// Copyright (C) 2019-2022 Nicola Murino // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU Affero General Public License as published // by the Free Software Foundation, version 3. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Affero General Public License for more details. // // You should have received a copy of the GNU Affero General Public License // along with this program. If not, see . // Package dataprovider provides data access. // It abstracts different data providers and exposes a common API. package dataprovider import ( "bufio" "bytes" "context" "crypto/md5" "crypto/sha1" "crypto/sha256" "crypto/sha512" "crypto/subtle" "crypto/x509" "encoding/base64" "encoding/hex" "encoding/json" "errors" "fmt" "hash" "io" "net" "net/http" "net/url" "os" "os/exec" "path" "path/filepath" "regexp" "runtime" "strconv" "strings" "sync" "sync/atomic" "time" "github.com/GehirnInc/crypt" "github.com/GehirnInc/crypt/apr1_crypt" "github.com/GehirnInc/crypt/md5_crypt" "github.com/GehirnInc/crypt/sha512_crypt" "github.com/alexedwards/argon2id" "github.com/go-chi/render" "github.com/rs/xid" "github.com/sftpgo/sdk" passwordvalidator "github.com/wagslane/go-password-validator" "golang.org/x/crypto/bcrypt" "golang.org/x/crypto/pbkdf2" "golang.org/x/crypto/ssh" "github.com/drakkan/sftpgo/v2/command" "github.com/drakkan/sftpgo/v2/httpclient" "github.com/drakkan/sftpgo/v2/kms" "github.com/drakkan/sftpgo/v2/logger" "github.com/drakkan/sftpgo/v2/mfa" "github.com/drakkan/sftpgo/v2/plugin" "github.com/drakkan/sftpgo/v2/util" "github.com/drakkan/sftpgo/v2/vfs" ) const ( // SQLiteDataProviderName defines the name for SQLite database provider SQLiteDataProviderName = "sqlite" // PGSQLDataProviderName defines the name for PostgreSQL database provider PGSQLDataProviderName = "postgresql" // MySQLDataProviderName defines the name for MySQL database provider MySQLDataProviderName = "mysql" // BoltDataProviderName defines the name for bbolt key/value store provider BoltDataProviderName = "bolt" // MemoryDataProviderName defines the name for memory provider MemoryDataProviderName = "memory" // CockroachDataProviderName defines the for CockroachDB provider CockroachDataProviderName = "cockroachdb" // DumpVersion defines the version for the dump. // For restore/load we support the current version and the previous one DumpVersion = 12 argonPwdPrefix = "$argon2id$" bcryptPwdPrefix = "$2a$" pbkdf2SHA1Prefix = "$pbkdf2-sha1$" pbkdf2SHA256Prefix = "$pbkdf2-sha256$" pbkdf2SHA512Prefix = "$pbkdf2-sha512$" pbkdf2SHA256B64SaltPrefix = "$pbkdf2-b64salt-sha256$" md5cryptPwdPrefix = "$1$" md5cryptApr1PwdPrefix = "$apr1$" sha512cryptPwdPrefix = "$6$" md5LDAPPwdPrefix = "{MD5}" trackQuotaDisabledError = "please enable track_quota in your configuration to use this method" operationAdd = "add" operationUpdate = "update" operationDelete = "delete" sqlPrefixValidChars = "abcdefghijklmnopqrstuvwxyz_0123456789" maxHookResponseSize = 1048576 // 1MB iso8601UTCFormat = "2006-01-02T15:04:05Z" ) // Supported algorithms for hashing passwords. // These algorithms can be used when SFTPGo hashes a plain text password const ( HashingAlgoBcrypt = "bcrypt" HashingAlgoArgon2ID = "argon2id" ) // ordering constants const ( OrderASC = "ASC" OrderDESC = "DESC" ) const ( protocolSSH = "SSH" protocolFTP = "FTP" protocolWebDAV = "DAV" protocolHTTP = "HTTP" ) var ( // SupportedProviders defines the supported data providers SupportedProviders = []string{SQLiteDataProviderName, PGSQLDataProviderName, MySQLDataProviderName, BoltDataProviderName, MemoryDataProviderName, CockroachDataProviderName} // ValidPerms defines all the valid permissions for a user ValidPerms = []string{PermAny, PermListItems, PermDownload, PermUpload, PermOverwrite, PermCreateDirs, PermRename, PermRenameFiles, PermRenameDirs, PermDelete, PermDeleteFiles, PermDeleteDirs, PermCreateSymlinks, PermChmod, PermChown, PermChtimes} // ValidLoginMethods defines all the valid login methods ValidLoginMethods = []string{SSHLoginMethodPublicKey, LoginMethodPassword, SSHLoginMethodPassword, SSHLoginMethodKeyboardInteractive, SSHLoginMethodKeyAndPassword, SSHLoginMethodKeyAndKeyboardInt, LoginMethodTLSCertificate, LoginMethodTLSCertificateAndPwd} // SSHMultiStepsLoginMethods defines the supported Multi-Step Authentications SSHMultiStepsLoginMethods = []string{SSHLoginMethodKeyAndPassword, SSHLoginMethodKeyAndKeyboardInt} // ErrNoAuthTryed defines the error for connection closed before authentication ErrNoAuthTryed = errors.New("no auth tryed") // ErrNotImplemented defines the error for features not supported for a particular data provider ErrNotImplemented = errors.New("feature not supported with the configured data provider") // ValidProtocols defines all the valid protcols ValidProtocols = []string{protocolSSH, protocolFTP, protocolWebDAV, protocolHTTP} // MFAProtocols defines the supported protocols for multi-factor authentication MFAProtocols = []string{protocolHTTP, protocolSSH, protocolFTP} // ErrNoInitRequired defines the error returned by InitProvider if no inizialization/update is required ErrNoInitRequired = errors.New("the data provider is up to date") // ErrInvalidCredentials defines the error to return if the supplied credentials are invalid ErrInvalidCredentials = errors.New("invalid credentials") // ErrLoginNotAllowedFromIP defines the error to return if login is denied from the current IP ErrLoginNotAllowedFromIP = errors.New("login is not allowed from this IP") isAdminCreated = int32(0) validTLSUsernames = []string{string(sdk.TLSUsernameNone), string(sdk.TLSUsernameCN)} config Config provider Provider sqlPlaceholders []string internalHashPwdPrefixes = []string{argonPwdPrefix, bcryptPwdPrefix} hashPwdPrefixes = []string{argonPwdPrefix, bcryptPwdPrefix, pbkdf2SHA1Prefix, pbkdf2SHA256Prefix, pbkdf2SHA512Prefix, pbkdf2SHA256B64SaltPrefix, md5cryptPwdPrefix, md5cryptApr1PwdPrefix, md5LDAPPwdPrefix, sha512cryptPwdPrefix} pbkdfPwdPrefixes = []string{pbkdf2SHA1Prefix, pbkdf2SHA256Prefix, pbkdf2SHA512Prefix, pbkdf2SHA256B64SaltPrefix} pbkdfPwdB64SaltPrefixes = []string{pbkdf2SHA256B64SaltPrefix} unixPwdPrefixes = []string{md5cryptPwdPrefix, md5cryptApr1PwdPrefix, sha512cryptPwdPrefix} sharedProviders = []string{PGSQLDataProviderName, MySQLDataProviderName, CockroachDataProviderName} logSender = "dataprovider" credentialsDirPath string sqlTableUsers string sqlTableFolders string sqlTableFoldersMapping string sqlTableUsersFoldersMapping string sqlTableAdmins string sqlTableAPIKeys string sqlTableShares string sqlTableDefenderHosts string sqlTableDefenderEvents string sqlTableActiveTransfers string sqlTableGroups string sqlTableUsersGroupsMapping string sqlTableGroupsFoldersMapping string sqlTableSharedSessions string sqlTableSchemaVersion string argon2Params *argon2id.Params lastLoginMinDelay = 10 * time.Minute usernameRegex = regexp.MustCompile("^[a-zA-Z0-9-_.~]+$") tempPath string ) func initSQLTables() { sqlTableUsers = "users" sqlTableFolders = "folders" sqlTableFoldersMapping = "folders_mapping" sqlTableUsersFoldersMapping = "users_folders_mapping" sqlTableAdmins = "admins" sqlTableAPIKeys = "api_keys" sqlTableShares = "shares" sqlTableDefenderHosts = "defender_hosts" sqlTableDefenderEvents = "defender_events" sqlTableActiveTransfers = "active_transfers" sqlTableGroups = "groups" sqlTableUsersGroupsMapping = "users_groups_mapping" sqlTableGroupsFoldersMapping = "groups_folders_mapping" sqlTableSharedSessions = "shared_sessions" sqlTableSchemaVersion = "schema_version" } type schemaVersion struct { Version int } // BcryptOptions defines the options for bcrypt password hashing type BcryptOptions struct { Cost int `json:"cost" mapstructure:"cost"` } // Argon2Options defines the options for argon2 password hashing type Argon2Options struct { Memory uint32 `json:"memory" mapstructure:"memory"` Iterations uint32 `json:"iterations" mapstructure:"iterations"` Parallelism uint8 `json:"parallelism" mapstructure:"parallelism"` } // PasswordHashing defines the configuration for password hashing type PasswordHashing struct { BcryptOptions BcryptOptions `json:"bcrypt_options" mapstructure:"bcrypt_options"` Argon2Options Argon2Options `json:"argon2_options" mapstructure:"argon2_options"` // Algorithm to use for hashing passwords. Available algorithms: argon2id, bcrypt. Default: bcrypt Algo string `json:"algo" mapstructure:"algo"` } // PasswordValidationRules defines the password validation rules type PasswordValidationRules struct { // MinEntropy defines the minimum password entropy. // 0 means disabled, any password will be accepted. // Take a look at the following link for more details // https://github.com/wagslane/go-password-validator#what-entropy-value-should-i-use MinEntropy float64 `json:"min_entropy" mapstructure:"min_entropy"` } // PasswordValidation defines the password validation rules for admins and protocol users type PasswordValidation struct { // Password validation rules for SFTPGo admin users Admins PasswordValidationRules `json:"admins" mapstructure:"admins"` // Password validation rules for SFTPGo protocol users Users PasswordValidationRules `json:"users" mapstructure:"users"` } type wrappedFolder struct { Folder vfs.BaseVirtualFolder } func (w *wrappedFolder) RenderAsJSON(reload bool) ([]byte, error) { if reload { folder, err := provider.getFolderByName(w.Folder.Name) if err != nil { providerLog(logger.LevelError, "unable to reload folder before rendering as json: %v", err) return nil, err } folder.PrepareForRendering() return json.Marshal(folder) } w.Folder.PrepareForRendering() return json.Marshal(w.Folder) } // ObjectsActions defines the action to execute on user create, update, delete for the specified objects type ObjectsActions struct { // Valid values are add, update, delete. Empty slice to disable ExecuteOn []string `json:"execute_on" mapstructure:"execute_on"` // Valid values are user, admin, api_key ExecuteFor []string `json:"execute_for" mapstructure:"execute_for"` // Absolute path to an external program or an HTTP URL Hook string `json:"hook" mapstructure:"hook"` } // ProviderStatus defines the provider status type ProviderStatus struct { Driver string `json:"driver"` IsActive bool `json:"is_active"` Error string `json:"error"` } // AutoBackup defines the settings for automatic provider backups. // Example: hour "0" and day_of_week "*" means a backup every day at midnight. // The backup file name is in the format backup__.json // files with the same name will be overwritten type AutoBackup struct { Enabled bool `json:"enabled" mapstructure:"enabled"` // hour as standard cron expression. Allowed values: 0-23. // Allowed special characters: asterisk (*), slash (/), comma (,), hyphen (-). // More info about special characters here: // https://pkg.go.dev/github.com/robfig/cron#hdr-Special_Characters Hour string `json:"hour" mapstructure:"hour"` // Day of the week as cron expression. Allowed values: 0-6 (Sunday to Saturday). // Allowed special characters: asterisk (*), slash (/), comma (,), hyphen (-), question mark (?). // More info about special characters here: // https://pkg.go.dev/github.com/robfig/cron#hdr-Special_Characters DayOfWeek string `json:"day_of_week" mapstructure:"day_of_week"` } // Config provider configuration type Config struct { // Driver name, must be one of the SupportedProviders Driver string `json:"driver" mapstructure:"driver"` // Database name. For driver sqlite this can be the database name relative to the config dir // or the absolute path to the SQLite database. Name string `json:"name" mapstructure:"name"` // Database host Host string `json:"host" mapstructure:"host"` // Database port Port int `json:"port" mapstructure:"port"` // Database username Username string `json:"username" mapstructure:"username"` // Database password Password string `json:"password" mapstructure:"password"` // Used for drivers mysql and postgresql. // 0 disable SSL/TLS connections. // 1 require ssl. // 2 set ssl mode to verify-ca for driver postgresql and skip-verify for driver mysql. // 3 set ssl mode to verify-full for driver postgresql and preferred for driver mysql. SSLMode int `json:"sslmode" mapstructure:"sslmode"` // Path to the root certificate authority used to verify that the server certificate was signed by a trusted CA RootCert string `json:"root_cert" mapstructure:"root_cert"` // Path to the client certificate for two-way TLS authentication ClientCert string `json:"client_cert" mapstructure:"client_cert"` // Path to the client key for two-way TLS authentication ClientKey string `json:"client_key" mapstructure:"client_key"` // Custom database connection string. // If not empty this connection string will be used instead of build one using the previous parameters ConnectionString string `json:"connection_string" mapstructure:"connection_string"` // prefix for SQL tables SQLTablesPrefix string `json:"sql_tables_prefix" mapstructure:"sql_tables_prefix"` // Set the preferred way to track users quota between the following choices: // 0, disable quota tracking. REST API to scan user dir and update quota will do nothing // 1, quota is updated each time a user upload or delete a file even if the user has no quota restrictions // 2, quota is updated each time a user upload or delete a file but only for users with quota restrictions // and for virtual folders. // With this configuration the "quota scan" REST API can still be used to periodically update space usage // for users without quota restrictions TrackQuota int `json:"track_quota" mapstructure:"track_quota"` // Sets the maximum number of open connections for mysql and postgresql driver. // Default 0 (unlimited) PoolSize int `json:"pool_size" mapstructure:"pool_size"` // Users default base directory. // If no home dir is defined while adding a new user, and this value is // a valid absolute path, then the user home dir will be automatically // defined as the path obtained joining the base dir and the username UsersBaseDir string `json:"users_base_dir" mapstructure:"users_base_dir"` // Actions to execute on objects add, update, delete. // The supported objects are user, admin, api_key. // Update action will not be fired for internal updates such as the last login or the user quota fields. Actions ObjectsActions `json:"actions" mapstructure:"actions"` // Absolute path to an external program or an HTTP URL to invoke for users authentication. // Leave empty to use builtin authentication. // If the authentication succeed the user will be automatically added/updated inside the defined data provider. // Actions defined for user added/updated will not be executed in this case. // This method is slower than built-in authentication methods, but it's very flexible as anyone can // easily write his own authentication hooks. ExternalAuthHook string `json:"external_auth_hook" mapstructure:"external_auth_hook"` // ExternalAuthScope defines the scope for the external authentication hook. // - 0 means all supported authentication scopes, the external hook will be executed for password, // public key, keyboard interactive authentication and TLS certificates // - 1 means passwords only // - 2 means public keys only // - 4 means keyboard interactive only // - 8 means TLS certificates only // you can combine the scopes, for example 3 means password and public key, 5 password and keyboard // interactive and so on ExternalAuthScope int `json:"external_auth_scope" mapstructure:"external_auth_scope"` // CredentialsPath defines the directory for storing user provided credential files such as // Google Cloud Storage credentials. It can be a path relative to the config dir or an // absolute path CredentialsPath string `json:"credentials_path" mapstructure:"credentials_path"` // Absolute path to an external program or an HTTP URL to invoke just before the user login. // This program/URL allows to modify or create the user trying to login. // It is useful if you have users with dynamic fields to update just before the login. // Please note that if you want to create a new user, the pre-login