netbird/management/server/account.go

2123 lines
73 KiB
Go
Raw Normal View History

package server
import (
"context"
2023-03-16 15:57:44 +01:00
"crypto/sha256"
2023-03-29 15:21:53 +02:00
b64 "encoding/base64"
"fmt"
2023-03-16 15:57:44 +01:00
"hash/crc32"
"math/rand"
"net"
"net/netip"
"reflect"
"regexp"
"slices"
"strings"
"sync"
"time"
"github.com/eko/gocache/v3/cache"
cacheStore "github.com/eko/gocache/v3/store"
gocache "github.com/patrickmn/go-cache"
"github.com/rs/xid"
log "github.com/sirupsen/logrus"
"golang.org/x/exp/maps"
2023-05-16 12:57:56 +02:00
"github.com/netbirdio/netbird/base62"
nbdns "github.com/netbirdio/netbird/dns"
Release 0.28.0 (#2092) * compile client under freebsd (#1620) Compile netbird client under freebsd and now support netstack and userspace modes. Refactoring linux specific code to share same code with FreeBSD, move to *_unix.go files. Not implemented yet: Kernel mode not supported DNS probably does not work yet Routing also probably does not work yet SSH support did not tested yet Lack of test environment for freebsd (dedicated VM for github runners under FreeBSD required) Lack of tests for freebsd specific code info reporting need to review and also implement, for example OS reported as GENERIC instead of FreeBSD (lack of FreeBSD icon in management interface) Lack of proper client setup under FreeBSD Lack of FreeBSD port/package * Add DNS routes (#1943) Given domains are resolved periodically and resolved IPs are replaced with the new ones. Unless the flag keep_route is set to true, then only new ones are added. This option is helpful if there are long-running connections that might still point to old IP addresses from changed DNS records. * Add process posture check (#1693) Introduces a process posture check to validate the existence and active status of specific binaries on peer systems. The check ensures that files are present at specified paths, and that corresponding processes are running. This check supports Linux, Windows, and macOS systems. Co-authored-by: Evgenii <mail@skillcoder.com> Co-authored-by: Pascal Fischer <pascal@netbird.io> Co-authored-by: Zoltan Papp <zoltan.pmail@gmail.com> Co-authored-by: Viktor Liu <17948409+lixmal@users.noreply.github.com> Co-authored-by: Bethuel Mmbaga <bethuelmbaga12@gmail.com>
2024-06-13 13:24:24 +02:00
"github.com/netbirdio/netbird/management/domain"
2023-11-28 14:34:57 +01:00
"github.com/netbirdio/netbird/management/server/account"
"github.com/netbirdio/netbird/management/server/activity"
"github.com/netbirdio/netbird/management/server/geolocation"
nbgroup "github.com/netbirdio/netbird/management/server/group"
"github.com/netbirdio/netbird/management/server/idp"
"github.com/netbirdio/netbird/management/server/integrated_validator"
"github.com/netbirdio/netbird/management/server/integration_reference"
"github.com/netbirdio/netbird/management/server/jwtclaims"
2023-11-28 13:45:26 +01:00
nbpeer "github.com/netbirdio/netbird/management/server/peer"
"github.com/netbirdio/netbird/management/server/posture"
"github.com/netbirdio/netbird/management/server/status"
"github.com/netbirdio/netbird/route"
)
const (
PublicCategory = "public"
PrivateCategory = "private"
UnknownCategory = "unknown"
CacheExpirationMax = 7 * 24 * 3600 * time.Second // 7 days
CacheExpirationMin = 3 * 24 * 3600 * time.Second // 3 days
DefaultPeerLoginExpiration = 24 * time.Hour
)
type userLoggedInOnce bool
type ExternalCacheManager cache.CacheInterface[*idp.UserData]
func cacheEntryExpiration() time.Duration {
r := rand.Intn(int(CacheExpirationMax.Milliseconds()-CacheExpirationMin.Milliseconds())) + int(CacheExpirationMin.Milliseconds())
return time.Duration(r) * time.Millisecond
}
type AccountManager interface {
GetOrCreateAccountByUser(ctx context.Context, userId, domain string) (*Account, error)
CreateSetupKey(ctx context.Context, accountID string, keyName string, keyType SetupKeyType, expiresIn time.Duration,
autoGroups []string, usageLimit int, userID string, ephemeral bool) (*SetupKey, error)
SaveSetupKey(ctx context.Context, accountID string, key *SetupKey, userID string) (*SetupKey, error)
CreateUser(ctx context.Context, accountID, initiatorUserID string, key *UserInfo) (*UserInfo, error)
DeleteUser(ctx context.Context, accountID, initiatorUserID string, targetUserID string) error
InviteUser(ctx context.Context, accountID string, initiatorUserID string, targetUserID string) error
ListSetupKeys(ctx context.Context, accountID, userID string) ([]*SetupKey, error)
SaveUser(ctx context.Context, accountID, initiatorUserID string, update *User) (*UserInfo, error)
SaveOrAddUser(ctx context.Context, accountID, initiatorUserID string, update *User, addIfNotExists bool) (*UserInfo, error)
GetSetupKey(ctx context.Context, accountID, userID, keyID string) (*SetupKey, error)
GetAccountByUserOrAccountID(ctx context.Context, userID, accountID, domain string) (*Account, error)
GetAccountFromToken(ctx context.Context, claims jwtclaims.AuthorizationClaims) (*Account, *User, error)
CheckUserAccessByJWTGroups(ctx context.Context, claims jwtclaims.AuthorizationClaims) error
GetAccountFromPAT(ctx context.Context, pat string) (*Account, *User, *PersonalAccessToken, error)
DeleteAccount(ctx context.Context, accountID, userID string) error
MarkPATUsed(ctx context.Context, tokenID string) error
GetUser(ctx context.Context, claims jwtclaims.AuthorizationClaims) (*User, error)
ListUsers(ctx context.Context, accountID string) ([]*User, error)
GetPeers(ctx context.Context, accountID, userID string) ([]*nbpeer.Peer, error)
MarkPeerConnected(ctx context.Context, peerKey string, connected bool, realIP net.IP, account *Account) error
DeletePeer(ctx context.Context, accountID, peerID, userID string) error
UpdatePeer(ctx context.Context, accountID, userID string, peer *nbpeer.Peer) (*nbpeer.Peer, error)
GetNetworkMap(ctx context.Context, peerID string) (*NetworkMap, error)
GetPeerNetwork(ctx context.Context, peerID string) (*Network, error)
AddPeer(ctx context.Context, setupKey, userID string, peer *nbpeer.Peer) (*nbpeer.Peer, *NetworkMap, []*posture.Checks, error)
CreatePAT(ctx context.Context, accountID string, initiatorUserID string, targetUserID string, tokenName string, expiresIn int) (*PersonalAccessTokenGenerated, error)
DeletePAT(ctx context.Context, accountID string, initiatorUserID string, targetUserID string, tokenID string) error
GetPAT(ctx context.Context, accountID string, initiatorUserID string, targetUserID string, tokenID string) (*PersonalAccessToken, error)
GetAllPATs(ctx context.Context, accountID string, initiatorUserID string, targetUserID string) ([]*PersonalAccessToken, error)
UpdatePeerSSHKey(ctx context.Context, peerID string, sshKey string) error
GetUsersFromAccount(ctx context.Context, accountID, userID string) ([]*UserInfo, error)
GetGroup(ctx context.Context, accountId, groupID, userID string) (*nbgroup.Group, error)
GetAllGroups(ctx context.Context, accountID, userID string) ([]*nbgroup.Group, error)
GetGroupByName(ctx context.Context, groupName, accountID string) (*nbgroup.Group, error)
SaveGroup(ctx context.Context, accountID, userID string, group *nbgroup.Group) error
DeleteGroup(ctx context.Context, accountId, userId, groupID string) error
ListGroups(ctx context.Context, accountId string) ([]*nbgroup.Group, error)
GroupAddPeer(ctx context.Context, accountId, groupID, peerID string) error
GroupDeletePeer(ctx context.Context, accountId, groupID, peerID string) error
GetPolicy(ctx context.Context, accountID, policyID, userID string) (*Policy, error)
SavePolicy(ctx context.Context, accountID, userID string, policy *Policy) error
DeletePolicy(ctx context.Context, accountID, policyID, userID string) error
ListPolicies(ctx context.Context, accountID, userID string) ([]*Policy, error)
GetRoute(ctx context.Context, accountID string, routeID route.ID, userID string) (*route.Route, error)
CreateRoute(ctx context.Context, accountID string, prefix netip.Prefix, networkType route.NetworkType, domains domain.List, peerID string, peerGroupIDs []string, description string, netID route.NetID, masquerade bool, metric int, groups []string, enabled bool, userID string, keepRoute bool) (*route.Route, error)
SaveRoute(ctx context.Context, accountID, userID string, route *route.Route) error
DeleteRoute(ctx context.Context, accountID string, routeID route.ID, userID string) error
ListRoutes(ctx context.Context, accountID, userID string) ([]*route.Route, error)
GetNameServerGroup(ctx context.Context, accountID, userID, nsGroupID string) (*nbdns.NameServerGroup, error)
CreateNameServerGroup(ctx context.Context, accountID string, name, description string, nameServerList []nbdns.NameServer, groups []string, primary bool, domains []string, enabled bool, userID string, searchDomainsEnabled bool) (*nbdns.NameServerGroup, error)
SaveNameServerGroup(ctx context.Context, accountID, userID string, nsGroupToSave *nbdns.NameServerGroup) error
DeleteNameServerGroup(ctx context.Context, accountID, nsGroupID, userID string) error
ListNameServerGroups(ctx context.Context, accountID string, userID string) ([]*nbdns.NameServerGroup, error)
GetDNSDomain() string
StoreEvent(ctx context.Context, initiatorID, targetID, accountID string, activityID activity.ActivityDescriber, meta map[string]any)
GetEvents(ctx context.Context, accountID, userID string) ([]*activity.Event, error)
GetDNSSettings(ctx context.Context, accountID string, userID string) (*DNSSettings, error)
SaveDNSSettings(ctx context.Context, accountID string, userID string, dnsSettingsToSave *DNSSettings) error
GetPeer(ctx context.Context, accountID, peerID, userID string) (*nbpeer.Peer, error)
UpdateAccountSettings(ctx context.Context, accountID, userID string, newSettings *Settings) (*Account, error)
LoginPeer(ctx context.Context, login PeerLogin) (*nbpeer.Peer, *NetworkMap, []*posture.Checks, error) // used by peer gRPC API
SyncPeer(ctx context.Context, sync PeerSync, account *Account) (*nbpeer.Peer, *NetworkMap, []*posture.Checks, error) // used by peer gRPC API
GetAllConnectedPeers() (map[string]struct{}, error)
HasConnectedChannel(peerID string) bool
GetExternalCacheManager() ExternalCacheManager
GetPostureChecks(ctx context.Context, accountID, postureChecksID, userID string) (*posture.Checks, error)
SavePostureChecks(ctx context.Context, accountID, userID string, postureChecks *posture.Checks) error
DeletePostureChecks(ctx context.Context, accountID, postureChecksID, userID string) error
ListPostureChecks(ctx context.Context, accountID, userID string) ([]*posture.Checks, error)
GetIdpManager() idp.Manager
UpdateIntegratedValidatorGroups(ctx context.Context, accountID string, userID string, groups []string) error
GroupValidation(ctx context.Context, accountId string, groups []string) (bool, error)
GetValidatedPeers(account *Account) (map[string]struct{}, error)
SyncAndMarkPeer(ctx context.Context, peerPubKey string, meta nbpeer.PeerSystemMeta, realIP net.IP) (*nbpeer.Peer, *NetworkMap, []*posture.Checks, error)
CancelPeerRoutines(ctx context.Context, peer *nbpeer.Peer) error
SyncPeerMeta(ctx context.Context, peerPubKey string, meta nbpeer.PeerSystemMeta) error
2024-05-30 15:22:42 +02:00
FindExistingPostureCheck(accountID string, checks *posture.ChecksDefinition) (*posture.Checks, error)
GetAccountIDForPeerKey(ctx context.Context, peerKey string) (string, error)
}
type DefaultAccountManager struct {
Store Store
// cacheMux and cacheLoading helps to make sure that only a single cache reload runs at a time per accountID
cacheMux sync.Mutex
// cacheLoading keeps the accountIDs that are currently reloading. The accountID has to be removed once cache has been reloaded
cacheLoading map[string]chan struct{}
peersUpdateManager *PeersUpdateManager
idpManager idp.Manager
cacheManager cache.CacheInterface[[]*idp.UserData]
externalCacheManager ExternalCacheManager
ctx context.Context
eventStore activity.Store
geo *geolocation.Geolocation
2022-10-19 17:43:28 +02:00
// singleAccountMode indicates whether the instance has a single account.
