wg-portal/internal/server/server_helper.go

package server

import (
	"crypto/md5"
	"fmt"
	"io/ioutil"
	"path"
	"syscall"
	"time"

	"github.com/h44z/wg-portal/internal/users"
	"github.com/h44z/wg-portal/internal/wireguard"
	"github.com/pkg/errors"
	"github.com/sirupsen/logrus"
	"golang.zx2c4.com/wireguard/wgctrl/wgtypes"
	"gorm.io/gorm"
)

// PrepareNewPeer initiates a new peer for the given WireGuard device.
func (s *Server) PrepareNewPeer(device string) (wireguard.Peer, error) {
	dev := s.peers.GetDevice(device)
	deviceIPs := dev.GetIPAddresses()

	peer := wireguard.Peer{}
	peer.IsNew = true

	switch dev.Type {
	case wireguard.DeviceTypeServer:
		peerIPs := make([]string, len(deviceIPs))
		for i := range deviceIPs {
			freeIP, err := s.peers.GetAvailableIp(device, deviceIPs[i])
			if err != nil {
				return wireguard.Peer{}, errors.WithMessage(err, "failed to get available IP addresses")
			}
			peerIPs[i] = freeIP
		}
		peer.SetIPAddresses(peerIPs...)
		psk, err := wgtypes.GenerateKey()
		if err != nil {
			return wireguard.Peer{}, errors.Wrap(err, "failed to generate key")
		}
		key, err := wgtypes.GeneratePrivateKey()
		if err != nil {
			return wireguard.Peer{}, errors.Wrap(err, "failed to generate private key")
		}
		peer.PresharedKey = psk.String()
		peer.PrivateKey = key.String()
		peer.PublicKey = key.PublicKey().String()
		peer.UID = fmt.Sprintf("u%x", md5.Sum([]byte(peer.PublicKey)))
		peer.Endpoint = dev.DefaultEndpoint
		peer.DNSStr = dev.DNSStr
		peer.PersistentKeepalive = dev.DefaultPersistentKeepalive
		peer.AllowedIPsStr = dev.DefaultAllowedIPsStr
		peer.Mtu = dev.Mtu
	case wireguard.DeviceTypeClient:
		peer.UID = "newendpoint"
	}

	return peer, nil
}

// CreatePeerByEmail creates a new peer for the given email.
func (s *Server) CreatePeerByEmail(device, email, identifierSuffix string, disabled bool) error {
	user := s.users.GetUser(email)

	peer, err := s.PrepareNewPeer(device)
	if err != nil {
		return errors.WithMessage(err, "failed to prepare new peer")
	}
	peer.Email = email
	if user != nil {
		peer.Identifier = fmt.Sprintf("%s %s (%s)", user.Firstname, user.Lastname, identifierSuffix)
	} else {
		peer.Identifier = fmt.Sprintf("%s (%s)", email, identifierSuffix)
	}
	now := time.Now()
	if disabled {
		peer.DeactivatedAt = &now
	}

	return s.CreatePeer(device, peer)
}

// CreatePeer creates the new peer in the database. If the peer has no assigned ip addresses, a new one will be assigned
// automatically. Also, if the private key is empty, a new key-pair will be generated.
// This function also configures the new peer on the physical WireGuard interface if the peer is not deactivated.
func (s *Server) CreatePeer(device string, peer wireguard.Peer) error {
	dev := s.peers.GetDevice(device)
	deviceIPs := dev.GetIPAddresses()
	peerIPs := peer.GetIPAddresses()

	peer.AllowedIPsStr = dev.DefaultAllowedIPsStr
	if len(peerIPs) == 0 && dev.Type == wireguard.DeviceTypeServer {
		peerIPs = make([]string, len(deviceIPs))
		for i := range deviceIPs {
			freeIP, err := s.peers.GetAvailableIp(device, deviceIPs[i])
			if err != nil {
				return errors.WithMessage(err, "failed to get available IP addresses")
			}
			peerIPs[i] = freeIP
		}
		peer.SetIPAddresses(peerIPs...)
	}
	if peer.PrivateKey == "" && dev.Type == wireguard.DeviceTypeServer { // if private key is empty create a new one
		psk, err := wgtypes.GenerateKey()
		if err != nil {
			return errors.Wrap(err, "failed to generate key")
		}
		key, err := wgtypes.GeneratePrivateKey()
		if err != nil {
			return errors.Wrap(err, "failed to generate private key")
		}
		peer.PresharedKey = psk.String()
		peer.PrivateKey = key.String()
		peer.PublicKey = key.PublicKey().String()
	}
	peer.DeviceName = dev.DeviceName
	peer.UID = fmt.Sprintf("u%x", md5.Sum([]byte(peer.PublicKey)))