hook response must // include all the mandatory user fields. // // The pre-login hook must finish within 30 seconds. // // If an error happens while executing the "PreLoginHook" then login will be denied. // PreLoginHook and ExternalAuthHook are mutally exclusive. // Leave empty to disable. PreLoginHook string `json:"pre_login_hook" mapstructure:"pre_login_hook"` // Absolute path to an external program or an HTTP URL to invoke after the user login. // Based on the configured scope you can choose if notify failed or successful logins // or both PostLoginHook string `json:"post_login_hook" mapstructure:"post_login_hook"` // PostLoginScope defines the scope for the post-login hook. // - 0 means notify both failed and successful logins // - 1 means notify failed logins // - 2 means notify successful logins PostLoginScope int `json:"post_login_scope" mapstructure:"post_login_scope"` // Absolute path to an external program or an HTTP URL to invoke just before password // authentication. This hook allows you to externally check the provided password, // its main use case is to allow to easily support things like password+OTP for protocols // without keyboard interactive support such as FTP and WebDAV. You can ask your users // to login using a string consisting of a fixed password and a One Time Token, you // can verify the token inside the hook and ask to SFTPGo to verify the fixed part. CheckPasswordHook string `json:"check_password_hook" mapstructure:"check_password_hook"` // CheckPasswordScope defines the scope for the check password hook. // - 0 means all protocols // - 1 means SSH // - 2 means FTP // - 4 means WebDAV // you can combine the scopes, for example 6 means FTP and WebDAV CheckPasswordScope int `json:"check_password_scope" mapstructure:"check_password_scope"` // Defines how the database will be initialized/updated: // - 0 means automatically // - 1 means manually using the initprovider sub-command UpdateMode int `json:"update_mode" mapstructure:"update_mode"` // PasswordHashing defines the configuration for password hashing PasswordHashing PasswordHashing `json:"password_hashing" mapstructure:"password_hashing"` // PasswordValidation defines the password validation rules PasswordValidation PasswordValidation `json:"password_validation" mapstructure:"password_validation"` // Verifying argon2 passwords has a high memory and computational cost, // by enabling, in memory, password caching you reduce this cost. PasswordCaching bool `json:"password_caching" mapstructure:"password_caching"` // DelayedQuotaUpdate defines the number of seconds to accumulate quota updates. // If there are a lot of close uploads, accumulating quota updates can save you many // queries to the data provider. // If you want to track quotas, a scheduled quota update is recommended in any case, the stored // quota size may be incorrect for several reasons, such as an unexpected shutdown, temporary provider // failures, file copied outside of SFTPGo, and so on. // 0 means immediate quota update. DelayedQuotaUpdate int `json:"delayed_quota_update" mapstructure:"delayed_quota_update"` // If enabled, a default admin user with username "admin" and password "password" will be created // on first start. // You can also create the first admin user by using the web interface or by loading initial data. CreateDefaultAdmin bool `json:"create_default_admin" mapstructure:"create_default_admin"` // Rules for usernames and folder names: // - 0 means no rules // - 1 means you can use any UTF-8 character. The names are used in URIs for REST API and Web admin. // By default only unreserved URI characters are allowed: ALPHA / DIGIT / "-" / "." / "_" / "~". // - 2 means names are converted to lowercase before saving/matching and so case // insensitive matching is possible // - 4 means trimming trailing and leading white spaces before saving/matching // Rules can be combined, for example 3 means both converting to lowercase and allowing any UTF-8 character. // Enabling these options for existing installations could be backward incompatible, some users // could be unable to login, for example existing users with mixed cases in their usernames. // You have to ensure that all existing users respect the defined rules. NamingRules int `json:"naming_rules" mapstructure:"naming_rules"` // If the data provider is shared across multiple SFTPGo instances, set this parameter to 1. // MySQL, PostgreSQL and CockroachDB can be shared, this setting is ignored for other data // providers. For shared data providers, SFTPGo periodically reloads the latest updated users, // based on the "updated_at" field, and updates its internal caches if users are updated from // a different instance. This check, if enabled, is executed every 10 minutes. // For shared data providers, active transfers are persisted in the database and thus // quota checks between ongoing transfers will work cross multiple instances IsShared int `json:"is_shared" mapstructure:"is_shared"` // Path to the backup directory. This can be an absolute path or a path relative to the config dir BackupsPath string `json:"backups_path" mapstructure:"backups_path"` // Settings for automatic backups AutoBackup AutoBackup `json:"auto_backup" mapstructure:"auto_backup"` } // GetShared returns the provider share mode func (c *Config) GetShared() int { if !util.Contains(sharedProviders, c.Driver) { return 0 } return c.IsShared } func (c *Config) convertName(name string) string { if c.NamingRules == 0 { return name } if c.NamingRules&2 != 0 { name = strings.ToLower(name) } if c.NamingRules&4 != 0 { name = strings.TrimSpace(name) } return name } // IsDefenderSupported returns true if the configured provider supports the defender func (c *Config) IsDefenderSupported() bool { switch c.Driver { case MySQLDataProviderName, PGSQLDataProviderName, CockroachDataProviderName: return true default: return false } } func (c *Config) requireCustomTLSForMySQL() bool { if config.RootCert != "" && util.IsFileInputValid(config.RootCert) { return config.SSLMode != 0 } if config.ClientCert != "" && config.ClientKey != "" && util.IsFileInputValid(config.ClientCert) && util.IsFileInputValid(config.ClientKey) { return config.SSLMode != 0 } return false } func (c *Config) doBackup() { now := time.Now() outputFile := filepath.Join(c.BackupsPath, fmt.Sprintf("backup_%v_%v.json", now.Weekday(), now.Hour())) providerLog(logger.LevelDebug, "starting auto backup to file %#v", outputFile) err := os.MkdirAll(filepath.Dir(outputFile), 0700) if err != nil { providerLog(logger.LevelError, "unable to create backup dir %#v: %v", outputFile, err) return } backup, err := DumpData() if err != nil { providerLog(logger.LevelError, "unable to execute backup: %v", err) return } dump, err := json.Marshal(backup) if err != nil { providerLog(logger.LevelError, "unable to marshal backup as JSON: %v", err) return } err = os.WriteFile(outputFile, dump, 0600) if err != nil { providerLog(logger.LevelError, "unable to save backup: %v", err) return } providerLog(logger.LevelDebug, "auto backup saved to %#v", outputFile) } // ConvertName converts the given name based on the configured rules func ConvertName(name string) string { return config.convertName(name) } // ActiveTransfer defines an active protocol transfer type ActiveTransfer struct { ID int64 Type int ConnID string Username string FolderName string IP string TruncatedSize int64 CurrentULSize int64 CurrentDLSize int64 CreatedAt int64 UpdatedAt int64 } // TransferQuota stores the allowed transfer quota fields type TransferQuota struct { ULSize int64 DLSize int64 TotalSize int64 AllowedULSize int64 AllowedDLSize int64 AllowedTotalSize int64 } // HasSizeLimits returns true if any size limit is set func (q *TransferQuota) HasSizeLimits() bool { return q.AllowedDLSize > 0 || q.AllowedULSize > 0 || q.AllowedTotalSize > 0 } // HasUploadSpace returns true if there is transfer upload space available func (q *TransferQuota) HasUploadSpace() bool { if q.TotalSize <= 0 && q.ULSize <= 0 { return true } if q.TotalSize > 0 { return q.AllowedTotalSize > 0 } return q.AllowedULSize > 0 } // HasDownloadSpace returns true if there is transfer download space available func (q *TransferQuota) HasDownloadSpace() bool { if q.TotalSize <= 0 && q.DLSize <= 0 { return true } if q.TotalSize > 0 { return q.AllowedTotalSize > 0 } return q.AllowedDLSize > 0 } // DefenderEntry defines a defender entry type DefenderEntry struct { ID int64 `json:"-"` IP string `json:"ip"` Score int `json:"score,omitempty"` BanTime time.Time `json:"ban_time,omitempty"` } // GetID returns an unique ID for a defender entry func (d *DefenderEntry) GetID() string { return hex.EncodeToString([]byte(d.IP)) } // GetBanTime returns the ban time for a defender entry as string func (d *DefenderEntry) GetBanTime() string { if d.BanTime.IsZero() { return "" } return d.BanTime.UTC().Format(time.RFC3339) } // MarshalJSON returns the JSON encoding of a DefenderEntry. func (d *DefenderEntry) MarshalJSON() ([]byte, error) { return json.Marshal(&struct { ID string `json:"id"` IP string `json:"ip"` Score int `json:"score,omitempty"` BanTime string `json:"ban_time,omitempty"` }{ ID: d.GetID(), IP: d.IP, Score: d.Score, BanTime: d.GetBanTime(), }) } // BackupData defines the structure for the backup/restore files type BackupData struct { Users []User `json:"users"` Groups []Group `json:"groups"` Folders []vfs.BaseVirtualFolder `json:"folders"` Admins []Admin `json:"admins"` APIKeys []APIKey `json:"api_keys"` Shares []Share `json:"shares"` Version int `json:"version"` } // HasFolder returns true if the folder with the given name is included func (d *BackupData) HasFolder(name string) bool { for _, folder := range d.Folders { if folder.Name == name { return true } } return false } type checkPasswordRequest struct { Username string `json:"username"` IP string `json:"ip"` Password string `json:"password"` Protocol string `json:"protocol"` } type checkPasswordResponse struct { // 0 KO, 1 OK, 2 partial success, -1 not executed Status int `json:"status"` // for status = 2 this is the password to check against the one stored // inside the SFTPGo data provider ToVerify string `json:"to_verify"` } // GetQuotaTracking returns the configured mode for user's quota tracking func GetQuotaTracking() int { return config.TrackQuota } // HasUsersBaseDir returns true if users base dir is set func HasUsersBaseDir() bool { return config.UsersBaseDir != "" } // Provider defines the interface that data providers must implement. type Provider interface { validateUserAndPass(username, password, ip, protocol string) (User, error) validateUserAndPubKey(username string, pubKey []byte, isSSHCert bool) (User, string, error) validateUserAndTLSCert(username, protocol string, tlsCert *x509.Certificate) (User, error) updateQuota(username string, filesAdd int, sizeAdd int64, reset bool) error updateTransferQuota(username string, uploadSize, downloadSize int64, reset bool) error getUsedQuota(username string) (int, int64, int64, int64, error) userExists(username string) (User, error) addUser(user *User) error updateUser(user *User) error deleteUser(user User) error updateUserPassword(username, password string) error getUsers(limit int, offset int, order string) ([]User, error) dumpUsers() ([]User, error) getRecentlyUpdatedUsers(after int64) ([]User, error) getUsersForQuotaCheck(toFetch map[string]bool) ([]User, error) updateLastLogin(username string) error updateAdminLastLogin(username string) error setUpdatedAt(username string) getFolders(limit, offset int, order string, minimal bool) ([]vfs.BaseVirtualFolder, error) getFolderByName(name string) (vfs.BaseVirtualFolder, error) addFolder(folder *vfs.BaseVirtualFolder) error updateFolder(folder *vfs.BaseVirtualFolder) error deleteFolder(folder vfs.BaseVirtualFolder) error updateFolderQuota(name string, filesAdd int, sizeAdd int64, reset bool) error getUsedFolderQuota(name string) (int, int64, error) dumpFolders() ([]vfs.BaseVirtualFolder, error) getGroups(limit, offset int, order string, minimal bool) ([]Group, error) getGroupsWithNames(names []string) ([]Group, error) getUsersInGroups(names []string) ([]string, error) groupExists(name string) (Group, error) addGroup(group *Group) error updateGroup(group *Group) error deleteGroup(group Group) error dumpGroups() ([]Group, error) adminExists(username string) (Admin, error) addAdmin(admin *Admin) error updateAdmin(admin *Admin) error deleteAdmin(admin Admin) error getAdmins(limit int, offset int, order string) ([]Admin, error) dumpAdmins() ([]Admin, error) validateAdminAndPass(username, password, ip string) (Admin, error) apiKeyExists(keyID string) (APIKey, error) addAPIKey(apiKey *APIKey) error updateAPIKey(apiKey *APIKey) error deleteAPIKey(apiKey APIKey) error getAPIKeys(limit int, offset int, order string) ([]APIKey, error) dumpAPIKeys() ([]APIKey, error) updateAPIKeyLastUse(keyID string) error shareExists(shareID, username string) (Share, error) addShare(share *Share) error updateShare(share *Share) error deleteShare(share Share) error getShares(limit int, offset int, order, username string) ([]Share, error) dumpShares() ([]Share, error) updateShareLastUse(shareID string, numTokens int) error getDefenderHosts(from int64, limit int) ([]DefenderEntry, error) getDefenderHostByIP(ip string, from int64) (DefenderEntry, error) isDefenderHostBanned(ip string) (DefenderEntry, error) updateDefenderBanTime(ip string, minutes int) error deleteDefenderHost(ip string) error addDefenderEvent(ip string, score int) error setDefenderBanTime(ip string, banTime int64) error cleanupDefender(from int64) error addActiveTransfer(transfer ActiveTransfer) error updateActiveTransferSizes(ulSize, dlSize, transferID int64, connectionID string) error removeActiveTransfer(transferID int64, connectionID string) error cleanupActiveTransfers(before time.Time) error getActiveTransfers(from time.Time) ([]ActiveTransfer, error) addSharedSession(session Session) error deleteSharedSession(key string) error getSharedSession(key string) (Session, error) cleanupSharedSessions(sessionType SessionType, before int64) error checkAvailability() error close() error reloadConfig() error initializeDatabase() error migrateDatabase() error revertDatabase(targetVersion int) error resetDatabase() error } // SetTempPath sets the path for temporary files func SetTempPath(fsPath string) { tempPath = fsPath } func checkSharedMode() { if !util.Contains(sharedProviders, config.Driver) { config.IsShared = 0 } } // Initialize the data provider. // An error is returned if the configured driver is invalid or if the data provider cannot be initialized func Initialize(cnf Config, basePath string, checkAdmins bool) error { var err error config = cnf checkSharedMode() config.Actions.ExecuteOn = util.RemoveDuplicates(config.Actions.ExecuteOn, true) config.Actions.ExecuteFor = util.RemoveDuplicates(config.Actions.ExecuteFor, true) cnf.BackupsPath = getConfigPath(cnf.BackupsPath, basePath) if cnf.BackupsPath == "" { return fmt.Errorf("required directory is invalid, backup path %#v", cnf.BackupsPath) } credentialsDirPath = getConfigPath(config.CredentialsPath, basePath) vfs.SetCredentialsDirPath(credentialsDirPath) if err = initializeHashingAlgo(&cnf); err != nil { return err } if err = validateHooks(); err != nil { return err } err = createProvider(basePath) if err != nil { return err } if cnf.UpdateMode == 0 { err = provider.initializeDatabase() if err != nil && err != ErrNoInitRequired { logger.WarnToConsole("Unable to initialize data provider: %v", err) providerLog(logger.LevelError, "Unable to initialize data provider: %v", err) return err } if err == nil { logger.DebugToConsole("Data provider successfully initialized") } err = provider.migrateDatabase() if err != nil && err != ErrNoInitRequired { providerLog(logger.LevelError, "database migration error: %v", err) return err } if checkAdmins && cnf.CreateDefaultAdmin { err = checkDefaultAdmin() if err != nil { providerLog(logger.LevelError, "erro checking the default admin: %v", err) return err } } } else { providerLog(logger.LevelInfo, "database initialization/migration skipped, manual mode is configured") } admins, err := provider.getAdmins(1, 0, OrderASC) if err != nil { return err } atomic.StoreInt32(&isAdminCreated, int32(len(admins))) delayedQuotaUpdater.start() return startScheduler() } func validateHooks() error { var hooks []string if config.PreLoginHook != "" && !strings.HasPrefix(config.PreLoginHook, "http") { hooks = append(hooks, config.PreLoginHook) } if config.ExternalAuthHook != "" && !strings.HasPrefix(config.ExternalAuthHook, "http") { hooks = append(hooks, config.ExternalAuthHook) } if config.PostLoginHook != "" && !strings.HasPrefix(config.PostLoginHook, "http") { hooks = append(hooks, config.PostLoginHook) } if config.CheckPasswordHook != "" && !strings.HasPrefix(config.CheckPasswordHook, "http") { hooks = append(hooks, config.CheckPasswordHook) } for _, hook := range hooks { if !filepath.IsAbs(hook) { return fmt.Errorf("invalid hook: %#v must be an absolute path", hook) } _, err := os.Stat(hook) if err != nil { providerLog(logger.LevelError, "invalid hook: %v", err) return err } } return nil } // GetBackupsPath returns the normalized backups path func GetBackupsPath() string { return config.BackupsPath } func initializeHashingAlgo(cnf *Config) error { argon2Params = &argon2id.Params{ Memory: cnf.PasswordHashing.Argon2Options.Memory, Iterations: cnf.PasswordHashing.Argon2Options.Iterations, Parallelism: cnf.PasswordHashing.Argon2Options.Parallelism, SaltLength: 16, KeyLength: 32, } if config.PasswordHashing.Algo == HashingAlgoBcrypt { if config.PasswordHashing.BcryptOptions.Cost > bcrypt.MaxCost { err := fmt.Errorf("invalid bcrypt cost %v, max allowed %v", config.PasswordHashing.BcryptOptions.Cost, bcrypt.MaxCost) logger.WarnToConsole("Unable to initialize data provider: %v", err) providerLog(logger.LevelError, "Unable to initialize data provider: %v", err) return err } } return nil } func validateSQLTablesPrefix() error { initSQLTables() if config.SQLTablesPrefix != "" { for _, char := range config.SQLTablesPrefix { if !strings.Contains(sqlPrefixValidChars, strings.ToLower(string(char))) { return errors.New("invalid sql_tables_prefix only chars in range 'a..z', 'A..Z', '0-9' and '_' are allowed") } } sqlTableUsers = config.SQLTablesPrefix + sqlTableUsers sqlTableFolders = config.SQLTablesPrefix + sqlTableFolders sqlTableFoldersMapping = config.SQLTablesPrefix + sqlTableFoldersMapping sqlTableUsersFoldersMapping = config.SQLTablesPrefix + sqlTableUsersFoldersMapping sqlTableAdmins = config.SQLTablesPrefix + sqlTableAdmins sqlTableAPIKeys = config.SQLTablesPrefix + sqlTableAPIKeys sqlTableShares = config.SQLTablesPrefix + sqlTableShares sqlTableDefenderEvents = config.SQLTablesPrefix + sqlTableDefenderEvents sqlTableDefenderHosts = config.SQLTablesPrefix + sqlTableDefenderHosts sqlTableActiveTransfers = config.SQLTablesPrefix + sqlTableActiveTransfers sqlTableGroups = config.SQLTablesPrefix + sqlTableGroups sqlTableUsersGroupsMapping = config.SQLTablesPrefix + sqlTableUsersGroupsMapping sqlTableGroupsFoldersMapping = config.SQLTablesPrefix + sqlTableGroupsFoldersMapping sqlTableSharedSessions = config.SQLTablesPrefix + sqlTableSharedSessions sqlTableSchemaVersion = config.SQLTablesPrefix + sqlTableSchemaVersion providerLog(logger.LevelDebug, "sql table for users %q, folders %q users folders mapping %q admins %q "+ "api keys %q shares %q defender hosts %q defender events %q transfers %q groups %q "+ "users groups mapping %q groups folders mapping %q shared sessions %q schema version %q", sqlTableUsers, sqlTableFolders, sqlTableUsersFoldersMapping, sqlTableAdmins, sqlTableAPIKeys, sqlTableShares, sqlTableDefenderHosts, sqlTableDefenderEvents, sqlTableActiveTransfers, sqlTableGroups, sqlTableUsersGroupsMapping, sqlTableGroupsFoldersMapping, sqlTableSharedSessions, sqlTableSchemaVersion) } return nil } func checkDefaultAdmin() error { admins, err := provider.getAdmins(1, 0, OrderASC) if err != nil { return err } if len(admins) > 0 { return nil } logger.Debug(logSender, "", "no admins found, try to create the default one") // we need to create the default admin admin := &Admin{} if err := admin.setFromEnv(); err != nil { return err } return provider.addAdmin(admin) } // InitializeDatabase creates the initial database structure func InitializeDatabase(cnf Config, basePath string) error { config = cnf if filepath.IsAbs(config.CredentialsPath) { credentialsDirPath = config.CredentialsPath } else { credentialsDirPath = filepath.Join(basePath, config.CredentialsPath) } vfs.SetCredentialsDirPath(credentialsDirPath) if err := initializeHashingAlgo(&cnf); err != nil { return err } err := createProvider(basePath) if err != nil { return err } err = provider.initializeDatabase() if err != nil && err != ErrNoInitRequired { return err } return provider.migrateDatabase() } // RevertDatabase restores schema and/or data to a previous version func RevertDatabase(cnf Config, basePath string, targetVersion int) error { config = cnf if filepath.IsAbs(config.CredentialsPath) { credentialsDirPath = config.CredentialsPath } else { credentialsDirPath = filepath.Join(basePath, config.CredentialsPath) } err := createProvider(basePath) if err != nil { return err } err = provider.initializeDatabase() if err != nil && err != ErrNoInitRequired { return err } return provider.revertDatabase(targetVersion) } // ResetDatabase restores schema and/or data to a previous version func ResetDatabase(cnf Config, basePath string) error { config = cnf if filepath.IsAbs(config.CredentialsPath) { credentialsDirPath = config.CredentialsPath } else { credentialsDirPath = filepath.Join(basePath, config.CredentialsPath) } if err := createProvider(basePath); err != nil { return err } return provider.resetDatabase() } // CheckAdminAndPass validates the given admin and password connecting from ip func CheckAdminAndPass(username, password, ip string) (Admin, error) { username = config.convertName(username) return provider.validateAdminAndPass(username, password, ip) } // CheckCachedUserCredentials checks the credentials for a cached user func CheckCachedUserCredentials(user *CachedUser, password, loginMethod, protocol string, tlsCert *x509.Certificate) error { if err := user.User.CheckLoginConditions(); err != nil { return err } if loginMethod != LoginMethodPassword { _, err := checkUserAndTLSCertificate(&user.User, protocol, tlsCert) if err != nil { return err } if loginMethod == LoginMethodTLSCertificate { if !user.User.IsLoginMethodAllowed(LoginMethodTLSCertificate, protocol, nil) { return fmt.Errorf("certificate login method is not allowed for user %#v", user.User.Username) } return nil } } if password == "" { return ErrInvalidCredentials } if user.Password != "" { if password == user.Password { return nil } } else { if ok, _ := isPasswordOK(&user.User, password); ok { return nil } } return ErrInvalidCredentials } // CheckCompositeCredentials checks multiple credentials. // WebDAV users can send both a password and a TLS certificate within the same request func CheckCompositeCredentials(username, password, ip, loginMethod, protocol string, tlsCert *x509.Certificate) (User, string, error) { username = config.convertName(username) if loginMethod == LoginMethodPassword { user, err := CheckUserAndPass(username, password, ip, protocol) return user, loginMethod, err } user, err := CheckUserBeforeTLSAuth(username, ip, protocol, tlsCert) if err != nil { return user, loginMethod, err } if !user.IsTLSUsernameVerificationEnabled() { // for backward compatibility with 2.0.x we only check the password and change the login method here // in future updates we have to return an error user, err := CheckUserAndPass(username, password, ip, protocol) return user, LoginMethodPassword, err } user, err = checkUserAndTLSCertificate(&user, protocol, tlsCert) if err != nil { return user, loginMethod, err } if loginMethod == LoginMethodTLSCertificate && !user.IsLoginMethodAllowed(LoginMethodTLSCertificate, protocol, nil) { return user, loginMethod, fmt.Errorf("certificate login method is not allowed for user %#v", user.Username) } if loginMethod == LoginMethodTLSCertificateAndPwd { if plugin.Handler.HasAuthScope(plugin.AuthScopePassword) { user, err = doPluginAuth(username, password, nil, ip, protocol, nil, plugin.AuthScopePassword) } else if config.ExternalAuthHook != "" && (config.ExternalAuthScope == 0 || config.ExternalAuthScope&1 != 0) { user, err = doExternalAuth(username, password, nil, "", ip, protocol, nil) } else if config.PreLoginHook != "" { user, err = executePreLoginHook(username, LoginMethodPassword, ip, protocol, nil) } if err != nil { return user, loginMethod, err } user, err = checkUserAndPass(&user, password, ip, protocol) } return user, loginMethod, err } // CheckUserBeforeTLSAuth checks if a user exits before trying mutual TLS func CheckUserBeforeTLSAuth(username, ip, protocol string, tlsCert *x509.Certificate) (User, error) { username = config.convertName(username) if plugin.Handler.HasAuthScope(plugin.AuthScopeTLSCertificate) { user, err := doPluginAuth(username, "", nil, ip, protocol, tlsCert, plugin.AuthScopeTLSCertificate) if err != nil { return user, err } err = user.LoadAndApplyGroupSettings() return user, err } if config.ExternalAuthHook != "" && (config.ExternalAuthScope == 0 || config.ExternalAuthScope&8 != 0) { user, err := doExternalAuth(username, "", nil, "", ip, protocol, tlsCert) if err != nil { return user, err } err = user.LoadAndApplyGroupSettings() return user, err } if config.PreLoginHook != "" { user, err := executePreLoginHook(username, LoginMethodTLSCertificate, ip, protocol, nil) if err != nil { return user, err } err = user.LoadAndApplyGroupSettings() return user, err } user, err := UserExists(username) if err != nil { return user, err } err = user.LoadAndApplyGroupSettings() return user, err } // CheckUserAndTLSCert returns the SFTPGo user with the given username and check if the // given TLS certificate allow authentication without password func CheckUserAndTLSCert(username, ip, protocol string, tlsCert *x509.Certificate) (User, error) { username = config.convertName(username) if plugin.Handler.HasAuthScope(plugin.AuthScopeTLSCertificate) { user, err := doPluginAuth(username, "", nil, ip, protocol, tlsCert, plugin.AuthScopeTLSCertificate) if err != nil { return user, err } return checkUserAndTLSCertificate(&user, protocol, tlsCert) } if config.ExternalAuthHook != "" && (config.ExternalAuthScope == 0 || config.ExternalAuthScope&8 != 0) { user, err := doExternalAuth(username, "", nil, "", ip, protocol, tlsCert) if err != nil { return user, err } return checkUserAndTLSCertificate(&user, protocol, tlsCert) } if config.PreLoginHook != "" { user, err := executePreLoginHook(username, LoginMethodTLSCertificate, ip, protocol, nil) if err != nil { return user, err } return checkUserAndTLSCertificate(&user, protocol, tlsCert) } return provider.validateUserAndTLSCert(username, protocol, tlsCert) } // CheckUserAndPass retrieves the SFTPGo user with the given username and password if a match is found or an error func CheckUserAndPass(username, password, ip, protocol string) (User, error) { username = config.convertName(username) if plugin.Handler.HasAuthScope(plugin.AuthScopePassword) { user, err := doPluginAuth(username, password, nil, ip, protocol, nil, plugin.AuthScopePassword) if err != nil { return user, err } return checkUserAndPass(&user, password, ip, protocol) } if config.ExternalAuthHook != "" && (config.ExternalAuthScope == 0 || config.ExternalAuthScope&1 != 0) { user, err := doExternalAuth(username, password, nil, "", ip, protocol, nil) if err != nil { return user, err } return checkUserAndPass(&user, password, ip, protocol) } if config.PreLoginHook != "" { user, err := executePreLoginHook(username, LoginMethodPassword, ip, protocol, nil) if err != nil { return user, err } return checkUserAndPass(&user, password, ip, protocol) } return provider.validateUserAndPass(username, password, ip, protocol) } // CheckUserAndPubKey retrieves the SFTP user with the given username and public key if a match is found or an error func CheckUserAndPubKey(username string, pubKey []byte, ip, protocol string, isSSHCert bool) (User, string, error) { username = config.convertName(username) if plugin.Handler.HasAuthScope(plugin.AuthScopePublicKey) { user, err := doPluginAuth(username, "", pubKey, ip, protocol, nil, plugin.AuthScopePublicKey) if err != nil { return user, "", err } return checkUserAndPubKey(&user, pubKey, isSSHCert) } if config.ExternalAuthHook != "" && (config.ExternalAuthScope == 0 || config.ExternalAuthScope&2 != 0) { user, err := doExternalAuth(username, "", pubKey, "", ip, protocol, nil) if err != nil { return user, "", err } return checkUserAndPubKey(&user, pubKey, isSSHCert) } if config.PreLoginHook != "" { user, err := executePreLoginHook(username, SSHLoginMethodPublicKey, ip, protocol, nil) if err != nil { return user, "", err } return checkUserAndPubKey(&user, pubKey, isSSHCert) } return provider.validateUserAndPubKey(username, pubKey, isSSHCert) } // CheckKeyboardInteractiveAuth checks the keyboard interactive authentication and returns // the authenticated user or an error func CheckKeyboardInteractiveAuth(username, authHook string, client ssh.KeyboardInteractiveChallenge, ip, protocol string) (User, error) { var user User var err error username = config.convertName(username) if plugin.Handler.HasAuthScope(plugin.AuthScopeKeyboardInteractive) { user, err = doPluginAuth(username, "", nil, ip, protocol, nil, plugin.AuthScopeKeyboardInteractive) } else if config.ExternalAuthHook != "" && (config.ExternalAuthScope == 0 || config.ExternalAuthScope&4 != 0) { user, err = doExternalAuth(username, "", nil, "1", ip, protocol, nil) } else if config.PreLoginHook != "" { user, err = executePreLoginHook(username, SSHLoginMethodKeyboardInteractive, ip, protocol, nil) } else { user, err = provider.userExists(username) } if err != nil { return user, err } return doKeyboardInteractiveAuth(&user, authHook, client, ip, protocol) } // GetUserAfterIDPAuth returns the SFTPGo user with the specified username // after a successful authentication with an external identity provider. // If a pre-login hook is defined it will be executed so the SFTPGo user // can be created if it does not exist func GetUserAfterIDPAuth(username, ip, protocol string, oidcTokenFields *map[string]any) (User, error) { var user User var err error if config.PreLoginHook != "" { user, err = executePreLoginHook(username, LoginMethodIDP, ip, protocol, oidcTokenFields) } else { user, err = UserExists(username) } if err != nil { return user, err } err = user.LoadAndApplyGroupSettings() return user, err } // GetDefenderHosts returns hosts that are banned or for which some violations have been detected func GetDefenderHosts(from int64, limit int) ([]DefenderEntry, error) { return provider.getDefenderHosts(from, limit) } // GetDefenderHostByIP returns a defender host by ip, if any func GetDefenderHostByIP(ip string, from int64) (DefenderEntry, error) { return provider.getDefenderHostByIP(ip, from) } // IsDefenderHostBanned returns a defender entry and no error if the specified host is banned func IsDefenderHostBanned(ip string) (DefenderEntry, error) { return provider.isDefenderHostBanned(ip) } // UpdateDefenderBanTime increments ban time for the specified ip func UpdateDefenderBanTime(ip string, minutes int) error { return provider.updateDefenderBanTime(ip, minutes) } // DeleteDefenderHost removes the specified IP from the defender lists func DeleteDefenderHost(ip string) error { return provider.deleteDefenderHost(ip) } // AddDefenderEvent adds an event for the given IP with the given score // and returns the host with the updated score func AddDefenderEvent(ip string, score int, from int64) (DefenderEntry, error) { if err := provider.addDefenderEvent(ip, score); err != nil { return DefenderEntry{}, err } return provider.getDefenderHostByIP(ip, from) } // SetDefenderBanTime sets the