// If true, then every new user will end up under the same account.
// This value will be set to false if management service has more than one account.
singleAccountMode bool
// singleAccountModeDomain is a domain to use in singleAccountMode setup
singleAccountModeDomain string
// dnsDomain is used for peer resolution. This is appended to the peer's name
dnsDomain string
peerLoginExpiry Scheduler
// userDeleteFromIDPEnabled allows to delete user from IDP when user is deleted from account
userDeleteFromIDPEnabled bool
integratedPeerValidator integrated_validator.IntegratedValidator
}
// Settings represents Account settings structure that can be modified via API and Dashboard
type Settings struct {
// PeerLoginExpirationEnabled globally enables or disables peer login expiration
PeerLoginExpirationEnabled bool
// PeerLoginExpiration is a setting that indicates when peer login expires.
// Applies to all peers that have Peer.LoginExpirationEnabled set to true.
PeerLoginExpiration time.Duration
2024-03-27 16:11:45 +01:00
// RegularUsersViewBlocked allows to block regular users from viewing even their own peers and some UI elements
RegularUsersViewBlocked bool
// GroupsPropagationEnabled allows to propagate auto groups from the user to the peer
GroupsPropagationEnabled bool
// JWTGroupsEnabled allows extract groups from JWT claim, which name defined in the JWTGroupsClaimName
// and add it to account groups.
JWTGroupsEnabled bool
// JWTGroupsClaimName from which we extract groups name to add it to account groups
JWTGroupsClaimName string
2023-11-27 17:04:40 +01:00
// JWTAllowGroups list of groups to which users are allowed access
JWTAllowGroups []string `gorm:"serializer:json"`
// Extra is a dictionary of Account settings
2023-11-30 11:51:35 +01:00
Extra *account.ExtraSettings `gorm:"embedded;embeddedPrefix:extra_"`
2023-11-27 17:04:40 +01:00
}
// Copy copies the Settings struct
func (s *Settings) Copy() *Settings {
2023-11-28 13:45:26 +01:00
settings := &Settings{
PeerLoginExpirationEnabled: s.PeerLoginExpirationEnabled,
PeerLoginExpiration: s.PeerLoginExpiration,
JWTGroupsEnabled: s.JWTGroupsEnabled,
JWTGroupsClaimName: s.JWTGroupsClaimName,
GroupsPropagationEnabled: s.GroupsPropagationEnabled,
JWTAllowGroups: s.JWTAllowGroups,
2024-03-27 16:11:45 +01:00
RegularUsersViewBlocked: s.RegularUsersViewBlocked,
}
2023-11-28 13:45:26 +01:00
if s.Extra != nil {
settings.Extra = s.Extra.Copy()
}
return settings
}
// Account represents a unique account of the system
type Account struct {
// we have to name column to aid as it collides with Network.Id when work with associations
Id string `gorm:"primaryKey"`
// User.Id it was created by
CreatedBy string
CreatedAt time.Time
Domain string `gorm:"index"`
DomainCategory string
IsDomainPrimaryAccount bool
SetupKeys map[string]*SetupKey `gorm:"-"`
SetupKeysG []SetupKey `json:"-" gorm:"foreignKey:AccountID;references:id"`
Network *Network `gorm:"embedded;embeddedPrefix:network_"`
2023-11-28 13:45:26 +01:00
Peers map[string]*nbpeer.Peer `gorm:"-"`
PeersG []nbpeer.Peer `json:"-" gorm:"foreignKey:AccountID;references:id"`
Users map[string]*User `gorm:"-"`
UsersG []User `json:"-" gorm:"foreignKey:AccountID;references:id"`
Groups map[string]*nbgroup.Group `gorm:"-"`
GroupsG []nbgroup.Group `json:"-" gorm:"foreignKey:AccountID;references:id"`
Policies []*Policy `gorm:"foreignKey:AccountID;references:id"`
2024-05-06 14:47:49 +02:00
Routes map[route.ID]*route.Route `gorm:"-"`
RoutesG []route.Route `json:"-" gorm:"foreignKey:AccountID;references:id"`
NameServerGroups map[string]*nbdns.NameServerGroup `gorm:"-"`
NameServerGroupsG []nbdns.NameServerGroup `json:"-" gorm:"foreignKey:AccountID;references:id"`
DNSSettings DNSSettings `gorm:"embedded;embeddedPrefix:dns_settings_"`
PostureChecks []*posture.Checks `gorm:"foreignKey:AccountID;references:id"`
// Settings is a dictionary of Account settings
Settings *Settings `gorm:"embedded;embeddedPrefix:settings_"`
}
2024-05-31 16:41:12 +02:00
// Subclass used in gorm to only load settings and not whole account
type AccountSettings struct {
Settings *Settings `gorm:"embedded;embeddedPrefix:settings_"`
}
2024-03-27 16:11:45 +01:00
type UserPermissions struct {
DashboardView string `json:"dashboard_view"`
}
type UserInfo struct {
ID string `json:"id"`
Email string `json:"email"`
Name string `json:"name"`
Role string `json:"role"`
AutoGroups []string `json:"auto_groups"`
Status string `json:"-"`
IsServiceUser bool `json:"is_service_user"`
IsBlocked bool `json:"is_blocked"`
NonDeletable bool `json:"non_deletable"`
LastLogin time.Time `json:"last_login"`
Issued string `json:"issued"`
IntegrationReference integration_reference.IntegrationReference `json:"-"`
Permissions UserPermissions `json:"permissions"`
}
// getRoutesToSync returns the enabled routes for the peer ID and the routes
// from the ACL peers that have distribution groups associated with the peer ID.
// Please mind, that the returned route.Route objects will contain Peer.Key instead of Peer.ID.
func (a *Account) getRoutesToSync(ctx context.Context, peerID string, aclPeers []*nbpeer.Peer) []*route.Route {
routes, peerDisabledRoutes := a.getRoutingPeerRoutes(ctx, peerID)
peerRoutesMembership := make(lookupMap)
for _, r := range append(routes, peerDisabledRoutes...) {
Release 0.28.0 (#2092) * compile client under freebsd (#1620) Compile netbird client under freebsd and now support netstack and userspace modes. Refactoring linux specific code to share same code with FreeBSD, move to *_unix.go files. Not implemented yet: Kernel mode not supported DNS probably does not work yet Routing also probably does not work yet SSH support did not tested yet Lack of test environment for freebsd (dedicated VM for github runners under FreeBSD required) Lack of tests for freebsd specific code info reporting need to review and also implement, for example OS reported as GENERIC instead of FreeBSD (lack of FreeBSD icon in management interface) Lack of proper client setup under FreeBSD Lack of FreeBSD port/package * Add DNS routes (#1943) Given domains are resolved periodically and resolved IPs are replaced with the new ones. Unless the flag keep_route is set to true, then only new ones are added. This option is helpful if there are long-running connections that might still point to old IP addresses from changed DNS records. * Add process posture check (#1693) Introduces a process posture check to validate the existence and active status of specific binaries on peer systems. The check ensures that files are present at specified paths, and that corresponding processes are running. This check supports Linux, Windows, and macOS systems. Co-authored-by: Evgenii <mail@skillcoder.com> Co-authored-by: Pascal Fischer <pascal@netbird.io> Co-authored-by: Zoltan Papp <zoltan.pmail@gmail.com> Co-authored-by: Viktor Liu <17948409+lixmal@users.noreply.github.com> Co-authored-by: Bethuel Mmbaga <bethuelmbaga12@gmail.com>
2024-06-13 13:24:24 +02:00
peerRoutesMembership[string(r.GetHAUniqueID())] = struct{}{}
}
groupListMap := a.getPeerGroups(peerID)
for _, peer := range aclPeers {
activeRoutes, _ := a.getRoutingPeerRoutes(ctx, peer.ID)
groupFilteredRoutes := a.filterRoutesByGroups(activeRoutes, groupListMap)
filteredRoutes := a.filterRoutesFromPeersOfSameHAGroup(groupFilteredRoutes, peerRoutesMembership)
routes = append(routes, filteredRoutes...)
}
return routes
}
// filterRoutesFromPeersOfSameHAGroup filters and returns a list of routes that don't share the same HA route membership
func (a *Account) filterRoutesFromPeersOfSameHAGroup(routes []*route.Route, peerMemberships lookupMap) []*route.Route {
var filteredRoutes []*route.Route
for _, r := range routes {
Release 0.28.0 (#2092) * compile client under freebsd (#1620) Compile netbird client under freebsd and now support netstack and userspace modes. Refactoring linux specific code to share same code with FreeBSD, move to *_unix.go files. Not implemented yet: Kernel mode not supported DNS probably does not work yet Routing also probably does not work yet SSH support did not tested yet Lack of test environment for freebsd (dedicated VM for github runners under FreeBSD required) Lack of tests for freebsd specific code info reporting need to review and also implement, for example OS reported as GENERIC instead of FreeBSD (lack of FreeBSD icon in management interface) Lack of proper client setup under FreeBSD Lack of FreeBSD port/package * Add DNS routes (#1943) Given domains are resolved periodically and resolved IPs are replaced with the new ones. Unless the flag keep_route is set to true, then only new ones are added. This option is helpful if there are long-running connections that might still point to old IP addresses from changed DNS records. * Add process posture check (#1693) Introduces a process posture check to validate the existence and active status of specific binaries on peer systems. The check ensures that files are present at specified paths, and that corresponding processes are running. This check supports Linux, Windows, and macOS systems. Co-authored-by: Evgenii <mail@skillcoder.com> Co-authored-by: Pascal Fischer <pascal@netbird.io> Co-authored-by: Zoltan Papp <zoltan.pmail@gmail.com> Co-authored-by: Viktor Liu <17948409+lixmal@users.noreply.github.com> Co-authored-by: Bethuel Mmbaga <bethuelmbaga12@gmail.com>
2024-06-13 13:24:24 +02:00
_, found := peerMemberships[string(r.GetHAUniqueID())]
if !found {
filteredRoutes = append(filteredRoutes, r)
}
}
return filteredRoutes
}
// filterRoutesByGroups returns a list with routes that have distribution groups in the group's map
func (a *Account) filterRoutesByGroups(routes []*route.Route, groupListMap lookupMap) []*route.Route {
var filteredRoutes []*route.Route
for _, r := range routes {
for _, groupID := range r.Groups {
_, found := groupListMap[groupID]
if found {
filteredRoutes = append(filteredRoutes, r)
break
}
}
}
return filteredRoutes
}
// getRoutingPeerRoutes returns the enabled and disabled lists of routes that the given routing peer serves
// Please mind, that the returned route.Route objects will contain Peer.Key instead of Peer.ID.
