netbird/management/server/account.go
Misha Bragin b5ee2174a8
Do not set wt_pending_invite when unnecessary (#515)
wt_pending_invite property is set for every user on IdP.
Avoid setting it when unnecessary.
2022-10-19 17:51:41 +02:00

812 lines
26 KiB
Go

package server
import (
"context"
"fmt"
"github.com/eko/gocache/v3/cache"
cacheStore "github.com/eko/gocache/v3/store"
nbdns "github.com/netbirdio/netbird/dns"
"github.com/netbirdio/netbird/management/server/idp"
"github.com/netbirdio/netbird/management/server/jwtclaims"
"github.com/netbirdio/netbird/route"
gocache "github.com/patrickmn/go-cache"
"github.com/rs/xid"
log "github.com/sirupsen/logrus"
"google.golang.org/grpc/codes"
"google.golang.org/grpc/status"
"math/rand"
"reflect"
"regexp"
"strings"
"sync"
"time"
)
const (
PublicCategory = "public"
PrivateCategory = "private"
UnknownCategory = "unknown"
CacheExpirationMax = 7 * 24 * 3600 * time.Second // 7 days
CacheExpirationMin = 3 * 24 * 3600 * time.Second // 3 days
)
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(userId, domain string) (*Account, error)
GetAccountByUser(userId string) (*Account, error)
CreateSetupKey(
accountId string,
keyName string,
keyType SetupKeyType,
expiresIn time.Duration,
autoGroups []string,
) (*SetupKey, error)
SaveSetupKey(accountID string, key *SetupKey) (*SetupKey, error)
CreateUser(accountID string, key *UserInfo) (*UserInfo, error)
ListSetupKeys(accountID string) ([]*SetupKey, error)
SaveUser(accountID string, key *User) (*UserInfo, error)
GetSetupKey(accountID, keyID string) (*SetupKey, error)
GetAccountById(accountId string) (*Account, error)
GetAccountByUserOrAccountId(userId, accountId, domain string) (*Account, error)
GetAccountFromToken(claims jwtclaims.AuthorizationClaims) (*Account, error)
IsUserAdmin(claims jwtclaims.AuthorizationClaims) (bool, error)
AccountExists(accountId string) (*bool, error)
GetPeer(peerKey string) (*Peer, error)
MarkPeerConnected(peerKey string, connected bool) error
RenamePeer(accountId string, peerKey string, newName string) (*Peer, error)
DeletePeer(accountId string, peerKey string) (*Peer, error)
GetPeerByIP(accountId string, peerIP string) (*Peer, error)
UpdatePeer(accountID string, peer *Peer) (*Peer, error)
GetNetworkMap(peerKey string) (*NetworkMap, error)
GetPeerNetwork(peerKey string) (*Network, error)
AddPeer(setupKey string, userId string, peer *Peer) (*Peer, error)
UpdatePeerMeta(peerKey string, meta PeerSystemMeta) error
UpdatePeerSSHKey(peerKey string, sshKey string) error
GetUsersFromAccount(accountId string) ([]*UserInfo, error)
GetGroup(accountId, groupID string) (*Group, error)
SaveGroup(accountId string, group *Group) error
UpdateGroup(accountID string, groupID string, operations []GroupUpdateOperation) (*Group, error)
DeleteGroup(accountId, groupID string) error
ListGroups(accountId string) ([]*Group, error)
GroupAddPeer(accountId, groupID, peerKey string) error
GroupDeletePeer(accountId, groupID, peerKey string) error
GroupListPeers(accountId, groupID string) ([]*Peer, error)
GetRule(accountId, ruleID string) (*Rule, error)
SaveRule(accountID string, rule *Rule) error
UpdateRule(accountID string, ruleID string, operations []RuleUpdateOperation) (*Rule, error)
DeleteRule(accountId, ruleID string) error
ListRules(accountId string) ([]*Rule, error)
GetRoute(accountID, routeID string) (*route.Route, error)
CreateRoute(accountID string, prefix, peer, description, netID string, masquerade bool, metric int, enabled bool) (*route.Route, error)
SaveRoute(accountID string, route *route.Route) error
UpdateRoute(accountID string, routeID string, operations []RouteUpdateOperation) (*route.Route, error)
DeleteRoute(accountID, routeID string) error
ListRoutes(accountID string) ([]*route.Route, error)