ban time for the specified IP func SetDefenderBanTime(ip string, banTime int64) error { return provider.setDefenderBanTime(ip, banTime) } // CleanupDefender removes events and hosts older than "from" from the data provider func CleanupDefender(from int64) error { return provider.cleanupDefender(from) } // UpdateShareLastUse updates the LastUseAt and UsedTokens for the given share func UpdateShareLastUse(share *Share, numTokens int) error { return provider.updateShareLastUse(share.ShareID, numTokens) } // UpdateAPIKeyLastUse updates the LastUseAt field for the given API key func UpdateAPIKeyLastUse(apiKey *APIKey) error { lastUse := util.GetTimeFromMsecSinceEpoch(apiKey.LastUseAt) diff := -time.Until(lastUse) if diff < 0 || diff > lastLoginMinDelay { return provider.updateAPIKeyLastUse(apiKey.KeyID) } return nil } // UpdateLastLogin updates the last login field for the given SFTPGo user func UpdateLastLogin(user *User) { delay := lastLoginMinDelay if user.Filters.ExternalAuthCacheTime > 0 { delay = time.Duration(user.Filters.ExternalAuthCacheTime) * time.Second } if user.LastLogin <= user.UpdatedAt || !isLastActivityRecent(user.LastLogin, delay) { err := provider.updateLastLogin(user.Username) if err == nil { webDAVUsersCache.updateLastLogin(user.Username) } } } // UpdateAdminLastLogin updates the last login field for the given SFTPGo admin func UpdateAdminLastLogin(admin *Admin) { if !isLastActivityRecent(admin.LastLogin, lastLoginMinDelay) { provider.updateAdminLastLogin(admin.Username) //nolint:errcheck } } // UpdateUserQuota updates the quota for the given SFTPGo user adding filesAdd and sizeAdd. // If reset is true filesAdd and sizeAdd indicates the total files and the total size instead of the difference. func UpdateUserQuota(user *User, filesAdd int, sizeAdd int64, reset bool) error { if config.TrackQuota == 0 { return util.NewMethodDisabledError(trackQuotaDisabledError) } else if config.TrackQuota == 2 && !reset && !user.HasQuotaRestrictions() { return nil } if filesAdd == 0 && sizeAdd == 0 && !reset { return nil } if config.DelayedQuotaUpdate == 0 || reset { if reset { delayedQuotaUpdater.resetUserQuota(user.Username) } return provider.updateQuota(user.Username, filesAdd, sizeAdd, reset) } delayedQuotaUpdater.updateUserQuota(user.Username, filesAdd, sizeAdd) return nil } // UpdateVirtualFolderQuota updates the quota for the given virtual folder adding filesAdd and sizeAdd. // If reset is true filesAdd and sizeAdd indicates the total files and the total size instead of the difference. func UpdateVirtualFolderQuota(vfolder *vfs.BaseVirtualFolder, filesAdd int, sizeAdd int64, reset bool) error { if config.TrackQuota == 0 { return util.NewMethodDisabledError(trackQuotaDisabledError) } if filesAdd == 0 && sizeAdd == 0 && !reset { return nil } if config.DelayedQuotaUpdate == 0 || reset { if reset { delayedQuotaUpdater.resetFolderQuota(vfolder.Name) } return provider.updateFolderQuota(vfolder.Name, filesAdd, sizeAdd, reset) } delayedQuotaUpdater.updateFolderQuota(vfolder.Name, filesAdd, sizeAdd) return nil } // UpdateUserTransferQuota updates the transfer quota for the given SFTPGo user. // If reset is true uploadSize and downloadSize indicates the actual sizes instead of the difference. func UpdateUserTransferQuota(user *User, uploadSize, downloadSize int64, reset bool) error { if config.TrackQuota == 0 { return util.NewMethodDisabledError(trackQuotaDisabledError) } else if config.TrackQuota == 2 && !reset && !user.HasTransferQuotaRestrictions() { return nil } if downloadSize == 0 && uploadSize == 0 && !reset { return nil } if config.DelayedQuotaUpdate == 0 || reset { if reset { delayedQuotaUpdater.resetUserTransferQuota(user.Username) } return provider.updateTransferQuota(user.Username, uploadSize, downloadSize, reset) } delayedQuotaUpdater.updateUserTransferQuota(user.Username, uploadSize, downloadSize) return nil } // GetUsedQuota returns the used quota for the given SFTPGo user. func GetUsedQuota(username string) (int, int64, int64, int64, error) { if config.TrackQuota == 0 { return 0, 0, 0, 0, util.NewMethodDisabledError(trackQuotaDisabledError) } files, size, ulTransferSize, dlTransferSize, err := provider.getUsedQuota(username) if err != nil { return files, size, ulTransferSize, dlTransferSize, err } delayedFiles, delayedSize := delayedQuotaUpdater.getUserPendingQuota(username) delayedUlTransferSize, delayedDLTransferSize := delayedQuotaUpdater.getUserPendingTransferQuota(username) return files + delayedFiles, size + delayedSize, ulTransferSize + delayedUlTransferSize, dlTransferSize + delayedDLTransferSize, err } // GetUsedVirtualFolderQuota returns the used quota for the given virtual folder. func GetUsedVirtualFolderQuota(name string) (int, int64, error) { if config.TrackQuota == 0 { return 0, 0, util.NewMethodDisabledError(trackQuotaDisabledError) } files, size, err := provider.getUsedFolderQuota(name) if err != nil { return files, size, err } delayedFiles, delayedSize := delayedQuotaUpdater.getFolderPendingQuota(name) return files + delayedFiles, size + delayedSize, err } // AddShare adds a new share func AddShare(share *Share, executor, ipAddress string) error { err := provider.addShare(share) if err == nil { executeAction(operationAdd, executor, ipAddress, actionObjectShare, share.ShareID, share) } return err } // UpdateShare updates an existing share func UpdateShare(share *Share, executor, ipAddress string) error { err := provider.updateShare(share) if err == nil { executeAction(operationUpdate, executor, ipAddress, actionObjectShare, share.ShareID, share) } return err } // DeleteShare deletes an existing share func DeleteShare(shareID string, executor, ipAddress string) error { share, err := provider.shareExists(shareID, executor) if err != nil { return err } err = provider.deleteShare(share) if err == nil { executeAction(operationDelete, executor, ipAddress, actionObjectShare, shareID, &share) } return err } // ShareExists returns the share with the given ID if it exists func ShareExists(shareID, username string) (Share, error) { if shareID == "" { return Share{}, util.NewRecordNotFoundError(fmt.Sprintf("Share %#v does not exist", shareID)) } return provider.shareExists(shareID, username) } // AddGroup adds a new group func AddGroup(group *Group, executor, ipAddress string) error { group.Name = config.convertName(group.Name) err := provider.addGroup(group) if err == nil { executeAction(operationAdd, executor, ipAddress, actionObjectGroup, group.Name, group) } return err } // UpdateGroup updates an existing Group func UpdateGroup(group *Group, users []string, executor, ipAddress string) error { err := provider.updateGroup(group) if err == nil { for _, user := range users { provider.setUpdatedAt(user) u, err := provider.userExists(user) if err == nil { webDAVUsersCache.swap(&u) executeAction(operationUpdate, executor, ipAddress, actionObjectUser, u.Username, &u) } else { RemoveCachedWebDAVUser(user) } } executeAction(operationUpdate, executor, ipAddress, actionObjectGroup, group.Name, group) } return err } // DeleteGroup deletes an existing Group func DeleteGroup(name string, executor, ipAddress string) error { name = config.convertName(name) group, err := provider.groupExists(name) if err != nil { return err } if len(group.Users) > 0 { errorString := fmt.Sprintf("the group %#v is referenced, it cannot be removed", group.Name) return util.NewValidationError(errorString) } err = provider.deleteGroup(group) if err == nil { for _, user := range group.Users { provider.setUpdatedAt(user) u, err := provider.userExists(user) if err == nil { executeAction(operationUpdate, executor, ipAddress, actionObjectUser, u.Username, &u) } RemoveCachedWebDAVUser(user) } executeAction(operationDelete, executor, ipAddress, actionObjectGroup, group.Name, &group) } return err } // GroupExists returns the Group with the given name if it exists func GroupExists(name string) (Group, error) { name = config.convertName(name) return provider.groupExists(name) } // AddAPIKey adds a new API key func AddAPIKey(apiKey *APIKey, executor, ipAddress string) error { err := provider.addAPIKey(apiKey) if err == nil { executeAction(operationAdd, executor, ipAddress, actionObjectAPIKey, apiKey.KeyID, apiKey) } return err } // UpdateAPIKey updates an existing API key func UpdateAPIKey(apiKey *APIKey, executor, ipAddress string) error { err := provider.updateAPIKey(apiKey) if err == nil { executeAction(operationUpdate, executor, ipAddress, actionObjectAPIKey, apiKey.KeyID, apiKey) } return err } // DeleteAPIKey deletes an existing API key func DeleteAPIKey(keyID string, executor, ipAddress string) error { apiKey, err := provider.apiKeyExists(keyID) if err != nil { return err } err = provider.deleteAPIKey(apiKey) if err == nil { executeAction(operationDelete, executor, ipAddress, actionObjectAPIKey, apiKey.KeyID, &apiKey) } return err } // APIKeyExists returns the API key with the given ID if it exists func APIKeyExists(keyID string) (APIKey, error) { if keyID == "" { return APIKey{}, util.NewRecordNotFoundError(fmt.Sprintf("API key %#v does not exist", keyID)) } return provider.apiKeyExists(keyID) } // HasAdmin returns true if the first admin has been created // and so SFTPGo is ready to be used func HasAdmin() bool { return atomic.LoadInt32(&isAdminCreated) > 0 } // AddAdmin adds a new SFTPGo admin func AddAdmin(admin *Admin, executor, ipAddress string) error { admin.Filters.RecoveryCodes = nil admin.Filters.TOTPConfig = AdminTOTPConfig{ Enabled: false, } admin.Username = config.convertName(admin.Username) err := provider.addAdmin(admin) if err == nil { atomic.StoreInt32(&isAdminCreated, 1) executeAction(operationAdd, executor, ipAddress, actionObjectAdmin, admin.Username, admin) } return err } // UpdateAdmin updates an existing SFTPGo admin func UpdateAdmin(admin *Admin, executor, ipAddress string) error { err := provider.updateAdmin(admin) if err == nil { executeAction(operationUpdate, executor, ipAddress, actionObjectAdmin, admin.Username, admin) } return err } // DeleteAdmin deletes an existing SFTPGo admin func DeleteAdmin(username, executor, ipAddress string) error { username = config.convertName(username) admin, err := provider.adminExists(username) if err != nil { return err } err = provider.deleteAdmin(admin) if err == nil { executeAction(operationDelete, executor, ipAddress, actionObjectAdmin, admin.Username, &admin) } return err } // AdminExists returns the admin with the given username if it exists func AdminExists(username string) (Admin, error) { username = config.convertName(username) return provider.adminExists(username) } // UserExists checks if the given SFTPGo username exists, returns an error if no match is found func UserExists(username string) (User, error) { username = config.convertName(username) return provider.userExists(username) } // GetUserWithGroupSettings tries to return the user with the specified username // loading also the group settings func GetUserWithGroupSettings(username string) (User, error) { username = config.convertName(username) user, err := provider.userExists(username) if err != nil { return user, err } err = user.LoadAndApplyGroupSettings() return user, err } // GetUserVariants tries to return the user with the specified username with and without // group settings applied func GetUserVariants(username string) (User, User, error) { username = config.convertName(username) user, err := provider.userExists(username) if err != nil { return user, User{}, err } userWithGroupSettings := user.getACopy() err = userWithGroupSettings.LoadAndApplyGroupSettings() return user, userWithGroupSettings, err } // AddUser adds a new SFTPGo user. func AddUser(user *User, executor, ipAddress string) error { user.Filters.RecoveryCodes = nil user.Filters.TOTPConfig = UserTOTPConfig{ Enabled: false, } user.Username = config.convertName(user.Username) err := provider.addUser(user) if err == nil { executeAction(operationAdd, executor, ipAddress, actionObjectUser, user.Username, user) } return err } // UpdateUserPassword updates the user password func UpdateUserPassword(username, plainPwd, executor, ipAddress string) error { hashedPwd, err := hashPlainPassword(plainPwd) if err != nil { return util.NewGenericError(fmt.Sprintf("unable to set the new password: %v", err)) } err = provider.updateUserPassword(username, hashedPwd) if err != nil { return util.NewGenericError(fmt.Sprintf("unable to set the new password: %v", err)) } cachedPasswords.Remove(username) executeAction(operationUpdate, executor, ipAddress, actionObjectUser, username, &User{}) return nil } // UpdateUser updates an existing SFTPGo user. func UpdateUser(user *User, executor, ipAddress string) error { if user.groupSettingsApplied { return errors.New("cannot save a user with group settings applied") } err := provider.updateUser(user) if err == nil { webDAVUsersCache.swap(user) cachedPasswords.Remove(user.Username) executeAction(operationUpdate, executor, ipAddress, actionObjectUser, user.Username, user) } return err } // DeleteUser deletes an existing SFTPGo user. func DeleteUser(username, executor, ipAddress string) error { username = config.convertName(username) user, err := provider.userExists(username) if err != nil { return err } err = provider.deleteUser(user) if err == nil { RemoveCachedWebDAVUser(user.Username) delayedQuotaUpdater.resetUserQuota(username) cachedPasswords.Remove(username) executeAction(operationDelete, executor, ipAddress, actionObjectUser, user.Username, &user) } return err } // AddActiveTransfer stores the specified transfer func AddActiveTransfer(transfer ActiveTransfer) { if err := provider.addActiveTransfer(transfer); err != nil { providerLog(logger.LevelError, "unable to add transfer id %v, connection id %v: %v", transfer.ID, transfer.ConnID, err) } } // UpdateActiveTransferSizes updates the current upload and download sizes for the specified transfer func UpdateActiveTransferSizes(ulSize, dlSize, transferID int64, connectionID string) { if err := provider.updateActiveTransferSizes(ulSize, dlSize, transferID, connectionID); err != nil { providerLog(logger.LevelError, "unable to update sizes for transfer id %v, connection id %v: %v", transferID, connectionID, err) } } // RemoveActiveTransfer removes the specified transfer func RemoveActiveTransfer(transferID int64, connectionID string) { if err := provider.removeActiveTransfer(transferID, connectionID); err != nil { providerLog(logger.LevelError, "unable to delete transfer id %v, connection id %v: %v", transferID, connectionID, err) } } // CleanupActiveTransfers removes the transfer before the specified time func CleanupActiveTransfers(before time.Time) error { err := provider.cleanupActiveTransfers(before) if err == nil { providerLog(logger.LevelDebug, "deleted active transfers updated before: %v", before) } else { providerLog(logger.LevelError, "error deleting active transfers updated before %v: %v", before, err) } return err } // GetActiveTransfers retrieves the active transfers with an update time after the specified value func GetActiveTransfers(from time.Time) ([]ActiveTransfer, error) { return provider.getActiveTransfers(from) } // AddSharedSession stores a new session within the data provider func AddSharedSession(session Session) error { err := provider.addSharedSession(session) if err != nil { providerLog(logger.LevelError, "unable to add shared session, key %#v, type: %v, err: %v", session.Key, session.Type, err) } return err } // DeleteSharedSession deletes the session with the specified key func DeleteSharedSession(key string) error { err := provider.deleteSharedSession(key) if err != nil { providerLog(logger.LevelError, "unable to add shared session, key %#v, err: %v", key, err) } return err } // GetSharedSession retrieves the session with the specified key func GetSharedSession(key string) (Session, error) { return provider.getSharedSession(key) } // CleanupSharedSessions removes the shared session with the specified type and // before the specified time func CleanupSharedSessions(sessionType