// If the given is not a routing peer, then the lists are empty.
func (a *Account) getRoutingPeerRoutes(ctx context.Context, peerID string) (enabledRoutes []*route.Route, disabledRoutes []*route.Route) {
peer := a.GetPeer(peerID)
if peer == nil {
log.WithContext(ctx).Errorf("peer %s that doesn't exist under account %s", peerID, a.Id)
return enabledRoutes, disabledRoutes
}
// currently we support only linux routing peers
if peer.Meta.GoOS != "linux" {
return enabledRoutes, disabledRoutes
}
2024-05-06 14:47:49 +02:00
seenRoute := make(map[route.ID]struct{})
takeRoute := func(r *route.Route, id string) {
if _, ok := seenRoute[r.ID]; ok {
return
}
seenRoute[r.ID] = struct{}{}
if r.Enabled {
r.Peer = peer.Key
enabledRoutes = append(enabledRoutes, r)
return
}
disabledRoutes = append(disabledRoutes, r)
}
for _, r := range a.Routes {
for _, groupID := range r.PeerGroups {
group := a.GetGroup(groupID)
if group == nil {
log.WithContext(ctx).Errorf("route %s has peers group %s that doesn't exist under account %s", r.ID, groupID, a.Id)
continue
}
for _, id := range group.Peers {
if id != peerID {
continue
}
newPeerRoute := r.Copy()
newPeerRoute.Peer = id
newPeerRoute.PeerGroups = nil
2024-05-06 14:47:49 +02:00
newPeerRoute.ID = route.ID(string(r.ID) + ":" + id) // we have to provide unique route id when distribute network map
takeRoute(newPeerRoute, id)
break
}
}
if r.Peer == peerID {
takeRoute(r.Copy(), peerID)
}
}
return enabledRoutes, disabledRoutes
}
Release 0.28.0 (#2092) * compile client under freebsd (#1620) Compile netbird client under freebsd and now support netstack and userspace modes. Refactoring linux specific code to share same code with FreeBSD, move to *_unix.go files. Not implemented yet: Kernel mode not supported DNS probably does not work yet Routing also probably does not work yet SSH support did not tested yet Lack of test environment for freebsd (dedicated VM for github runners under FreeBSD required) Lack of tests for freebsd specific code info reporting need to review and also implement, for example OS reported as GENERIC instead of FreeBSD (lack of FreeBSD icon in management interface) Lack of proper client setup under FreeBSD Lack of FreeBSD port/package * Add DNS routes (#1943) Given domains are resolved periodically and resolved IPs are replaced with the new ones. Unless the flag keep_route is set to true, then only new ones are added. This option is helpful if there are long-running connections that might still point to old IP addresses from changed DNS records. * Add process posture check (#1693) Introduces a process posture check to validate the existence and active status of specific binaries on peer systems. The check ensures that files are present at specified paths, and that corresponding processes are running. This check supports Linux, Windows, and macOS systems. Co-authored-by: Evgenii <mail@skillcoder.com> Co-authored-by: Pascal Fischer <pascal@netbird.io> Co-authored-by: Zoltan Papp <zoltan.pmail@gmail.com> Co-authored-by: Viktor Liu <17948409+lixmal@users.noreply.github.com> Co-authored-by: Bethuel Mmbaga <bethuelmbaga12@gmail.com>
2024-06-13 13:24:24 +02:00
// GetRoutesByPrefixOrDomains return list of routes by account and route prefix
func (a *Account) GetRoutesByPrefixOrDomains(prefix netip.Prefix, domains domain.List) []*route.Route {
var routes []*route.Route
for _, r := range a.Routes {
dynamic := r.IsDynamic()
if dynamic && r.Domains.PunycodeString() == domains.PunycodeString() ||
!dynamic && r.Network.String() == prefix.String() {
routes = append(routes, r)
}
}
return routes
}
// GetGroup returns a group by ID if exists, nil otherwise
func (a *Account) GetGroup(groupID string) *nbgroup.Group {
return a.Groups[groupID]
}
// GetPeerNetworkMap returns a group by ID if exists, nil otherwise
func (a *Account) GetPeerNetworkMap(ctx context.Context, peerID, dnsDomain string, validatedPeersMap map[string]struct{}) *NetworkMap {
peer := a.Peers[peerID]
if peer == nil {
return &NetworkMap{
Network: a.Network.Copy(),
}
}
if _, ok := validatedPeersMap[peerID]; !ok {
return &NetworkMap{
Network: a.Network.Copy(),
}
}
aclPeers, firewallRules := a.getPeerConnectionResources(ctx, peerID, validatedPeersMap)
// exclude expired peers
2023-11-28 13:45:26 +01:00
var peersToConnect []*nbpeer.Peer
var expiredPeers []*nbpeer.Peer
for _, p := range aclPeers {
expired, _ := p.LoginExpired(a.Settings.PeerLoginExpiration)
if a.Settings.PeerLoginExpirationEnabled && expired {
expiredPeers = append(expiredPeers, p)
continue
}
peersToConnect = append(peersToConnect, p)
}
routesUpdate := a.getRoutesToSync(ctx, peerID, peersToConnect)
dnsManagementStatus := a.getPeerDNSManagementStatus(peerID)
dnsUpdate := nbdns.Config{
ServiceEnable: dnsManagementStatus,
}
if dnsManagementStatus {
var zones []nbdns.CustomZone
peersCustomZone := getPeersCustomZone(ctx, a, dnsDomain)
if peersCustomZone.Domain != "" {
zones = append(zones, peersCustomZone)
}
dnsUpdate.CustomZones = zones
dnsUpdate.NameServerGroups = getPeerNSGroups(a, peerID)
}
return &NetworkMap{
Peers: peersToConnect,
Network: a.Network.Copy(),
Routes: routesUpdate,
DNSConfig: dnsUpdate,
OfflinePeers: expiredPeers,
FirewallRules: firewallRules,
}
}
// GetExpiredPeers returns peers that have been expired
2023-11-28 13:45:26 +01:00
func (a *Account) GetExpiredPeers() []*nbpeer.Peer {
var peers []*nbpeer.Peer
for _, peer := range a.GetPeersWithExpiration() {
expired, _ := peer.LoginExpired(a.Settings.PeerLoginExpiration)
if expired {
peers = append(peers, peer)
}
}
return peers
}
// GetNextPeerExpiration returns the minimum duration in which the next peer of the account will expire if it was found.
// If there is no peer that expires this function returns false and a duration of 0.
// This function only considers peers that haven't been expired yet and that are connected.
func (a *Account) GetNextPeerExpiration() (time.Duration, bool) {
peersWithExpiry := a.GetPeersWithExpiration()
if len(peersWithExpiry) == 0 {
return 0, false
}
var nextExpiry *time.Duration
for _, peer := range peersWithExpiry {
// consider only connected peers because others will require login on connecting to the management server
if peer.Status.LoginExpired || !peer.Status.Connected {
continue
}
_, duration := peer.LoginExpired(a.Settings.PeerLoginExpiration)
if nextExpiry == nil || duration < *nextExpiry {
// if expiration is below 1s return 1s duration
// this avoids issues with ticker that can't be set to < 0
if duration < time.Second {
return time.Second, true
}
nextExpiry = &duration
}
}
if nextExpiry == nil {
return 0, false
}
return *nextExpiry, true
}
// GetPeersWithExpiration returns a list of peers that have Peer.LoginExpirationEnabled set to true and that were added by a user
2023-11-28 13:45:26 +01:00
func (a *Account) GetPeersWithExpiration() []*nbpeer.Peer {
peers := make([]*nbpeer.Peer, 0)
for _, peer := range a.Peers {
if peer.LoginExpirationEnabled && peer.AddedWithSSOLogin() {
peers = append(peers, peer)
}
}
return peers
}
// GetPeers returns a list of all Account peers
2023-11-28 13:45:26 +01:00
func (a *Account) GetPeers() []*nbpeer.Peer {
var peers []*nbpeer.Peer
for _, peer := range a.Peers {
peers = append(peers, peer)
}
return peers
}
// UpdateSettings saves new account settings
func (a *Account) UpdateSettings(update *Settings) *Account {
a.Settings = update.Copy()
return a
}
// UpdatePeer saves new or replaces existing peer
2023-11-28 13:45:26 +01:00
func (a *Account) UpdatePeer(update *nbpeer.Peer) {
a.Peers[update.ID] = update
}
// DeletePeer deletes peer from the account cleaning up all the references
func (a *Account) DeletePeer(peerID string) {
// delete peer from groups
for _, g := range a.Groups {
for i, pk := range g.Peers {
if pk == peerID {
g.Peers = append(g.Peers[:i], g.Peers[i+1:]...)
break
}
}
}
for _, r := range a.Routes {
if r.Peer == peerID {
r.Enabled = false
r.Peer = ""
}
}
delete(a.Peers, peerID)
a.Network.IncSerial()
}
// FindPeerByPubKey looks for a Peer by provided WireGuard public key in the Account or returns error if it wasn't found.
// It will return an object copy of the peer.
2023-11-28 13:45:26 +01:00
func (a *Account) FindPeerByPubKey(peerPubKey string) (*nbpeer.Peer, error) {
for _, peer := range a.Peers {
if peer.Key == peerPubKey {
return peer.Copy(), nil
}
}
return nil, status.Errorf(status.NotFound, "peer with the public key %s not found", peerPubKey)
}
2023-02-07 20:11:08 +01:00
// FindUserPeers returns a list of peers that user owns (created)
2023-11-28 13:45:26 +01:00
func (a *Account) FindUserPeers(userID string) ([]*nbpeer.Peer, error) {
peers := make([]*nbpeer.Peer, 0)
2023-02-07 20:11:08 +01:00
for _, peer := range a.Peers {
if peer.UserID == userID {
peers = append(peers, peer)
}
}
return peers, nil
}
2022-11-05 10:24:50 +01:00
// FindUser looks for a given user in the Account or returns error if user wasn't found.
func (a *Account) FindUser(userID string) (*User, error) {
user := a.Users[userID]
if user == nil {
return nil, status.Errorf(status.NotFound, "user %s not found", userID)
2022-11-05 10:24:50 +01:00
}
return user, nil
}
// FindGroupByName looks for a given group in the Account by name or returns error if the group wasn't found.
func (a *Account) FindGroupByName(groupName string) (*nbgroup.Group, error) {
for _, group := range a.Groups {
if group.Name == groupName {
return group, nil
}
}
return nil, status.Errorf(status.NotFound, "group %s not found", groupName)
}
// FindSetupKey looks for a given SetupKey in the Account or returns error if it wasn't found.
func (a *Account) FindSetupKey(setupKey string) (*SetupKey, error) {
key := a.SetupKeys[setupKey]
if key == nil {
return nil, status.Errorf(status.NotFound, "setup key not found")
}
return key, nil
}
// GetPeerGroupsList return with the list of groups ID.
