githaven/models/oauth2_application.go
zeripath 5d2e11eedb
Refactor: Move login out of models (#16199)
`models` does far too much. In particular it handles all `UserSignin`.

It shouldn't be responsible for calling LDAP, SMTP or PAM for signing in.

Therefore we should move this code out of `models`.

This code has to depend on `models` - therefore it belongs in `services`.

There is a package in `services` called `auth` and clearly this functionality belongs in there.

Plan:

- [x] Change `auth.Auth` to `auth.Method` - as they represent methods of authentication.
- [x] Move `models.UserSignIn` into `auth`
- [x] Move `models.ExternalUserLogin`
- [x] Move most of the `LoginVia*` methods to `auth` or subpackages
- [x] Move Resynchronize functionality to `auth`
  - Involved some restructuring of `models/ssh_key.go` to reduce the size of this massive file and simplify its files.
- [x] Move the rest of the LDAP functionality in to the ldap subpackage
- [x] Re-factor the login sources to express an interfaces `auth.Source`?
  - I've done this through some smaller interfaces Authenticator and Synchronizable - which would allow us to extend things in future
- [x] Now LDAP is out of models - need to think about modules/auth/ldap and I think all of that functionality might just be moveable
- [x] Similarly a lot Oauth2 functionality need not be in models too and should be moved to services/auth/source/oauth2
  - [x] modules/auth/oauth2/oauth2.go uses xorm... This is naughty - probably need to move this into models.
  - [x] models/oauth2.go - mostly should be in modules/auth/oauth2 or services/auth/source/oauth2 
- [x] More simplifications of login_source.go may need to be done
- Allow wiring in of notify registration -  *this can now easily be done - but I think we should do it in another PR*  - see #16178 
- More refactors...?
  - OpenID should probably become an auth Method but I think that can be left for another PR
  - Methods should also probably be cleaned up  - again another PR I think.
  - SSPI still needs more refactors.* Rename auth.Auth auth.Method
* Restructure ssh_key.go

- move functions from models/user.go that relate to ssh_key to ssh_key
- split ssh_key.go to try create clearer function domains for allow for
future refactors here.

Signed-off-by: Andrew Thornton <art27@cantab.net>
2021-07-24 11:16:34 +01:00

516 lines
15 KiB
Go

// 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"
"strings"
"code.gitea.io/gitea/modules/secret"
"code.gitea.io/gitea/modules/timeutil"
"code.gitea.io/gitea/modules/util"
uuid "github.com/google/uuid"
"golang.org/x/crypto/bcrypt"
"xorm.io/xorm"
)
// 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 timeutil.TimeStamp `xorm:"INDEX created"`
UpdatedUnix timeutil.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 util.IsStringInSlice(redirectURI, app.RedirectURIs, true)
}
// 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, scope string) (*OAuth2Grant, error) {
return app.createGrant(x, userID, scope)
}
func (app *OAuth2Application) createGrant(e Engine, userID int64, scope string) (*OAuth2Grant, error) {
grant := &OAuth2Grant{
ApplicationID: app.ID,
UserID: userID,
Scope: scope,
}
_, 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 err != nil {
return nil, err
}
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.New().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) (*OAuth2Application, error) {
sess := x.NewSession()
if err := sess.Begin(); err != nil {
return nil, err
}
defer sess.Close()
app, err := getOAuth2ApplicationByID(sess, opts.ID)
if err != nil {
return nil, err
}
if app.UID != opts.UserID {
return nil, fmt.Errorf("UID mismatch")
}
app.Name = opts.Name
app.RedirectURIs = opts.RedirectURIs
if err = updateOAuth2Application(sess, app); err != nil {
return nil, err
}
app.ClientSecret = ""
return app, sess.Commit()
}
func updateOAuth2Application(e Engine, app *OAuth2Application) error {
if _, err := e.ID(app.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 ErrOAuthApplicationNotFound{ID: id}
}
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()
defer sess.Close()
if err := sess.Begin(); err != nil {
return err
}
if err := deleteOAuth2Application(sess, id, userid); err != nil {
return err
}
return sess.Commit()
}
// ListOAuth2Applications returns a list of oauth2 applications belongs to given user.
func ListOAuth2Applications(uid int64, listOptions ListOptions) ([]*OAuth2Application, error) {
sess := x.
Where("uid=?", uid).
Desc("id")
if listOptions.Page != 0 {
sess = listOptions.setSessionPagination(sess)
apps := make([]*OAuth2Application, 0, listOptions.PageSize)
return apps, sess.Find(&apps)
}
apps := make([]*OAuth2Application, 0, 5)
return apps, sess.Find(&apps)
}
//////////////////////////////////////////////////////
// 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 timeutil.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(verifier)
}
func (code *OAuth2AuthorizationCode) validateCodeChallenge(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 specific application to access resources
type OAuth2Grant struct {
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"`
Scope string `xorm:"TEXT"`
Nonce string `xorm:"TEXT"`
CreatedUnix timeutil.TimeStamp `xorm:"created"`
UpdatedUnix timeutil.TimeStamp `xorm:"updated"`
}
// 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 database
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
}
// ScopeContains returns true if the grant scope contains the specified scope
func (grant *OAuth2Grant) ScopeContains(scope string) bool {
for _, currentScope := range strings.Split(grant.Scope, " ") {
if scope == currentScope {
return true
}
}
return false
}
// SetNonce updates the current nonce value of a grant
func (grant *OAuth2Grant) SetNonce(nonce string) error {
return grant.setNonce(x, nonce)
}
func (grant *OAuth2Grant) setNonce(e Engine, nonce string) error {
grant.Nonce = nonce
_, err := e.ID(grant.ID).Cols("nonce").Update(grant)
if err != nil {
return err
}
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
}
// 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
}