SessionType, before time.Time) error { err := provider.cleanupSharedSessions(sessionType, util.GetTimeAsMsSinceEpoch(before)) if err == nil { providerLog(logger.LevelDebug, "deleted shared sessions before: %v, type: %v", before, sessionType) } else { providerLog(logger.LevelError, "error deleting shared session before %v, type %v: %v", before, sessionType, err) } return err } // ReloadConfig reloads provider configuration. // Currently only implemented for memory provider, allows to reload the users // from the configured file, if defined func ReloadConfig() error { return provider.reloadConfig() } // GetShares returns an array of shares respecting limit and offset func GetShares(limit, offset int, order, username string) ([]Share, error) { return provider.getShares(limit, offset, order, username) } // GetAPIKeys returns an array of API keys respecting limit and offset func GetAPIKeys(limit, offset int, order string) ([]APIKey, error) { return provider.getAPIKeys(limit, offset, order) } // GetAdmins returns an array of admins respecting limit and offset func GetAdmins(limit, offset int, order string) ([]Admin, error) { return provider.getAdmins(limit, offset, order) } // GetGroups returns an array of groups respecting limit and offset func GetGroups(limit, offset int, order string, minimal bool) ([]Group, error) { return provider.getGroups(limit, offset, order, minimal) } // GetUsers returns an array of users respecting limit and offset func GetUsers(limit, offset int, order string) ([]User, error) { return provider.getUsers(limit, offset, order) } // GetUsersForQuotaCheck returns the users with the fields required for a quota check func GetUsersForQuotaCheck(toFetch map[string]bool) ([]User, error) { return provider.getUsersForQuotaCheck(toFetch) } // AddFolder adds a new virtual folder. func AddFolder(folder *vfs.BaseVirtualFolder, executor, ipAddress string) error { folder.Name = config.convertName(folder.Name) err := provider.addFolder(folder) if err == nil { executeAction(operationAdd, executor, ipAddress, actionObjectFolder, folder.Name, &wrappedFolder{Folder: *folder}) } return err } // UpdateFolder updates the specified virtual folder func UpdateFolder(folder *vfs.BaseVirtualFolder, users []string, groups []string, executor, ipAddress string) error { err := provider.updateFolder(folder) if err == nil { executeAction(operationUpdate, executor, ipAddress, actionObjectFolder, folder.Name, &wrappedFolder{Folder: *folder}) usersInGroups, errGrp := provider.getUsersInGroups(groups) if errGrp == nil { users = append(users, usersInGroups...) users = util.RemoveDuplicates(users, false) } else { providerLog(logger.LevelWarn, "unable to get users in groups %+v: %v", groups, errGrp) } for _, user := range users { provider.setUpdatedAt(user) u, err := provider.userExists(user) if err == nil { webDAVUsersCache.swap(&u) executeAction(operationUpdate, executor, ipAddress, actionObjectUser, u.Username, &u) } else { RemoveCachedWebDAVUser(user) } } } return err } // DeleteFolder deletes an existing folder. func DeleteFolder(folderName, executor, ipAddress string) error { folderName = config.convertName(folderName) folder, err := provider.getFolderByName(folderName) if err != nil { return err } err = provider.deleteFolder(folder) if err == nil { executeAction(operationDelete, executor, ipAddress, actionObjectFolder, folder.Name, &wrappedFolder{Folder: folder}) users := folder.Users usersInGroups, errGrp := provider.getUsersInGroups(folder.Groups) if errGrp == nil { users = append(users, usersInGroups...) users = util.RemoveDuplicates(users, false) } else { providerLog(logger.LevelWarn, "unable to get users in groups %+v: %v", folder.Groups, errGrp) } for _, user := range users { provider.setUpdatedAt(user) u, err := provider.userExists(user) if err == nil { executeAction(operationUpdate, executor, ipAddress, actionObjectUser, u.Username, &u) } RemoveCachedWebDAVUser(user) } delayedQuotaUpdater.resetFolderQuota(folderName) } return err } // GetFolderByName returns the folder with the specified name if any func GetFolderByName(name string) (vfs.BaseVirtualFolder, error) { name = config.convertName(name) return provider.getFolderByName(name) } // GetFolders returns an array of folders respecting limit and offset func GetFolders(limit, offset int, order string, minimal bool) ([]vfs.BaseVirtualFolder, error) { return provider.getFolders(limit, offset, order, minimal) } // DumpData returns all users, folders, admins, api keys, shares func DumpData() (BackupData, error) { var data BackupData groups, err := provider.dumpGroups() if err != nil { return data, err } users, err := provider.dumpUsers() if err != nil { return data, err } folders, err := provider.dumpFolders() if err != nil { return data, err } admins, err := provider.dumpAdmins() if err != nil { return data, err } apiKeys, err := provider.dumpAPIKeys() if err != nil { return data, err } shares, err := provider.dumpShares() if err != nil { return data, err } data.Users = users data.Groups = groups data.Folders = folders data.Admins = admins data.APIKeys = apiKeys data.Shares = shares data.Version = DumpVersion return data, err } // ParseDumpData tries to parse data as BackupData func ParseDumpData(data []byte) (BackupData, error) { var dump BackupData err := json.Unmarshal(data, &dump) return dump, err } // GetProviderConfig returns the current provider configuration func GetProviderConfig() Config { return config } // GetProviderStatus returns an error if the provider is not available func GetProviderStatus() ProviderStatus { err := provider.checkAvailability() status := ProviderStatus{ Driver: config.Driver, } if err == nil { status.IsActive = true } else { status.IsActive = false status.Error = err.Error() } return status } // Close releases all provider resources. // This method is used in test cases. // Closing an uninitialized provider is not supported func Close() error { stopScheduler() return provider.close() } func createProvider(basePath string) error { var err error sqlPlaceholders = getSQLPlaceholders() if err = validateSQLTablesPrefix(); err != nil { return err } logSender = fmt.Sprintf("dataprovider_%v", config.Driver) switch config.Driver { case SQLiteDataProviderName: return initializeSQLiteProvider(basePath) case PGSQLDataProviderName, CockroachDataProviderName: return initializePGSQLProvider() case MySQLDataProviderName: return initializeMySQLProvider() case BoltDataProviderName: return initializeBoltProvider(basePath) case MemoryDataProviderName: initializeMemoryProvider(basePath) return nil default: return fmt.Errorf("unsupported data provider: %v", config.Driver) } } func copyBaseUserFilters(in sdk.BaseUserFilters) sdk.BaseUserFilters { filters := sdk.BaseUserFilters{} filters.MaxUploadFileSize = in.MaxUploadFileSize filters.TLSUsername = in.TLSUsername filters.UserType = in.UserType filters.AllowedIP = make([]string, len(in.AllowedIP)) copy(filters.AllowedIP, in.AllowedIP) filters.DeniedIP = make([]string, len(in.DeniedIP)) copy(filters.DeniedIP, in.DeniedIP) filters.DeniedLoginMethods = make([]string, len(in.DeniedLoginMethods)) copy(filters.DeniedLoginMethods, in.DeniedLoginMethods) filters.FilePatterns = make([]sdk.PatternsFilter, len(in.FilePatterns)) copy(filters.FilePatterns, in.FilePatterns) filters.DeniedProtocols = make([]string, len(in.DeniedProtocols)) copy(filters.DeniedProtocols, in.DeniedProtocols) filters.TwoFactorAuthProtocols = make([]string, len(in.TwoFactorAuthProtocols)) copy(filters.TwoFactorAuthProtocols, in.TwoFactorAuthProtocols) filters.Hooks.ExternalAuthDisabled = in.Hooks.ExternalAuthDisabled filters.Hooks.PreLoginDisabled = in.Hooks.PreLoginDisabled filters.Hooks.CheckPasswordDisabled = in.Hooks.CheckPasswordDisabled filters.DisableFsChecks = in.DisableFsChecks filters.StartDirectory = in.StartDirectory filters.AllowAPIKeyAuth = in.AllowAPIKeyAuth filters.ExternalAuthCacheTime = in.ExternalAuthCacheTime filters.WebClient = make([]string, len(in.WebClient)) copy(filters.WebClient, in.WebClient) filters.BandwidthLimits = make([]sdk.BandwidthLimit, 0, len(in.BandwidthLimits)) for _, limit := range in.BandwidthLimits { bwLimit := sdk.BandwidthLimit{ UploadBandwidth: limit.UploadBandwidth, DownloadBandwidth: limit.DownloadBandwidth, Sources: make([]string, 0, len(limit.Sources)), } bwLimit.Sources = make([]string, len(limit.Sources)) copy(bwLimit.Sources, limit.Sources) filters.BandwidthLimits = append(filters.BandwidthLimits, bwLimit) } filters.DataTransferLimits = make([]sdk.DataTransferLimit, 0, len(in.DataTransferLimits)) for _, limit := range in.DataTransferLimits { dtLimit := sdk.DataTransferLimit{ UploadDataTransfer: limit.UploadDataTransfer, DownloadDataTransfer: limit.DownloadDataTransfer, TotalDataTransfer: limit.TotalDataTransfer, Sources: make([]string, 0, len(limit.Sources)), } dtLimit.Sources = make([]string, len(limit.Sources)) copy(dtLimit.Sources, limit.Sources) filters.DataTransferLimits = append(filters.DataTransferLimits, dtLimit) } return filters } func buildUserHomeDir(user *User) { if user.HomeDir == "" { if config.UsersBaseDir != "" { user.HomeDir = filepath.Join(config.UsersBaseDir, user.Username) return } switch user.FsConfig.Provider { case sdk.SFTPFilesystemProvider, sdk.S3FilesystemProvider, sdk.AzureBlobFilesystemProvider, sdk.GCSFilesystemProvider: if tempPath != "" { user.HomeDir = filepath.Join(tempPath, user.Username) } else { user.HomeDir = filepath.Join(os.TempDir(), user.Username) } } } else { user.HomeDir = filepath.Clean(user.HomeDir) } } func isVirtualDirOverlapped(dir1, dir2 string, fullCheck bool) bool { if dir1 == dir2 { return true } if fullCheck { if len(dir1) > len(dir2) { if strings.HasPrefix(dir1, dir2+"/") { return true } } if len(dir2) > len(dir1) { if strings.HasPrefix(dir2, dir1+"/") { return true } } } return false } func validateFolderQuotaLimits(folder vfs.VirtualFolder) error { if folder.QuotaSize < -1 { return util.NewValidationError(fmt.Sprintf("invalid quota_size: %v folder path %#v", folder.QuotaSize, folder.MappedPath)) } if folder.QuotaFiles < -1 { return util.NewValidationError(fmt.Sprintf("invalid quota_file: %v folder path %#v", folder.QuotaFiles, folder.MappedPath)) } if (folder.QuotaSize == -1 && folder.QuotaFiles != -1) || (folder.QuotaFiles == -1 && folder.QuotaSize != -1) { return util.NewValidationError(fmt.Sprintf("virtual folder quota_size and quota_files must be both -1 or >= 0, quota_size: %v quota_files: %v", folder.QuotaFiles, folder.QuotaSize)) } return nil } func getVirtualFolderIfInvalid(folder *vfs.BaseVirtualFolder) *vfs.BaseVirtualFolder { if err := ValidateFolder(folder); err == nil { return folder } // we try to get the folder from the data provider if only the Name is populated if folder.MappedPath != "" { return folder } if folder.Name == "" { return folder } if folder.FsConfig.Provider != sdk.LocalFilesystemProvider { return folder } if f, err := GetFolderByName(folder.Name); err == nil { return &f } return folder } func validateUserGroups(user *User) error { if len(user.Groups) == 0 { return nil } hasPrimary := false groupNames := make(map[string]bool) for _, g := range user.Groups { if g.Type < sdk.GroupTypePrimary && g.Type > sdk.GroupTypeSecondary { return util.NewValidationError(fmt.Sprintf("invalid group type: %v", g.Type)) } if g.Type == sdk.GroupTypePrimary { if hasPrimary { return util.NewValidationError("only one primary group is allowed") } hasPrimary = true } if groupNames[g.Name] { return util.NewValidationError(fmt.Sprintf("the group %#v is duplicated", g.Name)) } groupNames[g.Name] = true } return nil } func validateAssociatedVirtualFolders(vfolders []vfs.VirtualFolder) ([]vfs.VirtualFolder, error) { if len(vfolders) == 0 { return []vfs.VirtualFolder{}, nil } var virtualFolders []vfs.VirtualFolder folderNames := make(map[string]bool) for _, v := range vfolders { if v.VirtualPath == "" { return nil, util.NewValidationError("mount/virtual path is mandatory") } cleanedVPath := util.CleanPath(v.VirtualPath) if err := validateFolderQuotaLimits(v); err != nil { return nil, err } folder := getVirtualFolderIfInvalid(&v.BaseVirtualFolder) if err := ValidateFolder(folder); err != nil { return nil, err } if folderNames[folder.Name] { return nil, util.NewValidationError(fmt.Sprintf("the folder %#v is duplicated", folder.Name)) } for _, vFolder := range virtualFolders { if isVirtualDirOverlapped(vFolder.VirtualPath, cleanedVPath, false) { return nil, util.NewValidationError(fmt.Sprintf("invalid virtual folder %#v, it overlaps with virtual folder %#v", v.VirtualPath, vFolder.VirtualPath)) } } virtualFolders = append(virtualFolders, vfs.VirtualFolder{ BaseVirtualFolder: *folder, VirtualPath: cleanedVPath, QuotaSize: v.QuotaSize, QuotaFiles: v.QuotaFiles, }) folderNames[folder.Name] = true } return virtualFolders, nil } func validateUserTOTPConfig(c *UserTOTPConfig, username string) error { if !c.Enabled { c.ConfigName = "" c.Secret = kms.NewEmptySecret() c.Protocols = nil return nil } if c.ConfigName == "" { return util.NewValidationError("totp: config name is mandatory") } if !util.Contains(mfa.GetAvailableTOTPConfigNames(), c.ConfigName) { return util.NewValidationError(fmt.Sprintf("totp: config name %#v not found", c.ConfigName)) } if c.Secret.IsEmpty() { return util.NewValidationError("totp: secret is mandatory") } if c.Secret.IsPlain() { c.Secret.SetAdditionalData(username) if err := c.Secret.Encrypt(); err != nil { return util.NewValidationError(fmt.Sprintf("totp: unable to encrypt secret: %v", err)) } } if len(c.Protocols) == 0 { return util.NewValidationError("totp: specify at least one protocol") } for _, protocol := range c.Protocols { if !util.Contains(MFAProtocols, protocol) { return util.NewValidationError(fmt.Sprintf("totp: invalid protocol %#v", protocol)) } } return nil } func validateUserRecoveryCodes(user *User) error { for i := 0; i < len(user.Filters.RecoveryCodes); i++ { code := &user.Filters.RecoveryCodes[i] if code.Secret.IsEmpty() { return util.NewValidationError("mfa: recovery code cannot be empty") } if code.Secret.IsPlain() { code.Secret.SetAdditionalData(user.Username) if err := code.Secret.Encrypt(); err != nil { return util.NewValidationError(fmt.Sprintf("mfa: unable to encrypt recovery code: %v", err)) } } } return nil } func validateUserPermissions(permsToCheck map[string][]string) (map[string][]string, error) { permissions := make(map[string][]string) for dir, perms := range permsToCheck { if len(perms) == 0 && dir == "/" { return permissions, util.NewValidationError(fmt.Sprintf("no permissions granted for the directory: %#v", dir)) } if len(perms) > len(ValidPerms) { return permissions, util.NewValidationError("invalid permissions") } for _, p := range perms { if !util.Contains(ValidPerms, p) { return permissions, util.NewValidationError(fmt.Sprintf("invalid permission: %#v", p)) } } cleanedDir := filepath.ToSlash(path.Clean(dir)) if cleanedDir != "/" { cleanedDir = strings.TrimSuffix(cleanedDir, "/") } if !path.IsAbs(cleanedDir) { return permissions, util.NewValidationError(fmt.Sprintf("cannot set permissions for non absolute path: %#v", dir)) } if dir != cleanedDir && cleanedDir == "/" { return permissions, util.NewValidationError(fmt.Sprintf("cannot set permissions for invalid subdirectory: %#v is an alias for \"/\"", dir)) } if util.Contains(perms, PermAny) { permissions[cleanedDir] = []string{PermAny} } else { permissions[cleanedDir] = util.RemoveDuplicates(perms, false) } } return permissions, nil } func validatePermissions(user *User) error { if len(user.Permissions) == 0 { return util.NewValidationError("please grant some permissions to this user") } if _, ok := user.Permissions["/"]; !ok { return util.NewValidationError("permissions for the root dir \"/\" must be set") } permissions, err := validateUserPermissions(user.Permissions) if err != nil { return err } user.Permissions = permissions return nil } func validatePublicKeys(user *User) error { if len(user.PublicKeys) == 0 { user.PublicKeys = []string{} } var validatedKeys []string for i, k := range user.PublicKeys { if k == "" { continue } _, _, _, _, err := ssh.ParseAuthorizedKey([]byte(k)) if err != nil { return util.NewValidationError(fmt.Sprintf("could not parse key nr. %d: %s", i+1, err)) } validatedKeys = append(validatedKeys, k) } user.PublicKeys = util.RemoveDuplicates(validatedKeys, false) return nil } func validateFiltersPatternExtensions(baseFilters *sdk.BaseUserFilters) error { if len(baseFilters.FilePatterns) == 0 { baseFilters.FilePatterns = []sdk.PatternsFilter{} return nil } filteredPaths := []string{} var filters []sdk.PatternsFilter for _, f := range baseFilters.FilePatterns { cleanedPath := filepath.ToSlash(path.Clean(f.Path)) if !path.IsAbs(cleanedPath) { return util.NewValidationError(fmt.Sprintf("invalid path %#v for file patterns filter", f.Path)) } if util.Contains(filteredPaths, cleanedPath) { return util.NewValidationError(fmt.Sprintf("duplicate file patterns filter for path %#v", f.Path)) } if len(f.AllowedPatterns) == 0 && len(f.DeniedPatterns) == 0 { return util.NewValidationError(fmt.Sprintf("empty file patterns filter for path %#v", f.Path)) } if f.DenyPolicy < sdk.DenyPolicyDefault || f.DenyPolicy > sdk.DenyPolicyHide { return util.NewValidationError(fmt.Sprintf("invalid deny policy %v for path %#v", f.DenyPolicy, f.Path)) } f.Path = cleanedPath allowed := make([]string, 0, len(f.AllowedPatterns)) denied := make([]string, 0, len(f.DeniedPatterns)) for _, pattern := range f.AllowedPatterns { _, err := path.Match(pattern, "abc") if err != nil { return util.NewValidationError(fmt.Sprintf("invalid file pattern filter %#v", pattern)) } allowed = append(allowed, strings.ToLower(pattern)) } for _, pattern := range f.DeniedPatterns { _, err := path.Match(pattern, "abc") if err != nil { return util.NewValidationError(fmt.Sprintf("invalid file pattern filter %#v", pattern)) } denied = append(denied, strings.ToLower(pattern)) } f.AllowedPatterns = util.RemoveDuplicates(allowed, false) f.DeniedPatterns = util.RemoveDuplicates(denied, false) filters = append(filters, f) filteredPaths = append(filteredPaths, cleanedPath) } baseFilters.FilePatterns = filters return nil } func checkEmptyFiltersStruct(filters *sdk.BaseUserFilters) { if len(filters.AllowedIP) == 0 { filters.AllowedIP = []string{} } if len(filters.DeniedIP) == 0 { filters.DeniedIP = []string{} } if len(filters.DeniedLoginMethods) == 0 { filters.DeniedLoginMethods = []string{} } if len(filters.DeniedProtocols) == 0 { filters.DeniedProtocols = []string{} } } func validateIPFilters(filters *sdk.BaseUserFilters) error { filters.DeniedIP = util.RemoveDuplicates(filters.DeniedIP, false) for _, IPMask := range filters.DeniedIP { _, _, err := net.ParseCIDR(IPMask) if err != nil { return util.NewValidationError(fmt.Sprintf("could not parse denied IP/Mask %#v: %v", IPMask, err)) } } filters.AllowedIP = util.RemoveDuplicates(filters.AllowedIP, false) for _, IPMask := range filters.AllowedIP { _, _, err := net.ParseCIDR(IPMask) if err != nil { return util.NewValidationError(fmt.Sprintf("could not parse allowed IP/Mask %#v: %v", IPMask, err)) } } return nil } func validateBandwidthLimit(bl sdk.BandwidthLimit) error { if len(bl.Sources) == 0 { return util.NewValidationError("no bandwidth limit source specified") } for _, source := range bl.Sources { _, _, err := net.ParseCIDR(source) if err != nil { return util.NewValidationError(fmt.Sprintf("could not parse bandwidth limit source %#v: %v", source, err)) } } return nil } func validateBandwidthLimitsFilter(filters *sdk.BaseUserFilters) error { for idx, bandwidthLimit := range filters.BandwidthLimits { if err := validateBandwidthLimit(bandwidthLimit); err != nil { return err } if bandwidthLimit.DownloadBandwidth < 0 { filters.BandwidthLimits[idx].DownloadBandwidth = 0 } if bandwidthLimit.UploadBandwidth < 0 { filters.BandwidthLimits[idx].UploadBandwidth = 0 } } return nil } func validateTransferLimitsFilter(filters *sdk.BaseUserFilters) error { for idx, limit := range filters.DataTransferLimits { filters.DataTransferLimits[idx].Sources = util.RemoveDuplicates(limit.Sources, false) if len(limit.Sources) == 0 { return util.NewValidationError("no data transfer limit source specified") } for _, source := range limit.Sources { _, _, err := net.ParseCIDR(source) if err != nil { return util.NewValidationError(fmt.Sprintf("could not parse data transfer limit source %#v: %v", source, err)) } } if limit.TotalDataTransfer > 0 { filters.DataTransferLimits[idx].UploadDataTransfer = 0 filters.DataTransferLimits[idx].DownloadDataTransfer = 0 } } return nil } func updateFiltersValues(filters *sdk.BaseUserFilters) { if filters.StartDirectory != "" { filters.StartDirectory = util.CleanPath(filters.StartDirectory) if filters.StartDirectory == "/" { filters.StartDirectory = "" } } } func validateFilterProtocols(filters *sdk.BaseUserFilters) error { if len(filters.DeniedProtocols) >= len(ValidProtocols) { return util.NewValidationError("invalid denied_protocols") } for _, p := range filters.DeniedProtocols { if !util.Contains(ValidProtocols, p) { return util.NewValidationError(fmt.Sprintf("invalid denied protocol %#v", p)) } } for _, p := range filters.TwoFactorAuthProtocols { if !util.Contains(MFAProtocols, p) { return util.NewValidationError(fmt.Sprintf("invalid two factor protocol %#v", p)) } } return nil } func validateBaseFilters(filters *sdk.BaseUserFilters) error { checkEmptyFiltersStruct(filters) if err := validateIPFilters(filters); err != nil { return err } if err := validateBandwidthLimitsFilter(filters); err != nil { return err } if err := validateTransferLimitsFilter(filters); err != nil { return err } if len(filters.DeniedLoginMethods) >= len(ValidLoginMethods) { return util.NewValidationError("invalid denied_login_methods") } for _, loginMethod := range filters.DeniedLoginMethods { if !util.Contains(ValidLoginMethods, loginMethod) { return util.NewValidationError(fmt.Sprintf("invalid login method: %#v", loginMethod)) } } if err := validateFilterProtocols(filters); err != nil { return err } if filters.TLSUsername != "" { if !util.Contains(validTLSUsernames, string(filters.TLSUsername)) { return util.NewValidationError(fmt.Sprintf("invalid TLS username: %#v", filters.TLSUsername)) } } for _, opts := range filters.WebClient { if !util.Contains(sdk.WebClientOptions, opts) { return util.NewValidationError(fmt.Sprintf("invalid web client options %#v", opts)) } } updateFiltersValues(filters) return validateFiltersPatternExtensions(filters) } func validateBaseParams(user *User) error { if user.Username == "" { return util.NewValidationError("username is mandatory") } if user.Email != "" && !util.IsEmailValid(user.Email) { return util.NewValidationError(fmt.Sprintf("email %#v is not valid", user.Email)) } if config.NamingRules&1 == 0 && !usernameRegex.MatchString(user.Username) { return util.NewValidationError(fmt.Sprintf("username %#v is not valid, the following characters are allowed: a-zA-Z0-9-_.~", user.Username)) } if user.hasRedactedSecret() { return util.NewValidationError("cannot save a user with a redacted secret") } if user.HomeDir == "" { return util.NewValidationError("home_dir is mandatory") } // we can have users with no passwords and public keys, they can authenticate via SSH user certs or OIDC /*if user.Password == "" && len(user.PublicKeys) == 0 { return util.NewValidationError("please set a password or at least a public_key") }*/ if !filepath.IsAbs(user.HomeDir) { return util.NewValidationError(fmt.Sprintf("home_dir must be an absolute path, actual value: %v", user.HomeDir)) } if user.DownloadBandwidth < 0 { user.DownloadBandwidth = 0 } if user.UploadBandwidth < 0 { user.UploadBandwidth = 0 } if user.TotalDataTransfer > 0 { // if a total data transfer is defined we reset the separate upload and download limits user.UploadDataTransfer = 0 user.DownloadDataTransfer = 0 } return user.FsConfig.Validate(user.GetEncryptionAdditionalData()) } func hashPlainPassword(plainPwd string) (string, error) { if config.PasswordHashing.Algo == HashingAlgoBcrypt { pwd, err := bcrypt.GenerateFromPassword([]byte(plainPwd), config.PasswordHashing.BcryptOptions.Cost) if err != nil { return "", fmt.Errorf("bcrypt hashing error: %w", err) } return string(pwd), nil } pwd, err := argon2id.CreateHash(plainPwd, argon2Params) if err != nil { return "", fmt.Errorf("argon2ID hashing error: %w", err) } return pwd, nil } func createUserPasswordHash(user *User) error { if user.Password != "" && !user.IsPasswordHashed() { if config.PasswordValidation.Users.MinEntropy > 0 { if err := passwordvalidator.Validate(user.Password, config.PasswordValidation.Users.MinEntropy); err != nil { return util.NewValidationError(err.Error()) } } hashedPwd, err := hashPlainPassword(user.Password) if err != nil { return err } user.Password = hashedPwd } return nil } // ValidateFolder returns an error if the folder is not valid // FIXME: this should be defined as Folder struct method func ValidateFolder(folder *vfs.BaseVirtualFolder) error { folder.FsConfig.SetEmptySecretsIfNil() if folder.Name == "" { return util.NewValidationError("folder name is mandatory") } if config.NamingRules&1 == 0 && !usernameRegex.MatchString(folder.Name) { return util.NewValidationError(fmt.Sprintf("folder name %#v is not valid, the following characters are allowed: a-zA-Z0-9-_.~", folder.Name)) } if folder.FsConfig.Provider == sdk.LocalFilesystemProvider || folder.FsConfig.Provider == sdk.CryptedFilesystemProvider || folder.MappedPath != "" { cleanedMPath := filepath.Clean(folder.MappedPath) if !filepath.IsAbs(cleanedMPath) { return util.NewValidationError(fmt.Sprintf("invalid folder mapped path %#v", folder.MappedPath)) } folder.MappedPath = cleanedMPath } if folder.HasRedactedSecret() { return errors.New("cannot save a folder with a redacted secret") } return folder.FsConfig.Validate(folder.GetEncryptionAdditionalData()) } // ValidateUser returns an error if the user is not valid // FIXME: this should be defined as User struct method func ValidateUser(user *User) error { user.OIDCCustomFields = nil user.SetEmptySecretsIfNil() buildUserHomeDir(user) if err := validateBaseParams(user); err != nil { return err } if err := validateUserGroups(user); err != nil { return err } if err := validatePermissions(user); err != nil { return err } if err := validateUserTOTPConfig(&user.Filters.TOTPConfig, user.Username); err != nil { return err } if err := validateUserRecoveryCodes(user); err != nil { return err } vfolders, err := validateAssociatedVirtualFolders(user.VirtualFolders) if err != nil { return err } user.VirtualFolders = vfolders if user.Status < 0 || user.Status > 1 { return util.NewValidationError(fmt.Sprintf("invalid user status: %v", user.Status)) } if err := createUserPasswordHash(user); err != nil { return err } if err := validatePublicKeys(user); err != nil { return err } if err := validateBaseFilters(&user.Filters.BaseUserFilters); err != nil { return err } if !user.HasExternalAuth() { user.Filters.ExternalAuthCacheTime = 0 } if user.Filters.TOTPConfig.Enabled && util.Contains(user.Filters.WebClient, sdk.WebClientMFADisabled) { return util.NewValidationError("two-factor authentication cannot be disabled for a user with an active configuration") } return nil } func isPasswordOK(user *User, password string) (bool, error) { if config.PasswordCaching { found, match := cachedPasswords.Check(user.Username, password) if found { return match, nil } } match := false updatePwd := true var err error if strings.HasPrefix(user.Password, bcryptPwdPrefix) { if err = bcrypt.CompareHashAndPassword([]byte(user.Password), []byte(password)); err != nil { return match, ErrInvalidCredentials } match = true updatePwd = config.PasswordHashing.Algo != HashingAlgoBcrypt } else if strings.HasPrefix(user.Password, argonPwdPrefix) { match, err = argon2id.ComparePasswordAndHash(password, user.Password) if err != nil { providerLog(logger.LevelError, "error comparing password with argon hash: %v", err) return match, err } updatePwd = config.PasswordHashing.Algo != HashingAlgoArgon2ID } else if util.IsStringPrefixInSlice(user.Password, pbkdfPwdPrefixes) { match, err = comparePbkdf2PasswordAndHash(password, user.Password) if err != nil { return match, err } } else if util.IsStringPrefixInSlice(user.Password, unixPwdPrefixes) { match, err = compareUnixPasswordAndHash(user, password) if err != nil { return match, err } } else if strings.HasPrefix(user.Password, md5LDAPPwdPrefix) { h := md5.New() h.Write([]byte(password)) match = fmt.Sprintf("%s%x", md5LDAPPwdPrefix, h.Sum(nil)) == user.Password } if err == nil && match { cachedPasswords.Add(user.Username, password) if updatePwd { convertUserPassword(user.Username, password) } } return match, err } func convertUserPassword(username, plainPwd string) { hashedPwd, err := hashPlainPassword(plainPwd) if err == nil { err = provider.updateUserPassword(username, hashedPwd) } if err != nil { providerLog(logger.LevelWarn, "unable to convert password for user %s: %v", username, err) } else { providerLog(logger.LevelDebug, "password converted for user %s", username) } } func checkUserAndTLSCertificate(user *User, protocol string, tlsCert *x509.Certificate) (User, error) { err := user.LoadAndApplyGroupSettings() if err != nil { return *user, err } err = user.CheckLoginConditions() if err != nil { return *user, err } switch protocol { case protocolFTP, protocolWebDAV: if user.Filters.TLSUsername == sdk.TLSUsernameCN { if user.Username == tlsCert.Subject.CommonName { return *user, nil } return *user, fmt.Errorf("CN %#v does not match username %#v", tlsCert.Subject.CommonName, user.Username) } return *user, errors.New("TLS certificate is not valid") default: return *user, fmt.Errorf("certificate authentication is not supported for protocol %v", protocol) } } func checkUserAndPass(user *User, password, ip, protocol string) (User, error) { err := user.LoadAndApplyGroupSettings() if err != nil { return *user, err } err = user.CheckLoginConditions() if err != nil { return *user, err } password, err = checkUserPasscode(user, password, protocol) if err != nil { return *user, ErrInvalidCredentials } if user.Password == "" { return *user, errors.New("credentials cannot be null or empty") } if !user.Filters.Hooks.CheckPasswordDisabled { hookResponse, err := executeCheckPasswordHook(user.Username, password, ip, protocol) if err != nil { providerLog(logger.LevelDebug, "error executing check password hook for user %#v, ip %v, protocol %v: %v", user.Username, ip, protocol, err) return *user, errors.New("unable to check credentials") } switch hookResponse.Status { case -1: // no hook configured case 1: providerLog(logger.LevelDebug, "password accepted by check password hook for user %#v, ip %v, protocol %v", user.Username, ip, protocol) return *user, nil case 2: providerLog(logger.LevelDebug, "partial success from check password hook for user %#v, ip %v, protocol %v", user.Username, ip, protocol) password = hookResponse.ToVerify default: providerLog(logger.LevelDebug, "password rejected by check password hook for user %#v, ip %v, protocol %v, status: %v", user.Username, ip, protocol, hookResponse.Status) return *user, ErrInvalidCredentials } } match, err := isPasswordOK(user, password) if !match { err = ErrInvalidCredentials } return *user, err } func checkUserPasscode(user *User, password, protocol string) (string, error) { if user.Filters.TOTPConfig.Enabled { switch protocol { case protocolFTP: if util.Contains(user.Filters.TOTPConfig.Protocols, protocol) { // the TOTP passcode has six digits pwdLen := len(password) if pwdLen < 7 { providerLog(logger.LevelDebug, "password len %v is too short to contain a passcode, user %#v, protocol %v", pwdLen, user.Username, protocol) return "", util.NewValidationError("password too short, cannot contain the passcode") } err := user.Filters.TOTPConfig.Secret.TryDecrypt() if err != nil { providerLog(logger.LevelError, "unable to decrypt TOTP secret for user %#v, protocol %v, err: %v", user.Username, protocol, err) return "", err } pwd := password[0:(pwdLen - 6)] passcode := password[(pwdLen - 6):] match, err := mfa.ValidateTOTPPasscode(user.Filters.TOTPConfig.ConfigName, passcode, user.Filters.TOTPConfig.Secret.GetPayload()) if !match || err != nil { providerLog(logger.LevelWarn, "invalid passcode for user %#v, protocol %v, err: %v", user.Username, protocol, err) return "", util.NewValidationError("invalid passcode") } return pwd, nil } } } return password, nil } func checkUserAndPubKey(user *User, pubKey []byte, isSSHCert bool) (User, string, error) { err := user.LoadAndApplyGroupSettings() if err != nil { return *user, "", err } err = user.CheckLoginConditions() if err != nil { return *user, "", err } if isSSHCert { return *user, "", nil } if len(user.PublicKeys) == 0 { return *user, "", ErrInvalidCredentials } for i, k := range user.PublicKeys { storedPubKey, comment, _, _, err := ssh.ParseAuthorizedKey([]byte(k)) if err != nil { providerLog(logger.LevelError, "error parsing stored public key %d for user %s: %v", i, user.Username, err) return *user, "", err } if bytes.Equal(storedPubKey.Marshal(), pubKey) { return *user, fmt.Sprintf("%s:%s", ssh.FingerprintSHA256(storedPubKey), comment), nil } } return *user, "", ErrInvalidCredentials } func compareUnixPasswordAndHash(user *User, password string) (bool, error) { var crypter crypt.Crypter if strings.HasPrefix(user.Password, sha512cryptPwdPrefix) { crypter = sha512_crypt.New() } else if strings.HasPrefix(user.Password, md5cryptPwdPrefix) { crypter = md5_crypt.New() } else if strings.HasPrefix(user.Password, md5cryptApr1PwdPrefix) { crypter = apr1_crypt.New() } else { return false, errors.New("unix crypt: invalid or unsupported hash format") } if err := crypter.Verify(user.Password, []byte(password)); err != nil { return false, err } return true, nil } func comparePbkdf2PasswordAndHash(password, hashedPassword string) (bool, error) { vals := strings.Split(hashedPassword, "$") if len(vals) != 5 { return false, fmt.Errorf("pbkdf2: hash is not in the correct format") } iterations, err := strconv.Atoi(vals[2]) if err != nil { return false, err } expected, err := base64.StdEncoding.DecodeString(vals[4]) if err != nil { return false, err } var salt []byte if util.IsStringPrefixInSlice(hashedPassword, pbkdfPwdB64SaltPrefixes) { salt, err = base64.StdEncoding.DecodeString(vals[3]) if err != nil { return false, err } } else { salt = []byte(vals[3]) } var hashFunc func() hash.Hash if strings.HasPrefix(hashedPassword, pbkdf2SHA256Prefix) || strings.HasPrefix(hashedPassword, pbkdf2SHA256B64SaltPrefix) { hashFunc = sha256.New } else if strings.HasPrefix(hashedPassword, pbkdf2SHA512Prefix) { hashFunc = sha512.New } else if strings.HasPrefix(hashedPassword, pbkdf2SHA1Prefix) { hashFunc = sha1.New } else { return false, fmt.Errorf("pbkdf2: invalid or unsupported hash format %v", vals[1]) } df := pbkdf2.Key([]byte(password), salt, iterations, len(expected), hashFunc) return subtle.ConstantTimeCompare(df, expected) == 1, nil } func getSSLMode() string { if config.Driver == PGSQLDataProviderName || config.Driver == CockroachDataProviderName { switch config.SSLMode { case 0: return "disable" case 1: return "require" case 2: return "verify-ca" case 3: return "verify-full" } } else if config.Driver == MySQLDataProviderName { if config.requireCustomTLSForMySQL() { return "custom" } switch config.SSLMode { case 0: return "false" case 1: return "true" case 2: return "skip-verify" case 3: return "preferred" } } return "" } func terminateInteractiveAuthProgram(cmd *exec.Cmd, isFinished bool) { if isFinished { return } providerLog(logger.LevelInfo, "kill interactive auth program after an unexpected error") err := cmd.Process.Kill() if err != nil { providerLog(logger.LevelDebug, "error killing interactive auth program: %v", err) } } func sendKeyboardAuthHTTPReq(url string, request *plugin.KeyboardAuthRequest) (*plugin.KeyboardAuthResponse, error) { reqAsJSON, err := json.Marshal(request) if err != nil { providerLog(logger.LevelError, "error serializing keyboard interactive auth request: %v", err) return nil, err } resp, err := httpclient.Post(url, "application/json", bytes.NewBuffer(reqAsJSON)) if err != nil { providerLog(logger.LevelError, "error getting keyboard interactive auth hook HTTP response: %v", err) return nil, err } defer resp.Body.Close() if resp.StatusCode != http.StatusOK { return nil, fmt.Errorf("wrong keyboard interactive auth http status code: %v, expected 200", resp.StatusCode) } var response plugin.KeyboardAuthResponse err = render.DecodeJSON(resp.Body, &response) return &response, err } func doBuiltinKeyboardInteractiveAuth(user *User, client ssh.KeyboardInteractiveChallenge, ip, protocol string) (int, error) { answers, err := client("", "", []string{"Password: "}, []bool{false}) if err != nil { return 0, err } if len(answers) != 1 { return 0, fmt.Errorf("unexpected number of answers: %v", len(answers)) } err = user.LoadAndApplyGroupSettings() if err != nil { return 0, err } _, err = checkUserAndPass(user, answers[0], ip, protocol) if err != nil { return 0, err } if !user.Filters.TOTPConfig.Enabled || !util.Contains(user.Filters.TOTPConfig.Protocols, protocolSSH) { return 1, nil } err = user.Filters.TOTPConfig.Secret.TryDecrypt() if err != nil { providerLog(logger.LevelError, "unable to decrypt TOTP secret for user %#v, protocol %v, err: %v", user.Username, protocol, err) return 0, err } answers, err = client("", "", []string{"Authentication code: "}, []bool{false}) if err != nil { return 0, err } if len(answers) != 1 { return 0, fmt.Errorf("unexpected number of answers: %v", len(answers)) } match, err := mfa.ValidateTOTPPasscode(user.Filters.TOTPConfig.ConfigName, answers[0], user.Filters.TOTPConfig.Secret.GetPayload()) if !match || err != nil { providerLog(logger.LevelWarn, "invalid passcode for user %#v, protocol %v, err: %v", user.Username, protocol, err) return 0, util.NewValidationError("invalid passcode") } return 1, nil } func executeKeyboardInteractivePlugin(user *User, client ssh.KeyboardInteractiveChallenge, ip, protocol string) (int, error) { authResult := 0 requestID := xid.New().String() authStep := 1 req := &plugin.KeyboardAuthRequest{ Username: user.Username, IP: ip, Password: user.Password, RequestID: requestID, Step: authStep, } var response *plugin.KeyboardAuthResponse var err error for { response, err = plugin.Handler.ExecuteKeyboardInteractiveStep(req) if err != nil { return authResult, err } if response.AuthResult != 0 { return response.AuthResult, err } if err = response.Validate(); err != nil { providerLog(logger.LevelInfo, "invalid response from keyboard interactive plugin: %v", err) return authResult, err } answers, err := getKeyboardInteractiveAnswers(client, response, user, ip, protocol) if err != nil { return authResult, err } authStep++ req = &plugin.KeyboardAuthRequest{ RequestID: requestID, Step: authStep, Username: user.Username, Password: user.Password, Answers: answers, Questions: response.Questions, } } } func executeKeyboardInteractiveHTTPHook(user *User, authHook string, client ssh.KeyboardInteractiveChallenge, ip, protocol string) (int, error) { authResult := 0 requestID := xid.New().String() authStep := 1 req := &plugin.KeyboardAuthRequest{ Username: user.Username, IP: ip, Password: user.Password, RequestID: requestID, Step: authStep, } var response *plugin.KeyboardAuthResponse var err error for { response, err = sendKeyboardAuthHTTPReq(authHook, req) if err != nil { return authResult, err } if response.AuthResult != 0 { return response.AuthResult, err } if err = response.Validate(); err != nil { providerLog(logger.LevelInfo, "invalid response from keyboard interactive http hook: %v", err) return authResult, err } answers, err := getKeyboardInteractiveAnswers(client, response, user, ip, protocol) if err != nil { return authResult, err } authStep++ req = &plugin.KeyboardAuthRequest{ RequestID: requestID, Step: authStep, Username: user.Username, Password: user.Password, Answers: answers, Questions: response.Questions, } } } func getKeyboardInteractiveAnswers(client ssh.KeyboardInteractiveChallenge, response *plugin.KeyboardAuthResponse, user *User, ip, protocol string, ) ([]string, error) { questions := response.Questions answers, err := client("", response.Instruction, questions, response.Echos) if err != nil { providerLog(logger.LevelInfo, "error getting interactive auth client response: %v", err) return answers, err } if len(answers) != len(questions) { err = fmt.Errorf("client answers does not match questions, expected: %v actual: %v", questions, answers) providerLog(logger.LevelInfo, "keyboard interactive auth error: %v", err) return answers, err } if len(answers) == 1 && response.CheckPwd > 0 { if response.CheckPwd == 2 { if !user.Filters.TOTPConfig.Enabled || !util.Contains(user.Filters.TOTPConfig.Protocols, protocolSSH) { providerLog(logger.LevelInfo, "keyboard interactive auth error: unable to check TOTP passcode, TOTP is not enabled for user %#v", user.Username) return answers, errors.New("TOTP not enabled for SSH protocol") } err := user.Filters.TOTPConfig.Secret.TryDecrypt() if err != nil { providerLog(logger.LevelError, "unable to decrypt TOTP secret for user %#v, protocol %v, err: %v", user.Username, protocol, err) return answers, fmt.Errorf("unable to decrypt TOTP secret: %w", err) } match, err := mfa.ValidateTOTPPasscode(user.Filters.TOTPConfig.ConfigName, answers[0], user.Filters.TOTPConfig.Secret.GetPayload()) if !match || err != nil { providerLog(logger.LevelInfo, "keyboard interactive auth error: unable to validate passcode for user %#v, match? %v, err: %v", user.Username, match, err) return answers, errors.New("unable to validate TOTP passcode") } } else { _, err = checkUserAndPass(user, answers[0], ip, protocol) providerLog(logger.LevelInfo, "interactive auth hook requested password validation for user %#v, validation error: %v", user.Username, err) if err != nil { return answers, err } } answers[0] = "OK" } return answers, err } func handleProgramInteractiveQuestions(client ssh.KeyboardInteractiveChallenge, response *plugin.KeyboardAuthResponse, user *User, stdin io.WriteCloser, ip, protocol string, ) error { answers, err := getKeyboardInteractiveAnswers(client, response, user, ip, protocol) if err != nil { return err } for _, answer := range answers { if runtime.GOOS == "windows" { answer += "\r" } answer += "\n" _, err = stdin.Write([]byte(answer)) if err != nil { providerLog(logger.LevelError, "unable to write client answer to keyboard interactive program: %v", err) return err } } return nil } func executeKeyboardInteractiveProgram(user *User, authHook string, client ssh.KeyboardInteractiveChallenge, ip, protocol string) (int, error) { authResult := 0 timeout, env := command.GetConfig(authHook) ctx, cancel := context.WithTimeout(context.Background(), timeout) defer cancel() cmd := exec.CommandContext(ctx, authHook) cmd.Env = append(env, fmt.Sprintf("SFTPGO_AUTHD_USERNAME=%v", user.Username), fmt.Sprintf("SFTPGO_AUTHD_IP=%v", ip), fmt.Sprintf("SFTPGO_AUTHD_PASSWORD=%v", user.Password)) stdout, err := cmd.StdoutPipe() if err != nil { return authResult, err } stdin, err := cmd.StdinPipe() if err != nil { return authResult, err } err = cmd.Start() if err != nil { return authResult, err } var once sync.Once scanner := bufio.NewScanner(stdout) for scanner.Scan() { var response plugin.KeyboardAuthResponse err = json.Unmarshal(scanner.Bytes(), &response) if err != nil { providerLog(logger.LevelInfo, "interactive auth error parsing response: %v", err) once.Do(func() { terminateInteractiveAuthProgram(cmd, false) }) break } if response.AuthResult != 0 { authResult = response.AuthResult break } if err = response.Validate(); err != nil { providerLog(logger.LevelInfo, "invalid response from keyboard interactive program: %v", err) once.Do(func() { terminateInteractiveAuthProgram(cmd, false) }) break } go func() { err := handleProgramInteractiveQuestions(client, &response, user, stdin, ip, protocol) if err != nil { once.Do(func() { terminateInteractiveAuthProgram(cmd, false) }) } }() } stdin.Close() once.Do(func() { terminateInteractiveAuthProgram(cmd, true) }) go func() { _, err := cmd.Process.Wait() if err != nil { providerLog(logger.LevelWarn, "error waiting for #%v process to exit: %v", authHook, err) } }() return authResult, err } func doKeyboardInteractiveAuth(user *User, authHook string, client ssh.KeyboardInteractiveChallenge, ip, protocol string) (User, error) { var authResult int var err error if plugin.Handler.HasAuthScope(plugin.AuthScopeKeyboardInteractive) { authResult, err = executeKeyboardInteractivePlugin(user, client, ip, protocol) } else if authHook != "" { if strings.HasPrefix(authHook, "http") { authResult, err = executeKeyboardInteractiveHTTPHook(user, authHook, client, ip, protocol) } else { authResult, err = executeKeyboardInteractiveProgram(user, authHook, client, ip, protocol) } } else { authResult, err = doBuiltinKeyboardInteractiveAuth(user, client, ip, protocol) } if err != nil { return *user, err } if authResult != 1 { return *user, fmt.Errorf("keyboard interactive auth failed, result: %v", authResult) } err = user.LoadAndApplyGroupSettings() if err != nil { return *user, err } err = user.CheckLoginConditions() if err != nil { return *user, err } return *user, nil } func isCheckPasswordHookDefined(protocol string) bool { if config.CheckPasswordHook == "" { return false } if config.CheckPasswordScope == 0 { return true } switch protocol { case protocolSSH: return config.CheckPasswordScope&1 != 0 case protocolFTP: return config.CheckPasswordScope&2 != 0 case protocolWebDAV: return config.CheckPasswordScope&4 != 0 default: return false } } func getPasswordHookResponse(username, password, ip, protocol string) ([]byte, error) { if strings.HasPrefix(config.CheckPasswordHook, "http") { var result []byte req := checkPasswordRequest{ Username: username, Password: password, IP: ip, Protocol: protocol, } reqAsJSON, err := json.Marshal(req) if err != nil { return result, err } resp, err := httpclient.Post(config.CheckPasswordHook, "application/json", bytes.NewBuffer(reqAsJSON)) if err != nil { providerLog(logger.LevelError, "error getting check password hook response: %v", err) return result, err } defer resp.Body.Close() if resp.StatusCode != http.StatusOK { return result, fmt.Errorf("wrong http status code from chek password hook: %v, expected 200", resp.StatusCode) } return io.ReadAll(io.LimitReader(resp.Body, maxHookResponseSize)) } timeout, env := command.GetConfig(config.CheckPasswordHook) ctx, cancel := context.WithTimeout(context.Background(), timeout) defer cancel() cmd := exec.CommandContext(ctx, config.CheckPasswordHook) cmd.Env = append(env, fmt.Sprintf("SFTPGO_AUTHD_USERNAME=%v", username), fmt.Sprintf("SFTPGO_AUTHD_PASSWORD=%v", password), fmt.Sprintf("SFTPGO_AUTHD_IP=%v", ip), fmt.Sprintf("SFTPGO_AUTHD_PROTOCOL=%v", protocol), ) return cmd.Output() } func executeCheckPasswordHook(username, password, ip, protocol string) (checkPasswordResponse, error) { var response checkPasswordResponse if !isCheckPasswordHookDefined(protocol) { response.Status = -1 return response, nil } startTime := time.Now() out, err := getPasswordHookResponse(username, password, ip, protocol) providerLog(logger.LevelDebug, "check password hook executed, error: %v, elapsed: %v", err, time.Since(startTime)) if err != nil { return response, err } err = json.Unmarshal(out, &response) return response, err } func getPreLoginHookResponse(loginMethod, ip, protocol string, userAsJSON []byte) ([]byte, error) { if strings.HasPrefix(config.PreLoginHook, "http") { var url *url.URL var result []byte url, err := url.Parse(config.PreLoginHook) if err != nil { providerLog(logger.LevelError, "invalid url for pre-login hook %#v, error: %v", config.PreLoginHook, err) return result, err } q := url.Query() q.Add("login_method", loginMethod) q.Add("ip", ip) q.Add("protocol", protocol) url.RawQuery = q.Encode() resp, err := httpclient.Post(url.String(), "application/json", bytes.NewBuffer(userAsJSON)) if err != nil { providerLog(logger.LevelWarn, "error getting pre-login hook response: %v", err) return result, err } defer resp.Body.Close() if resp.StatusCode == http.StatusNoContent { return result, nil } if resp.StatusCode != http.StatusOK { return result, fmt.Errorf("wrong pre-login hook http status code: %v, expected 200", resp.StatusCode) } return io.ReadAll(io.LimitReader(resp.Body, maxHookResponseSize)) } timeout, env := command.GetConfig(config.PreLoginHook) ctx, cancel := context.WithTimeout(context.Background(), timeout) defer cancel() cmd := exec.CommandContext(ctx, config.PreLoginHook) cmd.Env = append(env, fmt.Sprintf("SFTPGO_LOGIND_USER=%v", string(userAsJSON)), fmt.Sprintf("SFTPGO_LOGIND_METHOD=%v", loginMethod), fmt.Sprintf("SFTPGO_LOGIND_IP=%v", ip), fmt.Sprintf("SFTPGO_LOGIND_PROTOCOL=%v", protocol), ) return cmd.Output() } func executePreLoginHook(username, loginMethod, ip, protocol string, oidcTokenFields *map[string]any) (User, error) { u, mergedUser, userAsJSON, err := getUserAndJSONForHook(username, oidcTokenFields) if err != nil { return u, err } if mergedUser.Filters.Hooks.PreLoginDisabled { return u, nil } startTime := time.Now() out, err := getPreLoginHookResponse(loginMethod, ip, protocol, userAsJSON) if err != nil { return u, fmt.Errorf("pre-login hook error: %v, username %#v, ip %v, protocol %v elapsed %v", err, username, ip, protocol, time.Since(startTime)) } providerLog(logger.LevelDebug, "pre-login hook completed, elapsed: %v", time.Since(startTime)) if util.IsByteArrayEmpty(out) { providerLog(logger.LevelDebug, "empty response from pre-login hook, no modification requested for user %#v id: %v", username, u.ID) if u.ID == 0 { return u, util.NewRecordNotFoundError(fmt.Sprintf("username %#v does not exist", username)) } return u, nil } userID := u.ID userPwd := u.Password userUsedQuotaSize := u.UsedQuotaSize userUsedQuotaFiles := u.UsedQuotaFiles userUsedDownloadTransfer := u.UsedDownloadDataTransfer userUsedUploadTransfer := u.UsedUploadDataTransfer userLastQuotaUpdate := u.LastQuotaUpdate userLastLogin := u.LastLogin userCreatedAt := u.CreatedAt totpConfig := u.Filters.TOTPConfig recoveryCodes := u.Filters.RecoveryCodes err = json.Unmarshal(out, &u) if err != nil { return u, fmt.Errorf("invalid pre-login hook response %#v, error: %v", string(out), err) } u.ID = userID u.UsedQuotaSize = userUsedQuotaSize u.UsedQuotaFiles = userUsedQuotaFiles u.UsedUploadDataTransfer = userUsedUploadTransfer u.UsedDownloadDataTransfer = userUsedDownloadTransfer u.LastQuotaUpdate = userLastQuotaUpdate u.LastLogin = userLastLogin u.CreatedAt = userCreatedAt if userID == 0 { err = provider.addUser(&u) } else { u.UpdatedAt = util.GetTimeAsMsSinceEpoch(time.Now()) // preserve TOTP config and recovery codes u.Filters.TOTPConfig = totpConfig u.Filters.RecoveryCodes = recoveryCodes err = provider.updateUser(&u) if err == nil { webDAVUsersCache.swap(&u) if u.Password != userPwd { cachedPasswords.Remove(username) } } } if err != nil { return u, err } providerLog(logger.LevelDebug, "user %#v added/updated from pre-login hook response, id: %v", username, userID) if userID == 0 { return provider.userExists(username) } return u, nil } // ExecutePostLoginHook executes the post login hook if defined func ExecutePostLoginHook(user *User, loginMethod, ip, protocol string, err error) { if config.PostLoginHook == "" { return } if config.PostLoginScope == 1 && err == nil { return } if config.PostLoginScope == 2 && err != nil { return } go func() { actionsConcurrencyGuard <- struct{}{} defer func() { <-actionsConcurrencyGuard }() status := "0" if err == nil { status = "1" } user.PrepareForRendering() userAsJSON, err := json.Marshal(user) if err != nil { providerLog(logger.LevelError, "error serializing user in post login hook: %v", err) return } if strings.HasPrefix(config.PostLoginHook, "http") { var url *url.URL url, err := url.Parse(config.PostLoginHook) if err != nil { providerLog(logger.LevelDebug, "Invalid post-login hook %#v", config.PostLoginHook) return } q := url.Query() q.Add("login_method", loginMethod) q.Add("ip", ip) q.Add("protocol", protocol) q.Add("status", status) url.RawQuery = q.Encode() startTime := time.Now() respCode := 0 resp, err := httpclient.RetryablePost(url.String(), "application/json", bytes.NewBuffer(userAsJSON)) if err == nil { respCode = resp.StatusCode resp.Body.Close() } providerLog(logger.LevelDebug, "post login hook executed for user %#v, ip %v, protocol %v, response code: %v, elapsed: %v err: %v", user.Username, ip, protocol, respCode, time.Since(startTime), err) return } timeout, env := command.GetConfig(config.PostLoginHook) ctx, cancel := context.WithTimeout(context.Background(), timeout) defer cancel() cmd := exec.CommandContext(ctx, config.PostLoginHook) cmd.Env = append(env, fmt.Sprintf("SFTPGO_LOGIND_USER=%v", string(userAsJSON)), fmt.Sprintf("SFTPGO_LOGIND_IP=%v", ip), fmt.Sprintf("SFTPGO_LOGIND_METHOD=%v", loginMethod), fmt.Sprintf("SFTPGO_LOGIND_STATUS=%v", status), fmt.Sprintf("SFTPGO_LOGIND_PROTOCOL=%v", protocol)) startTime := time.Now() err = cmd.Run() providerLog(logger.LevelDebug, "post login hook executed for user %#v, ip %v, protocol %v, elapsed %v err: %v", user.Username, ip, protocol, time.Since(startTime), err) }() } func getExternalAuthResponse(username, password, pkey, keyboardInteractive, ip, protocol string, cert *x509.Certificate, user User, ) ([]byte, error) { var tlsCert string if cert != nil { var err error tlsCert, err = util.EncodeTLSCertToPem(cert) if err != nil { return nil, err } } if strings.HasPrefix(config.ExternalAuthHook, "http") { var result []byte authRequest := make(map[string]any) authRequest["username"] = username authRequest["ip"] = ip authRequest["password"] = password authRequest["public_key"] = pkey authRequest["protocol"] = protocol authRequest["keyboard_interactive"] = keyboardInteractive authRequest["tls_cert"] = tlsCert if user.ID > 0 { authRequest["user"] = user } authRequestAsJSON, err := json.Marshal(authRequest) if err != nil { providerLog(logger.LevelError, "error serializing external auth request: %v", err) return result, err } resp, err := httpclient.Post(config.ExternalAuthHook, "application/json", bytes.NewBuffer(authRequestAsJSON)) if err != nil { providerLog(logger.LevelWarn, "error getting external auth hook HTTP response: %v", err) return result, err } defer resp.Body.Close() providerLog(logger.LevelDebug, "external auth hook executed, response code: %v", resp.StatusCode) if resp.StatusCode != http.StatusOK { return result, fmt.Errorf("wrong external auth http status code: %v, expected 200", resp.StatusCode) } return io.ReadAll(io.LimitReader(resp.Body, maxHookResponseSize)) } var userAsJSON []byte var err error if user.ID > 0 { userAsJSON, err = json.Marshal(user) if err != nil { return nil, fmt.Errorf("unable to serialize user as JSON: %w", err) } } timeout, env := command.GetConfig(config.ExternalAuthHook) ctx, cancel := context.WithTimeout(context.Background(), timeout) defer cancel() cmd := exec.CommandContext(ctx, config.ExternalAuthHook) cmd.Env = append(env, fmt.Sprintf("SFTPGO_AUTHD_USERNAME=%v", username), fmt.Sprintf("SFTPGO_AUTHD_USER=%v", string(userAsJSON)), fmt.Sprintf("SFTPGO_AUTHD_IP=%v", ip), fmt.Sprintf("SFTPGO_AUTHD_PASSWORD=%v", password), fmt.Sprintf("SFTPGO_AUTHD_PUBLIC_KEY=%v", pkey), fmt.Sprintf("SFTPGO_AUTHD_PROTOCOL=%v", protocol), fmt.Sprintf("SFTPGO_AUTHD_TLS_CERT=%v", strings.ReplaceAll(tlsCert, "\n", "\\n")), fmt.Sprintf("SFTPGO_AUTHD_KEYBOARD_INTERACTIVE=%v", keyboardInteractive)) return cmd.Output() } func updateUserFromExtAuthResponse(user *User, password, pkey string) { if password != "" { user.Password = password } if pkey != "" && !util.IsStringPrefixInSlice(pkey, user.PublicKeys) { user.PublicKeys = append(user.PublicKeys, pkey) } } func doExternalAuth(username, password string, pubKey []byte, keyboardInteractive, ip, protocol string, tlsCert *x509.Certificate, ) (User, error) { var user User u, mergedUser, err := getUserForHook(username, nil) if err != nil { return user, err } if mergedUser.Filters.Hooks.ExternalAuthDisabled { return u, nil } if mergedUser.isExternalAuthCached() { return u, nil } pkey, err := util.GetSSHPublicKeyAsString(pubKey) if err != nil { return user, err } startTime := time.Now() out, err := getExternalAuthResponse(username, password, pkey, keyboardInteractive, ip, protocol, tlsCert, u) if err != nil { return user, fmt.Errorf("external auth error for user %#v: %v, elapsed: %v", username, err, time.Since(startTime)) } providerLog(logger.LevelDebug, "external auth completed for user %#v, elapsed: %v", username, time.Since(startTime)) if util.IsByteArrayEmpty(out) { providerLog(logger.LevelDebug, "empty response from external hook, no modification requested for user %#v id: %v", username, u.ID) if u.ID == 0 { return u, util.NewRecordNotFoundError(fmt.Sprintf("username %#v does not exist", username)) } return u, nil } err = json.Unmarshal(out, &user) if err != nil { return user, fmt.Errorf("invalid external auth response: %v", err) } // an empty username means authentication failure if user.Username == "" { return user, ErrInvalidCredentials } updateUserFromExtAuthResponse(&user, password, pkey) // some users want to map multiple login usernames with a single SFTPGo account // for example an SFTP user logins using "user1" or "user2" and the external auth // returns "user" in both cases, so we use the username returned from // external auth and not the one used to login if user.Username != username { u, err = provider.userExists(user.Username) } if u.ID > 0 && err == nil { user.ID = u.ID user.UsedQuotaSize = u.UsedQuotaSize user.UsedQuotaFiles = u.UsedQuotaFiles user.UsedUploadDataTransfer = u.UsedUploadDataTransfer user.UsedDownloadDataTransfer = u.UsedDownloadDataTransfer user.LastQuotaUpdate = u.LastQuotaUpdate user.LastLogin = u.LastLogin user.CreatedAt = u.CreatedAt user.UpdatedAt = util.GetTimeAsMsSinceEpoch(time.Now()) // preserve TOTP config and recovery codes user.Filters.TOTPConfig = u.Filters.TOTPConfig user.Filters.RecoveryCodes = u.Filters.RecoveryCodes err = provider.updateUser(&user) if err == nil { webDAVUsersCache.swap(&user) cachedPasswords.Add(user.Username, password) } return user, err } err = provider.addUser(&user) if err != nil { return user, err } return provider.userExists(user.Username) } func doPluginAuth(username, password string, pubKey []byte, ip, protocol string, tlsCert *x509.Certificate, authScope int, ) (User, error) { var user User u, mergedUser, userAsJSON, err := getUserAndJSONForHook(username, nil) if err != nil { return user, err } if mergedUser.Filters.Hooks.ExternalAuthDisabled { return u, nil } if mergedUser.isExternalAuthCached() { return u, nil } pkey, err := util.GetSSHPublicKeyAsString(pubKey) if err != nil { return user, err } startTime := time.Now() out, err := plugin.Handler.Authenticate(username, password, ip, protocol, pkey, tlsCert, authScope, userAsJSON) if err != nil { return user, fmt.Errorf("plugin auth error for user %#v: %v, elapsed: %v, auth scope: %v", username, err, time.Since(startTime), authScope) } providerLog(logger.LevelDebug, "plugin auth completed for user %#v, elapsed: %v,auth scope: %v", username, time.Since(startTime), authScope) if util.IsByteArrayEmpty(out) { providerLog(logger.LevelDebug, "empty response from plugin auth, no modification requested for user %#v id: %v", username, u.ID) if u.ID == 0 { return u, util.NewRecordNotFoundError(fmt.Sprintf("username %#v does not exist", username)) } return u, nil } err = json.Unmarshal(out, &user) if err != nil { return user, fmt.Errorf("invalid plugin auth response: %v", err) } updateUserFromExtAuthResponse(&user, password, pkey) if u.ID > 0 { user.ID = u.ID user.UsedQuotaSize = u.UsedQuotaSize user.UsedQuotaFiles = u.UsedQuotaFiles user.UsedUploadDataTransfer = u.UsedUploadDataTransfer user.UsedDownloadDataTransfer = u.UsedDownloadDataTransfer user.LastQuotaUpdate = u.LastQuotaUpdate user.LastLogin = u.LastLogin // preserve TOTP config and recovery codes user.Filters.TOTPConfig = u.Filters.TOTPConfig user.Filters.RecoveryCodes = u.Filters.RecoveryCodes err = provider.updateUser(&user) if err == nil { webDAVUsersCache.swap(&user) cachedPasswords.Add(user.Username, password) } return user, err } err = provider.addUser(&user) if err != nil { return user, err } return provider.userExists(user.Username) } func getUserForHook(username string, oidcTokenFields *map[string]any) (User, User, error) { u, err := provider.userExists(username) if err != nil { if _, ok := err.(*util.RecordNotFoundError); !ok { return u, u, err } u = User{ BaseUser: sdk.BaseUser{ ID: 0, Username: username, }, } } mergedUser := u.getACopy() err = mergedUser.LoadAndApplyGroupSettings() if err != nil { return u, mergedUser, err } u.OIDCCustomFields = oidcTokenFields return u, mergedUser, err } func getUserAndJSONForHook(username string, oidcTokenFields *map[string]any) (User, User, []byte, error) { u, mergedUser, err := getUserForHook(username, oidcTokenFields) if err != nil { return u, mergedUser, nil, err } userAsJSON, err := json.Marshal(u) if err != nil { return u, mergedUser, userAsJSON, err } return u, mergedUser, userAsJSON, err } func isLastActivityRecent(lastActivity int64, minDelay time.Duration) bool { lastActivityTime := util.GetTimeFromMsecSinceEpoch(lastActivity) diff := -time.Until(lastActivityTime) if diff < -10*time.Second { return false } return diff < minDelay } func addGCSCredentialsToFolder(folder *vfs.BaseVirtualFolder) (bool, error) { if folder.FsConfig.Provider != sdk.GCSFilesystemProvider { return false, nil } if folder.FsConfig.GCSConfig.AutomaticCredentials > 0 { return false, nil } if folder.FsConfig.GCSConfig.Credentials.IsValid() { return false, nil } cred, err := os.ReadFile(folder.GetGCSCredentialsFilePath()) if err != nil { return false, err } err = json.Unmarshal(cred, &folder.FsConfig.GCSConfig.Credentials) if err != nil { return false, err } return true, nil } func addGCSCredentialsToUser(user *User) (bool, error) { if user.FsConfig.Provider != sdk.GCSFilesystemProvider { return false, nil } if user.FsConfig.GCSConfig.AutomaticCredentials > 0 { return false, nil } if user.FsConfig.GCSConfig.Credentials.IsValid() { return false, nil } cred, err := os.ReadFile(user.GetGCSCredentialsFilePath()) if err != nil { return false, err } err = json.Unmarshal(cred, &user.FsConfig.GCSConfig.Credentials) if err != nil { return false, err } return true, nil } func importGCSCredentials() error { folders, err := provider.dumpFolders() if err != nil { return fmt.Errorf("unable to get folders: %w", err) } for idx := range folders { folder := &folders[idx] added, err := addGCSCredentialsToFolder(folder) if err != nil { return fmt.Errorf("unable to add GCS credentials to folder %#v: %w", folder.Name, err) } if added { logger.InfoToConsole("importing GCS credentials for folder %#v", folder.Name) providerLog(logger.LevelInfo, "importing GCS credentials for folder %#v", folder.Name) if err = provider.updateFolder(folder); err != nil { return fmt.Errorf("unable to update folder %#v: %w", folder.Name, err) } } } users, err := provider.dumpUsers() if err != nil { return fmt.Errorf("unable to get users: %w", err) } for idx := range users { user := &users[idx] added, err := addGCSCredentialsToUser(user) if err != nil { return fmt.Errorf("unable to add GCS credentials to user %#v: %w", user.Username, err) } if added { logger.InfoToConsole("importing GCS credentials for user %#v", user.Username) providerLog(logger.LevelInfo, "importing GCS credentials for user %#v", user.Username) if err = provider.updateUser(user); err != nil { return fmt.Errorf("unable to update user %#v: %w", user.Username, err) } } } return nil } func getConfigPath(name, configDir string) string { if !util.IsFileInputValid(name) { return "" } if name != "" && !filepath.IsAbs(name) { return filepath.Join(configDir, name) } return name } func providerLog(level logger.LogLevel, format string, v ...any) { logger.Log(level, logSender, "", format, v...) }