func (a *Account) GetPeerGroupsList(peerID string) []string {
var grps []string
for groupID, group := range a.Groups {
for _, id := range group.Peers {
if id == peerID {
grps = append(grps, groupID)
break
}
}
}
return grps
}
func (a *Account) getUserGroups(userID string) ([]string, error) {
user, err := a.FindUser(userID)
if err != nil {
return nil, err
}
return user.AutoGroups, nil
}
func (a *Account) getPeerDNSManagementStatus(peerID string) bool {
peerGroups := a.getPeerGroups(peerID)
enabled := true
for _, groupID := range a.DNSSettings.DisabledManagementGroups {
_, found := peerGroups[groupID]
if found {
enabled = false
break
}
}
return enabled
}
func (a *Account) getPeerGroups(peerID string) lookupMap {
groupList := make(lookupMap)
for groupID, group := range a.Groups {
for _, id := range group.Peers {
if id == peerID {
groupList[groupID] = struct{}{}
break
}
}
}
return groupList
}
func (a *Account) getSetupKeyGroups(setupKey string) ([]string, error) {
key, err := a.FindSetupKey(setupKey)
if err != nil {
return nil, err
}
return key.AutoGroups, nil
}
func (a *Account) getTakenIPs() []net.IP {
var takenIps []net.IP
for _, existingPeer := range a.Peers {
takenIps = append(takenIps, existingPeer.IP)
}
return takenIps
}
func (a *Account) getPeerDNSLabels() lookupMap {
existingLabels := make(lookupMap)
for _, peer := range a.Peers {
if peer.DNSLabel != "" {
existingLabels[peer.DNSLabel] = struct{}{}
}
}
return existingLabels
}
func (a *Account) Copy() *Account {
2023-11-28 13:45:26 +01:00
peers := map[string]*nbpeer.Peer{}
for id, peer := range a.Peers {
peers[id] = peer.Copy()
}
users := map[string]*User{}
for id, user := range a.Users {
users[id] = user.Copy()
}
setupKeys := map[string]*SetupKey{}
for id, key := range a.SetupKeys {
setupKeys[id] = key.Copy()
}
groups := map[string]*nbgroup.Group{}
for id, group := range a.Groups {
groups[id] = group.Copy()
}
policies := []*Policy{}
for _, policy := range a.Policies {
policies = append(policies, policy.Copy())
}
2024-05-06 14:47:49 +02:00
routes := map[route.ID]*route.Route{}
for id, r := range a.Routes {
routes[id] = r.Copy()
}
nsGroups := map[string]*nbdns.NameServerGroup{}
for id, nsGroup := range a.NameServerGroups {
nsGroups[id] = nsGroup.Copy()
}
dnsSettings := a.DNSSettings.Copy()
var settings *Settings
if a.Settings != nil {
settings = a.Settings.Copy()
}
postureChecks := []*posture.Checks{}
for _, postureCheck := range a.PostureChecks {
postureChecks = append(postureChecks, postureCheck.Copy())
}
return &Account{
Id: a.Id,
CreatedBy: a.CreatedBy,
CreatedAt: a.CreatedAt,
Domain: a.Domain,
DomainCategory: a.DomainCategory,
IsDomainPrimaryAccount: a.IsDomainPrimaryAccount,
SetupKeys: setupKeys,
Network: a.Network.Copy(),
Peers: peers,
Users: users,
Groups: groups,
Policies: policies,
Routes: routes,
NameServerGroups: nsGroups,
DNSSettings: dnsSettings,
PostureChecks: postureChecks,
Settings: settings,
}
}
func (a *Account) GetGroupAll() (*nbgroup.Group, error) {
for _, g := range a.Groups {
if g.Name == "All" {
return g, nil
}
}
return nil, fmt.Errorf("no group ALL found")
}
// GetPeer looks up a Peer by ID
2023-11-28 13:45:26 +01:00
func (a *Account) GetPeer(peerID string) *nbpeer.Peer {
return a.Peers[peerID]
}
// SetJWTGroups updates the user's auto groups by synchronizing JWT groups.
// Returns true if there are changes in the JWT group membership.
func (a *Account) SetJWTGroups(userID string, groupsNames []string) bool {
if len(groupsNames) == 0 {
return false
}
user, ok := a.Users[userID]
if !ok {
return false
}
existedGroupsByName := make(map[string]*nbgroup.Group)
for _, group := range a.Groups {
existedGroupsByName[group.Name] = group
}
newAutoGroups, jwtGroupsMap := separateGroups(user.AutoGroups, a.Groups)
groupsToAdd := difference(groupsNames, maps.Keys(jwtGroupsMap))
groupsToRemove := difference(maps.Keys(jwtGroupsMap), groupsNames)
// If no groups are added or removed, we should not sync account
if len(groupsToAdd) == 0 && len(groupsToRemove) == 0 {
return false
}
var modified bool
for _, name := range groupsToAdd {
group, exists := existedGroupsByName[name]
if !exists {
group = &nbgroup.Group{
ID: xid.New().String(),
Name: name,
Issued: nbgroup.GroupIssuedJWT,
}
a.Groups[group.ID] = group
}
if group.Issued == nbgroup.GroupIssuedJWT {
newAutoGroups = append(newAutoGroups, group.ID)
modified = true
}
}
for name, id := range jwtGroupsMap {
if !slices.Contains(groupsToRemove, name) {
newAutoGroups = append(newAutoGroups, id)
continue
}
modified = true
}
user.AutoGroups = newAutoGroups
return modified
}
// UserGroupsAddToPeers adds groups to all peers of user
func (a *Account) UserGroupsAddToPeers(userID string, groups ...string) {
userPeers := make(map[string]struct{})
for pid, peer := range a.Peers {
if peer.UserID == userID {
userPeers[pid] = struct{}{}
}
}
for _, gid := range groups {
group, ok := a.Groups[gid]
if !ok {
continue
}
groupPeers := make(map[string]struct{})
for _, pid := range group.Peers {
groupPeers[pid] = struct{}{}
}
for pid := range userPeers {
groupPeers[pid] = struct{}{}
}
group.Peers = group.Peers[:0]
for pid := range groupPeers {
group.Peers = append(group.Peers, pid)
}
}
}
// UserGroupsRemoveFromPeers removes groups from all peers of user
func (a *Account) UserGroupsRemoveFromPeers(userID string, groups ...string) {
for _, gid := range groups {
group, ok := a.Groups[gid]
if !ok {
continue
}
update := make([]string, 0, len(group.Peers))
for _, pid := range group.Peers {
peer, ok := a.Peers[pid]
if !ok {
continue
}
if peer.UserID != userID {
update = append(update, pid)
}
}
group.Peers = update
}
}
// BuildManager creates a new DefaultAccountManager with a provided Store
func BuildManager(ctx context.Context, store Store, peersUpdateManager *PeersUpdateManager, idpManager idp.Manager,
singleAccountModeDomain string, dnsDomain string, eventStore activity.Store, geo *geolocation.Geolocation,
userDeleteFromIDPEnabled bool,
integratedPeerValidator integrated_validator.IntegratedValidator,
) (*DefaultAccountManager, error) {
am := &DefaultAccountManager{
Store: store,
geo: geo,
peersUpdateManager: peersUpdateManager,
idpManager: idpManager,
ctx: context.Background(),
cacheMux: sync.Mutex{},
cacheLoading: map[string]chan struct{}{},
dnsDomain: dnsDomain,
eventStore: eventStore,
peerLoginExpiry: NewDefaultScheduler(),
userDeleteFromIDPEnabled: userDeleteFromIDPEnabled,
integratedPeerValidator: integratedPeerValidator,
}
allAccounts := store.GetAllAccounts(ctx)
2022-10-19 17:43:28 +02:00
// enable single account mode only if configured by user and number of existing accounts is not grater than 1
am.singleAccountMode = singleAccountModeDomain != "" && len(allAccounts) <= 1
if am.singleAccountMode {
if !isDomainValid(singleAccountModeDomain) {
return nil, status.Errorf(status.InvalidArgument, "invalid domain \"%s\" provided for a single account mode. Please review your input for --single-account-mode-domain", singleAccountModeDomain)
}
2022-10-19 17:43:28 +02:00
am.singleAccountModeDomain = singleAccountModeDomain
log.WithContext(ctx).Infof("single account mode enabled, accounts number %d", len(allAccounts))
2022-10-19 17:43:28 +02:00
} else {
log.WithContext(ctx).Infof("single account mode disabled, accounts number %d", len(allAccounts))
2022-10-19 17:43:28 +02:00
}
2022-10-19 17:43:28 +02:00
// if account doesn't have a default group
2022-06-06 13:45:59 +02:00
// we create 'all' group and add all peers into it
// also we create default rule with source as destination
2022-10-19 17:43:28 +02:00
for _, account := range allAccounts {
shouldSave := false
2022-06-06 13:45:59 +02:00
_, err := account.GetGroupAll()
if err != nil {
if err := addAllGroup(account); err != nil {
return nil, err
}
shouldSave = true
}
if shouldSave {
err = store.SaveAccount(ctx, account)
if err != nil {
2022-06-06 13:45:59 +02:00
return nil, err
}
}
}
2022-10-19 17:43:28 +02:00
goCacheClient := gocache.New(CacheExpirationMax, 30*time.Minute)
goCacheStore := cacheStore.NewGoCache(goCacheClient)
am.cacheManager = cache.NewLoadable[[]*idp.UserData](am.loadAccount, cache.New[[]*idp.UserData](goCacheStore))
// TODO: what is max expiration time? Should be quite long
am.externalCacheManager = cache.New[*idp.UserData](
cacheStore.NewGoCache(goCacheClient),
)
if !isNil(am.idpManager) {
go func() {
err := am.warmupIDPCache(ctx)
if err != nil {
log.WithContext(ctx).Warnf("failed warming up cache due to error: %v", err)
// todo retry?
return
}
}()
}
am.integratedPeerValidator.SetPeerInvalidationListener(func(accountID string) {
am.onPeersInvalidated(ctx, accountID)
})
return am, nil
}
func (am *DefaultAccountManager) GetExternalCacheManager() ExternalCacheManager {
return am.externalCacheManager
}
func (am *DefaultAccountManager) GetIdpManager() idp.Manager {
return am.idpManager
}
// UpdateAccountSettings updates Account settings.
// Only users with role UserRoleAdmin can update the account.
// User that performs the update has to belong to the account.
// Returns an updated Account
func (am *DefaultAccountManager) UpdateAccountSettings(ctx context.Context, accountID, userID string, newSettings *Settings) (*Account, error) {
halfYearLimit := 180 * 24 * time.Hour
if newSettings.PeerLoginExpiration > halfYearLimit {
return nil, status.Errorf(status.InvalidArgument, "peer login expiration can't be larger than 180 days")
}
if newSettings.PeerLoginExpiration < time.Hour {
return nil, status.Errorf(status.InvalidArgument, "peer login expiration can't be smaller than one hour")
}
unlock := am.Store.AcquireAccountWriteLock(ctx, accountID)
defer unlock()
account, err := am.Store.GetAccount(ctx, accountID)
if err != nil {
return nil, err
}
user, err := account.FindUser(userID)
if err != nil {
return nil, err
}
if !user.HasAdminPower() {
return nil, status.Errorf(status.PermissionDenied, "user is not allowed to update account")
}
err = am.integratedPeerValidator.ValidateExtraSettings(ctx, newSettings.Extra, account.Settings.Extra, account.Peers, userID, accountID)
if err != nil {
return nil, err
}
oldSettings := account.Settings
if oldSettings.PeerLoginExpirationEnabled != newSettings.PeerLoginExpirationEnabled {
event := activity.AccountPeerLoginExpirationEnabled
if !newSettings.PeerLoginExpirationEnabled {
event = activity.AccountPeerLoginExpirationDisabled
am.peerLoginExpiry.Cancel(ctx, []string{accountID})
} else {
am.checkAndSchedulePeerLoginExpiration(ctx, account)
}
am.StoreEvent(ctx, userID, accountID, accountID, event, nil)
}
if oldSettings.PeerLoginExpiration != newSettings.PeerLoginExpiration {
am.StoreEvent(ctx, userID, accountID, accountID, activity.AccountPeerLoginExpirationDurationUpdated, nil)
am.checkAndSchedulePeerLoginExpiration(ctx, account)
}
updatedAccount := account.UpdateSettings(newSettings)
err = am.Store.SaveAccount(ctx, account)
if err != nil {
return nil, err
}
return updatedAccount, nil
}
func (am *DefaultAccountManager) peerLoginExpirationJob(ctx context.Context, accountID string) func() (time.Duration, bool) {
return func() (time.Duration, bool) {
unlock := am.Store.AcquireAccountWriteLock(ctx, accountID)
defer unlock()
account, err := am.Store.GetAccount(ctx, accountID)
if err != nil {
log.WithContext(ctx).Errorf("failed getting account %s expiring peers", accountID)
return account.GetNextPeerExpiration()
}
expiredPeers := account.GetExpiredPeers()
var peerIDs []string
for _, peer := range expiredPeers {
peerIDs = append(peerIDs, peer.ID)
}
log.WithContext(ctx).Debugf("discovered %d peers to expire for account %s", len(peerIDs), account.Id)
if err := am.expireAndUpdatePeers(ctx, account, expiredPeers); err != nil {
log.WithContext(ctx).Errorf("failed updating account peers while expiring peers for account %s", account.Id)
return account.GetNextPeerExpiration()
}
return account.GetNextPeerExpiration()
}
}
func (am *DefaultAccountManager) checkAndSchedulePeerLoginExpiration(ctx context.Context, account *Account) {
am.peerLoginExpiry.Cancel(ctx, []string{account.Id})
if nextRun, ok := account.GetNextPeerExpiration(); ok {
go am.peerLoginExpiry.Schedule(ctx, nextRun, account.Id, am.peerLoginExpirationJob(ctx, account.Id))
}
}
// newAccount creates a new Account with a generated ID and generated default setup keys.
