sftpgo-mirror/dataprovider/memory.go

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package dataprovider
import (
"crypto/x509"
"errors"
"fmt"
"os"
"path/filepath"
"sort"
"sync"
"time"
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"github.com/drakkan/sftpgo/v2/logger"
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"github.com/drakkan/sftpgo/v2/util"
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"github.com/drakkan/sftpgo/v2/vfs"
)
var (
errMemoryProviderClosed = errors.New("memory provider is closed")
)
type memoryProviderHandle struct {
// configuration file to use for loading users
configFile string
sync.Mutex
isClosed bool
// slice with ordered usernames
usernames []string
// map for users, username is the key
users map[string]User
// map for virtual folders, folder name is the key
vfolders map[string]vfs.BaseVirtualFolder
// slice with ordered folder names
vfoldersNames []string
// map for admins, username is the key
admins map[string]Admin
// slice with ordered admins
adminsUsernames []string
// map for API keys, keyID is the key
apiKeys map[string]APIKey
// slice with ordered API keys KeyID
apiKeysIDs []string
// map for shares, shareID is the key
shares map[string]Share
// slice with ordered shares shareID
sharesIDs []string
}
// MemoryProvider auth provider for a memory store
type MemoryProvider struct {
dbHandle *memoryProviderHandle
}
func initializeMemoryProvider(basePath string) {
configFile := ""
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if util.IsFileInputValid(config.Name) {
configFile = config.Name
if !filepath.IsAbs(configFile) {
configFile = filepath.Join(basePath, configFile)
}
}
provider = &MemoryProvider{
dbHandle: &memoryProviderHandle{
isClosed: false,
usernames: []string{},
users: make(map[string]User),
vfolders: make(map[string]vfs.BaseVirtualFolder),
vfoldersNames: []string{},
admins: make(map[string]Admin),
adminsUsernames: []string{},
apiKeys: make(map[string]APIKey),
apiKeysIDs: []string{},
shares: make(map[string]Share),
sharesIDs: []string{},
configFile: configFile,
},
}
if err := provider.reloadConfig(); err != nil {
logger.Error(logSender, "", "unable to load initial data: %v", err)
logger.ErrorToConsole("unable to load initial data: %v", err)
}
}
func (p *MemoryProvider) checkAvailability() error {
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return errMemoryProviderClosed
}
return nil
}
func (p *MemoryProvider) close() error {
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return errMemoryProviderClosed
}
p.dbHandle.isClosed = true
return nil
}
func (p *MemoryProvider) validateUserAndTLSCert(username, protocol string, tlsCert *x509.Certificate) (User, error) {
var user User
if tlsCert == nil {
return user, errors.New("TLS certificate cannot be null or empty")
}
user, err := p.userExists(username)
if err != nil {
providerLog(logger.LevelWarn, "error authenticating user %#v: %v", username, err)
return user, err
}
return checkUserAndTLSCertificate(&user, protocol, tlsCert)
}
func (p *MemoryProvider) validateUserAndPass(username, password, ip, protocol string) (User, error) {
var user User
if password == "" {
return user, errors.New("credentials cannot be null or empty")
}
user, err := p.userExists(username)
if err != nil {
providerLog(logger.LevelWarn, "error authenticating user %#v: %v", username, err)
return user, err
}
return checkUserAndPass(&user, password, ip, protocol)
}
func (p *MemoryProvider) validateUserAndPubKey(username string, pubKey []byte) (User, string, error) {
var user User
if len(pubKey) == 0 {
return user, "", errors.New("credentials cannot be null or empty")
}
user, err := p.userExists(username)
if err != nil {
providerLog(logger.LevelWarn, "error authenticating user %#v: %v", username, err)
return user, "", err
}
return checkUserAndPubKey(&user, pubKey)
}
func (p *MemoryProvider) validateAdminAndPass(username, password, ip string) (Admin, error) {
admin, err := p.adminExists(username)
if err != nil {
providerLog(logger.LevelWarn, "error authenticating admin %#v: %v", username, err)
return admin, ErrInvalidCredentials
}
err = admin.checkUserAndPass(password, ip)
return admin, err
}
func (p *MemoryProvider) updateAPIKeyLastUse(keyID string) error {
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return errMemoryProviderClosed
}
apiKey, err := p.apiKeyExistsInternal(keyID)
if err != nil {
return err
}
apiKey.LastUseAt = util.GetTimeAsMsSinceEpoch(time.Now())
p.dbHandle.apiKeys[apiKey.KeyID] = apiKey
return nil
}
func (p *MemoryProvider) setUpdatedAt(username string) {
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return
}
user, err := p.userExistsInternal(username)