GetNameServerGroup(accountID, nsGroupID string) (*nbdns.NameServerGroup, error)
CreateNameServerGroup(accountID string, name, description string, nameServerList []nbdns.NameServer, groups []string, enabled bool) (*nbdns.NameServerGroup, error)
SaveNameServerGroup(accountID string, nsGroupToSave *nbdns.NameServerGroup) error
UpdateNameServerGroup(accountID, nsGroupID string, operations []NameServerGroupUpdateOperation) (*nbdns.NameServerGroup, error)
DeleteNameServerGroup(accountID, nsGroupID string) error
ListNameServerGroups(accountID string) ([]*nbdns.NameServerGroup, error)
}
type DefaultAccountManager struct {
Store Store
// mux to synchronise account operations (e.g. generating Peer IP address inside the Network)
mux sync.Mutex
// 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]
ctx context.Context
// 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
}
// Account represents a unique account of the system
type Account struct {
Id string
// User.Id it was created by
CreatedBy string
Domain string
DomainCategory string
IsDomainPrimaryAccount bool
SetupKeys map[string]*SetupKey
Network *Network
Peers map[string]*Peer
Users map[string]*User
Groups map[string]*Group
Rules map[string]*Rule
Routes map[string]*route.Route
NameServerGroups map[string]*nbdns.NameServerGroup
}
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:"-"`
}
func (a *Account) Copy() *Account {
peers := map[string]*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]*Group{}
for id, group := range a.Groups {
groups[id] = group.Copy()
}
rules := map[string]*Rule{}
for id, rule := range a.Rules {
rules[id] = rule.Copy()
}
routes := map[string]*route.Route{}
for id, route := range a.Routes {
routes[id] = route.Copy()
}
nsGroups := map[string]*nbdns.NameServerGroup{}
for id, nsGroup := range a.NameServerGroups {
nsGroups[id] = nsGroup.Copy()
}
return &Account{
Id: a.Id,
CreatedBy: a.CreatedBy,
SetupKeys: setupKeys,
Network: a.Network.Copy(),
Peers: peers,
Users: users,
Groups: groups,
Rules: rules,
Routes: routes,
NameServerGroups: nsGroups,
}
}
func (a *Account) GetGroupAll() (*Group, error) {
for _, g := range a.Groups {
if g.Name == "All" {
return g, nil
}
}
return nil, fmt.Errorf("no group ALL found")
}
// BuildManager creates a new DefaultAccountManager with a provided Store
func BuildManager(store Store, peersUpdateManager *PeersUpdateManager, idpManager idp.Manager,
singleAccountModeDomain string) (*DefaultAccountManager, error) {
am := &DefaultAccountManager{
Store: store,
mux: sync.Mutex{},
peersUpdateManager: peersUpdateManager,
idpManager: idpManager,
ctx: context.Background(),
cacheMux: sync.Mutex{},
cacheLoading: map[string]chan struct{}{},
}
allAccounts := store.GetAllAccounts()
// 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 {
am.singleAccountModeDomain = singleAccountModeDomain
log.Infof("single account mode enabled, accounts number %d", len(allAccounts))
} else {
log.Infof("single account mode disabled, accounts number %d", len(allAccounts))
}
// if account doesn't have a default group
// we create 'all' group and add all peers into it
// also we create default rule with source as destination
for _, account := range allAccounts {
_, err := account.GetGroupAll()
if err != nil {
addAllGroup(account)
if err := store.SaveAccount(account); err != nil {
return nil, err
}
}
}
goCacheClient := gocache.New(CacheExpirationMax, 30*time.Minute)
goCacheStore := cacheStore.NewGoCache(goCacheClient)
am.cacheManager = cache.NewLoadable[[]*idp.UserData](am.loadAccount, cache.New[[]*idp.UserData](goCacheStore))
if !isNil(am.idpManager) {
go func() {
err := am.warmupIDPCache()
if err != nil {
log.Warnf("failed warming up cache due to error: %v", err)
//todo retry?