// If ID is already in use (due to collision) we try one more time before returning error
func (am *DefaultAccountManager) newAccount(ctx context.Context, userID, domain string) (*Account, error) {
for i := 0; i < 2; i++ {
accountId := xid.New().String()
_, err := am.Store.GetAccount(ctx, accountId)
statusErr, _ := status.FromError(err)
switch {
case err == nil:
log.WithContext(ctx).Warnf("an account with ID already exists, retrying...")
continue
case statusErr.Type() == status.NotFound:
newAccount := newAccountWithId(ctx, accountId, userID, domain)
am.StoreEvent(ctx, userID, newAccount.Id, accountId, activity.AccountCreated, nil)
return newAccount, nil
default:
return nil, err
}
}
return nil, status.Errorf(status.Internal, "error while creating new account")
}
func (am *DefaultAccountManager) warmupIDPCache(ctx context.Context) error {
userData, err := am.idpManager.GetAllAccounts(ctx)
if err != nil {
return err
}
log.WithContext(ctx).Infof("%d entries received from IdP management", len(userData))
// If the Identity Provider does not support writing AppMetadata,
// in cases like this, we expect it to return all users in an "unset" field.
// We iterate over the users in the "unset" field, look up their AccountID in our store, and
// update their AppMetadata with the AccountID.
if unsetData, ok := userData[idp.UnsetAccountID]; ok {
for _, user := range unsetData {
accountID, err := am.Store.GetAccountByUser(ctx, user.ID)
if err == nil {
data := userData[accountID.Id]
if data == nil {
data = make([]*idp.UserData, 0, 1)
}
user.AppMetadata.WTAccountID = accountID.Id
userData[accountID.Id] = append(data, user)
}
}
}
delete(userData, idp.UnsetAccountID)
rcvdUsers := 0
for accountID, users := range userData {
rcvdUsers += len(users)
err = am.cacheManager.Set(am.ctx, accountID, users, cacheStore.WithExpiration(cacheEntryExpiration()))
if err != nil {
return err
}
}
log.WithContext(ctx).Infof("warmed up IDP cache with %d entries for %d accounts", rcvdUsers, len(userData))
return nil
}
// DeleteAccount deletes an account and all its users from local store and from the remote IDP if the requester is an admin and account owner
func (am *DefaultAccountManager) DeleteAccount(ctx context.Context, accountID, userID string) error {
unlock := am.Store.AcquireAccountWriteLock(ctx, accountID)
defer unlock()
account, err := am.Store.GetAccount(ctx, accountID)
if err != nil {
return err
}
user, err := account.FindUser(userID)
if err != nil {
return err
}
if !user.HasAdminPower() {
return status.Errorf(status.PermissionDenied, "user is not allowed to delete account")
}
if user.Role != UserRoleOwner {
return status.Errorf(status.PermissionDenied, "user is not allowed to delete account. Only account owner can delete account")
}
for _, otherUser := range account.Users {
if otherUser.IsServiceUser {
continue
}
if otherUser.Id == userID {
continue
}
deleteUserErr := am.deleteRegularUser(ctx, account, userID, otherUser.Id)
if deleteUserErr != nil {
return deleteUserErr
}
}
err = am.deleteRegularUser(ctx, account, userID, userID)
if err != nil {
log.WithContext(ctx).Errorf("failed deleting user %s. error: %s", userID, err)
return err
}
err = am.Store.DeleteAccount(ctx, account)
if err != nil {
log.WithContext(ctx).Errorf("failed deleting account %s. error: %s", accountID, err)
return err
}
// cancel peer login expiry job
am.peerLoginExpiry.Cancel(ctx, []string{account.Id})
log.WithContext(ctx).Debugf("account %s deleted", accountID)
return nil
}
// GetAccountByUserOrAccountID looks for an account by user or accountID, if no account is provided and
// userID doesn't have an account associated with it, one account is created
// domain is used to create a new account if no account is found
func (am *DefaultAccountManager) GetAccountByUserOrAccountID(ctx context.Context, userID, accountID, domain string) (*Account, error) {
if accountID != "" {
return am.Store.GetAccount(ctx, accountID)
} else if userID != "" {
account, err := am.GetOrCreateAccountByUser(ctx, userID, domain)
if err != nil {
return nil, status.Errorf(status.NotFound, "account not found using user id: %s", userID)
}
err = am.addAccountIDToIDPAppMeta(ctx, userID, account)
if err != nil {
return nil, err
}
return account, nil
}
return nil, status.Errorf(status.NotFound, "no valid user or account Id provided")
}
func isNil(i idp.Manager) bool {
return i == nil || reflect.ValueOf(i).IsNil()
}
// addAccountIDToIDPAppMeta update user's app metadata in idp manager
func (am *DefaultAccountManager) addAccountIDToIDPAppMeta(ctx context.Context, userID string, account *Account) error {
if !isNil(am.idpManager) {
// user can be nil if it wasn't found (e.g., just created)
user, err := am.lookupUserInCache(ctx, userID, account)
if err != nil {
return err
}
if user != nil && user.AppMetadata.WTAccountID == account.Id {
// it was already set, so we skip the unnecessary update
log.WithContext(ctx).Debugf("skipping IDP App Meta update because accountID %s has been already set for user %s",
account.Id, userID)
return nil
}
err = am.idpManager.UpdateUserAppMetadata(ctx, userID, idp.AppMetadata{WTAccountID: account.Id})
if err != nil {
return status.Errorf(status.Internal, "updating user's app metadata failed with: %v", err)
}
// refresh cache to reflect the update
_, err = am.refreshCache(ctx, account.Id)
if err != nil {
return err
}
}
return nil
}
func (am *DefaultAccountManager) loadAccount(ctx context.Context, accountID interface{}) ([]*idp.UserData, error) {
log.WithContext(ctx).Debugf("account %s not found in cache, reloading", accountID)
accountIDString := fmt.Sprintf("%v", accountID)
account, err := am.Store.GetAccount(ctx, accountIDString)
if err != nil {
return nil, err
}
userData, err := am.idpManager.GetAccount(ctx, accountIDString)
if err != nil {
return nil, err
}
log.WithContext(ctx).Debugf("%d entries received from IdP management", len(userData))
dataMap := make(map[string]*idp.UserData, len(userData))
for _, datum := range userData {
dataMap[datum.ID] = datum
}
matchedUserData := make([]*idp.UserData, 0)
for _, user := range account.Users {
if user.IsServiceUser {
continue
}
datum, ok := dataMap[user.Id]
if !ok {
log.WithContext(ctx).Warnf("user %s not found in IDP", user.Id)
continue
}
matchedUserData = append(matchedUserData, datum)
}
return matchedUserData, nil
}
func (am *DefaultAccountManager) lookupUserInCacheByEmail(ctx context.Context, email string, accountID string) (*idp.UserData, error) {
data, err := am.getAccountFromCache(ctx, accountID, false)
if err != nil {
return nil, err
}
for _, datum := range data {
if datum.Email == email {
return datum, nil
}
}
return nil, nil //nolint:nilnil
}
// lookupUserInCache looks up user in the IdP cache and returns it. If the user wasn't found, the function returns nil
func (am *DefaultAccountManager) lookupUserInCache(ctx context.Context, userID string, account *Account) (*idp.UserData, error) {
users := make(map[string]userLoggedInOnce, len(account.Users))
// ignore service users and users provisioned by integrations than are never logged in
for _, user := range account.Users {
if user.IsServiceUser {
continue
}
if user.Issued == UserIssuedIntegration {
continue
}
users[user.Id] = userLoggedInOnce(!user.LastLogin.IsZero())
}
log.WithContext(ctx).Debugf("looking up user %s of account %s in cache", userID, account.Id)
userData, err := am.lookupCache(ctx, users, account.Id)
if err != nil {
return nil, err
}
for _, datum := range userData {
if datum.ID == userID {
return datum, nil
}
}
// add extra check on external cache manager. We may get to this point when the user is not yet findable in IDP,
// or it didn't have its metadata updated with am.addAccountIDToIDPAppMeta
user, err := account.FindUser(userID)
if err != nil {
log.WithContext(ctx).Errorf("failed finding user %s in account %s", userID, account.Id)
return nil, err
}
key := user.IntegrationReference.CacheKey(account.Id, userID)
ud, err := am.externalCacheManager.Get(am.ctx, key)
if err != nil {
log.WithContext(ctx).Debugf("failed to get externalCache for key: %s, error: %s", key, err)
}
return ud, nil
}
func (am *DefaultAccountManager) refreshCache(ctx context.Context, accountID string) ([]*idp.UserData, error) {
return am.getAccountFromCache(ctx, accountID, true)
}
// getAccountFromCache returns user data for a given account ensuring that cache load happens only once
func (am *DefaultAccountManager) getAccountFromCache(ctx context.Context, accountID string, forceReload bool) ([]*idp.UserData, error) {
am.cacheMux.Lock()
loadingChan := am.cacheLoading[accountID]
if loadingChan == nil {
loadingChan = make(chan struct{})
am.cacheLoading[accountID] = loadingChan
am.cacheMux.Unlock()
defer func() {
am.cacheMux.Lock()
delete(am.cacheLoading, accountID)
close(loadingChan)
am.cacheMux.Unlock()
}()
if forceReload {
err := am.cacheManager.Delete(am.ctx, accountID)
if err != nil {
return nil, err
}
}
return am.cacheManager.Get(am.ctx, accountID)
}
am.cacheMux.Unlock()
log.WithContext(ctx).Debugf("one request to get account %s is already running", accountID)
select {
case <-loadingChan:
// channel has been closed meaning cache was loaded => simply return from cache
return am.cacheManager.Get(am.ctx, accountID)
case <-time.After(5 * time.Second):
return nil, fmt.Errorf("timeout while waiting for account %s cache to reload", accountID)
}
}
func (am *DefaultAccountManager) lookupCache(ctx context.Context, accountUsers map[string]userLoggedInOnce, accountID string) ([]*idp.UserData, error) {
2024-04-23 19:23:43 +02:00
var data []*idp.UserData
var err error
maxAttempts := 2
data, err = am.getAccountFromCache(ctx, accountID, false)
if err != nil {
return nil, err
}
2024-04-23 19:23:43 +02:00
for attempt := 1; attempt <= maxAttempts; attempt++ {
if am.isCacheFresh(ctx, accountUsers, data) {
2024-04-23 19:23:43 +02:00
return data, nil
}
if attempt > 1 {
time.Sleep(200 * time.Millisecond)
}
log.WithContext(ctx).Infof("refreshing cache for account %s", accountID)
data, err = am.refreshCache(ctx, accountID)
2024-04-23 19:23:43 +02:00
if err != nil {
return nil, err
}
if attempt == maxAttempts {
log.WithContext(ctx).Warnf("cache for account %s reached maximum refresh attempts (%d)", accountID, maxAttempts)
2024-04-23 19:23:43 +02:00
}
}
return data, nil
}
// isCacheFresh checks if the cache is refreshed already by comparing the accountUsers with the cache data by user count and user invite status
func (am *DefaultAccountManager) isCacheFresh(ctx context.Context, accountUsers map[string]userLoggedInOnce, data []*idp.UserData) bool {
userDataMap := make(map[string]*idp.UserData, len(data))
for _, datum := range data {
userDataMap[datum.ID] = datum
}
// the accountUsers ID list of non integration users from store, we check if cache has all of them
// as result of for loop knownUsersCount will have number of users are not presented in the cashed
knownUsersCount := len(accountUsers)
for user, loggedInOnce := range accountUsers {
if datum, ok := userDataMap[user]; ok {
// check if the matching user data has a pending invite and if the user has logged in once, forcing the cache to be refreshed
if datum.AppMetadata.WTPendingInvite != nil && *datum.AppMetadata.WTPendingInvite && loggedInOnce == true { //nolint:gosimple
log.WithContext(ctx).Infof("user %s has a pending invite and has logged in once, cache invalid", user)
2024-04-23 19:23:43 +02:00
return false
}
knownUsersCount--
continue
}
log.WithContext(ctx).Debugf("cache doesn't know about %s user", user)
}
// if we know users that are not yet in cache more likely cache is outdated
2024-04-23 19:23:43 +02:00
if knownUsersCount > 0 {
log.WithContext(ctx).Infof("cache invalid. Users unknown to the cache: %d", knownUsersCount)
2024-04-23 19:23:43 +02:00
return false
}
2024-04-23 19:23:43 +02:00
return true
}
func (am *DefaultAccountManager) removeUserFromCache(ctx context.Context, accountID, userID string) error {
data, err := am.getAccountFromCache(ctx, accountID, false)
if err != nil {
return err
}
for i, datum := range data {
if datum.ID == userID {
data = append(data[:i], data[i+1:]...)