if err != nil {
return
}
user.UpdatedAt = util.GetTimeAsMsSinceEpoch(time.Now())
p.dbHandle.users[user.Username] = user
}
func (p *MemoryProvider) updateLastLogin(username string) error {
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return errMemoryProviderClosed
}
user, err := p.userExistsInternal(username)
if err != nil {
return err
}
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user.LastLogin = util.GetTimeAsMsSinceEpoch(time.Now())
p.dbHandle.users[user.Username] = user
return nil
}
func (p *MemoryProvider) updateAdminLastLogin(username string) error {
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return errMemoryProviderClosed
}
admin, err := p.adminExistsInternal(username)
if err != nil {
return err
}
admin.LastLogin = util.GetTimeAsMsSinceEpoch(time.Now())
p.dbHandle.admins[admin.Username] = admin
return nil
}
func (p *MemoryProvider) updateQuota(username string, filesAdd int, sizeAdd int64, reset bool) error {
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return errMemoryProviderClosed
}
user, err := p.userExistsInternal(username)
if err != nil {
providerLog(logger.LevelWarn, "unable to update quota for user %#v error: %v", username, err)
return err
}
if reset {
user.UsedQuotaSize = sizeAdd
user.UsedQuotaFiles = filesAdd
} else {
user.UsedQuotaSize += sizeAdd
user.UsedQuotaFiles += filesAdd
}
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user.LastQuotaUpdate = util.GetTimeAsMsSinceEpoch(time.Now())
providerLog(logger.LevelDebug, "quota updated for user %#v, files increment: %v size increment: %v is reset? %v",
username, filesAdd, sizeAdd, reset)
p.dbHandle.users[user.Username] = user
return nil
}
func (p *MemoryProvider) getUsedQuota(username string) (int, int64, error) {
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return 0, 0, errMemoryProviderClosed
}
user, err := p.userExistsInternal(username)
if err != nil {
providerLog(logger.LevelWarn, "unable to get quota for user %#v error: %v", username, err)
return 0, 0, err
}
return user.UsedQuotaFiles, user.UsedQuotaSize, err
}
func (p *MemoryProvider) addUser(user *User) error {
// we can query virtual folder while validating a user
// so we have to check without holding the lock
err := ValidateUser(user)
if err != nil {
return err
}
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return errMemoryProviderClosed
}
_, err = p.userExistsInternal(user.Username)
if err == nil {
return fmt.Errorf("username %#v already exists", user.Username)
}
user.ID = p.getNextID()
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user.LastQuotaUpdate = 0
user.UsedQuotaSize = 0
user.UsedQuotaFiles = 0
user.LastLogin = 0
user.CreatedAt = util.GetTimeAsMsSinceEpoch(time.Now())
user.UpdatedAt = util.GetTimeAsMsSinceEpoch(time.Now())
user.VirtualFolders = p.joinVirtualFoldersFields(user)
p.dbHandle.users[user.Username] = user.getACopy()
p.dbHandle.usernames = append(p.dbHandle.usernames, user.Username)
sort.Strings(p.dbHandle.usernames)
return nil
}
func (p *MemoryProvider) updateUser(user *User) error {
// we can query virtual folder while validating a user
// so we have to check without holding the lock
err := ValidateUser(user)
if err != nil {
return err
}
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return errMemoryProviderClosed
}
u, err := p.userExistsInternal(user.Username)
if err != nil {
return err
}
for _, oldFolder := range u.VirtualFolders {
p.removeUserFromFolderMapping(oldFolder.Name, u.Username)
}
user.VirtualFolders = p.joinVirtualFoldersFields(user)
user.LastQuotaUpdate = u.LastQuotaUpdate
user.UsedQuotaSize = u.UsedQuotaSize
user.UsedQuotaFiles = u.UsedQuotaFiles
user.LastLogin = u.LastLogin
user.CreatedAt = u.CreatedAt
user.UpdatedAt = util.GetTimeAsMsSinceEpoch(time.Now())
user.ID = u.ID
// pre-login and external auth hook will use the passed *user so save a copy
p.dbHandle.users[user.Username] = user.getACopy()
return nil
}
func (p *MemoryProvider) deleteUser(user *User) error {
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return errMemoryProviderClosed
}
u, err := p.userExistsInternal(user.Username)
if err != nil {
return err
}
for _, oldFolder := range u.VirtualFolders {
p.removeUserFromFolderMapping(oldFolder.Name, u.Username)
}
delete(p.dbHandle.users, user.Username)
// this could be more efficient
p.dbHandle.usernames = make([]string, 0, len(p.dbHandle.users))
for username := range p.dbHandle.users {
p.dbHandle.usernames = append(p.dbHandle.usernames, username)
}
sort.Strings(p.dbHandle.usernames)
p.deleteAPIKeysWithUser(user.Username)
p.deleteSharesWithUser(user.Username)
return nil
}
func (p *MemoryProvider) dumpUsers() ([]User, error) {
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
