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mirror of https://github.com/go-gitea/gitea synced 2024-11-14 06:04:25 +00:00
gitea/models/login_source.go
zeripath 6a33b290a0
Fix add authentication page (#16543)
* Fix add authentication page

There is a regression in #16199 whereby the add authentication page
fails to react to the change in selected type.

This is due to the String() method on the LoginSourceType which is ameliorated
with an Int() function being added.

Following on from this there are a few other related bugs.

Fix #16541

Signed-off-by: Andrew Thornton <art27@cantab.net>
2021-07-25 08:09:52 +01:00

382 lines
10 KiB
Go

// Copyright 2014 The Gogs Authors. All rights reserved.
// 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 (
"reflect"
"strconv"
"code.gitea.io/gitea/modules/log"
"code.gitea.io/gitea/modules/timeutil"
"xorm.io/xorm"
"xorm.io/xorm/convert"
)
// LoginType represents an login type.
type LoginType int
// Note: new type must append to the end of list to maintain compatibility.
const (
LoginNoType LoginType = iota
LoginPlain // 1
LoginLDAP // 2
LoginSMTP // 3
LoginPAM // 4
LoginDLDAP // 5
LoginOAuth2 // 6
LoginSSPI // 7
)
// String returns the string name of the LoginType
func (typ LoginType) String() string {
return LoginNames[typ]
}
// Int returns the int value of the LoginType
func (typ LoginType) Int() int {
return int(typ)
}
// LoginNames contains the name of LoginType values.
var LoginNames = map[LoginType]string{
LoginLDAP: "LDAP (via BindDN)",
LoginDLDAP: "LDAP (simple auth)", // Via direct bind
LoginSMTP: "SMTP",
LoginPAM: "PAM",
LoginOAuth2: "OAuth2",
LoginSSPI: "SPNEGO with SSPI",
}
// LoginConfig represents login config as far as the db is concerned
type LoginConfig interface {
convert.Conversion
}
// SkipVerifiable configurations provide a IsSkipVerify to check if SkipVerify is set
type SkipVerifiable interface {
IsSkipVerify() bool
}
// HasTLSer configurations provide a HasTLS to check if TLS can be enabled
type HasTLSer interface {
HasTLS() bool
}
// UseTLSer configurations provide a HasTLS to check if TLS is enabled
type UseTLSer interface {
UseTLS() bool
}
// SSHKeyProvider configurations provide ProvidesSSHKeys to check if they provide SSHKeys
type SSHKeyProvider interface {
ProvidesSSHKeys() bool
}
// RegisterableSource configurations provide RegisterSource which needs to be run on creation
type RegisterableSource interface {
RegisterSource() error
UnregisterSource() error
}
// LoginSourceSettable configurations can have their loginSource set on them
type LoginSourceSettable interface {
SetLoginSource(*LoginSource)
}
// RegisterLoginTypeConfig register a config for a provided type
func RegisterLoginTypeConfig(typ LoginType, exemplar LoginConfig) {
if reflect.TypeOf(exemplar).Kind() == reflect.Ptr {
// Pointer:
registeredLoginConfigs[typ] = func() LoginConfig {
return reflect.New(reflect.ValueOf(exemplar).Elem().Type()).Interface().(LoginConfig)
}
return
}
// Not a Pointer
registeredLoginConfigs[typ] = func() LoginConfig {
return reflect.New(reflect.TypeOf(exemplar)).Elem().Interface().(LoginConfig)
}
}
var registeredLoginConfigs = map[LoginType]func() LoginConfig{}
// LoginSource represents an external way for authorizing users.
type LoginSource struct {
ID int64 `xorm:"pk autoincr"`
Type LoginType
Name string `xorm:"UNIQUE"`
IsActive bool `xorm:"INDEX NOT NULL DEFAULT false"`
IsSyncEnabled bool `xorm:"INDEX NOT NULL DEFAULT false"`
Cfg convert.Conversion `xorm:"TEXT"`
CreatedUnix timeutil.TimeStamp `xorm:"INDEX created"`
UpdatedUnix timeutil.TimeStamp `xorm:"INDEX updated"`
}
// Cell2Int64 converts a xorm.Cell type to int64,
// and handles possible irregular cases.
func Cell2Int64(val xorm.Cell) int64 {
switch (*val).(type) {
case []uint8:
log.Trace("Cell2Int64 ([]uint8): %v", *val)
v, _ := strconv.ParseInt(string((*val).([]uint8)), 10, 64)
return v
}
return (*val).(int64)
}
// BeforeSet is invoked from XORM before setting the value of a field of this object.
func (source *LoginSource) BeforeSet(colName string, val xorm.Cell) {
if colName == "type" {
typ := LoginType(Cell2Int64(val))
constructor, ok := registeredLoginConfigs[typ]
if !ok {
return
}
source.Cfg = constructor()
if settable, ok := source.Cfg.(LoginSourceSettable); ok {
settable.SetLoginSource(source)
}
}
}
// TypeName return name of this login source type.
func (source *LoginSource) TypeName() string {
return LoginNames[source.Type]
}
// IsLDAP returns true of this source is of the LDAP type.
func (source *LoginSource) IsLDAP() bool {
return source.Type == LoginLDAP
}
// IsDLDAP returns true of this source is of the DLDAP type.
func (source *LoginSource) IsDLDAP() bool {
return source.Type == LoginDLDAP
}
// IsSMTP returns true of this source is of the SMTP type.
func (source *LoginSource) IsSMTP() bool {
return source.Type == LoginSMTP
}
// IsPAM returns true of this source is of the PAM type.
func (source *LoginSource) IsPAM() bool {
return source.Type == LoginPAM
}
// IsOAuth2 returns true of this source is of the OAuth2 type.
func (source *LoginSource) IsOAuth2() bool {
return source.Type == LoginOAuth2
}
// IsSSPI returns true of this source is of the SSPI type.