break
}
}
return am.cacheManager.Set(am.ctx, accountID, data, cacheStore.WithExpiration(cacheEntryExpiration()))
}
// updateAccountDomainAttributes updates the account domain attributes and then, saves the account
func (am *DefaultAccountManager) updateAccountDomainAttributes(ctx context.Context, account *Account, claims jwtclaims.AuthorizationClaims,
primaryDomain bool,
) error {
if claims.Domain != "" {
account.IsDomainPrimaryAccount = primaryDomain
lowerDomain := strings.ToLower(claims.Domain)
userObj := account.Users[claims.UserId]
if account.Domain != lowerDomain && userObj.Role == UserRoleAdmin {
account.Domain = lowerDomain
}
// prevent updating category for different domain until admin logs in
if account.Domain == lowerDomain {
account.DomainCategory = claims.DomainCategory
}
} else {
log.WithContext(ctx).Errorf("claims don't contain a valid domain, skipping domain attributes update. Received claims: %v", claims)
}
err := am.Store.SaveAccount(ctx, account)
if err != nil {
return err
}
return nil
}
// handleExistingUserAccount handles existing User accounts and update its domain attributes.
func (am *DefaultAccountManager) handleExistingUserAccount(
ctx context.Context,
existingAcc *Account,
primaryDomain bool,
claims jwtclaims.AuthorizationClaims,
) error {
err := am.updateAccountDomainAttributes(ctx, existingAcc, claims, primaryDomain)
if err != nil {
return err
}
// we should register the account ID to this user's metadata in our IDP manager
err = am.addAccountIDToIDPAppMeta(ctx, claims.UserId, existingAcc)
if err != nil {
return err
}
return nil
}
// handleNewUserAccount validates if there is an existing primary account for the domain, if so it adds the new user to that account,
// otherwise it will create a new account and make it primary account for the domain.
func (am *DefaultAccountManager) handleNewUserAccount(ctx context.Context, domainAcc *Account, claims jwtclaims.AuthorizationClaims) (*Account, error) {
if claims.UserId == "" {
return nil, fmt.Errorf("user ID is empty")
}
var (
account *Account
err error
)
lowerDomain := strings.ToLower(claims.Domain)
// if domain already has a primary account, add regular user
if domainAcc != nil {
account = domainAcc
account.Users[claims.UserId] = NewRegularUser(claims.UserId)
err = am.Store.SaveAccount(ctx, account)
if err != nil {
return nil, err
}
} else {
account, err = am.newAccount(ctx, claims.UserId, lowerDomain)
if err != nil {
return nil, err
}
err = am.updateAccountDomainAttributes(ctx, account, claims, true)
if err != nil {
return nil, err
}
}
err = am.addAccountIDToIDPAppMeta(ctx, claims.UserId, account)
if err != nil {
return nil, err
}
am.StoreEvent(ctx, claims.UserId, claims.UserId, account.Id, activity.UserJoined, nil)
return account, nil
}
// redeemInvite checks whether user has been invited and redeems the invite
func (am *DefaultAccountManager) redeemInvite(ctx context.Context, account *Account, userID string) error {
// only possible with the enabled IdP manager
if am.idpManager == nil {
log.WithContext(ctx).Warnf("invites only work with enabled IdP manager")
return nil
}
user, err := am.lookupUserInCache(ctx, userID, account)
if err != nil {
return err
}
if user == nil {
return status.Errorf(status.NotFound, "user %s not found in the IdP", userID)
}
if user.AppMetadata.WTPendingInvite != nil && *user.AppMetadata.WTPendingInvite {
log.WithContext(ctx).Infof("redeeming invite for user %s account %s", userID, account.Id)
// User has already logged in, meaning that IdP should have set wt_pending_invite to false.
// Our job is to just reload cache.
go func() {
_, err = am.refreshCache(ctx, account.Id)
if err != nil {
log.WithContext(ctx).Warnf("failed reloading cache when redeeming user %s under account %s", userID, account.Id)
return
}
log.WithContext(ctx).Debugf("user %s of account %s redeemed invite", user.ID, account.Id)
am.StoreEvent(ctx, userID, userID, account.Id, activity.UserJoined, nil)
}()
}
return nil
}
2023-03-30 17:32:44 +02:00
// MarkPATUsed marks a personal access token as used
func (am *DefaultAccountManager) MarkPATUsed(ctx context.Context, tokenID string) error {
user, err := am.Store.GetUserByTokenID(ctx, tokenID)
if err != nil {
return err
}
account, err := am.Store.GetAccountByUser(ctx, user.Id)
if err != nil {
return err
}
unlock := am.Store.AcquireAccountWriteLock(ctx, account.Id)
defer unlock()
account, err = am.Store.GetAccountByUser(ctx, user.Id)
if err != nil {
return err
}
pat, ok := account.Users[user.Id].PATs[tokenID]
if !ok {
return fmt.Errorf("token not found")
}
2023-04-03 15:09:35 +02:00
pat.LastUsed = time.Now().UTC()
return am.Store.SaveAccount(ctx, account)
}
2023-03-16 15:57:44 +01:00
// GetAccountFromPAT returns Account and User associated with a personal access token
func (am *DefaultAccountManager) GetAccountFromPAT(ctx context.Context, token string) (*Account, *User, *PersonalAccessToken, error) {
2023-03-16 15:57:44 +01:00
if len(token) != PATLength {
2023-03-29 15:21:53 +02:00
return nil, nil, nil, fmt.Errorf("token has wrong length")
2023-03-16 15:57:44 +01:00
}
prefix := token[:len(PATPrefix)]
if prefix != PATPrefix {
2023-03-29 15:21:53 +02:00
return nil, nil, nil, fmt.Errorf("token has wrong prefix")
2023-03-16 15:57:44 +01:00
}
2023-03-20 11:44:12 +01:00
secret := token[len(PATPrefix) : len(PATPrefix)+PATSecretLength]
encodedChecksum := token[len(PATPrefix)+PATSecretLength : len(PATPrefix)+PATSecretLength+PATChecksumLength]
2023-03-16 15:57:44 +01:00
2023-05-16 12:57:56 +02:00
verificationChecksum, err := base62.Decode(encodedChecksum)
2023-03-16 15:57:44 +01:00
if err != nil {
2023-03-29 15:21:53 +02:00
return nil, nil, nil, fmt.Errorf("token checksum decoding failed: %w", err)
2023-03-16 15:57:44 +01:00
}
secretChecksum := crc32.ChecksumIEEE([]byte(secret))
if secretChecksum != verificationChecksum {
2023-03-29 15:21:53 +02:00
return nil, nil, nil, fmt.Errorf("token checksum does not match")
2023-03-16 15:57:44 +01:00
}
hashedToken := sha256.Sum256([]byte(token))
2023-03-29 15:21:53 +02:00
encodedHashedToken := b64.StdEncoding.EncodeToString(hashedToken[:])
tokenID, err := am.Store.GetTokenIDByHashedToken(ctx, encodedHashedToken)
2023-03-16 15:57:44 +01:00
if err != nil {
2023-03-29 15:21:53 +02:00
return nil, nil, nil, err
2023-03-16 15:57:44 +01:00
}
user, err := am.Store.GetUserByTokenID(ctx, tokenID)
2023-03-16 15:57:44 +01:00
if err != nil {
2023-03-29 15:21:53 +02:00
return nil, nil, nil, err
2023-03-16 15:57:44 +01:00
}
account, err := am.Store.GetAccountByUser(ctx, user.Id)
2023-03-16 15:57:44 +01:00
if err != nil {
2023-03-29 15:21:53 +02:00
return nil, nil, nil, err
}
pat := user.PATs[tokenID]
if pat == nil {
return nil, nil, nil, fmt.Errorf("personal access token not found")
2023-03-16 15:57:44 +01:00
}
2023-03-29 15:21:53 +02:00
return account, user, pat, nil
2023-03-16 15:57:44 +01:00
}
// GetAccountFromToken returns an account associated with this token
func (am *DefaultAccountManager) GetAccountFromToken(ctx context.Context, claims jwtclaims.AuthorizationClaims) (*Account, *User, error) {
if claims.UserId == "" {
return nil, nil, fmt.Errorf("user ID is empty")
}
2022-10-19 17:43:28 +02:00
if am.singleAccountMode && am.singleAccountModeDomain != "" {
// This section is mostly related to self-hosted installations.