users := make([]User, 0, len(p.dbHandle.usernames))
var err error
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if p.dbHandle.isClosed {
return users, errMemoryProviderClosed
}
for _, username := range p.dbHandle.usernames {
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u := p.dbHandle.users[username]
user := u.getACopy()
err = addCredentialsToUser(&user)
if err != nil {
return users, err
}
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users = append(users, user)
}
return users, err
}
func (p *MemoryProvider) dumpFolders() ([]vfs.BaseVirtualFolder, error) {
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
folders := make([]vfs.BaseVirtualFolder, 0, len(p.dbHandle.vfoldersNames))
if p.dbHandle.isClosed {
return folders, errMemoryProviderClosed
}
for _, f := range p.dbHandle.vfolders {
folders = append(folders, f)
}
return folders, nil
}
// memory provider cannot be shared, so we always return no recently updated users
func (p *MemoryProvider) getRecentlyUpdatedUsers(after int64) ([]User, error) {
return nil, nil
}
func (p *MemoryProvider) getUsers(limit int, offset int, order string) ([]User, error) {
users := make([]User, 0, limit)
var err error
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return users, errMemoryProviderClosed
}
if limit <= 0 {
return users, err
}
itNum := 0
if order == OrderASC {
for _, username := range p.dbHandle.usernames {
itNum++
if itNum <= offset {
continue
}
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u := p.dbHandle.users[username]
user := u.getACopy()
user.PrepareForRendering()
users = append(users, user)
if len(users) >= limit {
break
}
}
} else {
for i := len(p.dbHandle.usernames) - 1; i >= 0; i-- {
itNum++
if itNum <= offset {
continue
}
username := p.dbHandle.usernames[i]
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u := p.dbHandle.users[username]
user := u.getACopy()
user.PrepareForRendering()
users = append(users, user)
if len(users) >= limit {
break
}
}
}
return users, err
}
func (p *MemoryProvider) userExists(username string) (User, error) {
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return User{}, errMemoryProviderClosed
}
return p.userExistsInternal(username)
}
func (p *MemoryProvider) userExistsInternal(username string) (User, error) {
if val, ok := p.dbHandle.users[username]; ok {
return val.getACopy(), nil
}
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return User{}, util.NewRecordNotFoundError(fmt.Sprintf("username %#v does not exist", username))
}
func (p *MemoryProvider) addAdmin(admin *Admin) error {
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return errMemoryProviderClosed
}
err := admin.validate()
if err != nil {
return err
}
_, err = p.adminExistsInternal(admin.Username)
if err == nil {
return fmt.Errorf("admin %#v already exists", admin.Username)
}
admin.ID = p.getNextAdminID()
admin.CreatedAt = util.GetTimeAsMsSinceEpoch(time.Now())
admin.UpdatedAt = util.GetTimeAsMsSinceEpoch(time.Now())
admin.LastLogin = 0
p.dbHandle.admins[admin.Username] = admin.getACopy()
p.dbHandle.adminsUsernames = append(p.dbHandle.adminsUsernames, admin.Username)
sort.Strings(p.dbHandle.adminsUsernames)
return nil
}
func (p *MemoryProvider) updateAdmin(admin *Admin) error {
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return errMemoryProviderClosed
}
err := admin.validate()
if err != nil {
return err
}
a, err := p.adminExistsInternal(admin.Username)
if err != nil {
return err
}
admin.ID = a.ID
admin.CreatedAt = a.CreatedAt
admin.LastLogin = a.LastLogin
admin.UpdatedAt = util.GetTimeAsMsSinceEpoch(time.Now())
p.dbHandle.admins[admin.Username] = admin.getACopy()
return nil
}
func (p *MemoryProvider) deleteAdmin(admin *Admin) error {
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return errMemoryProviderClosed
}
_, err := p.adminExistsInternal(admin.Username)
if err != nil {
return err
}
delete(p.dbHandle.admins, admin.Username)
// this could be more efficient
p.dbHandle.adminsUsernames = make([]string, 0, len(p.dbHandle.admins))
for username := range p.dbHandle.admins {
p.dbHandle.adminsUsernames = append(p.dbHandle.adminsUsernames, username)
}
sort.Strings(p.dbHandle.adminsUsernames)
p.deleteAPIKeysWithAdmin(admin.Username)
return nil
}
func (p *MemoryProvider) adminExists(username string) (Admin, error) {
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return Admin{}, errMemoryProviderClosed
}
return p.adminExistsInternal(username)
}
func (p *MemoryProvider) adminExistsInternal(username string) (Admin, error) {
if val, ok := p.dbHandle.admins[username]; ok {
return val.getACopy(), nil
}