	// Create WireGuard interface
	if peer.DeactivatedAt == nil {
		if err := s.wg.AddPeer(device, peer.GetConfig(&dev)); err != nil {
			return errors.WithMessage(err, "failed to add WireGuard peer")
		}
	}

	// Create in database
	if err := s.peers.CreatePeer(peer); err != nil {
		return errors.WithMessage(err, "failed to create peer")
	}

	return s.WriteWireGuardConfigFile(device)
}

// UpdatePeer updates the physical WireGuard interface and the database.
func (s *Server) UpdatePeer(peer wireguard.Peer, updateTime time.Time) error {
	currentPeer := s.peers.GetPeerByKey(peer.PublicKey)
	dev := s.peers.GetDevice(peer.DeviceName)

	// Update WireGuard device
	var err error
	switch {
	case peer.DeactivatedAt != nil && *peer.DeactivatedAt == updateTime:
		err = s.wg.RemovePeer(peer.DeviceName, peer.PublicKey)
	case peer.DeactivatedAt == nil && currentPeer.Peer != nil:
		err = s.wg.UpdatePeer(peer.DeviceName, peer.GetConfig(&dev))
	case peer.DeactivatedAt == nil && currentPeer.Peer == nil:
		err = s.wg.AddPeer(peer.DeviceName, peer.GetConfig(&dev))
	}
	if err != nil {
		return errors.WithMessage(err, "failed to update WireGuard peer")
	}

	peer.UID = fmt.Sprintf("u%x", md5.Sum([]byte(peer.PublicKey)))

	// Update in database
	if err := s.peers.UpdatePeer(peer); err != nil {
		return errors.WithMessage(err, "failed to update peer")
	}

	return s.WriteWireGuardConfigFile(peer.DeviceName)
}

// DeletePeer removes the peer from the physical WireGuard interface and the database.
func (s *Server) DeletePeer(peer wireguard.Peer) error {
	// Delete WireGuard peer
	if err := s.wg.RemovePeer(peer.DeviceName, peer.PublicKey); err != nil {
		return errors.WithMessage(err, "failed to remove WireGuard peer")
	}

	// Delete in database
	if err := s.peers.DeletePeer(peer); err != nil {
		return errors.WithMessage(err, "failed to remove peer")
	}

	return s.WriteWireGuardConfigFile(peer.DeviceName)
}

// RestoreWireGuardInterface restores the state of the physical WireGuard interface from the database.
func (s *Server) RestoreWireGuardInterface(device string) error {
	activePeers := s.peers.GetActivePeers(device)
	dev := s.peers.GetDevice(device)

	for i := range activePeers {
		if activePeers[i].Peer == nil {
			if err := s.wg.AddPeer(device, activePeers[i].GetConfig(&dev)); err != nil {
				return errors.WithMessage(err, "failed to add WireGuard peer")
			}
		}
	}

	return nil
}

// WriteWireGuardConfigFile writes the configuration file for the physical WireGuard interface.
func (s *Server) WriteWireGuardConfigFile(device string) error {
	if s.config.WG.ConfigDirectoryPath == "" {
		return nil // writing disabled
	}
	if err := syscall.Access(s.config.WG.ConfigDirectoryPath, syscall.O_RDWR); err != nil {
		return errors.Wrap(err, "failed to check WireGuard config access rights")
	}

	dev := s.peers.GetDevice(device)
	cfg, err := dev.GetConfigFile(s.peers.GetActivePeers(device))
	if err != nil {
		return errors.WithMessage(err, "failed to get config file")
	}
	filePath := path.Join(s.config.WG.ConfigDirectoryPath, dev.DeviceName+".conf")
	if err := ioutil.WriteFile(filePath, cfg, 0644); err != nil {
		return errors.Wrap(err, "failed to write WireGuard config file")
	}
	return nil
}

// CreateUser creates the user in the database and optionally adds a default WireGuard peer for the user.
func (s *Server) CreateUser(user users.User, device string) error {
	if user.Email == "" {
		return errors.New("cannot create user with empty email address")
	}

	// Check if user already exists, if so re-enable
	if existingUser := s.users.GetUserUnscoped(user.Email); existingUser != nil {
		user.DeletedAt = gorm.DeletedAt{} // reset deleted flag to enable that user again
		return s.UpdateUser(user)
	}

	// Create user in database
	if err := s.users.CreateUser(&user); err != nil {
		return errors.WithMessage(err, "failed to create user in manager")
	}