return
}
}()
}
return am, nil
}
// 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(userID, domain string) (*Account, error) {
for i := 0; i < 2; i++ {
accountId := xid.New().String()
_, err := am.Store.GetAccount(accountId)
statusErr, _ := status.FromError(err)
if err == nil {
log.Warnf("an account with ID already exists, retrying...")
continue
} else if statusErr.Code() == codes.NotFound {
return newAccountWithId(accountId, userID, domain), nil
} else {
return nil, err
}
}
return nil, status.Errorf(codes.Internal, "error while creating new account")
}
func (am *DefaultAccountManager) warmupIDPCache() error {
userData, err := am.idpManager.GetAllAccounts()
if err != nil {
return err
}
for accountID, users := range userData {
err = am.cacheManager.Set(am.ctx, accountID, users, cacheStore.WithExpiration(cacheEntryExpiration()))
if err != nil {
return err
}
}
log.Infof("warmed up IDP cache with %d entries", len(userData))
return nil
}
// GetAccountById returns an existing account using its ID or error (NotFound) if doesn't exist
func (am *DefaultAccountManager) GetAccountById(accountId string) (*Account, error) {
am.mux.Lock()
defer am.mux.Unlock()
account, err := am.Store.GetAccount(accountId)
if err != nil {
return nil, status.Errorf(codes.NotFound, "account not found")
}
return account, nil
}
// GetAccountByUserOrAccountId look for an account by user or account Id, if no account is provided and
// user id doesn't have an account associated with it, one account is created
func (am *DefaultAccountManager) GetAccountByUserOrAccountId(
userId, accountId, domain string,
) (*Account, error) {
if accountId != "" {
return am.GetAccountById(accountId)
} else if userId != "" {
account, err := am.GetOrCreateAccountByUser(userId, domain)
if err != nil {
return nil, status.Errorf(codes.NotFound, "account not found using user id: %s", userId)
}
err = am.addAccountIDToIDPAppMeta(userId, account)
if err != nil {
return nil, err
}
return account, nil
}
return nil, status.Errorf(codes.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(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(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.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(userID, idp.AppMetadata{WTAccountID: account.Id})
if err != nil {
return err
}
if err != nil {
return status.Errorf(
codes.Internal,
"updating user's app metadata failed with: %v",
err,
)
}
// refresh cache to reflect the update
_, err = am.refreshCache(account.Id)
if err != nil {
return err
}
}
return nil
}
func (am *DefaultAccountManager) loadAccount(_ context.Context, accountID interface{}) ([]*idp.UserData, error) {
log.Debugf("account %s not found in cache, reloading", accountID)
return am.idpManager.GetAccount(fmt.Sprintf("%v", accountID))
}
func (am *DefaultAccountManager) lookupUserInCacheByEmail(email string, accountID string) (*idp.UserData, error) {
data, err := am.getAccountFromCache(accountID, false)
if err != nil {
return nil, err
}
for _, datum := range data {
if datum.Email == email {
return datum, nil
}
}
return nil, nil
}
// 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(userID string, account *Account) (*idp.UserData, error) {
users := make(map[string]struct{}, len(account.Users))
for _, user := range account.Users {
users[user.Id] = struct{}{}
}
log.Debugf("looking up user %s of account %s in cache", userID, account.Id)
userData, err := am.lookupCache(users, account.Id)
if err != nil {
return nil, err
}
for _, datum := range userData {
if datum.ID == userID {
return datum, nil
}
}
return nil, nil
}
func (am *DefaultAccountManager) refreshCache(accountID string) ([]*idp.UserData, error) {
return am.getAccountFromCache(accountID, true)
}
// getAccountFromCache returns user data for a given account ensuring that cache load happens only once