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return Admin{}, util.NewRecordNotFoundError(fmt.Sprintf("admin %#v does not exist", username))
}
func (p *MemoryProvider) dumpAdmins() ([]Admin, error) {
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
admins := make([]Admin, 0, len(p.dbHandle.admins))
if p.dbHandle.isClosed {
return admins, errMemoryProviderClosed
}
for _, admin := range p.dbHandle.admins {
admins = append(admins, admin)
}
return admins, nil
}
func (p *MemoryProvider) getAdmins(limit int, offset int, order string) ([]Admin, error) {
admins := make([]Admin, 0, limit)
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return admins, errMemoryProviderClosed
}
if limit <= 0 {
return admins, nil
}
itNum := 0
if order == OrderASC {
for _, username := range p.dbHandle.adminsUsernames {
itNum++
if itNum <= offset {
continue
}
a := p.dbHandle.admins[username]
admin := a.getACopy()
admin.HideConfidentialData()
admins = append(admins, admin)
if len(admins) >= limit {
break
}
}
} else {
for i := len(p.dbHandle.adminsUsernames) - 1; i >= 0; i-- {
itNum++
if itNum <= offset {
continue
}
username := p.dbHandle.adminsUsernames[i]
a := p.dbHandle.admins[username]
admin := a.getACopy()
admin.HideConfidentialData()
admins = append(admins, admin)
if len(admins) >= limit {
break
}
}
}
return admins, nil
}
func (p *MemoryProvider) updateFolderQuota(name string, filesAdd int, sizeAdd int64, reset bool) error {
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return errMemoryProviderClosed
}
folder, err := p.folderExistsInternal(name)
if err != nil {
providerLog(logger.LevelWarn, "unable to update quota for folder %#v error: %v", name, err)
return err
}
if reset {
folder.UsedQuotaSize = sizeAdd
folder.UsedQuotaFiles = filesAdd
} else {
folder.UsedQuotaSize += sizeAdd
folder.UsedQuotaFiles += filesAdd
}
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folder.LastQuotaUpdate = util.GetTimeAsMsSinceEpoch(time.Now())
p.dbHandle.vfolders[name] = folder
return nil
}
func (p *MemoryProvider) getUsedFolderQuota(name string) (int, int64, error) {
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return 0, 0, errMemoryProviderClosed
}
folder, err := p.folderExistsInternal(name)
if err != nil {
providerLog(logger.LevelWarn, "unable to get quota for folder %#v error: %v", name, err)
return 0, 0, err
}
return folder.UsedQuotaFiles, folder.UsedQuotaSize, err
}
func (p *MemoryProvider) joinVirtualFoldersFields(user *User) []vfs.VirtualFolder {
var folders []vfs.VirtualFolder
for idx := range user.VirtualFolders {
folder := &user.VirtualFolders[idx]
f, err := p.addOrUpdateFolderInternal(&folder.BaseVirtualFolder, user.Username, 0, 0, 0)
if err == nil {
folder.BaseVirtualFolder = f
folders = append(folders, *folder)
}
}
return folders
}
func (p *MemoryProvider) removeUserFromFolderMapping(folderName, username string) {
folder, err := p.folderExistsInternal(folderName)
if err == nil {
var usernames []string
for _, user := range folder.Users {
if user != username {
usernames = append(usernames, user)
}
}
folder.Users = usernames
p.dbHandle.vfolders[folder.Name] = folder
}
}
func (p *MemoryProvider) updateFoldersMappingInternal(folder vfs.BaseVirtualFolder) {
p.dbHandle.vfolders[folder.Name] = folder
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if !util.IsStringInSlice(folder.Name, p.dbHandle.vfoldersNames) {
p.dbHandle.vfoldersNames = append(p.dbHandle.vfoldersNames, folder.Name)
sort.Strings(p.dbHandle.vfoldersNames)
}
}
func (p *MemoryProvider) addOrUpdateFolderInternal(baseFolder *vfs.BaseVirtualFolder, username string, usedQuotaSize int64,
usedQuotaFiles int, lastQuotaUpdate int64) (vfs.BaseVirtualFolder, error) {
folder, err := p.folderExistsInternal(baseFolder.Name)
if err == nil {
// exists
folder.MappedPath = baseFolder.MappedPath
folder.Description = baseFolder.Description
folder.FsConfig = baseFolder.FsConfig.GetACopy()
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if !util.IsStringInSlice(username, folder.Users) {
folder.Users = append(folder.Users, username)
}
p.updateFoldersMappingInternal(folder)
return folder, nil
}
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if _, ok := err.(*util.RecordNotFoundError); ok {
folder = baseFolder.GetACopy()
folder.ID = p.getNextFolderID()
folder.UsedQuotaSize = usedQuotaSize
folder.UsedQuotaFiles = usedQuotaFiles
folder.LastQuotaUpdate = lastQuotaUpdate
folder.Users = []string{username}
p.updateFoldersMappingInternal(folder)
return folder, nil
}
return folder, err
}
func (p *MemoryProvider) folderExistsInternal(name string) (vfs.BaseVirtualFolder, error) {
if val, ok := p.dbHandle.vfolders[name]; ok {
return val, nil
}