	// Check if user already has a peer setup, if not, create one
	return s.CreateUserDefaultPeer(user.Email, device)
}

// UpdateUser updates the user in the database. If the user is marked as deleted, it will get remove from the database.
// Also, if the user is re-enabled, all it's linked WireGuard peers will be activated again.
func (s *Server) UpdateUser(user users.User) error {
	if user.DeletedAt.Valid {
		return s.DeleteUser(user)
	}

	currentUser := s.users.GetUserUnscoped(user.Email)

	// Update in database
	if err := s.users.UpdateUser(&user); err != nil {
		return errors.WithMessage(err, "failed to update user in manager")
	}

	// If user was deleted (disabled), reactivate it's peers
	if currentUser.DeletedAt.Valid {
		for _, peer := range s.peers.GetPeersByMail(user.Email) {
			now := time.Now()
			peer.DeactivatedAt = nil
			if err := s.UpdatePeer(peer, now); err != nil {
				logrus.Errorf("failed to update (re)activated peer %s for %s: %v", peer.PublicKey, user.Email, err)
			}
		}
	}

	return nil
}

// DeleteUser removes the user from the database.
// Also, if the user has linked WireGuard peers, they will be deactivated.
func (s *Server) DeleteUser(user users.User) error {
	currentUser := s.users.GetUserUnscoped(user.Email)

	// Update in database
	if err := s.users.DeleteUser(&user); err != nil {
		return errors.WithMessage(err, "failed to delete user in manager")
	}

	// If user was active, disable it's peers
	if !currentUser.DeletedAt.Valid {
		for _, peer := range s.peers.GetPeersByMail(user.Email) {
			now := time.Now()
			peer.DeactivatedAt = &now
			if err := s.UpdatePeer(peer, now); err != nil {
				logrus.Errorf("failed to update deactivated peer %s for %s: %v", peer.PublicKey, user.Email, err)
			}
		}
	}

	return nil
}

func (s *Server) CreateUserDefaultPeer(email, device string) error {
	// Check if user is active, if not, quit
	var existingUser *users.User
	if existingUser = s.users.GetUser(email); existingUser == nil {
		return nil
	}

	// Check if user already has a peer setup, if not, create one
	if s.config.Core.CreateDefaultPeer {
		peers := s.peers.GetPeersByMail(email)
		if len(peers) == 0 { // Create default vpn peer
			if err := s.CreatePeer(device, wireguard.Peer{
				Identifier: existingUser.Firstname + " " + existingUser.Lastname + " (Default)",
				Email:      existingUser.Email,
				CreatedBy:  existingUser.Email,
				UpdatedBy:  existingUser.Email,
			}); err != nil {
				return errors.WithMessagef(err, "failed to automatically create vpn peer for %s", email)
			}
		}
	}

	return nil
}

func (s *Server) GetDeviceNames() map[string]string {
	devNames := make(map[string]string, len(s.wg.Cfg.DeviceNames))

	for _, devName := range s.wg.Cfg.DeviceNames {
		dev := s.peers.GetDevice(devName)
		devNames[devName] = dev.DisplayName
	}

	return devNames
}
wip: create/update/... 2020-11-09 05:06:02 -05:00			`package server`

			`import (`
			`"crypto/md5"`
			`"fmt"`
wip: update cfg file 2020-11-09 17:43:57 -05:00			`"io/ioutil"`
WIP: support for multiple WireGuard devices (#2) 2021-03-21 07:36:11 -04:00			`"path"`
wip: update cfg file 2020-11-09 17:43:57 -05:00			`"syscall"`
wip: create/update/... 2020-11-09 05:06:02 -05:00			`"time"`

cleanup 2021-02-26 16:17:04 -05:00			`"github.com/h44z/wg-portal/internal/users"`
add csrf 2021-03-22 17:51:37 -04:00			`"github.com/h44z/wg-portal/internal/wireguard"`
WIP: new user management and authentication system, use go 1.16 embed 2021-02-24 15:24:45 -05:00			`"github.com/pkg/errors"`
cleanup 2021-02-26 16:17:04 -05:00			`"github.com/sirupsen/logrus"`
wip: create/update/... 2020-11-09 05:06:02 -05:00			`"golang.zx2c4.com/wireguard/wgctrl/wgtypes"`
cleanup 2021-02-26 16:17:04 -05:00			`"gorm.io/gorm"`
wip: create/update/... 2020-11-09 05:06:02 -05:00			`)`

