdatedUnix util . TimeStamp ` xorm:"updated" `
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}
// TableName sets the table name to `oauth2_grant`
func ( grant * OAuth2Grant ) TableName ( ) string {
return "oauth2_grant"
}
// GenerateNewAuthorizationCode generates a new authorization code for a grant and saves it to the databse
func ( grant * OAuth2Grant ) GenerateNewAuthorizationCode ( redirectURI , codeChallenge , codeChallengeMethod string ) ( * OAuth2AuthorizationCode , error ) {
return grant . generateNewAuthorizationCode ( x , redirectURI , codeChallenge , codeChallengeMethod )
}
func ( grant * OAuth2Grant ) generateNewAuthorizationCode ( e Engine , redirectURI , codeChallenge , codeChallengeMethod string ) ( code * OAuth2AuthorizationCode , err error ) {
var codeSecret string
if codeSecret , err = secret . New ( ) ; err != nil {
return & OAuth2AuthorizationCode { } , err
}
code = & OAuth2AuthorizationCode {
Grant : grant ,
GrantID : grant . ID ,
RedirectURI : redirectURI ,
Code : codeSecret ,
CodeChallenge : codeChallenge ,
CodeChallengeMethod : codeChallengeMethod ,
}
if _ , err := e . Insert ( code ) ; err != nil {
return nil , err
}
return code , nil
}
// IncreaseCounter increases the counter and updates the grant
func ( grant * OAuth2Grant ) IncreaseCounter ( ) error {
return grant . increaseCount ( x )
}
func ( grant * OAuth2Grant ) increaseCount ( e Engine ) error {
_ , err := e . ID ( grant . ID ) . Incr ( "counter" ) . Update ( new ( OAuth2Grant ) )
if err != nil {
return err
}
updatedGrant , err := getOAuth2GrantByID ( e , grant . ID )
if err != nil {
return err
}
grant . Counter = updatedGrant . Counter
return nil
}
// GetOAuth2GrantByID returns the grant with the given ID
func GetOAuth2GrantByID ( id int64 ) ( * OAuth2Grant , error ) {
return getOAuth2GrantByID ( x , id )
}
func getOAuth2GrantByID ( e Engine , id int64 ) ( grant * OAuth2Grant , err error ) {
grant = new ( OAuth2Grant )
if has , err := e . ID ( id ) . Get ( grant ) ; err != nil {
return nil , err
} else if ! has {
return nil , nil
}
return
}
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// GetOAuth2GrantsByUserID lists all grants of a certain user
func GetOAuth2GrantsByUserID ( uid int64 ) ( [ ] * OAuth2Grant , error ) {
return getOAuth2GrantsByUserID ( x , uid )
}
func getOAuth2GrantsByUserID ( e Engine , uid int64 ) ( [ ] * OAuth2Grant , error ) {
type joinedOAuth2Grant struct {
Grant * OAuth2Grant ` xorm:"extends" `
Application * OAuth2Application ` xorm:"extends" `
}
var results * xorm . Rows
var err error
if results , err = e .
Table ( "oauth2_grant" ) .
Where ( "user_id = ?" , uid ) .
Join ( "INNER" , "oauth2_application" , "application_id = oauth2_application.id" ) .
Rows ( new ( joinedOAuth2Grant ) ) ; err != nil {
return nil , err
}
defer results . Close ( )
grants := make ( [ ] * OAuth2Grant , 0 )
for results . Next ( ) {
joinedGrant := new ( joinedOAuth2Grant )
if err := results . Scan ( joinedGrant ) ; err != nil {
return nil , err
}
joinedGrant . Grant . Application = joinedGrant . Application
grants = append ( grants , joinedGrant . Grant )
}
return grants , nil
}
// RevokeOAuth2Grant deletes the grant with grantID and userID
func RevokeOAuth2Grant ( grantID , userID int64 ) error {
return revokeOAuth2Grant ( x , grantID , userID )
}
func revokeOAuth2Grant ( e Engine , grantID , userID int64 ) error {
_ , err := e . Delete ( & OAuth2Grant { ID : grantID , UserID : userID } )
return err
}
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//////////////////////////////////////////////////////////////
// OAuth2TokenType represents the type of token for an oauth application
type OAuth2TokenType int
const (
// TypeAccessToken is a token with short lifetime to access the api
TypeAccessToken OAuth2TokenType = 0
// TypeRefreshToken is token with long lifetime to refresh access tokens obtained by the client
TypeRefreshToken = iota
)
// OAuth2Token represents a JWT token used to authenticate a client
type OAuth2Token struct {
GrantID int64 ` json:"gnt" `
Type OAuth2TokenType ` json:"tt" `
Counter int64 ` json:"cnt,omitempty" `
jwt . StandardClaims
}
// ParseOAuth2Token parses a singed jwt string
func ParseOAuth2Token ( jwtToken string ) ( * OAuth2Token , error ) {
parsedToken , err := jwt . ParseWithClaims ( jwtToken , & OAuth2Token { } , func ( token * jwt . Token ) ( interface { } , error ) {
if _ , ok := token . Method . ( * jwt . SigningMethodHMAC ) ; ! ok {
return nil , fmt . Errorf ( "unexpected signing algo: %v" , token . Header [ "alg" ] )
}
return setting . OAuth2 . JWTSecretBytes , nil
} )
if err != nil {
return nil , err
}
var token * OAuth2Token
var ok bool
if token , ok = parsedToken . Claims . ( * OAuth2Token ) ; ! ok || ! parsedToken . Valid {
return nil , fmt . Errorf ( "invalid token" )
}
return token , nil
}
// SignToken signs the token with the JWT secret
func ( token * OAuth2Token ) SignToken ( ) ( string , error ) {
token . IssuedAt = time . Now ( ) . Unix ( )
jwtToken := jwt . NewWithClaims ( jwt . SigningMethodHS512 , token )
return jwtToken . SignedString ( setting . OAuth2 . JWTSecretBytes )
}