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return vfs.BaseVirtualFolder{}, util.NewRecordNotFoundError(fmt.Sprintf("folder %#v does not exist", name))
}
func (p *MemoryProvider) getFolders(limit, offset int, order string) ([]vfs.BaseVirtualFolder, error) {
folders := make([]vfs.BaseVirtualFolder, 0, limit)
var err error
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return folders, errMemoryProviderClosed
}
if limit <= 0 {
return folders, err
}
itNum := 0
if order == OrderASC {
for _, name := range p.dbHandle.vfoldersNames {
itNum++
if itNum <= offset {
continue
}
f := p.dbHandle.vfolders[name]
folder := f.GetACopy()
folder.PrepareForRendering()
folders = append(folders, folder)
if len(folders) >= limit {
break
}
}
} else {
for i := len(p.dbHandle.vfoldersNames) - 1; i >= 0; i-- {
itNum++
if itNum <= offset {
continue
}
name := p.dbHandle.vfoldersNames[i]
f := p.dbHandle.vfolders[name]
folder := f.GetACopy()
folder.PrepareForRendering()
folders = append(folders, folder)
if len(folders) >= limit {
break
}
}
}
return folders, err
}
func (p *MemoryProvider) getFolderByName(name string) (vfs.BaseVirtualFolder, error) {
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return vfs.BaseVirtualFolder{}, errMemoryProviderClosed
}
folder, err := p.folderExistsInternal(name)
if err != nil {
return vfs.BaseVirtualFolder{}, err
}
return folder.GetACopy(), nil
}
func (p *MemoryProvider) addFolder(folder *vfs.BaseVirtualFolder) error {
err := ValidateFolder(folder)
if err != nil {
return err
}
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return errMemoryProviderClosed
}
_, err = p.folderExistsInternal(folder.Name)
if err == nil {
return fmt.Errorf("folder %#v already exists", folder.Name)
}
folder.ID = p.getNextFolderID()
folder.Users = nil
p.dbHandle.vfolders[folder.Name] = folder.GetACopy()
p.dbHandle.vfoldersNames = append(p.dbHandle.vfoldersNames, folder.Name)
sort.Strings(p.dbHandle.vfoldersNames)
return nil
}
func (p *MemoryProvider) updateFolder(folder *vfs.BaseVirtualFolder) error {
err := ValidateFolder(folder)
if err != nil {
return err
}
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return errMemoryProviderClosed
}
f, err := p.folderExistsInternal(folder.Name)
if err != nil {
return err
}
folder.ID = f.ID
folder.LastQuotaUpdate = f.LastQuotaUpdate
folder.UsedQuotaFiles = f.UsedQuotaFiles
folder.UsedQuotaSize = f.UsedQuotaSize
folder.Users = f.Users
p.dbHandle.vfolders[folder.Name] = folder.GetACopy()
// now update the related users
for _, username := range folder.Users {
user, err := p.userExistsInternal(username)
if err == nil {
var folders []vfs.VirtualFolder
for idx := range user.VirtualFolders {
userFolder := &user.VirtualFolders[idx]
if folder.Name == userFolder.Name {
userFolder.BaseVirtualFolder = folder.GetACopy()
}
folders = append(folders, *userFolder)
}
user.VirtualFolders = folders
p.dbHandle.users[user.Username] = user
}
}
return nil
}
func (p *MemoryProvider) deleteFolder(folder *vfs.BaseVirtualFolder) error {
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return errMemoryProviderClosed
}
_, err := p.folderExistsInternal(folder.Name)
if err != nil {
return err
}
for _, username := range folder.Users {
user, err := p.userExistsInternal(username)
if err == nil {
var folders []vfs.VirtualFolder
for idx := range user.VirtualFolders {
userFolder := &user.VirtualFolders[idx]
if folder.Name != userFolder.Name {
folders = append(folders, *userFolder)
}
}
user.VirtualFolders = folders
p.dbHandle.users[user.Username] = user
}
}
delete(p.dbHandle.vfolders, folder.Name)
p.dbHandle.vfoldersNames = []string{}
for name := range p.dbHandle.vfolders {
p.dbHandle.vfoldersNames = append(p.dbHandle.vfoldersNames, name)
}
sort.Strings(p.dbHandle.vfoldersNames)
return nil
}
func (p *MemoryProvider) apiKeyExistsInternal(keyID string) (APIKey, error) {
if val, ok := p.dbHandle.apiKeys[keyID]; ok {
return val.getACopy(), nil
}
return APIKey{}, util.NewRecordNotFoundError(fmt.Sprintf("API key %#v does not exist", keyID))
}
func (p *MemoryProvider) apiKeyExists(keyID string) (APIKey, error) {
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return APIKey{}, errMemoryProviderClosed
}
return p.apiKeyExistsInternal(keyID)
}
func (p *MemoryProvider) addAPIKey(apiKey *APIKey) error {
err := apiKey.validate()
if err != nil {
return err
}
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return errMemoryProviderClosed
}
_, err = p.apiKeyExistsInternal(apiKey.KeyID)
if err == nil {
return fmt.Errorf("API key %#v already exists", apiKey.KeyID)
}
if apiKey.User != "" {
if _, err := p.userExistsInternal(apiKey.User); err != nil {
return util.NewValidationError(fmt.Sprintf("related user %#v does not exists", apiKey.User))