WIP: support for multiple WireGuard devices (#2) 2021-03-21 07:36:11 -04:00			`// PrepareNewPeer initiates a new peer for the given WireGuard device.`
			`func (s *Server) PrepareNewPeer(device string) (wireguard.Peer, error) {`
			`dev := s.peers.GetDevice(device)`
WIP: support different interface types: server, client and custom. Show different UI for each type. 2021-04-03 13:11:05 -04:00			`deviceIPs := dev.GetIPAddresses()`
wip: create/update/... 2020-11-09 05:06:02 -05:00
WIP: support for multiple WireGuard devices (#2) 2021-03-21 07:36:11 -04:00			`peer := wireguard.Peer{}`
rename user to peer 2021-02-21 17:23:58 -05:00			`peer.IsNew = true`
wip: create/update/... 2020-11-09 05:06:02 -05:00
WIP: support different interface types: many fixes and improvements... 2021-04-03 17:54:35 -04:00			`switch dev.Type {`
			`case wireguard.DeviceTypeServer:`
improve client mode, todo: migrate peers (new db schema) 2021-04-05 14:00:11 -04:00			`peerIPs := make([]string, len(deviceIPs))`
			`for i := range deviceIPs {`
			`freeIP, err := s.peers.GetAvailableIp(device, deviceIPs[i])`
			`if err != nil {`
			`return wireguard.Peer{}, errors.WithMessage(err, "failed to get available IP addresses")`
			`}`
			`peerIPs[i] = freeIP`
			`}`
			`peer.SetIPAddresses(peerIPs...)`
			`psk, err := wgtypes.GenerateKey()`
			`if err != nil {`
			`return wireguard.Peer{}, errors.Wrap(err, "failed to generate key")`
			`}`
			`key, err := wgtypes.GeneratePrivateKey()`
			`if err != nil {`
			`return wireguard.Peer{}, errors.Wrap(err, "failed to generate private key")`
			`}`
			`peer.PresharedKey = psk.String()`
			`peer.PrivateKey = key.String()`
			`peer.PublicKey = key.PublicKey().String()`
			`peer.UID = fmt.Sprintf("u%x", md5.Sum([]byte(peer.PublicKey)))`
WIP: support different interface types: many fixes and improvements... 2021-04-03 17:54:35 -04:00			`peer.Endpoint = dev.DefaultEndpoint`
			`peer.DNSStr = dev.DNSStr`
			`peer.PersistentKeepalive = dev.DefaultPersistentKeepalive`
			`peer.AllowedIPsStr = dev.DefaultAllowedIPsStr`
			`peer.Mtu = dev.Mtu`
			`case wireguard.DeviceTypeClient:`
improve client mode, todo: migrate peers (new db schema) 2021-04-05 14:00:11 -04:00			`peer.UID = "newendpoint"`
WIP: support different interface types: many fixes and improvements... 2021-04-03 17:54:35 -04:00			`}`

rename user to peer 2021-02-21 17:23:58 -05:00			`return peer, nil`
wip: create/update/... 2020-11-09 05:06:02 -05:00			`}`

WIP: support different interface types: many fixes and improvements... 2021-04-03 17:54:35 -04:00			`// CreatePeerByEmail creates a new peer for the given email.`
WIP: support for multiple WireGuard devices (#2) 2021-03-21 07:36:11 -04:00			`func (s *Server) CreatePeerByEmail(device, email, identifierSuffix string, disabled bool) error {`
WIP: support different interface types: many fixes and improvements... 2021-04-03 17:54:35 -04:00			`user := s.users.GetUser(email)`
wip: create/update/... 2020-11-09 05:06:02 -05:00
WIP: support for multiple WireGuard devices (#2) 2021-03-21 07:36:11 -04:00			`peer, err := s.PrepareNewPeer(device)`
wip: create/update/... 2020-11-09 05:06:02 -05:00			`if err != nil {`
WIP: support for multiple WireGuard devices (#2) 2021-03-21 07:36:11 -04:00			`return errors.WithMessage(err, "failed to prepare new peer")`
wip: create/update/... 2020-11-09 05:06:02 -05:00			`}`
rename user to peer 2021-02-21 17:23:58 -05:00			`peer.Email = email`
WIP: support different interface types: many fixes and improvements... 2021-04-03 17:54:35 -04:00			`if user != nil {`
			`peer.Identifier = fmt.Sprintf("%s %s (%s)", user.Firstname, user.Lastname, identifierSuffix)`
			`} else {`
			`peer.Identifier = fmt.Sprintf("%s (%s)", email, identifierSuffix)`
			`}`
wip: create/update/... 2020-11-09 05:06:02 -05:00			`now := time.Now()`
			`if disabled {`
rename user to peer 2021-02-21 17:23:58 -05:00			`peer.DeactivatedAt = &now`
wip: create/update/... 2020-11-09 05:06:02 -05:00			`}`