// We override incoming domain claims to group users under a single account.
claims.Domain = am.singleAccountModeDomain
claims.DomainCategory = PrivateCategory
log.WithContext(ctx).Debugf("overriding JWT Domain and DomainCategory claims since single account mode is enabled")
2022-10-19 17:43:28 +02:00
}
newAcc, err := am.getAccountWithAuthorizationClaims(ctx, claims)
if err != nil {
return nil, nil, err
}
unlock := am.Store.AcquireAccountWriteLock(ctx, newAcc.Id)
alreadyUnlocked := false
defer func() {
if !alreadyUnlocked {
unlock()
}
}()
account, err := am.Store.GetAccount(ctx, newAcc.Id)
if err != nil {
return nil, nil, err
}
user := account.Users[claims.UserId]
if user == nil {
// this is not really possible because we got an account by user ID
return nil, nil, status.Errorf(status.NotFound, "user %s not found", claims.UserId)
}
if !user.IsServiceUser && claims.Invited {
err = am.redeemInvite(ctx, account, claims.UserId)
if err != nil {
return nil, nil, err
}
}
if account.Settings.JWTGroupsEnabled {
if account.Settings.JWTGroupsClaimName == "" {
log.WithContext(ctx).Errorf("JWT groups are enabled but no claim name is set")
return account, user, nil
}
if claim, ok := claims.Raw[account.Settings.JWTGroupsClaimName]; ok {
if slice, ok := claim.([]interface{}); ok {
var groupsNames []string
for _, item := range slice {
if g, ok := item.(string); ok {
groupsNames = append(groupsNames, g)
} else {
log.WithContext(ctx).Errorf("JWT claim %q is not a string: %v", account.Settings.JWTGroupsClaimName, item)
}
}
oldGroups := make([]string, len(user.AutoGroups))
copy(oldGroups, user.AutoGroups)
// if groups were added or modified, save the account
if account.SetJWTGroups(claims.UserId, groupsNames) {
if account.Settings.GroupsPropagationEnabled {
if user, err := account.FindUser(claims.UserId); err == nil {
addNewGroups := difference(user.AutoGroups, oldGroups)
removeOldGroups := difference(oldGroups, user.AutoGroups)
account.UserGroupsAddToPeers(claims.UserId, addNewGroups...)
account.UserGroupsRemoveFromPeers(claims.UserId, removeOldGroups...)
account.Network.IncSerial()
if err := am.Store.SaveAccount(ctx, account); err != nil {
log.WithContext(ctx).Errorf("failed to save account: %v", err)
} else {
log.WithContext(ctx).Tracef("user %s: JWT group membership changed, updating account peers", claims.UserId)
am.updateAccountPeers(ctx, account)
unlock()
alreadyUnlocked = true
for _, g := range addNewGroups {
if group := account.GetGroup(g); group != nil {
am.StoreEvent(ctx, user.Id, user.Id, account.Id, activity.GroupAddedToUser,
map[string]any{
"group": group.Name,
"group_id": group.ID,
"is_service_user": user.IsServiceUser,
"user_name": user.ServiceUserName})
}
}
for _, g := range removeOldGroups {
if group := account.GetGroup(g); group != nil {
am.StoreEvent(ctx, user.Id, user.Id, account.Id, activity.GroupRemovedFromUser,
map[string]any{
"group": group.Name,
"group_id": group.ID,
"is_service_user": user.IsServiceUser,
"user_name": user.ServiceUserName})
}
}
}
}
} else {
if err := am.Store.SaveAccount(ctx, account); err != nil {
log.WithContext(ctx).Errorf("failed to save account: %v", err)
}
}
}
} else {
log.WithContext(ctx).Debugf("JWT claim %q is not a string array", account.Settings.JWTGroupsClaimName)
}
} else {
log.WithContext(ctx).Debugf("JWT claim %q not found", account.Settings.JWTGroupsClaimName)
}
}
return account, user, nil
}
// getAccountWithAuthorizationClaims retrievs an account using JWT Claims.
// if domain is of the PrivateCategory category, it will evaluate
// if account is new, existing or if there is another account with the same domain
//
// Use cases:
//
// New user + New account + New domain -> create account, user role = admin (if private domain, index domain)
//
// New user + New account + Existing Private Domain -> add user to the existing account, user role = regular (not admin)
//
// New user + New account + Existing Public Domain -> create account, user role = admin
//
// Existing user + Existing account + Existing Domain -> Nothing changes (if private, index domain)
//
// Existing user + Existing account + Existing Indexed Domain -> Nothing changes
//
// Existing user + Existing account + Existing domain reclassified Domain as private -> Nothing changes (index domain)
func (am *DefaultAccountManager) getAccountWithAuthorizationClaims(ctx context.Context, claims jwtclaims.AuthorizationClaims) (*Account, error) {
log.WithContext(ctx).Tracef("getting account with authorization claims. User ID: \"%s\", Account ID: \"%s\", Domain: \"%s\", Domain Category: \"%s\"",
claims.UserId, claims.AccountId, claims.Domain, claims.DomainCategory)
if claims.UserId == "" {
return nil, fmt.Errorf("user ID is empty")
}
// if Account ID is part of the claims
// it means that we've already classified the domain and user has an account
if claims.DomainCategory != PrivateCategory || !isDomainValid(claims.Domain) {
return am.GetAccountByUserOrAccountID(ctx, claims.UserId, claims.AccountId, claims.Domain)
} else if claims.AccountId != "" {
accountFromID, err := am.Store.GetAccount(ctx, claims.AccountId)
if err != nil {
return nil, err
}
if _, ok := accountFromID.Users[claims.UserId]; !ok {
return nil, fmt.Errorf("user %s is not part of the account id %s", claims.UserId, claims.AccountId)
}
if accountFromID.DomainCategory == PrivateCategory || claims.DomainCategory != PrivateCategory || accountFromID.Domain != claims.Domain {
return accountFromID, nil
}
}
start := time.Now()
unlock := am.Store.AcquireGlobalLock(ctx)
defer unlock()
log.WithContext(ctx).Debugf("Acquired global lock in %s for user %s", time.Since(start), claims.UserId)
// We checked if the domain has a primary account already
domainAccount, err := am.Store.GetAccountByPrivateDomain(ctx, claims.Domain)
if err != nil {
// if NotFound we are good to continue, otherwise return error
e, ok := status.FromError(err)
if !ok || e.Type() != status.NotFound {
return nil, err
}
}
account, err := am.Store.GetAccountByUser(ctx, claims.UserId)
if err == nil {
unlockAccount := am.Store.AcquireAccountWriteLock(ctx, account.Id)
defer unlockAccount()
account, err = am.Store.GetAccountByUser(ctx, claims.UserId)
if err != nil {
return nil, err
}
// If there is no primary domain account yet, we set the account as primary for the domain. Otherwise,
// we compare the account's ID with the domain account ID, and if they don't match, we set the account as
// non-primary account for the domain. We don't merge accounts at this stage, because of cases when a domain
// was previously unclassified or classified as public so N users that logged int that time, has they own account
// and peers that shouldn't be lost.
primaryDomain := domainAccount == nil || account.Id == domainAccount.Id
err = am.handleExistingUserAccount(ctx, account, primaryDomain, claims)
if err != nil {
return nil, err
}
return account, nil
} else if s, ok := status.FromError(err); ok && s.Type() == status.NotFound {
if domainAccount != nil {
unlockAccount := am.Store.AcquireAccountWriteLock(ctx, domainAccount.Id)
defer unlockAccount()
domainAccount, err = am.Store.GetAccountByPrivateDomain(ctx, claims.Domain)
if err != nil {
return nil, err
}
}
return am.handleNewUserAccount(ctx, domainAccount, claims)
} else {
// other error
return nil, err
}
}
func (am *DefaultAccountManager) SyncAndMarkPeer(ctx context.Context, peerPubKey string, meta nbpeer.PeerSystemMeta, realIP net.IP) (*nbpeer.Peer, *NetworkMap, []*posture.Checks, error) {
accountID, err := am.Store.GetAccountIDByPeerPubKey(ctx, peerPubKey)
2024-05-07 14:30:03 +02:00
if err != nil {
if errStatus, ok := status.FromError(err); ok && errStatus.Type() == status.NotFound {
return nil, nil, nil, status.Errorf(status.Unauthenticated, "peer not registered")
}
return nil, nil, nil, err
2024-05-07 14:30:03 +02:00
}
unlock := am.Store.AcquireAccountReadLock(ctx, accountID)
2024-05-07 14:30:03 +02:00
defer unlock()
account, err := am.Store.GetAccount(ctx, accountID)
2024-05-07 14:30:03 +02:00
if err != nil {
return nil, nil, nil, err
2024-05-07 14:30:03 +02:00
}
peer, netMap, postureChecks, err := am.SyncPeer(ctx, PeerSync{WireGuardPubKey: peerPubKey, Meta: meta}, account)
2024-05-07 14:30:03 +02:00
if err != nil {
return nil, nil, nil, err
2024-05-07 14:30:03 +02:00
}
err = am.MarkPeerConnected(ctx, peerPubKey, true, realIP, account)
2024-05-07 14:30:03 +02:00
if err != nil {
log.WithContext(ctx).Warnf("failed marking peer as connected %s %v", peerPubKey, err)
2024-05-07 14:30:03 +02:00
}
return peer, netMap, postureChecks, nil
2024-05-07 14:30:03 +02:00
}
func (am *DefaultAccountManager) CancelPeerRoutines(ctx context.Context, peer *nbpeer.Peer) error {
accountID, err := am.Store.GetAccountIDByPeerPubKey(ctx, peer.Key)
2024-05-07 14:30:03 +02:00
if err != nil {
if errStatus, ok := status.FromError(err); ok && errStatus.Type() == status.NotFound {
return status.Errorf(status.Unauthenticated, "peer not registered")
}
2024-05-07 14:30:03 +02:00
return err
}
unlock := am.Store.AcquireAccountWriteLock(ctx, accountID)
2024-05-07 14:30:03 +02:00
defer unlock()
account, err := am.Store.GetAccount(ctx, accountID)
2024-05-07 14:30:03 +02:00
if err != nil {
return err
}
err = am.MarkPeerConnected(ctx, peer.Key, false, nil, account)
2024-05-07 14:30:03 +02:00
if err != nil {
log.WithContext(ctx).Warnf("failed marking peer as connected %s %v", peer.Key, err)
2024-05-07 14:30:03 +02:00
}
return nil
}
func (am *DefaultAccountManager) SyncPeerMeta(ctx context.Context, peerPubKey string, meta nbpeer.PeerSystemMeta) error {
accountID, err := am.Store.GetAccountIDByPeerPubKey(ctx, peerPubKey)
Release 0.28.0 (#2092) * compile client under freebsd (#1620) Compile netbird client under freebsd and now support netstack and userspace modes. Refactoring linux specific code to share same code with FreeBSD, move to *_unix.go files. Not implemented yet: Kernel mode not supported DNS probably does not work yet Routing also probably does not work yet SSH support did not tested yet Lack of test environment for freebsd (dedicated VM for github runners under FreeBSD required) Lack of tests for freebsd specific code info reporting need to review and also implement, for example OS reported as GENERIC instead of FreeBSD (lack of FreeBSD icon in management interface) Lack of proper client setup under FreeBSD Lack of FreeBSD port/package * Add DNS routes (#1943) Given domains are resolved periodically and resolved IPs are replaced with the new ones. Unless the flag keep_route is set to true, then only new ones are added. This option is helpful if there are long-running connections that might still point to old IP addresses from changed DNS records. * Add process posture check (#1693) Introduces a process posture check to validate the existence and active status of specific binaries on peer systems. The check ensures that files are present at specified paths, and that corresponding processes are running. This check supports Linux, Windows, and macOS systems. Co-authored-by: Evgenii <mail@skillcoder.com> Co-authored-by: Pascal Fischer <pascal@netbird.io> Co-authored-by: Zoltan Papp <zoltan.pmail@gmail.com> Co-authored-by: Viktor Liu <17948409+lixmal@users.noreply.github.com> Co-authored-by: Bethuel Mmbaga <bethuelmbaga12@gmail.com>
2024-06-13 13:24:24 +02:00
if err != nil {
return err
}
unlock := am.Store.AcquireAccountReadLock(ctx, accountID)