}
}
if apiKey.Admin != "" {
if _, err := p.adminExistsInternal(apiKey.Admin); err != nil {
return util.NewValidationError(fmt.Sprintf("related admin %#v does not exists", apiKey.User))
}
}
apiKey.CreatedAt = util.GetTimeAsMsSinceEpoch(time.Now())
apiKey.UpdatedAt = util.GetTimeAsMsSinceEpoch(time.Now())
apiKey.LastUseAt = 0
p.dbHandle.apiKeys[apiKey.KeyID] = apiKey.getACopy()
p.dbHandle.apiKeysIDs = append(p.dbHandle.apiKeysIDs, apiKey.KeyID)
sort.Strings(p.dbHandle.apiKeysIDs)
return nil
}
func (p *MemoryProvider) updateAPIKey(apiKey *APIKey) error {
err := apiKey.validate()
if err != nil {
return err
}
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return errMemoryProviderClosed
}
k, err := p.apiKeyExistsInternal(apiKey.KeyID)
if err != nil {
return err
}
if apiKey.User != "" {
if _, err := p.userExistsInternal(apiKey.User); err != nil {
return util.NewValidationError(fmt.Sprintf("related user %#v does not exists", apiKey.User))
}
}
if apiKey.Admin != "" {
if _, err := p.adminExistsInternal(apiKey.Admin); err != nil {
return util.NewValidationError(fmt.Sprintf("related admin %#v does not exists", apiKey.User))
}
}
apiKey.ID = k.ID
apiKey.KeyID = k.KeyID
apiKey.Key = k.Key
apiKey.CreatedAt = k.CreatedAt
apiKey.LastUseAt = k.LastUseAt
apiKey.UpdatedAt = util.GetTimeAsMsSinceEpoch(time.Now())
p.dbHandle.apiKeys[apiKey.KeyID] = apiKey.getACopy()
return nil
}
func (p *MemoryProvider) deleteAPIKey(apiKey *APIKey) error {
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return errMemoryProviderClosed
}
_, err := p.apiKeyExistsInternal(apiKey.KeyID)
if err != nil {
return err
}
delete(p.dbHandle.apiKeys, apiKey.KeyID)
p.updateAPIKeysOrdering()
return nil
}
func (p *MemoryProvider) getAPIKeys(limit int, offset int, order string) ([]APIKey, error) {
apiKeys := make([]APIKey, 0, limit)
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return apiKeys, errMemoryProviderClosed
}
if limit <= 0 {
return apiKeys, nil
}
itNum := 0
if order == OrderDESC {
for i := len(p.dbHandle.apiKeysIDs) - 1; i >= 0; i-- {
itNum++
if itNum <= offset {
continue
}
keyID := p.dbHandle.apiKeysIDs[i]
k := p.dbHandle.apiKeys[keyID]
apiKey := k.getACopy()
apiKey.HideConfidentialData()
apiKeys = append(apiKeys, apiKey)
if len(apiKeys) >= limit {
break
}
}
} else {
for _, keyID := range p.dbHandle.apiKeysIDs {
itNum++
if itNum <= offset {
continue
}
k := p.dbHandle.apiKeys[keyID]
apiKey := k.getACopy()
apiKey.HideConfidentialData()
apiKeys = append(apiKeys, apiKey)
if len(apiKeys) >= limit {
break
}
}
}
return apiKeys, nil
}
func (p *MemoryProvider) dumpAPIKeys() ([]APIKey, error) {
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
apiKeys := make([]APIKey, 0, len(p.dbHandle.apiKeys))
if p.dbHandle.isClosed {
return apiKeys, errMemoryProviderClosed
}
for _, k := range p.dbHandle.apiKeys {
apiKeys = append(apiKeys, k)
}
return apiKeys, nil
}
func (p *MemoryProvider) deleteAPIKeysWithUser(username string) {
found := false
for k, v := range p.dbHandle.apiKeys {
if v.User == username {
delete(p.dbHandle.apiKeys, k)
found = true
}
}
if found {
p.updateAPIKeysOrdering()
}
}
func (p *MemoryProvider) deleteAPIKeysWithAdmin(username string) {
found := false
for k, v := range p.dbHandle.apiKeys {
if v.Admin == username {
delete(p.dbHandle.apiKeys, k)
found = true
}
}
if found {
p.updateAPIKeysOrdering()
}
}
func (p *MemoryProvider) deleteSharesWithUser(username string) {
found := false
for k, v := range p.dbHandle.shares {
if v.Username == username {
delete(p.dbHandle.shares, k)
found = true
}
}
if found {
p.updateSharesOrdering()
}
}
func (p *MemoryProvider) updateAPIKeysOrdering() {
// this could be more efficient
p.dbHandle.apiKeysIDs = make([]string, 0, len(p.dbHandle.apiKeys))
for keyID := range p.dbHandle.apiKeys {
p.dbHandle.apiKeysIDs = append(p.dbHandle.apiKeysIDs, keyID)
}
sort.Strings(p.dbHandle.apiKeysIDs)
}
func (p *MemoryProvider) updateSharesOrdering() {
// this could be more efficient
p.dbHandle.sharesIDs = make([]string, 0, len(p.dbHandle.shares))
for shareID := range p.dbHandle.shares {
p.dbHandle.sharesIDs = append(p.dbHandle.sharesIDs, shareID)
}
sort.Strings(p.dbHandle.sharesIDs)
}
func (p *MemoryProvider) shareExistsInternal(shareID, username string) (Share, error) {
if val, ok := p.dbHandle.shares[shareID]; ok {
if username != "" && val.Username != username {
return Share{}, util.NewRecordNotFoundError(fmt.Sprintf("Share %#v does not exist", shareID))
}
return val.getACopy(), nil
}
return Share{}, util.NewRecordNotFoundError(fmt.Sprintf("Share %#v does not exist", shareID))
}
func (p *MemoryProvider) shareExists(shareID, username string) (Share, error) {