WIP: support for multiple WireGuard devices (#2) 2021-03-21 07:36:11 -04:00			`return s.CreatePeer(device, peer)`
wip: create/update/... 2020-11-09 05:06:02 -05:00			`}`

WIP: support for multiple WireGuard devices (#2) 2021-03-21 07:36:11 -04:00			`// CreatePeer creates the new peer in the database. If the peer has no assigned ip addresses, a new one will be assigned`
			`// automatically. Also, if the private key is empty, a new key-pair will be generated.`
			`// This function also configures the new peer on the physical WireGuard interface if the peer is not deactivated.`
			`func (s *Server) CreatePeer(device string, peer wireguard.Peer) error {`
			`dev := s.peers.GetDevice(device)`
WIP: support different interface types: server, client and custom. Show different UI for each type. 2021-04-03 13:11:05 -04:00			`deviceIPs := dev.GetIPAddresses()`
			`peerIPs := peer.GetIPAddresses()`

WIP: support different interface types: server, client and custom. Show different UI for each type. 2021-04-02 17:48:30 -04:00			`peer.AllowedIPsStr = dev.DefaultAllowedIPsStr`
improve client mode, todo: migrate peers (new db schema) 2021-04-05 14:00:11 -04:00			`if len(peerIPs) == 0 && dev.Type == wireguard.DeviceTypeServer {`
WIP: support different interface types: server, client and custom. Show different UI for each type. 2021-04-03 13:11:05 -04:00			`peerIPs = make([]string, len(deviceIPs))`
			`for i := range deviceIPs {`
			`freeIP, err := s.peers.GetAvailableIp(device, deviceIPs[i])`
wip: many small fixes and improvements... 2020-11-09 17:24:14 -05:00			`if err != nil {`
cleanup 2021-02-26 16:17:04 -05:00			`return errors.WithMessage(err, "failed to get available IP addresses")`
wip: many small fixes and improvements... 2020-11-09 17:24:14 -05:00			`}`
WIP: support different interface types: server, client and custom. Show different UI for each type. 2021-04-03 13:11:05 -04:00			`peerIPs[i] = freeIP`
wip: many small fixes and improvements... 2020-11-09 17:24:14 -05:00			`}`
WIP: support different interface types: server, client and custom. Show different UI for each type. 2021-04-03 13:11:05 -04:00			`peer.SetIPAddresses(peerIPs...)`
wip: many small fixes and improvements... 2020-11-09 17:24:14 -05:00			`}`
improve client mode, todo: migrate peers (new db schema) 2021-04-05 14:00:11 -04:00			`if peer.PrivateKey == "" && dev.Type == wireguard.DeviceTypeServer { // if private key is empty create a new one`
wip: create/update/... 2020-11-09 05:06:02 -05:00			`psk, err := wgtypes.GenerateKey()`
			`if err != nil {`
cleanup 2021-02-26 16:17:04 -05:00			`return errors.Wrap(err, "failed to generate key")`
wip: create/update/... 2020-11-09 05:06:02 -05:00			`}`
			`key, err := wgtypes.GeneratePrivateKey()`
			`if err != nil {`
cleanup 2021-02-26 16:17:04 -05:00			`return errors.Wrap(err, "failed to generate private key")`
wip: create/update/... 2020-11-09 05:06:02 -05:00			`}`
WIP: new user management and authentication system, use go 1.16 embed 2021-02-24 15:24:45 -05:00			`peer.PresharedKey = psk.String()`
			`peer.PrivateKey = key.String()`
			`peer.PublicKey = key.PublicKey().String()`
wip: create/update/... 2020-11-09 05:06:02 -05:00			`}`
WIP: support for multiple WireGuard devices (#2) 2021-03-21 07:36:11 -04:00			`peer.DeviceName = dev.DeviceName`
WIP: new user management and authentication system, use go 1.16 embed 2021-02-24 15:24:45 -05:00			`peer.UID = fmt.Sprintf("u%x", md5.Sum([]byte(peer.PublicKey)))`
wip: create/update/... 2020-11-09 05:06:02 -05:00
wip: many small fixes and improvements... 2020-11-09 17:24:14 -05:00			`// Create WireGuard interface`
WIP: new user management and authentication system, use go 1.16 embed 2021-02-24 15:24:45 -05:00			`if peer.DeactivatedAt == nil {`
support different interface types: client and server mode 2021-04-05 12:38:38 -04:00			`if err := s.wg.AddPeer(device, peer.GetConfig(&dev)); err != nil {`
cleanup 2021-02-26 16:17:04 -05:00			`return errors.WithMessage(err, "failed to add WireGuard peer")`
wip: create/update/... 2020-11-09 05:06:02 -05:00			`}`
			`}`