func (am *DefaultAccountManager) getAccountFromCache(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.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(accountUsers map[string]struct{}, accountID string) ([]*idp.UserData, error) {
data, err := am.getAccountFromCache(accountID, false)
if err != nil {
return nil, err
}
userDataMap := make(map[string]struct{})
for _, datum := range data {
userDataMap[datum.ID] = struct{}{}
}
// check whether we need to reload the cache
// the accountUsers ID list is the source of truth and all the users should be in the cache
reload := len(accountUsers) != len(data)
for user := range accountUsers {
if _, ok := userDataMap[user]; !ok {
reload = true
}
}
if reload {
// reload cache once avoiding loops
data, err = am.refreshCache(accountID)
if err != nil {
return nil, err
}
}
return data, err
}
// updateAccountDomainAttributes updates the account domain attributes and then, saves the account
func (am *DefaultAccountManager) updateAccountDomainAttributes(
account *Account,
claims jwtclaims.AuthorizationClaims,
primaryDomain bool,
) error {
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
}
err := am.Store.SaveAccount(account)
if err != nil {
return status.Errorf(codes.Internal, "failed saving updated account")
}
return nil
}
// handleExistingUserAccount handles existing User accounts and update its domain attributes.
//
// 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.
func (am *DefaultAccountManager) handleExistingUserAccount(
existingAcc *Account,
domainAcc *Account,
claims jwtclaims.AuthorizationClaims,
) error {
var err error
if domainAcc != nil && existingAcc.Id != domainAcc.Id {
err = am.updateAccountDomainAttributes(existingAcc, claims, false)
if err != nil {
return err
}
} else {
err = am.updateAccountDomainAttributes(existingAcc, claims, true)
if err != nil {
return err
}
}
// we should register the account ID to this user's metadata in our IDP manager
err = am.addAccountIDToIDPAppMeta(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(
domainAcc *Account,
claims jwtclaims.AuthorizationClaims,
) (*Account, error) {
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(account)
if err != nil {
return nil, status.Errorf(codes.Internal, "failed saving updated account")
}
} else {
account, err = am.newAccount(claims.UserId, lowerDomain)
if err != nil {
return nil, err
}
err = am.updateAccountDomainAttributes(account, claims, true)
if err != nil {
return nil, err
}
}
err = am.addAccountIDToIDPAppMeta(claims.UserId, account)
if err != nil {
return nil, err
}
return account, nil
}
// redeemInvite checks whether user has been invited and redeems the invite
func (am *DefaultAccountManager) redeemInvite(account *Account, userID string) error {
// only possible with the enabled IdP manager
if am.idpManager == nil {
log.Warnf("invites only work with enabled IdP manager")
return nil
}
user, err := am.lookupUserInCache(userID, account)
if err != nil {
return err
}
if user == nil {
return status.Errorf(codes.NotFound, "user %s not found in the IdP", userID)
}
if user.AppMetadata.WTPendingInvite != nil && *user.AppMetadata.WTPendingInvite {
log.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(account.Id)
if err != nil {
log.Warnf("failed reloading cache when redeeming user %s under account %s", userID, account.Id)
return
}
log.Debugf("user %s of account %s redeemed invite", user.ID, account.Id)
}()
}
return nil
}
// GetAccountFromToken returns an account associated with this token
func (am *DefaultAccountManager) GetAccountFromToken(claims jwtclaims.AuthorizationClaims) (*Account, error) {
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.Infof("overriding JWT Domain and DomainCategory claims since single account mode is enabled")
}
account, err := am.getAccountWithAuthorizationClaims(claims)