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return Share{}, errMemoryProviderClosed
}
return p.shareExistsInternal(shareID, username)
}
func (p *MemoryProvider) addShare(share *Share) error {
err := share.validate()
if err != nil {
return err
}
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return errMemoryProviderClosed
}
_, err = p.shareExistsInternal(share.ShareID, share.Username)
if err == nil {
return fmt.Errorf("share %#v already exists", share.ShareID)
}
if _, err := p.userExistsInternal(share.Username); err != nil {
return util.NewValidationError(fmt.Sprintf("related user %#v does not exists", share.Username))
}
share.CreatedAt = util.GetTimeAsMsSinceEpoch(time.Now())
share.UpdatedAt = util.GetTimeAsMsSinceEpoch(time.Now())
share.LastUseAt = 0
share.UsedTokens = 0
p.dbHandle.shares[share.ShareID] = share.getACopy()
p.dbHandle.sharesIDs = append(p.dbHandle.sharesIDs, share.ShareID)
sort.Strings(p.dbHandle.sharesIDs)
return nil
}
func (p *MemoryProvider) updateShare(share *Share) error {
err := share.validate()
if err != nil {
return err
}
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return errMemoryProviderClosed
}
s, err := p.shareExistsInternal(share.ShareID, share.Username)
if err != nil {
return err
}
if _, err := p.userExistsInternal(share.Username); err != nil {
return util.NewValidationError(fmt.Sprintf("related user %#v does not exists", share.Username))
}
share.ID = s.ID
share.ShareID = s.ShareID
share.UsedTokens = s.UsedTokens
share.CreatedAt = s.CreatedAt
share.LastUseAt = s.LastUseAt
share.UpdatedAt = util.GetTimeAsMsSinceEpoch(time.Now())
p.dbHandle.shares[share.ShareID] = share.getACopy()
return nil
}
func (p *MemoryProvider) deleteShare(share *Share) error {
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return errMemoryProviderClosed
}
_, err := p.shareExistsInternal(share.ShareID, share.Username)
if err != nil {
return err
}
delete(p.dbHandle.shares, share.ShareID)
p.updateSharesOrdering()
return nil
}
func (p *MemoryProvider) getShares(limit int, offset int, order, username string) ([]Share, error) {
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return []Share{}, errMemoryProviderClosed
}
if limit <= 0 {
return []Share{}, nil
}
shares := make([]Share, 0, limit)
itNum := 0
if order == OrderDESC {
for i := len(p.dbHandle.sharesIDs) - 1; i >= 0; i-- {
shareID := p.dbHandle.sharesIDs[i]
s := p.dbHandle.shares[shareID]
if s.Username != username {
continue
}
itNum++
if itNum <= offset {
continue
}
share := s.getACopy()
share.HideConfidentialData()
shares = append(shares, share)
if len(shares) >= limit {
break
}
}
} else {
for _, shareID := range p.dbHandle.sharesIDs {
s := p.dbHandle.shares[shareID]
if s.Username != username {
continue
}
itNum++
if itNum <= offset {
continue
}
share := s.getACopy()
share.HideConfidentialData()
shares = append(shares, share)
if len(shares) >= limit {
break
}
}
}
return shares, nil
}
func (p *MemoryProvider) dumpShares() ([]Share, error) {
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
shares := make([]Share, 0, len(p.dbHandle.shares))
if p.dbHandle.isClosed {
return shares, errMemoryProviderClosed
}
for _, s := range p.dbHandle.shares {
shares = append(shares, s)
}
return shares, nil
}
func (p *MemoryProvider) updateShareLastUse(shareID string, numTokens int) error {
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
if p.dbHandle.isClosed {
return errMemoryProviderClosed
}
share, err := p.shareExistsInternal(shareID, "")
if err != nil {
return err
}
share.LastUseAt = util.GetTimeAsMsSinceEpoch(time.Now())
share.UsedTokens += numTokens
p.dbHandle.shares[share.ShareID] = share
return nil
}
func (p *MemoryProvider) getNextID() int64 {
nextID := int64(1)
for _, v := range p.dbHandle.users {
if v.ID >= nextID {
nextID = v.ID + 1
}
}
return nextID
}
func (p *MemoryProvider) getNextFolderID() int64 {
nextID := int64(1)
for _, v := range p.dbHandle.vfolders {
if v.ID >= nextID {
nextID = v.ID + 1
}
}
return nextID
}
func (p *MemoryProvider) getNextAdminID() int64 {
nextID := int64(1)
for _, a := range p.dbHandle.admins {
if a.ID >= nextID {
nextID = a.ID + 1
}
}
return nextID
}
func (p *MemoryProvider) clear() {
p.dbHandle.Lock()
defer p.dbHandle.Unlock()
p.dbHandle.usernames = []string{}
p.dbHandle.users = make(map[string]User)
p.dbHandle.vfoldersNames = []string{}
p.dbHandle.vfolders = make(map[string]vfs.BaseVirtualFolder)
p.dbHandle.admins = make(map[string]Admin)
p.dbHandle.adminsUsernames = []string{}
p.dbHandle.apiKeys = make(map[string]APIKey)
p.dbHandle.apiKeysIDs = []string{}
p.dbHandle.shares = make(map[string]Share)
p.dbHandle.sharesIDs = []string{}
}
func (p *MemoryProvider) reloadConfig() error {
if p.dbHandle.configFile == "" {