Release 0.28.0 (#2092) * compile client under freebsd (#1620) Compile netbird client under freebsd and now support netstack and userspace modes. Refactoring linux specific code to share same code with FreeBSD, move to *_unix.go files. Not implemented yet: Kernel mode not supported DNS probably does not work yet Routing also probably does not work yet SSH support did not tested yet Lack of test environment for freebsd (dedicated VM for github runners under FreeBSD required) Lack of tests for freebsd specific code info reporting need to review and also implement, for example OS reported as GENERIC instead of FreeBSD (lack of FreeBSD icon in management interface) Lack of proper client setup under FreeBSD Lack of FreeBSD port/package * Add DNS routes (#1943) Given domains are resolved periodically and resolved IPs are replaced with the new ones. Unless the flag keep_route is set to true, then only new ones are added. This option is helpful if there are long-running connections that might still point to old IP addresses from changed DNS records. * Add process posture check (#1693) Introduces a process posture check to validate the existence and active status of specific binaries on peer systems. The check ensures that files are present at specified paths, and that corresponding processes are running. This check supports Linux, Windows, and macOS systems. Co-authored-by: Evgenii <mail@skillcoder.com> Co-authored-by: Pascal Fischer <pascal@netbird.io> Co-authored-by: Zoltan Papp <zoltan.pmail@gmail.com> Co-authored-by: Viktor Liu <17948409+lixmal@users.noreply.github.com> Co-authored-by: Bethuel Mmbaga <bethuelmbaga12@gmail.com>
2024-06-13 13:24:24 +02:00
defer unlock()
account, err := am.Store.GetAccount(ctx, accountID)
Release 0.28.0 (#2092) * compile client under freebsd (#1620) Compile netbird client under freebsd and now support netstack and userspace modes. Refactoring linux specific code to share same code with FreeBSD, move to *_unix.go files. Not implemented yet: Kernel mode not supported DNS probably does not work yet Routing also probably does not work yet SSH support did not tested yet Lack of test environment for freebsd (dedicated VM for github runners under FreeBSD required) Lack of tests for freebsd specific code info reporting need to review and also implement, for example OS reported as GENERIC instead of FreeBSD (lack of FreeBSD icon in management interface) Lack of proper client setup under FreeBSD Lack of FreeBSD port/package * Add DNS routes (#1943) Given domains are resolved periodically and resolved IPs are replaced with the new ones. Unless the flag keep_route is set to true, then only new ones are added. This option is helpful if there are long-running connections that might still point to old IP addresses from changed DNS records. * Add process posture check (#1693) Introduces a process posture check to validate the existence and active status of specific binaries on peer systems. The check ensures that files are present at specified paths, and that corresponding processes are running. This check supports Linux, Windows, and macOS systems. Co-authored-by: Evgenii <mail@skillcoder.com> Co-authored-by: Pascal Fischer <pascal@netbird.io> Co-authored-by: Zoltan Papp <zoltan.pmail@gmail.com> Co-authored-by: Viktor Liu <17948409+lixmal@users.noreply.github.com> Co-authored-by: Bethuel Mmbaga <bethuelmbaga12@gmail.com>
2024-06-13 13:24:24 +02:00
if err != nil {
return err
}
_, _, _, err = am.SyncPeer(ctx, PeerSync{WireGuardPubKey: peerPubKey, Meta: meta, UpdateAccountPeers: true}, account)
Release 0.28.0 (#2092) * compile client under freebsd (#1620) Compile netbird client under freebsd and now support netstack and userspace modes. Refactoring linux specific code to share same code with FreeBSD, move to *_unix.go files. Not implemented yet: Kernel mode not supported DNS probably does not work yet Routing also probably does not work yet SSH support did not tested yet Lack of test environment for freebsd (dedicated VM for github runners under FreeBSD required) Lack of tests for freebsd specific code info reporting need to review and also implement, for example OS reported as GENERIC instead of FreeBSD (lack of FreeBSD icon in management interface) Lack of proper client setup under FreeBSD Lack of FreeBSD port/package * Add DNS routes (#1943) Given domains are resolved periodically and resolved IPs are replaced with the new ones. Unless the flag keep_route is set to true, then only new ones are added. This option is helpful if there are long-running connections that might still point to old IP addresses from changed DNS records. * Add process posture check (#1693) Introduces a process posture check to validate the existence and active status of specific binaries on peer systems. The check ensures that files are present at specified paths, and that corresponding processes are running. This check supports Linux, Windows, and macOS systems. Co-authored-by: Evgenii <mail@skillcoder.com> Co-authored-by: Pascal Fischer <pascal@netbird.io> Co-authored-by: Zoltan Papp <zoltan.pmail@gmail.com> Co-authored-by: Viktor Liu <17948409+lixmal@users.noreply.github.com> Co-authored-by: Bethuel Mmbaga <bethuelmbaga12@gmail.com>
2024-06-13 13:24:24 +02:00
if err != nil {
return mapError(ctx, err)
Release 0.28.0 (#2092) * compile client under freebsd (#1620) Compile netbird client under freebsd and now support netstack and userspace modes. Refactoring linux specific code to share same code with FreeBSD, move to *_unix.go files. Not implemented yet: Kernel mode not supported DNS probably does not work yet Routing also probably does not work yet SSH support did not tested yet Lack of test environment for freebsd (dedicated VM for github runners under FreeBSD required) Lack of tests for freebsd specific code info reporting need to review and also implement, for example OS reported as GENERIC instead of FreeBSD (lack of FreeBSD icon in management interface) Lack of proper client setup under FreeBSD Lack of FreeBSD port/package * Add DNS routes (#1943) Given domains are resolved periodically and resolved IPs are replaced with the new ones. Unless the flag keep_route is set to true, then only new ones are added. This option is helpful if there are long-running connections that might still point to old IP addresses from changed DNS records. * Add process posture check (#1693) Introduces a process posture check to validate the existence and active status of specific binaries on peer systems. The check ensures that files are present at specified paths, and that corresponding processes are running. This check supports Linux, Windows, and macOS systems. Co-authored-by: Evgenii <mail@skillcoder.com> Co-authored-by: Pascal Fischer <pascal@netbird.io> Co-authored-by: Zoltan Papp <zoltan.pmail@gmail.com> Co-authored-by: Viktor Liu <17948409+lixmal@users.noreply.github.com> Co-authored-by: Bethuel Mmbaga <bethuelmbaga12@gmail.com>
2024-06-13 13:24:24 +02:00
}
return nil
}
// GetAllConnectedPeers returns connected peers based on peersUpdateManager.GetAllConnectedPeers()
func (am *DefaultAccountManager) GetAllConnectedPeers() (map[string]struct{}, error) {
return am.peersUpdateManager.GetAllConnectedPeers(), nil
}
// HasConnectedChannel returns true if peers has channel in update manager, otherwise false
func (am *DefaultAccountManager) HasConnectedChannel(peerID string) bool {
return am.peersUpdateManager.HasChannel(peerID)
}
var invalidDomainRegexp = regexp.MustCompile(`^([a-z0-9]+(-[a-z0-9]+)*\.)+[a-z]{2,}$`)
func isDomainValid(domain string) bool {
return invalidDomainRegexp.MatchString(domain)
}
// GetDNSDomain returns the configured dnsDomain
func (am *DefaultAccountManager) GetDNSDomain() string {
return am.dnsDomain
}
// CheckUserAccessByJWTGroups checks if the user has access, particularly in cases where the admin enabled JWT
// group propagation and set the list of groups with access permissions.
func (am *DefaultAccountManager) CheckUserAccessByJWTGroups(ctx context.Context, claims jwtclaims.AuthorizationClaims) error {
account, _, err := am.GetAccountFromToken(ctx, claims)
if err != nil {
return err
}
// Ensures JWT group synchronization to the management is enabled before,
// filtering access based on the allowed groups.
if account.Settings != nil && account.Settings.JWTGroupsEnabled {
if allowedGroups := account.Settings.JWTAllowGroups; len(allowedGroups) > 0 {
userJWTGroups := make([]string, 0)
if claim, ok := claims.Raw[account.Settings.JWTGroupsClaimName]; ok {
if claimGroups, ok := claim.([]interface{}); ok {
for _, g := range claimGroups {
if group, ok := g.(string); ok {
userJWTGroups = append(userJWTGroups, group)
}
}
}
}
if !userHasAllowedGroup(allowedGroups, userJWTGroups) {
return fmt.Errorf("user does not belong to any of the allowed JWT groups")
}
}
}
return nil
}
func (am *DefaultAccountManager) onPeersInvalidated(ctx context.Context, accountID string) {
log.WithContext(ctx).Debugf("validated peers has been invalidated for account %s", accountID)
updatedAccount, err := am.Store.GetAccount(ctx, accountID)
if err != nil {
log.WithContext(ctx).Errorf("failed to get account %s: %v", accountID, err)
return
}
am.updateAccountPeers(ctx, updatedAccount)
}
2024-05-30 15:22:42 +02:00
func (am *DefaultAccountManager) FindExistingPostureCheck(accountID string, checks *posture.ChecksDefinition) (*posture.Checks, error) {
return am.Store.GetPostureCheckByChecksDefinition(accountID, checks)
}
func (am *DefaultAccountManager) GetAccountIDForPeerKey(ctx context.Context, peerKey string) (string, error) {
return am.Store.GetAccountIDByPeerPubKey(ctx, peerKey)
}
// addAllGroup to account object if it doesn't exist
func addAllGroup(account *Account) error {
if len(account.Groups) == 0 {
allGroup := &nbgroup.Group{
ID: xid.New().String(),
Name: "All",
Issued: nbgroup.GroupIssuedAPI,
}
for _, peer := range account.Peers {
allGroup.Peers = append(allGroup.Peers, peer.ID)
}
account.Groups = map[string]*nbgroup.Group{allGroup.ID: allGroup}
id := xid.New().String()
defaultPolicy := &Policy{
ID: id,
Name: DefaultRuleName,
Description: DefaultRuleDescription,
Enabled: true,
Rules: []*PolicyRule{
{
ID: id,
Name: DefaultRuleName,
Description: DefaultRuleDescription,
Enabled: true,
Sources: []string{allGroup.ID},
Destinations: []string{allGroup.ID},
Bidirectional: true,
Protocol: PolicyRuleProtocolALL,
Action: PolicyTrafficActionAccept,
},
},
}
account.Policies = []*Policy{defaultPolicy}
}
return nil
}
// newAccountWithId creates a new Account with a default SetupKey (doesn't store in a Store) and provided id
func newAccountWithId(ctx context.Context, accountID, userID, domain string) *Account {
log.WithContext(ctx).Debugf("creating new account")
network := NewNetwork()
2023-11-28 13:45:26 +01:00
peers := make(map[string]*nbpeer.Peer)
users := make(map[string]*User)
2024-05-06 14:47:49 +02:00
routes := make(map[route.ID]*route.Route)
setupKeys := map[string]*SetupKey{}
nameServersGroups := make(map[string]*nbdns.NameServerGroup)
users[userID] = NewOwnerUser(userID)
dnsSettings := DNSSettings{
DisabledManagementGroups: make([]string, 0),
}
log.WithContext(ctx).Debugf("created new account %s", accountID)
acc := &Account{
Id: accountID,
CreatedAt: time.Now().UTC(),
SetupKeys: setupKeys,
Network: network,
Peers: peers,
Users: users,
CreatedBy: userID,
Domain: domain,
Routes: routes,
NameServerGroups: nameServersGroups,
DNSSettings: dnsSettings,
Settings: &Settings{
PeerLoginExpirationEnabled: true,
PeerLoginExpiration: DefaultPeerLoginExpiration,
GroupsPropagationEnabled: true,
2024-03-27 16:11:45 +01:00
RegularUsersViewBlocked: true,
},
}
if err := addAllGroup(acc); err != nil {
log.WithContext(ctx).Errorf("error adding all group to account %s: %v", acc.Id, err)
}
return acc
}
// userHasAllowedGroup checks if a user belongs to any of the allowed groups.
func userHasAllowedGroup(allowedGroups []string, userGroups []string) bool {
for _, userGroup := range userGroups {
for _, allowedGroup := range allowedGroups {
if userGroup == allowedGroup {
return true
}
}
}
return false
}
// separateGroups separates user's auto groups into non-JWT and JWT groups.
// Returns the list of standard auto groups and a map of JWT auto groups,
// where the keys are the group names and the values are the group IDs.
func separateGroups(autoGroups []string, allGroups map[string]*nbgroup.Group) ([]string, map[string]string) {
newAutoGroups := make([]string, 0)
jwtAutoGroups := make(map[string]string) // map of group name to group ID
for _, id := range autoGroups {
if group, ok := allGroups[id]; ok {
if group.Issued == nbgroup.GroupIssuedJWT {
jwtAutoGroups[group.Name] = id
} else {
newAutoGroups = append(newAutoGroups, id)
}
}
}
return newAutoGroups, jwtAutoGroups
}