			`// Create in database`
WIP: new user management and authentication system, use go 1.16 embed 2021-02-24 15:24:45 -05:00			`if err := s.peers.CreatePeer(peer); err != nil {`
cleanup 2021-02-26 16:17:04 -05:00			`return errors.WithMessage(err, "failed to create peer")`
wip: create/update/... 2020-11-09 05:06:02 -05:00			`}`

WIP: support for multiple WireGuard devices (#2) 2021-03-21 07:36:11 -04:00			`return s.WriteWireGuardConfigFile(device)`
wip: create/update/... 2020-11-09 05:06:02 -05:00			`}`

WIP: support for multiple WireGuard devices (#2) 2021-03-21 07:36:11 -04:00			`// UpdatePeer updates the physical WireGuard interface and the database.`
			`func (s *Server) UpdatePeer(peer wireguard.Peer, updateTime time.Time) error {`
WIP: new user management and authentication system, use go 1.16 embed 2021-02-24 15:24:45 -05:00			`currentPeer := s.peers.GetPeerByKey(peer.PublicKey)`
support different interface types: client and server mode 2021-04-05 12:38:38 -04:00			`dev := s.peers.GetDevice(peer.DeviceName)`
wip: create/update/... 2020-11-09 05:06:02 -05:00
			`// Update WireGuard device`
			`var err error`
			`switch {`
fix some bugs in client mode, improve login ui 2021-04-05 13:12:27 -04:00			`case peer.DeactivatedAt != nil && *peer.DeactivatedAt == updateTime:`
improve client mode, todo: migrate peers (new db schema) 2021-04-05 14:00:11 -04:00			`err = s.wg.RemovePeer(peer.DeviceName, peer.PublicKey)`
WIP: new user management and authentication system, use go 1.16 embed 2021-02-24 15:24:45 -05:00			`case peer.DeactivatedAt == nil && currentPeer.Peer != nil:`
support different interface types: client and server mode 2021-04-05 12:38:38 -04:00			`err = s.wg.UpdatePeer(peer.DeviceName, peer.GetConfig(&dev))`
WIP: new user management and authentication system, use go 1.16 embed 2021-02-24 15:24:45 -05:00			`case peer.DeactivatedAt == nil && currentPeer.Peer == nil:`
support different interface types: client and server mode 2021-04-05 12:38:38 -04:00			`err = s.wg.AddPeer(peer.DeviceName, peer.GetConfig(&dev))`
wip: create/update/... 2020-11-09 05:06:02 -05:00			`}`
			`if err != nil {`
cleanup 2021-02-26 16:17:04 -05:00			`return errors.WithMessage(err, "failed to update WireGuard peer")`
wip: create/update/... 2020-11-09 05:06:02 -05:00			`}`

improve client mode, todo: migrate peers (new db schema) 2021-04-05 14:00:11 -04:00			`peer.UID = fmt.Sprintf("u%x", md5.Sum([]byte(peer.PublicKey)))`

wip: create/update/... 2020-11-09 05:06:02 -05:00			`// Update in database`
WIP: new user management and authentication system, use go 1.16 embed 2021-02-24 15:24:45 -05:00			`if err := s.peers.UpdatePeer(peer); err != nil {`
cleanup 2021-02-26 16:17:04 -05:00			`return errors.WithMessage(err, "failed to update peer")`
wip: create/update/... 2020-11-09 05:06:02 -05:00			`}`

WIP: support for multiple WireGuard devices (#2) 2021-03-21 07:36:11 -04:00			`return s.WriteWireGuardConfigFile(peer.DeviceName)`
wip: create/update/... 2020-11-09 05:06:02 -05:00			`}`

WIP: support for multiple WireGuard devices (#2) 2021-03-21 07:36:11 -04:00			`// DeletePeer removes the peer from the physical WireGuard interface and the database.`
			`func (s *Server) DeletePeer(peer wireguard.Peer) error {`
wip: create/update/... 2020-11-09 05:06:02 -05:00			`// Delete WireGuard peer`
improve client mode, todo: migrate peers (new db schema) 2021-04-05 14:00:11 -04:00			`if err := s.wg.RemovePeer(peer.DeviceName, peer.PublicKey); err != nil {`
cleanup 2021-02-26 16:17:04 -05:00			`return errors.WithMessage(err, "failed to remove WireGuard peer")`
wip: create/update/... 2020-11-09 05:06:02 -05:00			`}`