if err != nil {
return nil, err
}
err = am.redeemInvite(account, claims.UserId)
if err != nil {
return nil, err
}
return account, 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(
claims jwtclaims.AuthorizationClaims,
) (*Account, error) {
// 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(claims.UserId, claims.AccountId, claims.Domain)
} else if claims.AccountId != "" {
accountFromID, err := am.GetAccountById(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 {
return accountFromID, nil
}
}
am.mux.Lock()
defer am.mux.Unlock()
// We checked if the domain has a primary account already
domainAccount, err := am.Store.GetAccountByPrivateDomain(claims.Domain)
accStatus, _ := status.FromError(err)
if accStatus.Code() != codes.OK && accStatus.Code() != codes.NotFound {
return nil, err
}
account, err := am.Store.GetUserAccount(claims.UserId)
if err == nil {
err = am.handleExistingUserAccount(account, domainAccount, claims)
if err != nil {
return nil, err
}
return account, nil
} else if s, ok := status.FromError(err); ok && s.Code() == codes.NotFound {
return am.handleNewUserAccount(domainAccount, claims)
} else {
// other error
return nil, err
}
}
func isDomainValid(domain string) bool {
re := regexp.MustCompile(`^([a-z0-9]+(-[a-z0-9]+)*\.)+[a-z]{2,}$`)
return re.Match([]byte(domain))
}
// AccountExists checks whether account exists (returns true) or not (returns false)
func (am *DefaultAccountManager) AccountExists(accountId string) (*bool, error) {
am.mux.Lock()
defer am.mux.Unlock()
var res bool
_, err := am.Store.GetAccount(accountId)
if err != nil {
if s, ok := status.FromError(err); ok && s.Code() == codes.NotFound {
res = false
return &res, nil
} else {
return nil, err
}
}
res = true
return &res, nil
}
// addAllGroup to account object if it doesn't exists
func addAllGroup(account *Account) {
if len(account.Groups) == 0 {
allGroup := &Group{
ID: xid.New().String(),
Name: "All",
}
for _, peer := range account.Peers {
allGroup.Peers = append(allGroup.Peers, peer.Key)
}
account.Groups = map[string]*Group{allGroup.ID: allGroup}
defaultRule := &Rule{
ID: xid.New().String(),
Name: DefaultRuleName,
Description: DefaultRuleDescription,
Disabled: false,
Source: []string{allGroup.ID},
Destination: []string{allGroup.ID},
}
account.Rules = map[string]*Rule{defaultRule.ID: defaultRule}
}
}
// newAccountWithId creates a new Account with a default SetupKey (doesn't store in a Store) and provided id
func newAccountWithId(accountId, userId, domain string) *Account {
log.Debugf("creating new account")
setupKeys := make(map[string]*SetupKey)
defaultKey := GenerateDefaultSetupKey()
oneOffKey := GenerateSetupKey("One-off key", SetupKeyOneOff, DefaultSetupKeyDuration, []string{})
setupKeys[defaultKey.Key] = defaultKey
setupKeys[oneOffKey.Key] = oneOffKey
network := NewNetwork()
peers := make(map[string]*Peer)
users := make(map[string]*User)
routes := make(map[string]*route.Route)
nameServersGroups := make(map[string]*nbdns.NameServerGroup)
users[userId] = NewAdminUser(userId)
log.Debugf("created new account %s with setup key %s", accountId, defaultKey.Key)
acc := &Account{
Id: accountId,
SetupKeys: setupKeys,
Network: network,
Peers: peers,
Users: users,
CreatedBy: userId,
Domain: domain,
Routes: routes,
NameServerGroups: nameServersGroups,
}
addAllGroup(acc)
return acc
}
func getAccountSetupKeyByKey(acc *Account, key string) *SetupKey {
for _, k := range acc.SetupKeys {
if key == k.Key {
return k
}
}
return nil
}
func removeFromList(inputList []string, toRemove []string) []string {
toRemoveMap := make(map[string]struct{})
for _, item := range toRemove {
toRemoveMap[item] = struct{}{}
}
var resultList []string
for _, item := range inputList {
_, ok := toRemoveMap[item]
if !ok {
resultList = append(resultList, item)
}
}
return resultList
}