func (source *LoginSource) IsSSPI() bool {
return source.Type == LoginSSPI
}
// HasTLS returns true of this source supports TLS.
func (source *LoginSource) HasTLS() bool {
hasTLSer, ok := source.Cfg.(HasTLSer)
return ok && hasTLSer.HasTLS()
}
// UseTLS returns true of this source is configured to use TLS.
func (source *LoginSource) UseTLS() bool {
useTLSer, ok := source.Cfg.(UseTLSer)
return ok && useTLSer.UseTLS()
}
// SkipVerify returns true if this source is configured to skip SSL
// verification.
func (source *LoginSource) SkipVerify() bool {
skipVerifiable, ok := source.Cfg.(SkipVerifiable)
return ok && skipVerifiable.IsSkipVerify()
}
// CreateLoginSource inserts a LoginSource in the DB if not already
// existing with the given name.
func CreateLoginSource(source *LoginSource) error {
has, err := x.Where("name=?", source.Name).Exist(new(LoginSource))
if err != nil {
return err
} else if has {
return ErrLoginSourceAlreadyExist{source.Name}
}
// Synchronization is only available with LDAP for now
if !source.IsLDAP() {
source.IsSyncEnabled = false
}
_, err = x.Insert(source)
if err != nil {
return err
}
if !source.IsActive {
return nil
}
if settable, ok := source.Cfg.(LoginSourceSettable); ok {
settable.SetLoginSource(source)
}
registerableSource, ok := source.Cfg.(RegisterableSource)
if !ok {
return nil
}
err = registerableSource.RegisterSource()
if err != nil {
// remove the LoginSource in case of errors while registering configuration
if _, err := x.Delete(source); err != nil {
log.Error("CreateLoginSource: Error while wrapOpenIDConnectInitializeError: %v", err)
}
}
return err
}
// LoginSources returns a slice of all login sources found in DB.
func LoginSources() ([]*LoginSource, error) {
auths := make([]*LoginSource, 0, 6)
return auths, x.Find(&auths)
}
// LoginSourcesByType returns all sources of the specified type
func LoginSourcesByType(loginType LoginType) ([]*LoginSource, error) {
sources := make([]*LoginSource, 0, 1)
if err := x.Where("type = ?", loginType).Find(&sources); err != nil {
return nil, err
}
return sources, nil
}
// AllActiveLoginSources returns all active sources
func AllActiveLoginSources() ([]*LoginSource, error) {
sources := make([]*LoginSource, 0, 5)
if err := x.Where("is_active = ?", true).Find(&sources); err != nil {
return nil, err
}
return sources, nil
}
// ActiveLoginSources returns all active sources of the specified type
func ActiveLoginSources(loginType LoginType) ([]*LoginSource, error) {
sources := make([]*LoginSource, 0, 1)
if err := x.Where("is_active = ? and type = ?", true, loginType).Find(&sources); err != nil {
return nil, err
}
return sources, nil
}
// IsSSPIEnabled returns true if there is at least one activated login
// source of type LoginSSPI
func IsSSPIEnabled() bool {
if !HasEngine {
return false
}
sources, err := ActiveLoginSources(LoginSSPI)
if err != nil {
log.Error("ActiveLoginSources: %v", err)
return false
}
return len(sources) > 0
}
// GetLoginSourceByID returns login source by given ID.
func GetLoginSourceByID(id int64) (*LoginSource, error) {
source := new(LoginSource)
if id == 0 {
source.Cfg = registeredLoginConfigs[LoginNoType]()
// Set this source to active
// FIXME: allow disabling of db based password authentication in future
source.IsActive = true
return source, nil
}
has, err := x.ID(id).Get(source)
if err != nil {
return nil, err
} else if !has {
return nil, ErrLoginSourceNotExist{id}
}
return source, nil
}
// UpdateSource updates a LoginSource record in DB.
func UpdateSource(source *LoginSource) error {
var originalLoginSource *LoginSource
if source.IsOAuth2() {
// keep track of the original values so we can restore in case of errors while registering OAuth2 providers
var err error
if originalLoginSource, err = GetLoginSourceByID(source.ID); err != nil {
return err
}
}
_, err := x.ID(source.ID).AllCols().Update(source)
if err != nil {
return err
}
if !source.IsActive {
return nil
}
if settable, ok := source.Cfg.(LoginSourceSettable); ok {
settable.SetLoginSource(source)
}
registerableSource, ok := source.Cfg.(RegisterableSource)
if !ok {
return nil
}
err = registerableSource.RegisterSource()
if err != nil {
// restore original values since we cannot update the provider it self
if _, err := x.ID(source.ID).AllCols().Update(originalLoginSource); err != nil {
log.Error("UpdateSource: Error while wrapOpenIDConnectInitializeError: %v", err)
}
}
return err
}
// DeleteSource deletes a LoginSource record in DB.
func DeleteSource(source *LoginSource) error {
count, err := x.Count(&User{LoginSource: source.ID})
if err != nil {
return err
} else if count > 0 {
return ErrLoginSourceInUse{source.ID}
}
count, err = x.Count(&ExternalLoginUser{LoginSourceID: source.ID})
if err != nil {
return err
} else if count > 0 {
return ErrLoginSourceInUse{source.ID}
}
if registerableSource, ok := source.Cfg.(RegisterableSource); ok {
if err := registerableSource.UnregisterSource(); err != nil {
return err
}
}
_, err = x.ID(source.ID).Delete(new(LoginSource))
return err
}
// CountLoginSources returns number of login sources.
func CountLoginSources() int64 {
count, _ := x.Count(new(LoginSource))
return count
}