			`// Delete in database`
WIP: new user management and authentication system, use go 1.16 embed 2021-02-24 15:24:45 -05:00			`if err := s.peers.DeletePeer(peer); err != nil {`
cleanup 2021-02-26 16:17:04 -05:00			`return errors.WithMessage(err, "failed to remove peer")`
wip: create/update/... 2020-11-09 05:06:02 -05:00			`}`

WIP: support for multiple WireGuard devices (#2) 2021-03-21 07:36:11 -04:00			`return s.WriteWireGuardConfigFile(peer.DeviceName)`
wip: create/update/... 2020-11-09 05:06:02 -05:00			`}`
wip: many small fixes and improvements... 2020-11-09 17:36:19 -05:00
WIP: support for multiple WireGuard devices (#2) 2021-03-21 07:36:11 -04:00			`// RestoreWireGuardInterface restores the state of the physical WireGuard interface from the database.`
			`func (s *Server) RestoreWireGuardInterface(device string) error {`
			`activePeers := s.peers.GetActivePeers(device)`
support different interface types: client and server mode 2021-04-05 12:38:38 -04:00			`dev := s.peers.GetDevice(device)`
wip: many small fixes and improvements... 2020-11-09 17:36:19 -05:00
WIP: new user management and authentication system, use go 1.16 embed 2021-02-24 15:24:45 -05:00			`for i := range activePeers {`
			`if activePeers[i].Peer == nil {`
support different interface types: client and server mode 2021-04-05 12:38:38 -04:00			`if err := s.wg.AddPeer(device, activePeers[i].GetConfig(&dev)); err != nil {`
cleanup 2021-02-26 16:17:04 -05:00			`return errors.WithMessage(err, "failed to add WireGuard peer")`
wip: many small fixes and improvements... 2020-11-09 17:36:19 -05:00			`}`
			`}`
			`}`

			`return nil`
			`}`
wip: update cfg file 2020-11-09 17:43:57 -05:00
WIP: support for multiple WireGuard devices (#2) 2021-03-21 07:36:11 -04:00			`// WriteWireGuardConfigFile writes the configuration file for the physical WireGuard interface.`
			`func (s *Server) WriteWireGuardConfigFile(device string) error {`
			`if s.config.WG.ConfigDirectoryPath == "" {`
wip: update cfg file 2020-11-09 17:43:57 -05:00			`return nil // writing disabled`
			`}`
WIP: support for multiple WireGuard devices (#2) 2021-03-21 07:36:11 -04:00			`if err := syscall.Access(s.config.WG.ConfigDirectoryPath, syscall.O_RDWR); err != nil {`
cleanup 2021-02-26 16:17:04 -05:00			`return errors.Wrap(err, "failed to check WireGuard config access rights")`
wip: update cfg file 2020-11-09 17:43:57 -05:00			`}`

WIP: support for multiple WireGuard devices (#2) 2021-03-21 07:36:11 -04:00			`dev := s.peers.GetDevice(device)`
			`cfg, err := dev.GetConfigFile(s.peers.GetActivePeers(device))`
wip: update cfg file 2020-11-09 17:43:57 -05:00			`if err != nil {`
cleanup 2021-02-26 16:17:04 -05:00			`return errors.WithMessage(err, "failed to get config file")`
wip: update cfg file 2020-11-09 17:43:57 -05:00			`}`
WIP: support for multiple WireGuard devices (#2) 2021-03-21 07:36:11 -04:00			`filePath := path.Join(s.config.WG.ConfigDirectoryPath, dev.DeviceName+".conf")`
			`if err := ioutil.WriteFile(filePath, cfg, 0644); err != nil {`
cleanup 2021-02-26 16:17:04 -05:00			`return errors.Wrap(err, "failed to write WireGuard config file")`
wip: update cfg file 2020-11-09 17:43:57 -05:00			`}`
			`return nil`
			`}`
cleanup 2021-02-26 16:17:04 -05:00
WIP: support for multiple WireGuard devices (#2) 2021-03-21 07:36:11 -04:00			`// CreateUser creates the user in the database and optionally adds a default WireGuard peer for the user.`
			`func (s *Server) CreateUser(user users.User, device string) error {`
cleanup 2021-02-26 16:17:04 -05:00			`if user.Email == "" {`
			`return errors.New("cannot create user with empty email address")`
			`}`

			`// Check if user already exists, if so re-enable`
			`if existingUser := s.users.GetUserUnscoped(user.Email); existingUser != nil {`
			`user.DeletedAt = gorm.DeletedAt{} // reset deleted flag to enable that user again`
			`return s.UpdateUser(user)`
			`}`