providerLog(logger.LevelDebug, "no dump configuration file defined")
return nil
}
providerLog(logger.LevelDebug, "loading dump from file: %#v", p.dbHandle.configFile)
fi, err := os.Stat(p.dbHandle.configFile)
if err != nil {
providerLog(logger.LevelWarn, "error loading dump: %v", err)
return err
}
if fi.Size() == 0 {
err = errors.New("dump configuration file is invalid, its size must be > 0")
providerLog(logger.LevelWarn, "error loading dump: %v", err)
return err
}
if fi.Size() > 10485760 {
err = errors.New("dump configuration file is invalid, its size must be <= 10485760 bytes")
providerLog(logger.LevelWarn, "error loading dump: %v", err)
return err
}
content, err := os.ReadFile(p.dbHandle.configFile)
if err != nil {
providerLog(logger.LevelWarn, "error loading dump: %v", err)
return err
}
dump, err := ParseDumpData(content)
if err != nil {
providerLog(logger.LevelWarn, "error loading dump: %v", err)
return err
}
p.clear()
if err := p.restoreFolders(&dump); err != nil {
return err
}
if err := p.restoreUsers(&dump); err != nil {
return err
}
if err := p.restoreAdmins(&dump); err != nil {
return err
}
if err := p.restoreAPIKeys(&dump); err != nil {
return err
}
if err := p.restoreShares(&dump); err != nil {
return err
}
providerLog(logger.LevelDebug, "config loaded from file: %#v", p.dbHandle.configFile)
return nil
}
func (p *MemoryProvider) restoreShares(dump *BackupData) error {
for _, share := range dump.Shares {
s, err := p.shareExists(share.ShareID, "")
share := share // pin
if err == nil {
share.ID = s.ID
err = UpdateShare(&share, ActionExecutorSystem, "")
if err != nil {
providerLog(logger.LevelWarn, "error updating share %#v: %v", share.ShareID, err)
return err
}
} else {
err = AddShare(&share, ActionExecutorSystem, "")
if err != nil {
providerLog(logger.LevelWarn, "error adding share %#v: %v", share.ShareID, err)
return err
}
}
}
return nil
}
func (p *MemoryProvider) restoreAPIKeys(dump *BackupData) error {
for _, apiKey := range dump.APIKeys {
if apiKey.Key == "" {
return fmt.Errorf("cannot restore an empty API key: %+v", apiKey)
}
k, err := p.apiKeyExists(apiKey.KeyID)
apiKey := apiKey // pin
if err == nil {
apiKey.ID = k.ID
err = UpdateAPIKey(&apiKey, ActionExecutorSystem, "")
if err != nil {
providerLog(logger.LevelWarn, "error updating API key %#v: %v", apiKey.KeyID, err)
return err
}
} else {
err = AddAPIKey(&apiKey, ActionExecutorSystem, "")
if err != nil {
providerLog(logger.LevelWarn, "error adding API key %#v: %v", apiKey.KeyID, err)
return err
}
}
}
return nil
}
func (p *MemoryProvider) restoreAdmins(dump *BackupData) error {
for _, admin := range dump.Admins {
a, err := p.adminExists(admin.Username)
admin := admin // pin
if err == nil {
admin.ID = a.ID
err = UpdateAdmin(&admin, ActionExecutorSystem, "")
if err != nil {
providerLog(logger.LevelWarn, "error updating admin %#v: %v", admin.Username, err)
return err
}
} else {
err = AddAdmin(&admin, ActionExecutorSystem, "")
if err != nil {
providerLog(logger.LevelWarn, "error adding admin %#v: %v", admin.Username, err)
return err
}
}
}
return nil
}
func (p *MemoryProvider) restoreFolders(dump *BackupData) error {
for _, folder := range dump.Folders {
folder := folder // pin
f, err := p.getFolderByName(folder.Name)
if err == nil {
folder.ID = f.ID
err = UpdateFolder(&folder, f.Users, ActionExecutorSystem, "")
if err != nil {
providerLog(logger.LevelWarn, "error updating folder %#v: %v", folder.Name, err)
return err
}
} else {
folder.Users = nil
err = AddFolder(&folder)
if err != nil {
providerLog(logger.LevelWarn, "error adding folder %#v: %v", folder.Name, err)
return err
}
}
}
return nil
}
func (p *MemoryProvider) restoreUsers(dump *BackupData) error {
for _, user := range dump.Users {
user := user // pin
u, err := p.userExists(user.Username)
if err == nil {
user.ID = u.ID
err = UpdateUser(&user, ActionExecutorSystem, "")
if err != nil {
providerLog(logger.LevelWarn, "error updating user %#v: %v", user.Username, err)
return err
}
} else {
err = AddUser(&user, ActionExecutorSystem, "")
if err != nil {
providerLog(logger.LevelWarn, "error adding user %#v: %v", user.Username, err)
return err
}
}
}
return nil
}
// initializeDatabase does nothing, no initilization is needed for memory provider
func (p *MemoryProvider) initializeDatabase() error {
return ErrNoInitRequired
}
func (p *MemoryProvider) migrateDatabase() error {
return ErrNoInitRequired
}
func (p *MemoryProvider) revertDatabase(targetVersion int) error {
return errors.New("memory provider does not store data, revert not possible")
}
func (p *MemoryProvider) resetDatabase() error {
return errors.New("memory provider does not store data, reset not possible")
}