			`// Create user in database`
			`if err := s.users.CreateUser(&user); err != nil {`
			`return errors.WithMessage(err, "failed to create user in manager")`
			`}`

			`// Check if user already has a peer setup, if not, create one`
WIP: support for multiple WireGuard devices (#2) 2021-03-21 07:36:11 -04:00			`return s.CreateUserDefaultPeer(user.Email, device)`
cleanup 2021-02-26 16:17:04 -05:00			`}`

WIP: support for multiple WireGuard devices (#2) 2021-03-21 07:36:11 -04:00			`// UpdateUser updates the user in the database. If the user is marked as deleted, it will get remove from the database.`
			`// Also, if the user is re-enabled, all it's linked WireGuard peers will be activated again.`
cleanup 2021-02-26 16:17:04 -05:00			`func (s *Server) UpdateUser(user users.User) error {`
			`if user.DeletedAt.Valid {`
			`return s.DeleteUser(user)`
			`}`

			`currentUser := s.users.GetUserUnscoped(user.Email)`

			`// Update in database`
			`if err := s.users.UpdateUser(&user); err != nil {`
			`return errors.WithMessage(err, "failed to update user in manager")`
			`}`

			`// If user was deleted (disabled), reactivate it's peers`
			`if currentUser.DeletedAt.Valid {`
			`for _, peer := range s.peers.GetPeersByMail(user.Email) {`
			`now := time.Now()`
			`peer.DeactivatedAt = nil`
			`if err := s.UpdatePeer(peer, now); err != nil {`
			`logrus.Errorf("failed to update (re)activated peer %s for %s: %v", peer.PublicKey, user.Email, err)`
			`}`
			`}`
			`}`

			`return nil`
			`}`

WIP: support for multiple WireGuard devices (#2) 2021-03-21 07:36:11 -04:00			`// DeleteUser removes the user from the database.`
			`// Also, if the user has linked WireGuard peers, they will be deactivated.`
cleanup 2021-02-26 16:17:04 -05:00			`func (s *Server) DeleteUser(user users.User) error {`
			`currentUser := s.users.GetUserUnscoped(user.Email)`

			`// Update in database`
			`if err := s.users.DeleteUser(&user); err != nil {`
			`return errors.WithMessage(err, "failed to delete user in manager")`
			`}`

			`// If user was active, disable it's peers`
			`if !currentUser.DeletedAt.Valid {`
			`for _, peer := range s.peers.GetPeersByMail(user.Email) {`
			`now := time.Now()`
			`peer.DeactivatedAt = &now`
			`if err := s.UpdatePeer(peer, now); err != nil {`
			`logrus.Errorf("failed to update deactivated peer %s for %s: %v", peer.PublicKey, user.Email, err)`
			`}`
			`}`
			`}`

			`return nil`
			`}`

WIP: support for multiple WireGuard devices (#2) 2021-03-21 07:36:11 -04:00			`func (s *Server) CreateUserDefaultPeer(email, device string) error {`
cleanup 2021-02-26 16:17:04 -05:00			`// Check if user is active, if not, quit`
			`var existingUser *users.User`
			`if existingUser = s.users.GetUser(email); existingUser == nil {`
			`return nil`
			`}`

			`// Check if user already has a peer setup, if not, create one`
			`if s.config.Core.CreateDefaultPeer {`
			`peers := s.peers.GetPeersByMail(email)`
			`if len(peers) == 0 { // Create default vpn peer`
WIP: support for multiple WireGuard devices (#2) 2021-03-21 07:36:11 -04:00			`if err := s.CreatePeer(device, wireguard.Peer{`
cleanup 2021-02-26 16:17:04 -05:00			`Identifier: existingUser.Firstname + " " + existingUser.Lastname + " (Default)",`
			`Email: existingUser.Email,`
			`CreatedBy: existingUser.Email,`
			`UpdatedBy: existingUser.Email,`
			`}); err != nil {`
			`return errors.WithMessagef(err, "failed to automatically create vpn peer for %s", email)`
			`}`
			`}`
			`}`

			`return nil`
			`}`
fix some bugs in client mode, improve login ui 2021-04-05 13:12:27 -04:00
			`func (s *Server) GetDeviceNames() map[string]string {`
			`devNames := make(map[string]string, len(s.wg.Cfg.DeviceNames))`

			`for _, devName := range s.wg.Cfg.DeviceNames {`
			`dev := s.peers.GetDevice(devName)`
			`devNames[devName] = dev.DisplayName`
			`}`

			`return devNames`
			`}`